Run generateTranslationDiffs

rtdata/languages/Catala

@@ -1692,8 +1692,8 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -1759,7 +1759,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -1876,9 +1876,9 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -1886,9 +1886,9 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -1944,9 +1944,9 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -1955,6 +1955,16 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_CLAMPOOG;Clip out-of-gamut colors
 !HISTORY_MSG_COLORTONING_LABGRID_VALUE;CT - Color correction
 !HISTORY_MSG_COLORTONING_LABREGION_AB;CT - Color correction
@@ -1972,12 +1982,16 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_DEPTH;Dehaze - Depth
 !HISTORY_MSG_DEHAZE_ENABLED;Haze Removal
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DEHAZE_SHOW_DEPTH_MAP;Dehaze - Show depth map
 !HISTORY_MSG_DEHAZE_STRENGTH;Dehaze - Strength
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;Dual demosaic - Auto threshold
 !HISTORY_MSG_DUALDEMOSAIC_CONTRAST;Dual demosaic - Contrast threshold
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
@@ -1987,6 +2001,24 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HISTMATCHING;Auto-matched tone curve
 !HISTORY_MSG_HLBL;Color propagation - blur
@@ -2001,17 +2033,23 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
 !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
 !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
@@ -2024,6 +2062,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_LOCALCONTRAST_LIGHTNESS;Local Contrast - Lightness
 !HISTORY_MSG_LOCALCONTRAST_RADIUS;Local Contrast - Radius
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -2042,6 +2081,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -2052,7 +2092,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -2061,21 +2101,30 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -2086,10 +2135,25 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_METADATA_MODE;Metadata copy mode
 !HISTORY_MSG_MICROCONTRAST_CONTRAST;Microcontrast - Contrast threshold
@@ -2142,6 +2206,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -2305,12 +2370,14 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !PARTIALPASTE_CHANNELMIXERBW;Black-and-white
 !PARTIALPASTE_COLORAPP;Color Appearance & Lighting
 !PARTIALPASTE_COLORTONING;Color toning
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_DEHAZE;Haze removal
 !PARTIALPASTE_EQUALIZER;Wavelet levels
 !PARTIALPASTE_FILMNEGATIVE;Film negative
 !PARTIALPASTE_FILMSIMULATION;Film simulation
 !PARTIALPASTE_FLATFIELDCLIPCONTROL;Flat-field clip control
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_GRADIENT;Graduated filter
 !PARTIALPASTE_LOCALCONTRAST;Local contrast
 !PARTIALPASTE_LOCALLAB;Selective Editing
@@ -2359,7 +2426,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !PREFERENCES_CHUNKSIZE_RAW_RCD;RCD demosaic
 !PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic
 !PREFERENCES_CHUNKSIZE_RGB;RGB processing
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_CLUTSCACHE;HaldCLUT Cache
 !PREFERENCES_CLUTSCACHE_LABEL;Maximum number of cached CLUTs
@@ -2658,7 +2725,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_COLORAPP_FREE;Free temp + tint + CAT02/16 +[output]
 !TP_COLORAPP_GAMUT;Use gamut control in L*a*b* mode
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_HUE;Hue (h)
 !TP_COLORAPP_HUE_TOOLTIP;Hue (h) is the degree to which a stimulus can be described as similar to a color described as red, green, blue and yellow.
 !TP_COLORAPP_IL41;D41
@@ -2773,6 +2840,28 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_COLORTONING_TWOBY;Special a* and b*
 !TP_COLORTONING_TWOCOLOR_TOOLTIP;Standard chroma:\nLinear response, a* = b*.\n\nSpecial chroma:\nLinear response, a* = b*, but unbound - try under the diagonal.\n\nSpecial a* and b*:\nLinear response unbound with separate curves for a* and b*. Intended for special effects.\n\nSpecial chroma 2 colors:\nMore predictable.
 !TP_COLORTONING_TWOSTD;Standard chroma
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_GTHARMMEANS;Harmonic Means
 !TP_CROP_GTTRIANGLE1;Golden Triangles 1
@@ -2845,6 +2934,8 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_DIRPYREQUALIZER_SKIN_TOOLTIP;At -100 skin-tones are targetted.\nAt 0 all tones are treated equally.\nAt +100 skin-tones are protected while all other tones are affected.
 !TP_DIRPYREQUALIZER_TOOLTIP;Attempts to reduce artifacts in the transitions between skin colors (hue, chroma, luma) and the rest of the image.
 !TP_DISTORTION_AUTO_TOOLTIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_EPD_GAMMA;Gamma
 !TP_EXPOSURE_CLAMPOOG;Clip out-of-gamut colors
 !TP_EXPOSURE_HISTMATCHING;Auto-Matched Tone Curve
@@ -2878,6 +2969,36 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_FLATFIELD_CLIPCONTROL;Clip control
 !TP_FLATFIELD_CLIPCONTROL_TOOLTIP;Clip control avoids clipped highlights caused by applying the flat field. If there are already clipped highlights before applying the flat field, value 0 is used.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_GENERAL_11SCALE_TOOLTIP;The effects of this tool are only visible or only accurate at a preview scale of 1:1.
 !TP_GRADIENT_CENTER;Center
 !TP_GRADIENT_CENTER_X;Center X
@@ -2911,8 +3032,10 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
@@ -2922,9 +3045,12 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_ICM_SAVEREFERENCE_APPLYWB;Apply white balance
 !TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generally, apply the white balance when saving images to create ICC profiles, and do not apply the white balance to create DCP profiles.
 !TP_ICM_SAVEREFERENCE_TOOLTIP;Save the linear TIFF image before the input profile is applied. The result can be used for calibration purposes and generation of a camera profile.
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -2967,6 +3093,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC;Tone response curve:
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
@@ -2988,6 +3115,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LABCURVE_CURVEEDITOR_LL_TOOLTIP;Luminance according to luminance L=f(L).
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
 !TP_LENSPROFILE_CORRECTION_LCPFILE;LCP file
 !TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
@@ -3015,6 +3143,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3056,14 +3185,16 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3086,9 +3217,9 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3097,16 +3228,19 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3121,9 +3255,9 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3163,8 +3297,8 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3185,7 +3319,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3260,7 +3394,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3324,16 +3458,16 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3342,7 +3476,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3391,8 +3525,8 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3407,16 +3541,16 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3426,7 +3560,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3441,20 +3575,20 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3463,29 +3597,29 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3572,12 +3706,18 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3587,7 +3727,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -3660,73 +3800,91 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -3734,7 +3892,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -3753,7 +3911,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -3916,6 +4074,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_RAWEXPOS_BLACK_BLUE;Blue
 !TP_RAWEXPOS_BLACK_GREEN;Green
 !TP_RAWEXPOS_BLACK_RED;Red
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAWEXPOS_RGB;Red, Green, Blue
 !TP_RAW_1PASSMEDIUM;1-pass (Markesteijn)
 !TP_RAW_2PASS;1-pass+fast
@@ -4181,8 +4340,9 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_WAVELET_DAUB6;D6 - standard plus
 !TP_WAVELET_DAUB10;D10 - medium
 !TP_WAVELET_DAUB14;D14 - high
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
-!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 = Often best performance, 10% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
+!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 D20 = Often best performance, 15% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
 !TP_WAVELET_DENL;Correction structure
@@ -4256,6 +4416,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_WAVELET_LEVF;Contrast
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
 !TP_WAVELET_LEVLABEL;Preview maximum possible levels = %1
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LEVONE;Level 2
 !TP_WAVELET_LEVTHRE;Level 4
 !TP_WAVELET_LEVTWO;Level 3
@@ -4285,6 +4446,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_WAVELET_NPTYPE;Neighboring pixels
 !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_OPACITY;Opacity blue-yellow
 !TP_WAVELET_OPACITYW;Contrast balance d/v-h curve
@@ -4293,6 +4455,11 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_WAVELET_PASTEL;Pastel chroma
 !TP_WAVELET_PROC;Process
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4307,6 +4474,7 @@ ZOOMPANEL_ZOOMOUT;Allunya\nDrecera: <b>-</b>
 !TP_WAVELET_RESCON;Shadows
 !TP_WAVELET_RESCONH;Highlights
 !TP_WAVELET_RESID;Residual Image
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SAT;Saturated chroma
 !TP_WAVELET_SETTINGS;Wavelet Settings
 !TP_WAVELET_SHA;Sharp mask

rtdata/languages/Chinese (Simplified)

@@ -2524,10 +2524,6 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !EXIFPANEL_ACTIVATE_NONE_HINT;Unselect all tags
 !EXIFPANEL_BASIC_GROUP;Basic
 !EXIFPANEL_VALUE_NOT_SHOWN;Not shown
-!FILEBROWSER_POPUPSORTBY;Sort Files
-!FILEBROWSER_SHOWRECURSIVE;Show images in sub-folders recursively.
-!FILECHOOSER_FILTER_EXECUTABLE;Executable files
-!GENERAL_OTHER;Other
 !HISTORY_MSG_112;--unused--
 !HISTORY_MSG_137;Black level - Green 1
 !HISTORY_MSG_138;Black level - Red
@@ -2917,8 +2913,8 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -3079,18 +3075,18 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_1061;Local - CIECAM Source absolute
 !HISTORY_MSG_1062;Local - CIECAM Surround Source
 !HISTORY_MSG_1075;Local - CIECAM Surround viewing
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1094;Local - Jz highligths
 !HISTORY_MSG_1095;Local - Jz highligths thr
@@ -3140,19 +3136,51 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
 !HISTORY_MSG_BLURWAV;Blur luminance
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
 !HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
 !HISTORY_MSG_FILMNEGATIVE_BALANCE;FN - Reference output
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLBL;Color propagation - blur
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -3165,17 +3193,23 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
 !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
 !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
@@ -3183,6 +3217,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_ICM_WORKING_TRC_METHOD;TRC method
 !HISTORY_MSG_ILLUM;CAL - SC - Illuminant
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -3201,6 +3236,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -3211,7 +3247,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -3220,21 +3256,30 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -3245,10 +3290,25 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_PERSP_CAM_ANGLE;Perspective - Camera
 !HISTORY_MSG_PERSP_CAM_FL;Perspective - Camera
@@ -3269,11 +3329,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !HISTORY_MSG_SPOT_ENTRY;Spot removal - Point modif.
 !HISTORY_MSG_TEMPOUT;CAM02 automatic temperature
 !HISTORY_MSG_THRESWAV;Balance threshold
-!HISTORY_MSG_TONE_EQUALIZER_BANDS;Tone equalizer - Bands
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
-!HISTORY_MSG_TONE_EQUALIZER_ENABLED;Tone equalizer
-!HISTORY_MSG_TONE_EQUALIZER_PIVOT;Tone equalizer - Pivot
-!HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
-!HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -3389,15 +3445,15 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !MAIN_BUTTON_NAVSYNC_TOOLTIP;Synchronize the File Browser or Filmstrip with the Editor to reveal the thumbnail of the currently opened image, and clear any active filters.\nShortcut: <b>x</b>\n\nAs above, but without clearing active filters:\nShortcut: <b>y</b>\n(Note that the thumbnail of the opened image will not be shown if filtered out).
 !MAIN_MSG_IMAGEUNPROCESSED;This command requires all selected images to be queue-processed first.
 !MAIN_TOOLTIP_BEFOREAFTERLOCK;<b>Lock</b> / <b>Unlock</b> the <b>Before</b> view\n\n<b>Lock</b>: keep the <b>Before</b> view unchanged.\nUseful to evaluate the cumulative effect of multiple tools.\nAdditionally, comparisons can be made to any state in the History.\n\n<b>Unlock</b>: the <b>Before</b> view will follow the <b>After</b> view one step behind, showing the image before the effect of the currently used tool.
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_RETINEX;Retinex
 !PARTIALPASTE_TONE_EQUALIZER;Tone equalizer
-!PREFERENCES_BROWSERECURSIVEDEPTH;Browse sub-folders depth
 !PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
-!PREFERENCES_BROWSERECURSIVEMAXDIRS;Maximum sub-folders
 !PREFERENCES_CAMERAPROFILESDIR;Camera profiles directory
 !PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CUSTPROFBUILD;Custom Processing Profile Builder
 !PREFERENCES_CUSTPROFBUILDHINT;Executable (or script) file called when a new initial processing profile should be generated for an image.\n\nThe path of the communication file (*.ini style, a.k.a. 'Keyfile') is added as a command line parameter. It contains various parameters required for the scripts and image Exif to allow a rules-based processing profile generation.\n\n<b>WARNING:</b> You are responsible for using double quotes where necessary if you're using paths containing spaces.
 !PREFERENCES_CUSTPROFBUILDKEYFORMAT;Keys format
@@ -3411,23 +3467,6 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !PREFERENCES_EXTERNALEDITOR_COLUMN_NAME;Name
 !PREFERENCES_EXTERNALEDITOR_COLUMN_NATIVE_COMMAND;Native command
 !PREFERENCES_INSPECT_MAXBUFFERS_TOOLTIP;Set the maximum number of images stored in cache when hovering over them in the File Browser; systems with little RAM (2GB) should keep this value set to 1 or 2.
-!PREFERENCES_LENSFUNDBDIR;Lensfun database directory
-!PREFERENCES_LENSFUNDBDIR_TOOLTIP;Directory containing the Lensfun database.  Leave empty to use the default directories.
-!PREFERENCES_LENSPROFILESDIR;Lens profiles directory
-!PREFERENCES_LENSPROFILESDIR_TOOLTIP;Directory containing Adobe Lens Correction Profiles (LCPs)
-!PREFERENCES_MAX_ZOOM_TITLE;Maximum zoom
-!PREFERENCES_METADATA;Metadata
-!PREFERENCES_METADATA_SYNC;Metadata synchronization with XMP sidecars
-!PREFERENCES_METADATA_SYNC_NONE;Off
-!PREFERENCES_METADATA_SYNC_READ;Read only
-!PREFERENCES_METADATA_SYNC_READWRITE;Bidirectional
-!PREFERENCES_RAW_DECODER;Raw Decoder
-!PREFERENCES_RAW_DECODER_ENABLE_LIBRAW;Use LibRaw
-!PREFERENCES_SPOTLOC;Define Spot method for Selective Editing
-!PREFERENCES_THUMBNAIL_RANK_COLOR_MODE;Load/Save thumbnail rank and color from/to XMP sidecars
-!PREFERENCES_TOOLPANEL_AVAILABLETOOLS;Available Tools
-!PREFERENCES_TOOLPANEL_CLONE_FAVORITES;Keep favorite tools in original locations
-!PREFERENCES_TOOLPANEL_CLONE_FAVORITES_TOOLTIP;If set, favorite tools will appear in both the favorites tab and their original tabs.\n\nNote: Enabling this option may result in a slight delay when switching tabs.
 !PREFERENCES_WBACORR;White Balance - Automatic temperature correlation
 !PREFERENCES_WBACORR_TOOLTIP;These settings allow, depending on the images (type of raw file, colorimetry, etc.), an adaptation of the " Temperature correlation " algorithm in order to obtain the best overall results. There is no absolute rule, linking these parameters to the results obtained.\n\nThe settings are of 3 types: \n* those accessible to the user from the GUI.\n* those accessible only in reading from each pp3 file : Itcwb_minsize=20, Itcwb_delta=4 Itcwb_rgreen=1 Itcwb_nopurple=false (See Rawpedia)\n* those accessible to the user in 'options' (see Rawpedia)\n You can use "Awb temperature bias" and "Green refinement" to adjust the results. Each movement of these commands brings a new calculation of temperature, tint and correlation.\n\nPlease note that the 3 indicators 'Correlation factor', 'Patch chroma' and ΔE are given for information only. It is not because one of these indicators is better that the result will necessarily be better.
 !PREFERENCES_WBAENA;Show White Balance Auto temperature correlation settings
@@ -3505,22 +3544,12 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_BWMIX_CC_TOOLTIP;Enable to allow automatic adjustment of complementary colors in ROYGCBPM mode.
 !TP_BWMIX_RGBLABEL_HINT;Final RGB factors that take care of all the mixer options.\n'Total' displays the sum of the RGB values:\n- always 100% in relative mode\n- higher (lighter) or lower (darker) than 100% in absolute mode.
 !TP_BWMIX_RGB_TOOLTIP;Mix the RGB channels. Use presets for guidance.\nPay attention to negative values that may cause artifacts or erratic behavior.
-!TP_COLORAPP_ADAPSCEN_TOOLTIP;Corresponds to the luminance in candelas per m2 at the time of shooting, calculated automatically from the exif data.
-!TP_COLORAPP_CATMET_TOOLTIP;Classic - traditional CIECAM operation. The chromatic adaptation transforms are applied separately on 'Scene conditions' and basic illuminant on the one hand, and on basic illuminant and 'Viewing conditions' on the other.\n\nSymmetric – The chromatic adaptation is based on the white balance. The 'Scene conditions', 'Image adjustments' and 'Viewing conditions' settings are neutralized.\n\nMixed – Same as the 'Classic' option but in this case, the chromatic adaptation is based on the white balance.
-!TP_COLORAPP_CIECAT_DEGREEOUT;Chromatic Adaptation Viewing
-!TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D65) into new values whose white point is that of the new illuminant - see WP model (for example D50 or D55).
-!TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
 !TP_COLORAPP_IL60;D60
 !TP_COLORAPP_IL65;D65
 !TP_COLORAPP_IL75;D75
-!TP_COLORAPP_ILA;Incandescent StdA 2856K
-!TP_COLORAPP_ILFREE;Free
-!TP_COLORAPP_ILLUM;Illuminant
-!TP_COLORAPP_ILLUM_TOOLTIP;Select the illuminant closest to the shooting conditions.\nIn general D50, but it can change depending on the time and latitude.
 !TP_COLORAPP_MOD02;CAM02
 !TP_COLORAPP_MOD16;CAM16
 !TP_COLORAPP_SOURCEF_TOOLTIP;Corresponds to the shooting conditions and how to bring the conditions and data back to a 'normal' area. Normal means average or standard conditions and data, i.e. without taking into account CIECAM corrections.
@@ -3537,16 +3566,67 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_COLORTONING_LABREGION_CHROMATICITYMASK;C
 !TP_COLORTONING_LABREGION_HUEMASK;H
 !TP_COLORTONING_LABREGION_LIGHTNESSMASK;L
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_PPI;PPI
 !TP_DIRPYRDENOISE_CHROMINANCE_METHOD_TOOLTIP;Manual\nActs on the full image.\nYou control the noise reduction settings manually.\n\nAutomatic global\nActs on the full image.\n9 zones are used to calculate a global chrominance noise reduction setting.\n\nAutomatic multi-zones\nNo preview - works only during saving, but using the 'Preview' method by matching the tile size and center to the preview size and center you can get an idea of the expected results.\nThe image is divided into tiles (about 10 to 70 depending on image size) and each tile receives its own chrominance noise reduction settings.\n\nPreview\nActs on the whole image.\nThe part of the image visible in the preview is used to calculate global chrominance noise reduction settings.
 !TP_DIRPYRDENOISE_CHROMINANCE_PMZ;Preview multi-zones
-!TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
-!TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
 !TP_DIRPYREQUALIZER_ALGO_TOOLTIP;Fine: closer to the colors of the skin, minimizing the action on other colors\nLarge: avoid more artifacts.
 !TP_DIRPYREQUALIZER_HUESKIN_TOOLTIP;This pyramid is for the upper part, so far as the algorithm at its maximum efficiency.\nTo the lower part, the transition zones.\nIf you need to move the area significantly to the left or right - or if there are artifacts: the <b>white balance is incorrect</b>\nYou can slightly reduce the zone to prevent the rest of the image is affected.
-!TP_DIRPYREQUALIZER_TOOLTIP;Attempts to reduce artifacts in the transitions between skin colors (hue, chroma, luma) and the rest of the image.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3568,8 +3648,10 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_ICM_INPUTCAMERA_TOOLTIP;Use a simple color matrix from dcraw, an enhanced RawTherapee version (whichever is available based on camera model) or one embedded in the DNG.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
@@ -3577,9 +3659,12 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_ICM_SAVEREFERENCE;Save Reference Image
 !TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generally, apply the white balance when saving images to create ICC profiles, and do not apply the white balance to create DCP profiles.
 !TP_ICM_SAVEREFERENCE_TOOLTIP;Save the linear TIFF image before the input profile is applied. The result can be used for calibration purposes and generation of a camera profile.
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TONECURVE_TOOLTIP;Employ the embedded DCP tone curve. The setting is only available if the selected DCP has a tone curve.
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3620,6 +3705,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
@@ -3642,13 +3728,14 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LABCURVE_CURVEEDITOR_CC_RANGE2;Dull
 !TP_LABCURVE_CURVEEDITOR_CC_RANGE3;Pastel
 !TP_LABCURVE_CURVEEDITOR_CC_RANGE4;Saturated
-!TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
+!TP_LENSGEOM_SCALE;Scale
 !TP_LOCALLAB_ACTIV;Luminance only
 !TP_LOCALLAB_ADJ;Equalizer Color
 !TP_LOCALLAB_ARTIF_TOOLTIP;ΔE scope threshold increases the range of ΔE scope. High values are for very wide gamut images.\nIncreasing ΔE decay can improve shape detection, but can also reduce the scope.
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALANEXP;Laplacian balance
 !TP_LOCALLAB_BALAN_TOOLTIP;Changes the ΔE algorithm parameters.\nTakes into account more or less a*b* or L*, or more or less C or H.\nNot for Denoise.
@@ -3671,12 +3758,14 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_BLWH;All changes forced in Black-and-White
 !TP_LOCALLAB_BLWH_TOOLTIP;Force color components 'a' and 'b' to zero.\nUseful for black and white processing, or film simulation.
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CH;CL - LC
 !TP_LOCALLAB_CHRO46LABEL;Chroma levels 456: Mean=%1 High=%2
@@ -3686,17 +3775,20 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_CHROMACB_TOOLTIP;Increases or reduces the effect depending on the luma settings.\nValues under 1 reduce the effect. Values greater than 1 increase the effect.
 !TP_LOCALLAB_CHROMALEV;Chroma levels
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
 !TP_LOCALLAB_CIELIGHTFRA;Lighting
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
 !TP_LOCALLAB_CLARIFRA;Clarity & Sharp mask/Blend & Soften Images
@@ -3708,9 +3800,9 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_CLARITYML;Clarity
 !TP_LOCALLAB_CLARI_TOOLTIP;Levels 0 to 4 (included): 'Sharp mask' is enabled\nLevels 5 and above: 'Clarity' is enabled.\nUseful if you use 'Wavelet level tone mapping'.
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COMPFRA;Directional contrast
 !TP_LOCALLAB_COMPRCIE;Brightness compression
 !TP_LOCALLAB_COMPRCIETH;Compression threshold
@@ -3734,8 +3826,8 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_DEHAZE_BLACK;Black
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3752,7 +3844,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_DENOI_TOOLTIP;This module can be used for noise reduction either on its own (at the end of the processing pipeline) or in addition to the Noise Reduction module in the Detail tab (which works at the beginning of the pipeline).\n Scope allows you to differentiate the action based on color (ΔE).\nMinimum spot size: 128x128.
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_ENABLE_MASK;Enable mask
 !TP_LOCALLAB_ENABLE_MASKAFT;Use all algorithms Exposure
 !TP_LOCALLAB_ENABLE_MASKALL;Enable all mask tools
@@ -3764,7 +3856,6 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_ESTOP;Edge stopping
 !TP_LOCALLAB_EV_DUPL;Copy of
 !TP_LOCALLAB_EXCLUTYPE_TOOLTIP;Normal spot uses recursive data.\n\nExcluding spot reinitializes all selective editing data.\nCan be used to totally or partially cancel a previous action or to carry out operations in Inverse mode.\nUse 'Scope' (Excluding) to set the exclusion intensity.\n\n'Full image' allows you to use the selective editing tools on the whole image.\nThe RT Spot delimiters are set beyond the image preview boundaries.\nThe transition is set to 100.\nNote: You may have to reposition the RT Spot slightly and adjust the Spot size to get the desired effect.\nNote: Using Denoise or Wavelet or FFTW in full-image mode uses large amounts of memory and may cause the application to crash on lower capacity systems.\n\n'Global' allows you to use the selective editing tools on the whole image, without using Delta E or transitions.
-!TP_LOCALLAB_EXMAIN;Global
 !TP_LOCALLAB_EXPCBDL_TOOLTIP;Can be used to remove marks on the sensor or lens by reducing the contrast on the appropriate detail level(s).
 !TP_LOCALLAB_EXPCHROMA_TOOLTIP;Use in association with 'Exposure compensation f' and 'Contrast Attenuator f' to avoid desaturating colors.
 !TP_LOCALLAB_EXPCOMP_TOOLTIP;For portraits or images with a low color gradient. You can change 'Shape detection' in 'Settings':\n\nIncrease 'ΔE scope threshold'\nReduce 'ΔE decay'\nIncrease 'ab-L balance (ΔE)'
@@ -3828,22 +3919,22 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABGRIDMERG;Background
 !TP_LOCALLAB_LABGRID_VALUES;High(a)=%1 High(b)=%2\nLow(a)=%3 Low(b)=%4
@@ -3879,8 +3970,8 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3896,8 +3987,8 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3905,7 +3996,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_LUM;LL - CC
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
 !TP_LOCALLAB_MASFRAME;Mask and Merge
 !TP_LOCALLAB_MASFRAME_TOOLTIP;For all masks.\nTakes into account the ΔE image to avoid modifying the selection area when the following Mask Tools are used: Gamma, Slope, Chroma, Contrast curve, Local contrast (by wavelet level), Blur Mask and Structure Mask (if enabled ).\nDisabled when Inverse mode is used.
@@ -3915,20 +4006,20 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_MASKCURVE_TOOLTIP;The 3 curves are set to 1 (maximum) by default:\nC=f(C) the chroma varies according to the chrominance. You can decrease the chroma to improve the selection. By setting this curve close to zero (with a low value of C to activate the curve) you can desaturate the background in Inverse mode.\nL=f(L) the luminance varies according to the luminance, so you can decrease the brightness to improve the selection.\nL and C = f(H) luminance and chroma vary with hue, so you can decrease luminance and chroma to improve selection.
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3937,28 +4028,28 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -4027,14 +4118,20 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAL_METHOD;Global quality
 !TP_LOCALLAB_QUANONEALL;Off
 !TP_LOCALLAB_QUANONEWAV;Non-local means only
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
 !TP_LOCALLAB_REPARCOL_TOOLTIP;Allows you to adjust the relative strength of the Color and Light image with respect to the original image.
@@ -4073,64 +4170,82 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_SHARFRAME;Modifications
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
 !TP_LOCALLAB_SOFTRADIUSCOL;Soft radius
@@ -4144,7 +4259,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -4227,16 +4342,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_LOCAL_WIDTH;Right
 !TP_LOCAL_WIDTH_L;Left
 !TP_LOCRETI_METHOD_TOOLTIP;Low = Reinforce low light.\nUniform = Evenly distributed.\nHigh = Reinforce strong light.
-!TP_PERSPECTIVE_CAMERA_SHIFT_HORIZONTAL;Horizontal shift
+!TP_RAWEXPOS_DEHA;Dehaze
-!TP_PERSPECTIVE_CAMERA_SHIFT_VERTICAL;Vertical shift
-!TP_PERSPECTIVE_POST_CORRECTION_ADJUSTMENT_FRAME;Post-correction adjustment
-!TP_PERSPECTIVE_PROJECTION_PITCH;Vertical
-!TP_PERSPECTIVE_PROJECTION_ROTATE;Rotation
-!TP_PERSPECTIVE_PROJECTION_SHIFT_HORIZONTAL;Horizontal shift
-!TP_PERSPECTIVE_PROJECTION_SHIFT_VERTICAL;Vertical shift
-!TP_PERSPECTIVE_PROJECTION_YAW;Horizontal
-!TP_PERSPECTIVE_RECOVERY_FRAME;Recovery
-!TP_RAWEXPOS_TWOGREEN;Link greens
 !TP_RAW_1PASSMEDIUM;1-pass (Markesteijn)
 !TP_RAW_2PASS;1-pass+fast
 !TP_RAW_3PASSBEST;3-pass (Markesteijn)
@@ -4349,6 +4455,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_WAVELET_CURVEEDITOR_CL_TOOLTIP;Applies a final contrast-luminance curve at the end of the wavelet processing.
 !TP_WAVELET_CURVEEDITOR_HH;HH
 !TP_WAVELET_CURVEEDITOR_HH_TOOLTIP;Modifies the residual image hue as a function of hue.
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
@@ -4382,6 +4489,7 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_WAVELET_LEVELLOW;Radius 1-4
 !TP_WAVELET_LEVELSIGM;Radius
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_MEDILEV_TOOLTIP;When you enable Edge Detection, it is recommanded:\n- to disabled low contrast levels to avoid artifacts,\n- to use high values of gradient sensitivity.\n\nYou can modulate the strength with 'refine' from Denoise and Refine.
 !TP_WAVELET_MERGEC;Merge chroma
@@ -4391,23 +4499,27 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise
 !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_OPACITYWL_TOOLTIP;Modify the final local contrast at the end of the wavelet treatment.\n\nThe left side represents the smallest local contrast, progressing to the largest local contrast on the right.
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_RADIUS;Radius shadows - highlight
 !TP_WAVELET_RANGEAB;Range a and b %
 !TP_WAVELET_RESBLUR;Blur luminance
 !TP_WAVELET_RESBLURC;Blur chroma
 !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SHA;Sharp mask
 !TP_WAVELET_SHOWMASK;Show wavelet 'mask'
 !TP_WAVELET_SIGMA_TOOLTIP;The effect of the contrast sliders is stronger in medium contrast details, and weaker in high and low contrast details.\n With this slider you can control how quickly the effect dampens towards the extreme contrasts.\n The higher the slider is set, the wider the range of contrasts which will get a strong change, and the higher the risk to generate artifacts.\n .The lower it is, the more the effect will be pinpointed towards a narrow range of contrast values.
 !TP_WAVELET_SOFTRAD;Soft radius
 !TP_WAVELET_THRDEN_TOOLTIP;Generates a stepped curve used to guide the noise reduction as a function of local contrast. The denoise will be applied to uniform low local-contrast areas. Areas with detail (higher local contrast) will be preserved.
-!TP_WAVELET_THRESHOLD;Finer levels
-!TP_WAVELET_THRESHOLD2;Coarser levels
 !TP_WAVELET_THRESHOLD2_TOOLTIP;Only levels from the chosen value to the selected number of 'wavelet levels' will be affected by the Shadow luminance range.
-!TP_WAVELET_THRESHOLD_TOOLTIP;Only levels below and including the chosen value will be affected by the Highlight luminance range.
 !TP_WAVELET_TMEDGS;Edge stopping
 !TP_WAVELET_TMSCALE;Scale
 !TP_WAVELET_TONFRAME;Excluded colors
@@ -4465,15 +4577,10 @@ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：<b>-</b>
 !TP_WBALANCE_ITCWGREEN;Green refinement
 !TP_WBALANCE_ITCWGREEN_TOOLTIP;Allows you to change the "tint" (green) which will serve as a reference when starting the algorithm. It has substantially the same role for greens as "AWB temperature bias" for temperature.\nThe whole algorithm is recalculated.
 !TP_WBALANCE_ITCWPRIM_TOOLTIP;Allows you to select the image sampling.\n'Close to full CIE diagram' almost uses the data present on the sensor, possibly including the imaginary colors.\n'Camera XYZ matrix' - uses the matrix directly derived from Color Matrix.\n'Medium sampling' (default) - near Pointer's gamut: corresponds substantially to the most common cases of human vision.\nThe other choice 'Low sampling and Ignore camera settings' allow you to isolate high gamut parts of the image and forces the algorithm in some cases (tint > 0.8,...) to ignore camera settings. This will obviously have an impact on the result.\n\nThis sampling only has an influence on the channel multipliers, it has nothing to do with the "working profile" and does not modify the gamut of the image.
-!TP_WBALANCE_ITCWSAMPLING_TOOLTIP;Allows you to use the old sampling algorithm to ensure better compatibility with 5.9. You must enable Observer 10° (default).
 !TP_WBALANCE_JUDGEIII;JudgeIII
 !TP_WBALANCE_LAMP_HEADER;Lamp
 !TP_WBALANCE_LED_CRS;CRS SP12 WWMR16
 !TP_WBALANCE_LED_LSI;LSI Lumelex 2040
-!TP_WBALANCE_MULLABEL;Multipliers: r=%1 g=%2 b=%3
-!TP_WBALANCE_MULLABEL_TOOLTIP;Values given for information purposes. You cannot change them.
-!TP_WBALANCE_OBSERVER10;Observer 10° instead of Observer 2°
-!TP_WBALANCE_OBSERVER10_TOOLTIP;The color management in RawTherapee (White balance, channel multipliers, highlight recovery,...) uses the spectral data of the illuminants and colors. Observer is an important parameter of this management which takes into account the angle of perception of the eye. In 1931 it was fixed at 2° (privileges the use of the cones). In 1964 it was fixed at 10° (privileges the use of the cones, but partially takes into account the rods).\nIn the rare case of a color drift with "Observer 2°" (probably due to the conversion matrix) "Observer 10°" must be selected.
 !TP_WBALANCE_PATCHLABEL;Read colors:%1 Patch: Chroma:%2 Size=%3
 !TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colors (max=237).\nDisplay calculated Patch Chroma.\nAWB temperature bias, lets try to reduce this value, a minimum may seem to optimize the algorithm.\n\nPatch size matching chroma optimization.
 !TP_WBALANCE_PATCHLEVELLABEL;Patch: ΔE=%1 - datas x 9 Min:%2 Max=%3

rtdata/languages/Czech

@@ -2845,8 +2845,8 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2912,7 +2912,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -3029,9 +3029,9 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -3039,9 +3039,9 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -3097,21 +3097,53 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
 !HISTORY_MSG_FILMNEGATIVE_BALANCE;FN - Reference output
 !HISTORY_MSG_FILMNEGATIVE_COLORSPACE;Film negative color space
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLBL;Color propagation - blur
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -3125,17 +3157,24 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -3154,6 +3193,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -3164,7 +3204,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -3173,21 +3213,30 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -3198,10 +3247,25 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_PERSP_CAM_ANGLE;Perspective - Camera
 !HISTORY_MSG_PERSP_CAM_FL;Perspective - Camera
@@ -3221,6 +3285,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_PIVOT;Tone equalizer - Pivot
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVCHR;Blur levels - blur chroma
 !HISTORY_MSG_WAVDENLH;Level 5
 !HISTORY_MSG_WAVDENOISE;Local contrast
@@ -3262,7 +3327,9 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !INSPECTOR_WINDOW_TITLE;Inspector
 !MAIN_TAB_LOCALLAB;Selective Editing
 !MAIN_TAB_LOCALLAB_TOOLTIP;Shortcut: <b>Alt-o</b>
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
 !PARTIALPASTE_SPOT;Spot removal
@@ -3271,7 +3338,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
 !PREFERENCES_BROWSERECURSIVEMAXDIRS;Maximum sub-folders
 !PREFERENCES_CAMERAPROFILESDIR;Camera profiles directory
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
 !PREFERENCES_COMPLEXITY_EXP;Advanced
@@ -3377,7 +3444,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D65) into new values whose white point is that of the new illuminant - see WP model (for example D50 or D55).
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_MOD02;CAM02
 !TP_COLORAPP_MOD16;CAM16
 !TP_COLORAPP_MODELCAT;CAM
@@ -3389,10 +3456,34 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_COLORAPP_VIEWINGF_TOOLTIP;Takes into account the support on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as its environment. This process will take the data coming from process 'Image Adjustments' and 'bring' it to the support in such a way that the viewing conditions and its environment are taken into account.
 !TP_COLORAPP_YBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
 !TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_DEHAZE_SATURATION;Saturation
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_FILMNEGATIVE_BLUEBALANCE;Cool/Warm
 !TP_FILMNEGATIVE_COLORSPACE;Inversion color space:
 !TP_FILMNEGATIVE_COLORSPACE_INPUT;Input color space
@@ -3406,6 +3497,36 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_FILMNEGATIVE_REF_SIZE;Size:
 !TP_FILMNEGATIVE_REF_TOOLTIP;Pick a gray patch for white-balancing the output, positive image.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3415,15 +3536,20 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
 !TP_ICM_REDFRAME;Custom Primaries
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3466,11 +3592,13 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
 !TP_ICM_WORKING_TRC_LIN;Linear g=1
 !TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
 !TP_LOCALLAB_ACTIV;Luminance only
 !TP_LOCALLAB_ACTIVSPOT;Enable Spot
@@ -3484,6 +3612,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3525,14 +3654,16 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3555,9 +3686,9 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3566,16 +3697,19 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3590,9 +3724,9 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3632,8 +3766,8 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3654,7 +3788,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3729,7 +3863,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3793,16 +3927,16 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3811,7 +3945,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3860,8 +3994,8 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3876,16 +4010,16 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3895,7 +4029,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3910,20 +4044,20 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3932,29 +4066,29 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -4041,12 +4175,18 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -4056,7 +4196,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -4129,73 +4269,91 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -4203,7 +4361,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -4222,7 +4380,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -4344,6 +4502,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_PERSPECTIVE_PROJECTION_SHIFT_VERTICAL;Vertical shift
 !TP_PERSPECTIVE_PROJECTION_YAW;Horizontal
 !TP_PERSPECTIVE_RECOVERY_FRAME;Recovery
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear
 !TP_RAW_DCBBILINEAR;DCB+Bilinear
 !TP_RAW_PIXELSHIFTAVERAGE;Use average for moving parts
@@ -4372,6 +4531,7 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_WAVELET_COMPLEXLAB;Complexity
 !TP_WAVELET_COMPLEX_TOOLTIP;Standard: shows a reduced set of tools suitable for most processing operations.\nAdvanced: shows the complete set of tools for advanced processing operations.
 !TP_WAVELET_COMPNORMAL;Standard
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
@@ -4398,14 +4558,22 @@ ZOOMPANEL_ZOOMOUT;Oddálit\nZkratka: <b>-</b>
 !TP_WAVELET_LEVELLOW;Radius 1-4
 !TP_WAVELET_LEVELSIGM;Radius
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_MIXCONTRAST;Reference
 !TP_WAVELET_MIXDENOISE;Denoise
 !TP_WAVELET_MIXMIX;Mixed 50% noise - 50% denoise
 !TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise
 !TP_WAVELET_MIXNOISE;Noise
+!TP_WAVELET_OFFSFIN;Offset
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SIGM;Radius
 !TP_WAVELET_STREND;Strength
 !TP_WAVELET_THRDEN_TOOLTIP;Generates a stepped curve used to guide the noise reduction as a function of local contrast. The denoise will be applied to uniform low local-contrast areas. Areas with detail (higher local contrast) will be preserved.

rtdata/languages/Dansk

@@ -2697,8 +2697,8 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2764,7 +2764,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2881,9 +2881,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2891,9 +2891,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2949,9 +2949,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2960,15 +2960,47 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
 !HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
 !HISTORY_MSG_FILMNEGATIVE_BALANCE;FN - Reference output
 !HISTORY_MSG_FILMNEGATIVE_COLORSPACE;Film negative color space
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLBL;Color propagation - blur
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -2982,18 +3014,25 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
 !HISTORY_MSG_ILLUM;CAL - SC - Illuminant
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -3012,6 +3051,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -3022,7 +3062,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -3031,21 +3071,30 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -3056,10 +3105,25 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_PERSP_CAM_ANGLE;Perspective - Camera
 !HISTORY_MSG_PERSP_CAM_FL;Perspective - Camera
@@ -3088,6 +3152,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_PIVOT;Tone equalizer - Pivot
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -3148,7 +3213,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !INSPECTOR_WINDOW_TITLE;Inspector
 !MAIN_TAB_LOCALLAB;Selective Editing
 !MAIN_TAB_LOCALLAB_TOOLTIP;Shortcut: <b>Alt-o</b>
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
 !PARTIALPASTE_PREPROCWB;Preprocess White Balance
@@ -3158,7 +3225,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
 !PREFERENCES_BROWSERECURSIVEMAXDIRS;Maximum sub-folders
 !PREFERENCES_CAMERAPROFILESDIR;Camera profiles directory
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
 !PREFERENCES_COMPLEXITY_EXP;Advanced
@@ -3264,7 +3331,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D65) into new values whose white point is that of the new illuminant - see WP model (for example D50 or D55).
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
@@ -3287,10 +3354,34 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_COLORAPP_VIEWINGF_TOOLTIP;Takes into account the support on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as its environment. This process will take the data coming from process 'Image Adjustments' and 'bring' it to the support in such a way that the viewing conditions and its environment are taken into account.
 !TP_COLORAPP_YBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
 !TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_DEHAZE_SATURATION;Saturation
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_FILMNEGATIVE_BLUEBALANCE;Cool/Warm
 !TP_FILMNEGATIVE_COLORSPACE;Inversion color space:
 !TP_FILMNEGATIVE_COLORSPACE_INPUT;Input color space
@@ -3304,6 +3395,36 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_FILMNEGATIVE_REF_SIZE;Size:
 !TP_FILMNEGATIVE_REF_TOOLTIP;Pick a gray patch for white-balancing the output, positive image.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3313,15 +3434,20 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
 !TP_ICM_REDFRAME;Custom Primaries
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3364,12 +3490,14 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
 !TP_ICM_WORKING_TRC_LIN;Linear g=1
 !TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92
 !TP_LENSGEOM_AUTOCROP;Auto-Crop
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
 !TP_LOCALLAB_ACTIV;Luminance only
 !TP_LOCALLAB_ACTIVSPOT;Enable Spot
@@ -3383,6 +3511,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3424,14 +3553,16 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3454,9 +3585,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3465,16 +3596,19 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3489,9 +3623,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3531,8 +3665,8 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3553,7 +3687,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3628,7 +3762,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3692,16 +3826,16 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3710,7 +3844,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3759,8 +3893,8 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3775,16 +3909,16 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3794,7 +3928,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3809,20 +3943,20 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3831,29 +3965,29 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3940,12 +4074,18 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3955,7 +4095,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -4028,73 +4168,91 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -4102,7 +4260,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -4121,7 +4279,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -4247,6 +4405,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_PREPROCWB_MODE;Mode
 !TP_PREPROCWB_MODE_AUTO;Auto
 !TP_PREPROCWB_MODE_CAMERA;Camera
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear
 !TP_RAW_DCBBILINEAR;DCB+Bilinear
 !TP_RAW_PIXELSHIFTAVERAGE;Use average for moving parts
@@ -4290,6 +4449,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_WAVELET_COMPNORMAL;Standard
 !TP_WAVELET_CONTFRAME;Contrast - Compression
 !TP_WAVELET_CURVEEDITOR_BL_TOOLTIP;Disabled if zoom > about 300%.
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
@@ -4320,6 +4480,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_WAVELET_LEVELLOW;Radius 1-4
 !TP_WAVELET_LEVELSIGM;Radius
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_LOWTHR_TOOLTIP;Prevents amplification of fine textures and noise.
 !TP_WAVELET_MERGEC;Merge chroma
@@ -4330,8 +4491,14 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise
 !TP_WAVELET_MIXNOISE;Noise
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4339,6 +4506,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Ud\nGenvej: <b>-</b>
 !TP_WAVELET_RESBLUR;Blur luminance
 !TP_WAVELET_RESBLURC;Blur chroma
 !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SHA;Sharp mask
 !TP_WAVELET_SHFRAME;Shadows/Highlights
 !TP_WAVELET_SHOWMASK;Show wavelet 'mask'

rtdata/languages/Deutsch

@@ -1572,7 +1572,6 @@ HISTORY_MSG_LOCAL_CIE_GREYL;(sel. Editieren - CIECAM)\nGrün Y
 HISTORY_MSG_LOCAL_CIE_ILL;(sel. Editieren - CIECAM)\nPrimärfarben und Lichtquelle\nBeleuchtung
 HISTORY_MSG_LOCAL_CIE_LOGCIEQ;(sel. Editieren - CIECAM)\nLOG-Kodierung Q
 HISTORY_MSG_LOCAL_CIE_MIDT;(sel. Editieren - CIECAM)\nMitteltöne
-HISTORY_MSG_LOCAL_CIE_NORM;(sel. Editieren - CIECAM)\nSigmoid\nLuminanz normalisieren
 HISTORY_MSG_LOCAL_CIE_PRIM;(sel. Editieren - CIECAM)\nTonwertkurve Primärfarben
 HISTORY_MSG_LOCAL_CIE_REDXL;(sel. Editieren - CIECAM)\nRot X
 HISTORY_MSG_LOCAL_CIE_REDYL;(sel. Editieren - CIECAM)\nRot Y
@@ -2995,7 +2994,6 @@ TP_LOCALLAB_BUTTON_REN;Umbenennen
 TP_LOCALLAB_BUTTON_VIS;Ein-/Ausblenden
 TP_LOCALLAB_BWEVNONE;Keine
 TP_LOCALLAB_BWEVSIG;Aktiviert
-TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Kodierung
 TP_LOCALLAB_BWFORCE;Schwarz-Ev & Weiß-Ev verwenden
 TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Spitzenleuchtdichte)
 TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) angepasst an CAM16(experimentell). Ermöglicht die Änderung der internen PQ-Funktion (normalerweise 10000 cd/m2 - Standard 100 cd/m2 - deaktiviert für 100 cd/m2).\nKann zur Anpassung an verschiedene Geräte und Bilder verwendet werden, z. Bsp. um die Cam16-Verarbeitung mit der maximalen Monitorhelligkeit von 400cd/m² abzustimmen.
@@ -4496,9 +4494,179 @@ ZOOMPANEL_ZOOMOUT;Herauszoomen\nTaste: <b>-</b>
 ! Untranslated keys follow; remove the ! prefix after an entry is translated.
 !!!!!!!!!!!!!!!!!!!!!!!!!
 
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WBITC_SAMPLING;Low sampling
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
+!PARTIALPASTE_FRAMING;Framing
 !PREFERENCES_WBAGREENDELTA;Delta temperature in green iterate loop (if Force Extra enabled)
 !PREFERENCES_WBAPATCH;Number maximum of colors used in picture
 !PREFERENCES_WBASIZEREF;Size of reference color compare to size of histogram color
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
+!TP_ICM_OPACITYWLI;Variable contrast
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
+!TP_LENSGEOM_SCALE;Scale
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
+!TP_LOCALLAB_BWEVNONE11;None
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
+!TP_RAWEXPOS_DEHA;Dehaze
+!TP_WAVELET_DAUB20;D20 - high plus
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
+!TP_WAVELET_OFFSFIN;Offset
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !//TP_WBALANCE_ITCWBNOPURPLE_TOOLTIP;By default when "Inpaint opposed" is activated, purple colors are not taken into account. However, if the image does not need highlight reconstruction, or if this image naturally contains purple tints (flowers, etc.), it may be necessary to deactivate, to take into account all the colors.
 !//TP_WBALANCE_ITCWB_FORCED;Forces use of the entire CIE diagram

rtdata/languages/English (UK)

@@ -139,7 +139,7 @@ TP_COLORAPP_CHROMA_TOOLTIP;Chroma in CIECAM corresponds to the colour of a stimu
 TP_COLORAPP_CURVEEDITOR3;Colour curve
 TP_COLORAPP_CURVEEDITOR3_TOOLTIP;Adjust either chroma, saturation or colourfulness.\n\nShows the histogram of chromaticity (L*a*b*) before CIECAM.\nIf the 'Show CIECAM output histograms in CAL curves' checkbox is enabled, shows the histogram of C, S or M after CIECAM.\n\nC, S and M are not shown in the main histogram panel.\nFor final output refer to the main histogram panel.
 TP_COLORAPP_DATACIE_TOOLTIP;Affects histograms shown in Colour Appearance & Lightning curves. Does not affect RawTherapee's main histogram.\n\nEnabled: show approximate values for J and C, S or M after the CIECAM adjustments.\nDisabled: show L*a*b* values before CIECAM adjustments.
-TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM colour appearance models, which were designed to better simulate how human vision perceives colours under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each colour and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Colour Appearance models, which were designed to better simulate how human vision perceives colours under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each colour and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 TP_COLORAPP_HUE_TOOLTIP;Hue (h) is the degree to which a stimulus can be described as similar to a colour described as red, green, blue and yellow.
 TP_COLORAPP_LABEL;Colour Appearance & Lighting
 TP_COLORAPP_SURROUND_TOOLTIP;Changes tones and colours to take into account the viewing conditions of the output device. The darker the viewing conditions, the darker the image will become. Image brightness will not be changed when the viewing conditions are set to average.
@@ -155,6 +155,10 @@ TP_COLORTONING_SPLITCOCO;Colour Balance Shadows/Midtones/Highlights
 TP_COLORTONING_SPLITLR;Saturation 2 colours
 TP_COLORTONING_TWO2;Special chroma '2 colours'
 TP_COLORTONING_TWOCOLOR_TOOLTIP;Standard chroma:\nLinear response, a* = b*.\n\nSpecial chroma:\nLinear response, a* = b*, but unbound - try under the diagonal.\n\nSpecial a* and b*:\nLinear response unbound with separate curves for a* and b*. Intended for special effects.\n\nSpecial chroma 2 colours:\nMore predictable.
+TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colourimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colourful and colours like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colourimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colours. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each colour component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "colour purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colours separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected colour range to remain unchanged.
 TP_CROP_GTCENTEREDSQUARE;Centreed square
 TP_DIRPYRDENOISE_CHROMINANCE_METHOD_TOOLTIP;Manual\nActs on the full image.\nYou control the noise reduction settings manually.\n\nAutomatic global\nActs on the full image.\n9 zones are used to calculate a global chrominance noise reduction setting.\n\nAutomatic multi-zones\nNo preview - works only during saving, but using the 'Preview' method by matching the tile size and centre to the preview size and centre you can get an idea of the expected results.\nThe image is divided into tiles (about 10 to 70 depending on image size) and each tile receives its own chrominance noise reduction settings.\n\nPreview\nActs on the whole image.\nThe part of the image visible in the preview is used to calculate global chrominance noise reduction settings.
 TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW_INFO;Preview size=%1, Centre: Px=%2  Py=%3
@@ -169,6 +173,7 @@ TP_FILMNEGATIVE_COLORSPACE_INPUT;Input colour space
 TP_FILMNEGATIVE_COLORSPACE_TOOLTIP;Select the colour space used to perform the negative inversion:\n<b>Input colour space</b> : perform inversion before the input profile is applied, as in the previous versions of RT.\n<b>Working colour space</b> : perform inversion after input profile, using the currently selected working profile.
 TP_FILMNEGATIVE_COLORSPACE_WORKING;Working colour space
 TP_FILMNEGATIVE_GUESS_TOOLTIP;Automatically set the red and blue ratios by picking two patches which had a neutral hue (no colour) in the original scene. The patches should differ in brightness.
+TP_FRAMING_BORDER_COLOR;Border Colour
 TP_GRADIENT_CENTER;Centre
 TP_GRADIENT_CENTER_X;Centre X
 TP_GRADIENT_CENTER_Y;Centre Y
@@ -188,14 +193,14 @@ TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colours into gamut of the working colour
 TP_LOCALLAB_BLWH_TOOLTIP;Force colour components 'a' and 'b' to zero.\nUseful for black and white processing, or film simulation.
 TP_LOCALLAB_CENTER_X;Centre X
 TP_LOCALLAB_CENTER_Y;Centre Y
-TP_LOCALLAB_CIE;Colour appearance (Cam16 & JzCzHz)
+TP_LOCALLAB_CIE;Colour Appearance (CAM16 & JzCzHz)
-TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM colour appearance model which was designed to better simulate how human vision perceives colours under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Colour Appearance model which was designed to better simulate how human vision perceives colours under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 TP_LOCALLAB_CIECOLORFRA;Colour
-TP_LOCALLAB_CIE_TOOLNAME;Colour appearance (Cam16 & JzCzHz)
+TP_LOCALLAB_CIE_TOOLNAME;Colour Appearance (CAM16 & JzCzHz)
 TP_LOCALLAB_COFR;Colour & Light
 TP_LOCALLAB_COLORDE;ΔE preview colour - intensity
-TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue colour preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue colour preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-TP_LOCALLAB_COLORFRAME;Dominant colour
+TP_LOCALLAB_COLORFRAME;Dominant Colour
 TP_LOCALLAB_COLORSCOPE;Scope (colour tools)
 TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Colour and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 TP_LOCALLAB_COLOR_CIE;Colour curve
@@ -221,45 +226,45 @@ TP_LOCALLAB_LOGCOLORFL;Colourfulness (M)
 TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less coloured.
 TP_LOCALLAB_LOGCONTL_TOOLTIP;Contrast (J) in CIECAM16 takes into account the increase in perceived colouration with luminance.
 TP_LOCALLAB_LOGCONTQ_TOOLTIP;Contrast (Q) in CIECAM16 takes into account the increase in perceived colouration with brightness.
-TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colourfulness (M) (in Advanced mode).
+TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colourfulness (M) (in Advanced mode).
 TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived colouration.
 TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the colour of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colours to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
 TP_LOCALLAB_LUMASK;Background colour/luma mask
-TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or colour of the mask background in Show Mask (Mask and modifications).
+TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or colour of the mask background in Show Mask (Mask And Modifications).
 TP_LOCALLAB_MASKCOM;Common Colour Mask
 TP_LOCALLAB_MASKCOM_TOOLNAME;Common Colour Mask
-TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Colour and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Colour and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colourpicker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colourpicker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Colour and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Colour and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
+TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable colour picker' on the mask to see which areas will be affected. Make sure you set 'Background colour mask' = 0 in Settings.
-TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Colour and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Colour and Light settings \n In between these two areas, the full value of the Colour and Light settings will be applied.
+TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Colour and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Colour and Light settings \n In between these two areas, the full value of the Colour and Light settings will be applied.
-TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Colour propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Colour propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
 TP_LOCALLAB_MERCOL;Colour
 TP_LOCALLAB_MERFOR;Colour Dodge
 TP_LOCALLAB_MERTHI;Colour Burn
 TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant colour. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate colour toning.
 TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant colour. This action modifies the purity.
-TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image colour (saturation). The colour balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image colour (saturation). The colour balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
-TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Colour and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Colour and Light, Wavelet, Cam16, etc.).
+TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Colour and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Colour and Light, Wavelet, CAM16, etc.).
 TP_LOCALLAB_REPARCOL_TOOLTIP;Allows you to adjust the relative strength of the Colour and Light image with respect to the original image.
 TP_LOCALLAB_RSTPROTECT_TOOLTIP;Red and skin-tone protection affects the Saturation, Chroma and Colourfulness sliders.
 TP_LOCALLAB_SENSIEXCLU_TOOLTIP;Adjust the colours to be excluded.
@@ -1366,8 +1371,8 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
 !HISTORY_MSG_899;Local - Contrast Wavelet ES detail
@@ -1430,7 +1435,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -1539,9 +1544,9 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -1549,9 +1554,9 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -1605,9 +1610,9 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -1616,6 +1621,16 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COLORTONING_LABREGION_CHANNEL;CT - Channel
 !HISTORY_MSG_COLORTONING_LABREGION_CHROMATICITYMASK;CT - region C mask
 !HISTORY_MSG_COLORTONING_LABREGION_HUEMASK;CT - H mask
@@ -1630,12 +1645,16 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_DEPTH;Dehaze - Depth
 !HISTORY_MSG_DEHAZE_ENABLED;Haze Removal
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DEHAZE_SHOW_DEPTH_MAP;Dehaze - Show depth map
 !HISTORY_MSG_DEHAZE_STRENGTH;Dehaze - Strength
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;Dual demosaic - Auto threshold
 !HISTORY_MSG_DUALDEMOSAIC_CONTRAST;Dual demosaic - Contrast threshold
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
@@ -1644,6 +1663,24 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HISTMATCHING;Auto-matched tone curve
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -1657,14 +1694,20 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
 !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
 !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
@@ -1677,6 +1720,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_LOCALCONTRAST_LIGHTNESS;Local Contrast - Lightness
 !HISTORY_MSG_LOCALCONTRAST_RADIUS;Local Contrast - Radius
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -1695,6 +1739,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -1705,7 +1750,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -1713,21 +1758,30 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHEREXE;Local - Exp Gradient feather
@@ -1736,10 +1790,25 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_LOCAL_FEATHERSH;Local - SH Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_METADATA_MODE;Metadata copy mode
 !HISTORY_MSG_MICROCONTRAST_CONTRAST;Microcontrast - Contrast threshold
@@ -1790,6 +1859,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -2033,6 +2103,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !PARTIALPASTE_COARSETRANS;Coarse rotation/flipping
 !PARTIALPASTE_COMMONTRANSFORMPARAMS;Auto-fill
 !PARTIALPASTE_COMPOSITIONGROUP;Composition Settings
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_CROP;Crop
 !PARTIALPASTE_DARKFRAMEAUTOSELECT;Dark-frame auto-selection
 !PARTIALPASTE_DARKFRAMEFILE;Dark-frame file
@@ -2056,6 +2127,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !PARTIALPASTE_FLATFIELDCLIPCONTROL;Flat-field clip control
 !PARTIALPASTE_FLATFIELDFILE;Flat-field file
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_GRADIENT;Graduated filter
 !PARTIALPASTE_HSVEQUALIZER;HSV equalizer
 !PARTIALPASTE_IMPULSEDENOISE;Impulse noise reduction
@@ -2133,7 +2205,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !PREFERENCES_CHUNKSIZE_RAW_RCD;RCD demosaic
 !PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic
 !PREFERENCES_CHUNKSIZE_RGB;RGB processing
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_CLIPPINGIND;Clipping Indication
 !PREFERENCES_CLUTSCACHE;HaldCLUT Cache
@@ -2648,6 +2720,24 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_COLORTONING_TWOALL;Special chroma
 !TP_COLORTONING_TWOBY;Special a* and b*
 !TP_COLORTONING_TWOSTD;Standard chroma
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_FIXRATIO;Lock ratio
 !TP_CROP_GTDIAGONALS;Rule of Diagonals
 !TP_CROP_GTEPASSPORT;Biometric Passport
@@ -2742,6 +2832,8 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_DIRPYREQUALIZER_THRESHOLD;Threshold
 !TP_DISTORTION_AMOUNT;Amount
 !TP_DISTORTION_AUTO_TOOLTIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_DISTORTION_LABEL;Distortion Correction
 !TP_EPD_EDGESTOPPING;Edge stopping
 !TP_EPD_GAMMA;Gamma
@@ -2805,6 +2897,35 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_FLATFIELD_CLIPCONTROL_TOOLTIP;Clip control avoids clipped highlights caused by applying the flat field. If there are already clipped highlights before applying the flat field, value 0 is used.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
 !TP_FLATFIELD_LABEL;Flat-Field
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_GENERAL_11SCALE_TOOLTIP;The effects of this tool are only visible or only accurate at a preview scale of 1:1.
 !TP_GRADIENT_CENTER_X_TOOLTIP;Shift gradient to the left (negative values) or right (positive values).
 !TP_GRADIENT_CENTER_Y_TOOLTIP;Shift gradient up (negative values) or down (positive values).
@@ -2853,9 +2974,11 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
 !TP_ICM_NOICM;No ICM: sRGB Output
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE;Output Profile
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
 !TP_ICM_PROFILEINTENT;Rendering Intent
@@ -2864,10 +2987,13 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_ICM_SAVEREFERENCE_APPLYWB;Apply white balance
 !TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generally, apply the white balance when saving images to create ICC profiles, and do not apply the white balance to create DCP profiles.
 !TP_ICM_SAVEREFERENCE_TOOLTIP;Save the linear TIFF image before the input profile is applied. The result can be used for calibration purposes and generation of a camera profile.
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TONECURVE;Tone curve
 !TP_ICM_TONECURVE_TOOLTIP;Employ the embedded DCP tone curve. The setting is only available if the selected DCP has a tone curve.
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKINGPROFILE;Working Profile
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
@@ -2910,6 +3036,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_ICM_WORKING_PRIM_REC;Rec2020
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC;Tone response curve:
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
@@ -2963,6 +3090,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LENSGEOM_LABEL;Lens / Geometry
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
 !TP_LENSPROFILE_CORRECTION_LCPFILE;LCP file
 !TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
@@ -2988,6 +3116,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_AUTOGRAYCIE;Automatic
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3028,14 +3157,16 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3056,7 +3187,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
 !TP_LOCALLAB_CIELIGHTFRA;Lighting
@@ -3064,15 +3195,18 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3085,7 +3219,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_CLARITYML;Clarity
 !TP_LOCALLAB_CLARI_TOOLTIP;Levels 0 to 4 (included): 'Sharp mask' is enabled\nLevels 5 and above: 'Clarity' is enabled.\nUseful if you use 'Wavelet level tone mapping'.
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
 !TP_LOCALLAB_COL_NAME;Name
 !TP_LOCALLAB_COL_VIS;Status
 !TP_LOCALLAB_COMPFRA;Directional contrast
@@ -3117,8 +3251,8 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3137,7 +3271,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3206,7 +3340,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3267,16 +3401,16 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3285,7 +3419,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3332,8 +3466,8 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_LOGAUTO_TOOLTIP;Pressing this button will calculate the dynamic range and 'Mean luminance' for the scene conditions if the 'Auto mean luminance (Yb%)' is checked).\nAlso calculates the absolute luminance at the time of shooting.\nPress the button again to adjust the automatically calculated values.
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCONQL;Contrast (Q)
 !TP_LOCALLAB_LOGCONTHRES;Contrast threshold (J & Q)
@@ -3349,9 +3483,9 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGVIEWING_TOOLTIP;Corresponds to the medium on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as the surrounding conditions.
 !TP_LOCALLAB_LOG_TOOLNAME;Log Encoding
@@ -3370,8 +3504,8 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
@@ -3382,15 +3516,15 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3476,7 +3610,13 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3553,73 +3693,91 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -3627,7 +3785,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -3645,7 +3803,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
 !TP_LOCALLAB_STYPE;Shape method
@@ -3757,9 +3915,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_PDSHARPENING_LABEL;Capture Sharpening
 !TP_PERSPECTIVE_CAMERA_CROP_FACTOR;Crop factor
 !TP_PERSPECTIVE_CAMERA_FOCAL_LENGTH;Focal length
-!TP_PERSPECTIVE_CAMERA_DEFISH;De-fish
 !TP_PERSPECTIVE_CAMERA_FRAME;Correction
-!TP_PERSPECTIVE_CAMERA_SCALE;Scale
 !TP_PERSPECTIVE_CAMERA_PITCH;Vertical
 !TP_PERSPECTIVE_CAMERA_ROLL;Rotation
 !TP_PERSPECTIVE_CAMERA_SHIFT_HORIZONTAL;Horizontal shift
@@ -3776,7 +3932,6 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_PERSPECTIVE_POST_CORRECTION_ADJUSTMENT_FRAME;Post-correction adjustment
 !TP_PERSPECTIVE_PROJECTION_PITCH;Vertical
 !TP_PERSPECTIVE_PROJECTION_ROTATE;Rotation
-!TP_PERSPECTIVE_CAMERA_SCALE;Scale
 !TP_PERSPECTIVE_PROJECTION_SHIFT_HORIZONTAL;Horizontal shift
 !TP_PERSPECTIVE_PROJECTION_SHIFT_VERTICAL;Vertical shift
 !TP_PERSPECTIVE_PROJECTION_YAW;Horizontal
@@ -3816,6 +3971,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_RAWEXPOS_BLACK_BLUE;Blue
 !TP_RAWEXPOS_BLACK_GREEN;Green
 !TP_RAWEXPOS_BLACK_RED;Red
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAWEXPOS_LINEAR;White-point correction
 !TP_RAWEXPOS_RGB;Red, Green, Blue
 !TP_RAWEXPOS_TWOGREEN;Link greens
@@ -3899,7 +4055,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_RESIZE_FULLIMAGE;Full Image
 !TP_RESIZE_H;Height:
 !TP_RESIZE_HEIGHT;Height
-!TP_RESIZE_LABEL;Resize
+!TP_RESIZE_LABEL;Resize & Framing
 !TP_RESIZE_LANCZOS;Lanczos
 !TP_RESIZE_LE;Long Edge:
 !TP_RESIZE_LONG;Long Edge
@@ -4151,8 +4307,9 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_WAVELET_DAUB6;D6 - standard plus
 !TP_WAVELET_DAUB10;D10 - medium
 !TP_WAVELET_DAUB14;D14 - high
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
-!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 = Often best performance, 10% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
+!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 D20 = Often best performance, 15% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
 !TP_WAVELET_DENL;Correction structure
@@ -4224,6 +4381,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_WAVELET_LEVF;Contrast
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
 !TP_WAVELET_LEVLABEL;Preview maximum possible levels = %1
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LEVONE;Level 2
 !TP_WAVELET_LEVTHRE;Level 4
 !TP_WAVELET_LEVTWO;Level 3
@@ -4253,6 +4411,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_WAVELET_NPTYPE;Neighboring pixels
 !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_OPACITY;Opacity blue-yellow
 !TP_WAVELET_OPACITYW;Contrast balance d/v-h curve
@@ -4261,6 +4420,11 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_WAVELET_PASTEL;Pastel chroma
 !TP_WAVELET_PROC;Process
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4275,6 +4439,7 @@ TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colours (max=237).\nDispla
 !TP_WAVELET_RESCON;Shadows
 !TP_WAVELET_RESCONH;Highlights
 !TP_WAVELET_RESID;Residual Image
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SAT;Saturated chroma
 !TP_WAVELET_SETTINGS;Wavelet Settings
 !TP_WAVELET_SHA;Sharp mask

rtdata/languages/English (US)

@@ -1126,8 +1126,8 @@
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -1193,7 +1193,7 @@
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -1310,9 +1310,9 @@
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -1320,9 +1320,9 @@
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -1378,9 +1378,9 @@
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -1389,6 +1389,16 @@
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_CLAMPOOG;Clip out-of-gamut colors
 !HISTORY_MSG_COLORTONING_LABGRID_VALUE;CT - Color correction
 !HISTORY_MSG_COLORTONING_LABREGION_AB;CT - Color correction
@@ -1406,12 +1416,16 @@
 !HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_DEPTH;Dehaze - Depth
 !HISTORY_MSG_DEHAZE_ENABLED;Haze Removal
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DEHAZE_SHOW_DEPTH_MAP;Dehaze - Show depth map
 !HISTORY_MSG_DEHAZE_STRENGTH;Dehaze - Strength
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;Dual demosaic - Auto threshold
 !HISTORY_MSG_DUALDEMOSAIC_CONTRAST;Dual demosaic - Contrast threshold
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
@@ -1421,6 +1435,24 @@
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HISTMATCHING;Auto-matched tone curve
 !HISTORY_MSG_HLBL;Color propagation - blur
@@ -1435,17 +1467,23 @@
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
 !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
 !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
@@ -1458,6 +1496,7 @@
 !HISTORY_MSG_LOCALCONTRAST_LIGHTNESS;Local Contrast - Lightness
 !HISTORY_MSG_LOCALCONTRAST_RADIUS;Local Contrast - Radius
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -1476,6 +1515,7 @@
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -1486,7 +1526,7 @@
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -1495,21 +1535,30 @@
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -1520,10 +1569,25 @@
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_METADATA_MODE;Metadata copy mode
 !HISTORY_MSG_MICROCONTRAST_CONTRAST;Microcontrast - Contrast threshold
@@ -1576,6 +1640,7 @@
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -1828,6 +1893,7 @@
 !PARTIALPASTE_COLORTONING;Color toning
 !PARTIALPASTE_COMMONTRANSFORMPARAMS;Auto-fill
 !PARTIALPASTE_COMPOSITIONGROUP;Composition Settings
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_CROP;Crop
 !PARTIALPASTE_DARKFRAMEAUTOSELECT;Dark-frame auto-selection
 !PARTIALPASTE_DARKFRAMEFILE;Dark-frame file
@@ -1851,6 +1917,7 @@
 !PARTIALPASTE_FLATFIELDCLIPCONTROL;Flat-field clip control
 !PARTIALPASTE_FLATFIELDFILE;Flat-field file
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_GRADIENT;Graduated filter
 !PARTIALPASTE_HSVEQUALIZER;HSV equalizer
 !PARTIALPASTE_ICMSETTINGS;Color management settings
@@ -1936,7 +2003,7 @@
 !PREFERENCES_CHUNKSIZE_RAW_RCD;RCD demosaic
 !PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic
 !PREFERENCES_CHUNKSIZE_RGB;RGB processing
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_CLIPPINGIND;Clipping Indication
 !PREFERENCES_CLUTSCACHE;HaldCLUT Cache
@@ -2386,7 +2453,7 @@
 !TP_COLORAPP_FREE;Free temp + tint + CAT02/16 +[output]
 !TP_COLORAPP_GAMUT;Use gamut control in L*a*b* mode
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_HUE;Hue (h)
 !TP_COLORAPP_HUE_TOOLTIP;Hue (h) is the degree to which a stimulus can be described as similar to a color described as red, green, blue and yellow.
 !TP_COLORAPP_IL41;D41
@@ -2501,6 +2568,28 @@
 !TP_COLORTONING_TWOBY;Special a* and b*
 !TP_COLORTONING_TWOCOLOR_TOOLTIP;Standard chroma:\nLinear response, a* = b*.\n\nSpecial chroma:\nLinear response, a* = b*, but unbound - try under the diagonal.\n\nSpecial a* and b*:\nLinear response unbound with separate curves for a* and b*. Intended for special effects.\n\nSpecial chroma 2 colors:\nMore predictable.
 !TP_COLORTONING_TWOSTD;Standard chroma
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_FIXRATIO;Lock ratio
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_GTDIAGONALS;Rule of Diagonals
@@ -2603,6 +2692,8 @@
 !TP_DIRPYREQUALIZER_TOOLTIP;Attempts to reduce artifacts in the transitions between skin colors (hue, chroma, luma) and the rest of the image.
 !TP_DISTORTION_AMOUNT;Amount
 !TP_DISTORTION_AUTO_TOOLTIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_DISTORTION_LABEL;Distortion Correction
 !TP_EPD_EDGESTOPPING;Edge stopping
 !TP_EPD_GAMMA;Gamma
@@ -2672,6 +2763,36 @@
 !TP_FLATFIELD_CLIPCONTROL_TOOLTIP;Clip control avoids clipped highlights caused by applying the flat field. If there are already clipped highlights before applying the flat field, value 0 is used.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
 !TP_FLATFIELD_LABEL;Flat-Field
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_GENERAL_11SCALE_TOOLTIP;The effects of this tool are only visible or only accurate at a preview scale of 1:1.
 !TP_GRADIENT_CENTER;Center
 !TP_GRADIENT_CENTER_X;Center X
@@ -2730,9 +2851,11 @@
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
 !TP_ICM_NOICM;No ICM: sRGB Output
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE;Output Profile
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
@@ -2742,11 +2865,14 @@
 !TP_ICM_SAVEREFERENCE_APPLYWB;Apply white balance
 !TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generally, apply the white balance when saving images to create ICC profiles, and do not apply the white balance to create DCP profiles.
 !TP_ICM_SAVEREFERENCE_TOOLTIP;Save the linear TIFF image before the input profile is applied. The result can be used for calibration purposes and generation of a camera profile.
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TONECURVE;Tone curve
 !TP_ICM_TONECURVE_TOOLTIP;Employ the embedded DCP tone curve. The setting is only available if the selected DCP has a tone curve.
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKINGPROFILE;Working Profile
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
@@ -2790,6 +2916,7 @@
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC;Tone response curve:
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
@@ -2843,6 +2970,7 @@
 !TP_LENSGEOM_LABEL;Lens / Geometry
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
 !TP_LENSPROFILE_CORRECTION_LCPFILE;LCP file
 !TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
@@ -2871,6 +2999,7 @@
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -2912,14 +3041,16 @@
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -2942,9 +3073,9 @@
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -2953,16 +3084,19 @@
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -2977,9 +3111,9 @@
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3019,8 +3153,8 @@
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt & pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3041,7 +3175,7 @@
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3116,7 +3250,7 @@
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3180,16 +3314,16 @@
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3198,7 +3332,7 @@
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3247,8 +3381,8 @@
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites & Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites & Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3263,16 +3397,16 @@
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3282,7 +3416,7 @@
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3297,20 +3431,20 @@
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3319,29 +3453,29 @@
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3428,12 +3562,18 @@
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3443,7 +3583,7 @@
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -3516,73 +3656,91 @@
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -3590,7 +3748,7 @@
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -3609,7 +3767,7 @@
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -3726,9 +3884,7 @@
 !TP_PDSHARPENING_LABEL;Capture Sharpening
 !TP_PERSPECTIVE_CAMERA_CROP_FACTOR;Crop factor
 !TP_PERSPECTIVE_CAMERA_FOCAL_LENGTH;Focal length
-!TP_PERSPECTIVE_CAMERA_DEFISH;De-fish
 !TP_PERSPECTIVE_CAMERA_FRAME;Correction
-!TP_PERSPECTIVE_CAMERA_SCALE;Scale
 !TP_PERSPECTIVE_CAMERA_PITCH;Vertical
 !TP_PERSPECTIVE_CAMERA_ROLL;Rotation
 !TP_PERSPECTIVE_CAMERA_SHIFT_HORIZONTAL;Horizontal shift
@@ -3745,7 +3901,6 @@
 !TP_PERSPECTIVE_POST_CORRECTION_ADJUSTMENT_FRAME;Post-correction adjustment
 !TP_PERSPECTIVE_PROJECTION_PITCH;Vertical
 !TP_PERSPECTIVE_PROJECTION_ROTATE;Rotation
-!TP_PERSPECTIVE_CAMERA_SCALE;Scale
 !TP_PERSPECTIVE_PROJECTION_SHIFT_HORIZONTAL;Horizontal shift
 !TP_PERSPECTIVE_PROJECTION_SHIFT_VERTICAL;Vertical shift
 !TP_PERSPECTIVE_PROJECTION_YAW;Horizontal
@@ -3787,6 +3942,7 @@
 !TP_RAWEXPOS_BLACK_BLUE;Blue
 !TP_RAWEXPOS_BLACK_GREEN;Green
 !TP_RAWEXPOS_BLACK_RED;Red
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAWEXPOS_LINEAR;White-point correction
 !TP_RAWEXPOS_RGB;Red, Green, Blue
 !TP_RAWEXPOS_TWOGREEN;Link greens
@@ -3872,7 +4028,7 @@
 !TP_RESIZE_FULLIMAGE;Full Image
 !TP_RESIZE_H;Height:
 !TP_RESIZE_HEIGHT;Height
-!TP_RESIZE_LABEL;Resize
+!TP_RESIZE_LABEL;Resize & Framing
 !TP_RESIZE_LANCZOS;Lanczos
 !TP_RESIZE_LE;Long Edge:
 !TP_RESIZE_LONG;Long Edge
@@ -4134,8 +4290,9 @@
 !TP_WAVELET_DAUB6;D6 - standard plus
 !TP_WAVELET_DAUB10;D10 - medium
 !TP_WAVELET_DAUB14;D14 - high
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
-!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 = Often best performance, 10% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
+!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 D20 = Often best performance, 15% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
 !TP_WAVELET_DENL;Correction structure
@@ -4209,6 +4366,7 @@
 !TP_WAVELET_LEVF;Contrast
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
 !TP_WAVELET_LEVLABEL;Preview maximum possible levels = %1
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LEVONE;Level 2
 !TP_WAVELET_LEVTHRE;Level 4
 !TP_WAVELET_LEVTWO;Level 3
@@ -4238,6 +4396,7 @@
 !TP_WAVELET_NPTYPE;Neighboring pixels
 !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_OPACITY;Opacity blue-yellow
 !TP_WAVELET_OPACITYW;Contrast balance d/v-h curve
@@ -4246,6 +4405,11 @@
 !TP_WAVELET_PASTEL;Pastel chroma
 !TP_WAVELET_PROC;Process
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4260,6 +4424,7 @@
 !TP_WAVELET_RESCON;Shadows
 !TP_WAVELET_RESCONH;Highlights
 !TP_WAVELET_RESID;Residual Image
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SAT;Saturated chroma
 !TP_WAVELET_SETTINGS;Wavelet Settings
 !TP_WAVELET_SHA;Sharp mask

rtdata/languages/Espanol (Castellano)

@@ -4078,19 +4078,58 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !FILEBROWSER_SHOWRECURSIVE;Show images in sub-folders recursively.
 !FILECHOOSER_FILTER_EXECUTABLE;Executable files
 !GENERAL_OTHER;Other
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
 !HISTORY_MSG_ICM_CAT;Matrix adaptation
 !HISTORY_MSG_ICM_GAMUT;Gamut control
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -4109,6 +4148,7 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -4119,7 +4159,7 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -4128,21 +4168,30 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -4153,16 +4202,32 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_TONE_EQUALIZER_BANDS;Tone equalizer - Bands
 !HISTORY_MSG_TONE_EQUALIZER_ENABLED;Tone equalizer
 !HISTORY_MSG_TONE_EQUALIZER_PIVOT;Tone equalizer - Pivot
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WBALANCE_OBSERVER10;Observer 10°
 !HISTORY_MSG_WBITC_CUSTOM;Itcwb Custom
 !HISTORY_MSG_WBITC_DELTA;Itcwb Delta green
@@ -4180,7 +4245,9 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !HISTORY_MSG_WBITC_SIZE;Itcwb Size
 !HISTORY_MSG_WBITC_SORTED;Itcwb ponderated
 !HISTORY_MSG_WBITC_THRES;Itcwb Threshold
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_TONE_EQUALIZER;Tone equalizer
 !PREFERENCES_BROWSERECURSIVEDEPTH;Browse sub-folders depth
 !PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
@@ -4262,15 +4329,74 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !TC_PRIM_REFI;Refine colors (white-point)
 !TP_COLORAPP_CIECAT_DEGREEOUT;Chromatic Adaptation Viewing
 !TP_COLORAPP_TEMPOUT_TOOLTIP;Temperature and Tint.\nDepending on the choices made previously, the selected temperature is:\nWhite balance\nA temp=2856\nD41 temp=4100\nD50 temp=5003\nD55 temp=5503\nD60 temp=6000\nD65 temp=6504\nD75 temp=7504\nFree.
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_FILMNEGATIVE_PICK_SIZE;Size:
 !TP_FILMNEGATIVE_REF_SIZE;Size:
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLTH;Gain threshold
 !TP_ICM_BW;Black and White
 !TP_ICM_GAMUT;Gamut control
+!TP_ICM_OPACITYWLI;Variable contrast
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -4284,26 +4410,34 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !TP_ICM_WORKING_PRIM_JDCMAX;JDC Max
 !TP_ICM_WORKING_PRIM_JDCMAXSTDA;JDC Max stdA
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_CHRO46LABEL;Chroma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_CHROLABEL;Chroma levels 0123: Mean=%1 High=%2
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COMPRCIE;Brightness compression
 !TP_LOCALLAB_COMPRCIETH;Compression threshold
 !TP_LOCALLAB_COMPRLOG_TOOLTIP;This algorithm compress the data before log conversion, above the threshold slider value. To use in conjunction with Whites distribution.
 !TP_LOCALLAB_DEHAZE_BLACK;Black
 !TP_LOCALLAB_DENOIWAVCH;Wavelets: Chrominance
 !TP_LOCALLAB_DENOIWAVLUM;Wavelets: Luminance
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_ENABLE_MASKALL;Enable all mask tools
 !TP_LOCALLAB_EXMAIN;Global
 !TP_LOCALLAB_FATSAT;Saturation control
@@ -4315,45 +4449,70 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !TP_LOCALLAB_GAMUTXYZRELA;XYZ Relative
 !TP_LOCALLAB_LCLABELS;Residual noise levels
 !TP_LOCALLAB_LCLABELS_TOOLTIP;Displays the mean and high-end noise values for the area shown in the Preview Panel (at 100% zoom). The noise values are grouped by wavelet levels 0,1,2,3 and 4,5,6.\nThe displayed values are indicative only and are designed to assist with denoise adjustments. They should not be interpreted as absolute noise levels.\n\n 300: Very noisy\n 100-300: Noisy\n 50-100: Moderatly noisy\n < 50: Low noise\n\nThey allow you to see:\n*The impact of Noise Reduction in the main-menu Detail tab.\n*The influence of Non-local Means, Wavelets and DCT on the luminance noise.\n*The influence of Wavelets and DCT on the chroma noise.\n*The influence of Capture Sharpening and Demosaicing.
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
 !TP_LOCALLAB_MIDTCIE;Midtones
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_SATCIE;Saturation control
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_STRENGTHCIELOG;Strength
 !TP_LOCALLAB_TE_PIVOT;Pivot (Ev)
 !TP_LOCALLAB_TRCFRAME;Tone Response Curve & Midtones
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_TONE_EQUALIZER_BANDS;Bands
 !TP_TONE_EQUALIZER_BAND_0;Blacks
 !TP_TONE_EQUALIZER_BAND_1;Shadows
@@ -4364,6 +4523,15 @@ ZOOMPANEL_ZOOMOUT;Alejar\nAtajo de teclado: <b>-</b>
 !TP_TONE_EQUALIZER_LABEL;Tone Equalizer
 !TP_TONE_EQUALIZER_PIVOT;Pivot (Ev)
 !TP_TONE_EQUALIZER_SHOW_COLOR_MAP;Show tonal map
+!TP_WAVELET_DAUB20;D20 - high plus
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
+!TP_WAVELET_OFFSFIN;Offset
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WBALANCE_ITCWALG_TOOLTIP;Allows you to switch to the other Alternative temperature (Alt_temp), when possible.\nInactive in the "single choice" case.
 !TP_WBALANCE_ITCWBDELTA_TOOLTIP;Fixed for each "green" iteration tried, the temperature difference to be taken into account.
 !TP_WBALANCE_ITCWBFGREEN_TOOLTIP;Find the best compromise between Student and green.

rtdata/languages/Espanol (Latin America)

@@ -2711,8 +2711,8 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2778,7 +2778,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2895,9 +2895,9 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2905,9 +2905,9 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2963,9 +2963,9 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2974,10 +2974,24 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
 !HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
 !HISTORY_MSG_FILMNEGATIVE_BALANCE;FN - Reference output
@@ -2985,6 +2999,24 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLBL;Color propagation - blur
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -2998,18 +3030,25 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
 !HISTORY_MSG_ILLUM;CAL - SC - Illuminant
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -3028,6 +3067,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -3038,7 +3078,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -3047,21 +3087,30 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -3072,10 +3121,25 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_PDSHARPEN_AUTO_CONTRAST;CS - Auto threshold
 !HISTORY_MSG_PDSHARPEN_AUTO_RADIUS;CS - Auto radius
@@ -3113,6 +3177,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -3176,8 +3241,10 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !MAIN_TAB_FAVORITES_TOOLTIP;Shortcut: <b>Alt-u</b>
 !MAIN_TAB_LOCALLAB;Selective Editing
 !MAIN_TAB_LOCALLAB_TOOLTIP;Shortcut: <b>Alt-o</b>
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FILMNEGATIVE;Film negative
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
 !PARTIALPASTE_PREPROCWB;Preprocess White Balance
@@ -3193,7 +3260,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !PREFERENCES_CHUNKSIZE_RAW_RCD;RCD demosaic
 !PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic
 !PREFERENCES_CHUNKSIZE_RGB;RGB processing
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
 !PREFERENCES_COMPLEXITY_EXP;Advanced
@@ -3308,7 +3375,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D65) into new values whose white point is that of the new illuminant - see WP model (for example D50 or D55).
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
@@ -3331,11 +3398,35 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_COLORAPP_VIEWINGF_TOOLTIP;Takes into account the support on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as its environment. This process will take the data coming from process 'Image Adjustments' and 'bring' it to the support in such a way that the viewing conditions and its environment are taken into account.
 !TP_COLORAPP_YBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
 !TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_PPI;PPI
 !TP_DEHAZE_SATURATION;Saturation
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_FILMNEGATIVE_BLUE;Blue ratio
 !TP_FILMNEGATIVE_BLUEBALANCE;Cool/Warm
 !TP_FILMNEGATIVE_COLORSPACE;Inversion color space:
@@ -3355,6 +3446,36 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_FILMNEGATIVE_REF_SIZE;Size:
 !TP_FILMNEGATIVE_REF_TOOLTIP;Pick a gray patch for white-balancing the output, positive image.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3364,15 +3485,20 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
 !TP_ICM_REDFRAME;Custom Primaries
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3415,6 +3541,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
@@ -3422,6 +3549,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
 !TP_LENSPROFILE_MODE_HEADER;Lens Profile
 !TP_LENSPROFILE_USE_GEOMETRIC;Geometric distortion
@@ -3438,6 +3566,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3479,14 +3608,16 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3509,9 +3640,9 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3520,16 +3651,19 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3544,9 +3678,9 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3586,8 +3720,8 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3608,7 +3742,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3683,7 +3817,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3747,16 +3881,16 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3765,7 +3899,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3814,8 +3948,8 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3830,16 +3964,16 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3849,7 +3983,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3864,20 +3998,20 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3886,29 +4020,29 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3995,12 +4129,18 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -4010,7 +4150,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -4083,73 +4223,91 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -4157,7 +4315,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -4176,7 +4334,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -4303,6 +4461,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_PREPROCWB_MODE;Mode
 !TP_PREPROCWB_MODE_AUTO;Auto
 !TP_PREPROCWB_MODE_CAMERA;Camera
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear
 !TP_RAW_DCBBILINEAR;DCB+Bilinear
 !TP_RAW_IMAGENUM_SN;SN mode
@@ -4352,6 +4511,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_WAVELET_COMPNORMAL;Standard
 !TP_WAVELET_CONTFRAME;Contrast - Compression
 !TP_WAVELET_CURVEEDITOR_BL_TOOLTIP;Disabled if zoom > about 300%.
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
@@ -4382,6 +4542,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_WAVELET_LEVELLOW;Radius 1-4
 !TP_WAVELET_LEVELSIGM;Radius
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_LOWTHR_TOOLTIP;Prevents amplification of fine textures and noise.
 !TP_WAVELET_MERGEC;Merge chroma
@@ -4392,8 +4553,14 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise
 !TP_WAVELET_MIXNOISE;Noise
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4401,6 +4568,7 @@ ZOOMPANEL_ZOOMOUT;Reducir Zoom\nTecla de Atajo: <b>-</b>
 !TP_WAVELET_RESBLUR;Blur luminance
 !TP_WAVELET_RESBLURC;Blur chroma
 !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SHA;Sharp mask
 !TP_WAVELET_SHFRAME;Shadows/Highlights
 !TP_WAVELET_SHOWMASK;Show wavelet 'mask'

rtdata/languages/Francais

@@ -3460,8 +3460,8 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -3527,7 +3527,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -3644,9 +3644,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -3654,9 +3654,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -3712,9 +3712,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -3723,12 +3723,44 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
 !HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLBL;Color propagation - blur
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -3742,18 +3774,25 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
 !HISTORY_MSG_ILLUM;CAL - SC - Illuminant
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -3772,6 +3811,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -3782,7 +3822,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -3791,21 +3831,30 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -3816,10 +3865,25 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_PDSHARPEN_AUTO_CONTRAST;CS - Auto threshold
 !HISTORY_MSG_PDSHARPEN_AUTO_RADIUS;CS - Auto radius
@@ -3854,6 +3918,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -3913,15 +3978,17 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !ICCPROFCREATOR_PRIM_DCIP3;DCI-P3
 !INSPECTOR_WINDOW_TITLE;Inspector
 !MAIN_FRAME_PLACES_DEL;Remove
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FILMNEGATIVE;Film negative
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_PREPROCWB;Preprocess White Balance
 !PARTIALPASTE_TONE_EQUALIZER;Tone equalizer
 !PREFERENCES_BROWSERECURSIVEDEPTH;Browse sub-folders depth
 !PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
 !PREFERENCES_BROWSERECURSIVEMAXDIRS;Maximum sub-folders
 !PREFERENCES_CAMERAPROFILESDIR;Camera profiles directory
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
 !PREFERENCES_COMPLEXITY_EXP;Advanced
@@ -4033,7 +4100,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D65) into new values whose white point is that of the new illuminant - see WP model (for example D50 or D55).
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
@@ -4054,14 +4121,68 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_COLORAPP_TEMP2_TOOLTIP;Either symmetrical mode temp = White balance.\nEither select illuminant always set Tint=1.\n\nA temp=2856\nD41 temp=4100\nD50 temp=5003\nD55 temp=5503\nD60 temp=6000\nD65 temp=6504\nD75 temp=7504
 !TP_COLORAPP_TEMPOUT_TOOLTIP;Temperature and Tint.\nDepending on the choices made previously, the selected temperature is:\nWhite balance\nA temp=2856\nD41 temp=4100\nD50 temp=5003\nD55 temp=5503\nD60 temp=6000\nD65 temp=6504\nD75 temp=7504\nFree.
 !TP_COLORAPP_VIEWINGF_TOOLTIP;Takes into account the support on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as its environment. This process will take the data coming from process 'Image Adjustments' and 'bring' it to the support in such a way that the viewing conditions and its environment are taken into account.
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_PPI;PPI
 !TP_DEHAZE_SATURATION;Saturation
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_FILMNEGATIVE_PICK_SIZE;Size:
 !TP_FILMNEGATIVE_REF_SIZE;Size:
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -4071,15 +4192,20 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
 !TP_ICM_REDFRAME;Custom Primaries
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -4122,6 +4248,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
@@ -4129,6 +4256,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
 !TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
@@ -4139,21 +4267,27 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CHRO46LABEL;Chroma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_CHROLABEL;Chroma levels 0123: Mean=%1 High=%2
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLOR_CIE;Color curve
 !TP_LOCALLAB_COMPRCIE;Brightness compression
 !TP_LOCALLAB_COMPRCIETH;Compression threshold
@@ -4164,7 +4298,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_LOCALLAB_DENOIMASK_TOOLTIP;For all tools, allows you to control the chromatic noise level of the mask.\nUseful for better control of chrominance and to avoid artifacts when using the LC(h) curve.
 !TP_LOCALLAB_DENOIWAVCH;Wavelets: Chrominance
 !TP_LOCALLAB_DENOIWAVLUM;Wavelets: Luminance
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_ENABLE_MASKALL;Enable all mask tools
 !TP_LOCALLAB_EXMAIN;Global
@@ -4185,9 +4319,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_LOCALLAB_LAPRAD2_TOOLTIP;Smooth radius uses a guided filter to decrease artifacts and smooth out the transition.
 !TP_LOCALLAB_LCLABELS;Residual noise levels
 !TP_LOCALLAB_LCLABELS_TOOLTIP;Displays the mean and high-end noise values for the area shown in the Preview Panel (at 100% zoom). The noise values are grouped by wavelet levels 0,1,2,3 and 4,5,6.\nThe displayed values are indicative only and are designed to assist with denoise adjustments. They should not be interpreted as absolute noise levels.\n\n 300: Very noisy\n 100-300: Noisy\n 50-100: Moderatly noisy\n < 50: Low noise\n\nThey allow you to see:\n*The impact of Noise Reduction in the main-menu Detail tab.\n*The influence of Non-local Means, Wavelets and DCT on the luminance noise.\n*The influence of Wavelets and DCT on the chroma noise.\n*The influence of Capture Sharpening and Demosaicing.
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -4204,36 +4338,60 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RGBCURVE_TOOLTIP;In RGB mode you have 4 choices : Standard, Weighted standard, Luminance &amp; Film-like.
 !TP_LOCALLAB_SATCIE;Saturation control
 !TP_LOCALLAB_SATURV;Saturation (s)
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_STRENGTHCIELOG;Strength
 !TP_LOCALLAB_TE_PIVOT;Pivot (Ev)
 !TP_LOCALLAB_TOOLMASK_2;Wavelets
@@ -4251,6 +4409,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_PREPROCWB_MODE;Mode
 !TP_PREPROCWB_MODE_AUTO;Auto
 !TP_PREPROCWB_MODE_CAMERA;Camera
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear
 !TP_RAW_DCBBILINEAR;DCB+Bilinear
 !TP_RAW_PIXELSHIFTAVERAGE;Use average for moving parts
@@ -4291,6 +4450,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_WAVELET_COMPNORMAL;Standard
 !TP_WAVELET_CONTFRAME;Contrast - Compression
 !TP_WAVELET_CURVEEDITOR_BL_TOOLTIP;Disabled if zoom > about 300%.
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
@@ -4320,6 +4480,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_WAVELET_LEVELLOW;Radius 1-4
 !TP_WAVELET_LEVELSIGM;Radius
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_LOWTHR_TOOLTIP;Prevents amplification of fine textures and noise.
 !TP_WAVELET_MERGEC;Merge chroma
@@ -4330,8 +4491,14 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise
 !TP_WAVELET_MIXNOISE;Noise
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4339,6 +4506,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Arrière\nRaccourci: <b>-</b>
 !TP_WAVELET_RESBLUR;Blur luminance
 !TP_WAVELET_RESBLURC;Blur chroma
 !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SHA;Sharp mask
 !TP_WAVELET_SHFRAME;Shadows/Highlights
 !TP_WAVELET_SHOWMASK;Show wavelet 'mask'

rtdata/languages/Italiano

@@ -4250,13 +4250,52 @@ ZOOMPANEL_ZOOMOUT;Rimpicciolisci.\nScorciatoia: <b>-</b>
 !!!!!!!!!!!!!!!!!!!!!!!!!
 
 !FILEBROWSER_SHOWRECURSIVE;Show images in sub-folders recursively.
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_ICM_CAT;Matrix adaptation
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -4275,6 +4314,7 @@ ZOOMPANEL_ZOOMOUT;Rimpicciolisci.\nScorciatoia: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -4285,7 +4325,7 @@ ZOOMPANEL_ZOOMOUT;Rimpicciolisci.\nScorciatoia: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -4294,21 +4334,30 @@ ZOOMPANEL_ZOOMOUT;Rimpicciolisci.\nScorciatoia: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
 !HISTORY_MSG_LOCAL_FEATHEREXE;Local - Exp Gradient feather
@@ -4317,10 +4366,28 @@ ZOOMPANEL_ZOOMOUT;Rimpicciolisci.\nScorciatoia: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERSH;Local - SH Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
+!PARTIALPASTE_FRAMING;Framing
 !PREFERENCES_BROWSERECURSIVEDEPTH;Browse sub-folders depth
 !PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
 !PREFERENCES_BROWSERECURSIVEMAXDIRS;Maximum sub-folders
@@ -4352,7 +4419,66 @@ ZOOMPANEL_ZOOMOUT;Rimpicciolisci.\nScorciatoia: <b>-</b>
 !TC_LOCALLAB_PRIM_SHIFTX_TOOLTIP;In combination with "Refine colors", allows you to:\n 1) for low values, adjust the image purity.\n 2) for higher values, carry out moderate color toning.\nBe careful not to go outside the CIE xy diagram.
 !TC_LOCALLAB_PRIM_SHIFTY;Shift y
 !TC_PRIM_REFI;Refine colors (white-point)
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_ICM_BW;Black and White
+!TP_ICM_OPACITYWLI;Variable contrast
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -4365,57 +4491,99 @@ ZOOMPANEL_ZOOMOUT;Rimpicciolisci.\nScorciatoia: <b>-</b>
 !TP_ICM_WORKING_PRIM_FREE;Custom LA (sliders)
 !TP_ICM_WORKING_PRIM_JDCMAXSTDA;JDC Max stdA
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COMPRCIE;Brightness compression
 !TP_LOCALLAB_COMPRCIETH;Compression threshold
 !TP_LOCALLAB_COMPRLOG_TOOLTIP;This algorithm compress the data before log conversion, above the threshold slider value. To use in conjunction with Whites distribution.
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_ENABLE_MASKALL;Enable all mask tools
 !TP_LOCALLAB_EXMAIN;Global
 !TP_LOCALLAB_FEATVALUE_MASK;Feather gradient (Grad. Filters Mask)
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_MIDTCIE;Midtones
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_SATCIE;Saturation control
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_STRENGTHCIELOG;Strength
 !TP_LOCALLAB_TRCFRAME;Tone Response Curve & Midtones
+!TP_RAWEXPOS_DEHA;Dehaze
+!TP_WAVELET_DAUB20;D20 - high plus
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
+!TP_WAVELET_OFFSFIN;Offset
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
+!TP_WAVELET_RESIDTRC;Residual contrast

rtdata/languages/Japanese

@@ -1485,7 +1485,6 @@ HISTORY_MSG_LOCAL_CIE_GREYL;ローカル編集 CIECAM - グリーン Y
 HISTORY_MSG_LOCAL_CIE_ILL;ローカル編集 CIECAM TRC 輝度
 HISTORY_MSG_LOCAL_CIE_LOGCIEQ;ローカル編集 CIECAM 対数符号化 Q
 HISTORY_MSG_LOCAL_CIE_MIDT;ローカル編集 CIECAM 中間トーン
-HISTORY_MSG_LOCAL_CIE_NORM;ローカル編集 CIECAM 輝度の正常化
 HISTORY_MSG_LOCAL_CIE_PRIM;ローカル編集 CIECAM TRC 原色
 HISTORY_MSG_LOCAL_CIE_REDXL;ローカル編集 CIECAM - レッド X
 HISTORY_MSG_LOCAL_CIE_REDYL;ローカル編集 CIECAM - レッド Y
@@ -2901,7 +2900,6 @@ TP_LOCALLAB_BUTTON_REN;名前の変更
 TP_LOCALLAB_BUTTON_VIS;表示/非表示
 TP_LOCALLAB_BWEVNONE;なし
 TP_LOCALLAB_BWEVSIG;有効
-TP_LOCALLAB_BWEVSIGLOG;シグモイド & 対数符号化
 TP_LOCALLAB_BWFORCE;ブラックEvとホワイトEvを使う
 TP_LOCALLAB_CAM16PQREMAP;HDR PQ(最大輝度)
 TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;CAM16に適応したPQ (知覚量子化)。これによりPQの内部関数を変えることが出来ます(通常は10000カンデラ毎平方メートル - デフォルトは100カンデラ毎平方メートルですが無効になります\n異なるデバイスや画像を扱う場合に使えます。
@@ -4400,6 +4398,56 @@ ZOOMPANEL_ZOOMOUT;ズームアウト\nショートカット: <b>-</b>
 ! Untranslated keys follow; remove the ! prefix after an entry is translated.
 !!!!!!!!!!!!!!!!!!!!!!!!!
 
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
 !HISTORY_MSG_LOCAL_FEATHEREXE;Local - Exp Gradient feather
@@ -4408,10 +4456,130 @@ ZOOMPANEL_ZOOMOUT;ズームアウト\nショートカット: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERSH;Local - SH Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
+!PARTIALPASTE_FRAMING;Framing
 !PREFERENCES_RAW_DECODER;Raw Decoder
 !PREFERENCES_RAW_DECODER_ENABLE_LIBRAW;Use LibRaw
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
+!TP_ICM_OPACITYWLI;Variable contrast
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
+!TP_LOCALLAB_BWEVNONE11;None
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
 !TP_LOCALLAB_FEATVALUE_MASK;Feather gradient (Grad. Filters Mask)
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
+!TP_RAWEXPOS_DEHA;Dehaze
+!TP_WAVELET_DAUB20;D20 - high plus
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
+!TP_WAVELET_OFFSFIN;Offset
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WBALANCE_STUDLABEL0;Correlation factor: %1 Passes:%2 Alt=%3
 !//TP_WBALANCE_ITCWBNOPURPLE_TOOLTIP;By default when "Inpaint opposed" is activated, purple colors are not taken into account. However, if the image does not need highlight reconstruction, or if this image naturally contains purple tints (flowers, etc.), it may be necessary to deactivate, to take into account all the colors.
 !//TP_WBALANCE_ITCWB_FORCED;Forces use of the entire CIE diagram

rtdata/languages/Magyar

@@ -2138,8 +2138,8 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2205,7 +2205,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2322,9 +2322,9 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2332,9 +2332,9 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2390,9 +2390,9 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2401,6 +2401,16 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_CLAMPOOG;Clip out-of-gamut colors
 !HISTORY_MSG_COLORTONING_LABGRID_VALUE;CT - Color correction
 !HISTORY_MSG_COLORTONING_LABREGION_AB;CT - Color correction
@@ -2418,12 +2428,16 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_DEPTH;Dehaze - Depth
 !HISTORY_MSG_DEHAZE_ENABLED;Haze Removal
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DEHAZE_SHOW_DEPTH_MAP;Dehaze - Show depth map
 !HISTORY_MSG_DEHAZE_STRENGTH;Dehaze - Strength
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;Dual demosaic - Auto threshold
 !HISTORY_MSG_DUALDEMOSAIC_CONTRAST;Dual demosaic - Contrast threshold
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
@@ -2433,6 +2447,24 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HISTMATCHING;Auto-matched tone curve
 !HISTORY_MSG_HLBL;Color propagation - blur
@@ -2447,17 +2479,23 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
 !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
 !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
@@ -2470,6 +2508,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_LOCALCONTRAST_LIGHTNESS;Local Contrast - Lightness
 !HISTORY_MSG_LOCALCONTRAST_RADIUS;Local Contrast - Radius
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -2488,6 +2527,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -2498,7 +2538,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -2507,21 +2547,30 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -2532,10 +2581,25 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_METADATA_MODE;Metadata copy mode
 !HISTORY_MSG_MICROCONTRAST_CONTRAST;Microcontrast - Contrast threshold
@@ -2588,6 +2652,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -2644,7 +2709,9 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !HISTORY_MSG_WBITC_SORTED;Itcwb ponderated
 !HISTORY_MSG_WBITC_THRES;Itcwb Threshold
 !HISTORY_NEWSNAPSHOT_TOOLTIP;Shortcut: <b>Alt-s</b>
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_TONE_EQUALIZER;Tone equalizer
 !PREFERENCES_BROWSERECURSIVEDEPTH;Browse sub-folders depth
 !PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
@@ -2788,6 +2855,28 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_COLORTONING_TWOBY;Special a* and b*
 !TP_COLORTONING_TWOCOLOR_TOOLTIP;Standard chroma:\nLinear response, a* = b*.\n\nSpecial chroma:\nLinear response, a* = b*, but unbound - try under the diagonal.\n\nSpecial a* and b*:\nLinear response unbound with separate curves for a* and b*. Intended for special effects.\n\nSpecial chroma 2 colors:\nMore predictable.
 !TP_COLORTONING_TWOSTD;Standard chroma
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_GTFRAME;Frame
 !TP_CROP_GTHARMMEANS;Harmonic Means
@@ -2862,6 +2951,8 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_DIRPYREQUALIZER_SKIN_TOOLTIP;At -100 skin-tones are targetted.\nAt 0 all tones are treated equally.\nAt +100 skin-tones are protected while all other tones are affected.
 !TP_DIRPYREQUALIZER_TOOLTIP;Attempts to reduce artifacts in the transitions between skin colors (hue, chroma, luma) and the rest of the image.
 !TP_DISTORTION_AUTO_TOOLTIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_EPD_GAMMA;Gamma
 !TP_EXPOSURE_CLAMPOOG;Clip out-of-gamut colors
 !TP_EXPOSURE_CURVEEDITOR1;Tone curve 1
@@ -2904,6 +2995,36 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_FLATFIELD_CLIPCONTROL;Clip control
 !TP_FLATFIELD_CLIPCONTROL_TOOLTIP;Clip control avoids clipped highlights caused by applying the flat field. If there are already clipped highlights before applying the flat field, value 0 is used.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_GENERAL_11SCALE_TOOLTIP;The effects of this tool are only visible or only accurate at a preview scale of 1:1.
 !TP_GRADIENT_CENTER;Center
 !TP_GRADIENT_CENTER_X;Center X
@@ -2937,8 +3058,10 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
@@ -2948,11 +3071,14 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_ICM_SAVEREFERENCE_APPLYWB;Apply white balance
 !TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generally, apply the white balance when saving images to create ICC profiles, and do not apply the white balance to create DCP profiles.
 !TP_ICM_SAVEREFERENCE_TOOLTIP;Save the linear TIFF image before the input profile is applied. The result can be used for calibration purposes and generation of a camera profile.
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TONECURVE;Tone curve
 !TP_ICM_TONECURVE_TOOLTIP;Employ the embedded DCP tone curve. The setting is only available if the selected DCP has a tone curve.
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -2995,6 +3121,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC;Tone response curve:
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
@@ -3039,6 +3166,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LABCURVE_RSTPRO_TOOLTIP;Works on the Chromaticity slider and the CC curve.
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
 !TP_LENSPROFILE_CORRECTION_LCPFILE;LCP file
 !TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
@@ -3067,6 +3195,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3108,14 +3237,16 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3138,9 +3269,9 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3149,16 +3280,19 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3173,9 +3307,9 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3215,8 +3349,8 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3237,7 +3371,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3312,7 +3446,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3376,16 +3510,16 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3394,7 +3528,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3443,8 +3577,8 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3459,16 +3593,16 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3478,7 +3612,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3493,20 +3627,20 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3515,29 +3649,29 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3624,12 +3758,18 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3639,7 +3779,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -3712,73 +3852,91 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -3786,7 +3944,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -3805,7 +3963,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -3968,6 +4126,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_RAWEXPOS_BLACK_BLUE;Blue
 !TP_RAWEXPOS_BLACK_GREEN;Green
 !TP_RAWEXPOS_BLACK_RED;Red
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAWEXPOS_RGB;Red, Green, Blue
 !TP_RAW_1PASSMEDIUM;1-pass (Markesteijn)
 !TP_RAW_2PASS;1-pass+fast
@@ -4243,8 +4402,9 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_WAVELET_DAUB6;D6 - standard plus
 !TP_WAVELET_DAUB10;D10 - medium
 !TP_WAVELET_DAUB14;D14 - high
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
-!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 = Often best performance, 10% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
+!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 D20 = Often best performance, 15% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
 !TP_WAVELET_DENL;Correction structure
@@ -4318,6 +4478,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_WAVELET_LEVF;Contrast
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
 !TP_WAVELET_LEVLABEL;Preview maximum possible levels = %1
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LEVONE;Level 2
 !TP_WAVELET_LEVTHRE;Level 4
 !TP_WAVELET_LEVTWO;Level 3
@@ -4347,6 +4508,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_WAVELET_NPTYPE;Neighboring pixels
 !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_OPACITY;Opacity blue-yellow
 !TP_WAVELET_OPACITYW;Contrast balance d/v-h curve
@@ -4355,6 +4517,11 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_WAVELET_PASTEL;Pastel chroma
 !TP_WAVELET_PROC;Process
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4369,6 +4536,7 @@ ZOOMPANEL_ZOOMOUT;Kicsinyítés <b>-</b>
 !TP_WAVELET_RESCON;Shadows
 !TP_WAVELET_RESCONH;Highlights
 !TP_WAVELET_RESID;Residual Image
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SAT;Saturated chroma
 !TP_WAVELET_SETTINGS;Wavelet Settings
 !TP_WAVELET_SHA;Sharp mask

rtdata/languages/Nederlands

@@ -1485,7 +1485,6 @@ HISTORY_MSG_LOCAL_CIE_GREYL;Lokaal - CIECAM groen Y
 HISTORY_MSG_LOCAL_CIE_ILL;Lokaal - CIECAM TRC Lichtbron
 HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Lokaal - CIECAM Log-codering Q
 HISTORY_MSG_LOCAL_CIE_MIDT;Lokaal - CIECAM Middentonen
-HISTORY_MSG_LOCAL_CIE_NORM;Lokaal - CIECAM Normaliseer L
 HISTORY_MSG_LOCAL_CIE_PRIM;Lokaal - CIECAM TRC primaire kleuren
 HISTORY_MSG_LOCAL_CIE_REDXL;Lokaal - CIECAM rood X
 HISTORY_MSG_LOCAL_CIE_REDYL;Lokaal - CIECAM rood Y
@@ -2912,7 +2911,6 @@ TP_LOCALLAB_BUTTON_REN;Hernoem
 TP_LOCALLAB_BUTTON_VIS;Toon/verberg
 TP_LOCALLAB_BWEVNONE;Geen
 TP_LOCALLAB_BWEVSIG;Geactiveerd
-TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-codering
 TP_LOCALLAB_BWFORCE;Gebruik Zwart LW & Wit LW
 TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Piekluminantie)
 TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) aangepast aan CAM16 (experimenteel). Hiermee kunt u de interne PQ-functie wijzigen (meestal 10000 cd/m2 - standaard 100 cd/m2 - uitgeschakeld voor 100 cd/m2).\nKan bijvoorbeeld worden gebruikt om CAM16-verwerking af te stemmen op de maximale monitorhelderheid van 400 cd/m2.
@@ -4431,5 +4429,175 @@ ZOOMPANEL_ZOOMOUT;Zoom uit\nSneltoets: <b>-</b>
 !HISTORY_MSG_470;--unused--
 !HISTORY_MSG_580;--unused--
 !HISTORY_MSG_664;--unused--
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
+!PARTIALPASTE_FRAMING;Framing
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
+!TP_ICM_OPACITYWLI;Variable contrast
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
+!TP_LENSGEOM_SCALE;Scale
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
+!TP_LOCALLAB_BWEVNONE11;None
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
+!TP_RAWEXPOS_DEHA;Dehaze
+!TP_WAVELET_DAUB20;D20 - high plus
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
+!TP_WAVELET_OFFSFIN;Offset
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !//TP_WBALANCE_ITCWBNOPURPLE_TOOLTIP;By default when "Inpaint opposed" is activated, purple colors are not taken into account. However, if the image does not need highlight reconstruction, or if this image naturally contains purple tints (flowers, etc.), it may be necessary to deactivate, to take into account all the colors.
 !//TP_WBALANCE_ITCWB_FORCED;Forces use of the entire CIE diagram

rtdata/languages/Polish

@@ -2449,8 +2449,8 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2516,7 +2516,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2633,9 +2633,9 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2643,9 +2643,9 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2701,9 +2701,9 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2712,6 +2712,16 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COLORTONING_LABREGION_CHROMATICITYMASK;CT - region C mask
 !HISTORY_MSG_COLORTONING_LABREGION_HUEMASK;CT - H mask
 !HISTORY_MSG_COLORTONING_LABREGION_LIGHTNESS;CT - Lightness
@@ -2724,8 +2734,12 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;Dual demosaic - Auto threshold
 !HISTORY_MSG_DUALDEMOSAIC_CONTRAST;Dual demosaic - Contrast threshold
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
@@ -2735,6 +2749,24 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HISTMATCHING;Auto-matched tone curve
 !HISTORY_MSG_HLBL;Color propagation - blur
@@ -2749,17 +2781,23 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
 !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
 !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
@@ -2767,6 +2805,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_ICM_WORKING_TRC_METHOD;TRC method
 !HISTORY_MSG_ILLUM;CAL - SC - Illuminant
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -2785,6 +2824,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -2795,7 +2835,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -2804,21 +2844,30 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -2829,10 +2878,25 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_METADATA_MODE;Metadata copy mode
 !HISTORY_MSG_PDSHARPEN_RADIUS_BOOST;CS - Corner radius boost
@@ -2869,6 +2933,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_PIVOT;Tone equalizer - Pivot
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -2952,9 +3017,11 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !OPTIONS_BUNDLED_MISSING;The bundled profile '<b>%1</b>' could not be found!\n\nYour installation could be damaged.\n\nDefault internal values will be used instead.
 !OPTIONS_DEFIMG_MISSING;The default profile for <b>non-raw photos</b> could not be found or is not set.\n\nPlease check your profiles' directory, it may be missing or damaged.\n\n'<b>%1</b>' will be used instead.
 !OPTIONS_DEFRAW_MISSING;The default profile for <b>raw photos</b> could not be found or is not set.\n\nPlease check your profiles' directory, it may be missing or damaged.\n\n'<b>%1</b>' will be used instead.
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_EQUALIZER;Wavelet levels
 !PARTIALPASTE_FILMNEGATIVE;Film negative
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
 !PARTIALPASTE_METADATA;Metadata mode
@@ -2975,7 +3042,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !PREFERENCES_CACHECLEAR_ALLBUTPROFILES;Clear all cached files except for cached processing profiles:
 !PREFERENCES_CACHECLEAR_SAFETY;Only files in the cache are cleared. Processing profiles stored alongside the source images are not touched.
 !PREFERENCES_CAMERAPROFILESDIR;Camera profiles directory
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_CLUTSCACHE_LABEL;Maximum number of cached CLUTs
 !PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
@@ -3109,7 +3176,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_FREE;Free temp + tint + CAT02/16 +[output]
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
@@ -3139,6 +3206,28 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_COLORTONING_LABREGIONS;Color correction regions
 !TP_COLORTONING_LABREGION_ABVALUES;a=%1 b=%2
 !TP_COLORTONING_LABREGION_LIGHTNESS;Lightness
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_GTHARMMEANS;Harmonic Means
 !TP_CROP_GTTRIANGLE1;Golden Triangles 1
@@ -3160,6 +3249,8 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_DIRPYRDENOISE_MEDIAN_PASSES_TOOLTIP;Applying three median filter iterations with a 3×3 window size often leads to better results than using one median filter iteration with a 7×7 window size.
 !TP_DIRPYRDENOISE_MEDIAN_TYPE_TOOLTIP;Apply a median filter of the desired window size. The larger the window's size, the longer it takes.\n\n3×3 soft: treats 5 pixels in a 3×3 pixel window.\n3×3: treats 9 pixels in a 3×3 pixel window.\n5×5 soft: treats 13 pixels in a 5×5 pixel window.\n5×5: treats 25 pixels in a 5×5 pixel window.\n7×7: treats 49 pixels in a 7×7 pixel window.\n9×9: treats 81 pixels in a 9×9 pixel window.\n\nSometimes it is possible to achieve higher quality running several iterations with a smaller window size than one iteration with a larger one.
 !TP_DISTORTION_AUTO_TOOLTIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_EXPOSURE_HISTMATCHING;Auto-Matched Tone Curve
 !TP_EXPOSURE_HISTMATCHING_TOOLTIP;Automatically adjust sliders and curves (except exposure compensation) to match the look of the embedded JPEG thumbnail.
 !TP_FILMNEGATIVE_BLUEBALANCE;Cool/Warm
@@ -3178,6 +3269,36 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_FILMNEGATIVE_REF_TOOLTIP;Pick a gray patch for white-balancing the output, positive image.
 !TP_FILMSIMULATION_SLOWPARSEDIR;RawTherapee is configured to look for Hald CLUT images, which are used for the Film Simulation tool, in a folder which is taking too long to load.\nGo to Preferences > Image Processing > Film Simulation\nto see which folder is being used. You should either point RawTherapee to a folder which contains only Hald CLUT images and nothing more, or to an empty folder if you don't want to use the Film Simulation tool.\n\nRead the Film Simulation article in RawPedia for more information.\n\nDo you want to cancel the scan now?
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3193,8 +3314,10 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
@@ -3202,9 +3325,12 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_ICM_REDFRAME;Custom Primaries
 !TP_ICM_SAVEREFERENCE;Save Reference Image
 !TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generally, apply the white balance when saving images to create ICC profiles, and do not apply the white balance to create DCP profiles.
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3247,11 +3373,13 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
 !TP_ICM_WORKING_TRC_LIN;Linear g=1
 !TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
 !TP_LENSPROFILE_LENS_WARNING;Warning: the crop factor used for lens profiling is larger than the crop factor of the camera, the results might be wrong.
 !TP_LOCALLAB_ACTIV;Luminance only
@@ -3266,6 +3394,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3307,14 +3436,16 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3337,9 +3468,9 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3348,16 +3479,19 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3372,9 +3506,9 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3414,8 +3548,8 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3436,7 +3570,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3511,7 +3645,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3575,16 +3709,16 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3593,7 +3727,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3642,8 +3776,8 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3658,16 +3792,16 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3677,7 +3811,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3692,20 +3826,20 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3714,29 +3848,29 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3823,12 +3957,18 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3838,7 +3978,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -3911,73 +4051,91 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -3985,7 +4143,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -4004,7 +4162,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -4135,6 +4293,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_PREPROCWB_MODE_CAMERA;Camera
 !TP_PRSHARPENING_TOOLTIP;Sharpens the image after resizing. Only works when the 'Lanczos' resizing method is used. It is impossible to preview the effects of this tool. See RawPedia for usage instructions.
 !TP_RAWCACORR_AUTOIT_TOOLTIP;This setting is available if 'Auto-correction' is checked.\nAuto-correction is conservative, meaning that it often does not correct all chromatic aberration.\nTo correct the remaining chromatic aberration, you can use up to five iterations of automatic chromatic aberration correction.\nEach iteration will reduce the remaining chromatic aberration from the last iteration at the cost of additional processing time.
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear
 !TP_RAW_BORDER;Border
 !TP_RAW_DCBBILINEAR;DCB+Bilinear
@@ -4259,8 +4418,9 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_WAVELET_CURVEEDITOR_CL_TOOLTIP;Applies a final contrast-luminance curve at the end of the wavelet processing.
 !TP_WAVELET_CURVEEDITOR_HH_TOOLTIP;Modifies the residual image hue as a function of hue.
 !TP_WAVELET_DAUB;Edge performance
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
-!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 = Often best performance, 10% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
+!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 D20 = Often best performance, 15% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
 !TP_WAVELET_DENL;Correction structure
@@ -4312,6 +4472,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_WAVELET_LEVELS_TOOLTIP;Choose the number of wavelet decomposition levels for the image.\nMore levels require more RAM and require a longer processing time.
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
 !TP_WAVELET_LEVLABEL;Preview maximum possible levels = %1
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_LOWTHR_TOOLTIP;Prevents amplification of fine textures and noise.
 !TP_WAVELET_MEDILEV_TOOLTIP;When you enable Edge Detection, it is recommanded:\n- to disabled low contrast levels to avoid artifacts,\n- to use high values of gradient sensitivity.\n\nYou can modulate the strength with 'refine' from Denoise and Refine.
@@ -4325,12 +4486,18 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_WAVELET_NOISE;Denoise and Refine
 !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_OPACITY;Opacity blue-yellow
 !TP_WAVELET_OPACITYW;Contrast balance d/v-h curve
 !TP_WAVELET_OPACITYWL;Local contrast
 !TP_WAVELET_OPACITYWL_TOOLTIP;Modify the final local contrast at the end of the wavelet treatment.\n\nThe left side represents the smallest local contrast, progressing to the largest local contrast on the right.
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4339,6 +4506,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
 !TP_WAVELET_RESBLURC;Blur chroma
 !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
 !TP_WAVELET_RESID;Residual Image
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SETTINGS;Wavelet Settings
 !TP_WAVELET_SHA;Sharp mask
 !TP_WAVELET_SHFRAME;Shadows/Highlights

rtdata/languages/Portugues

@@ -2661,8 +2661,8 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2728,7 +2728,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2845,9 +2845,9 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2855,9 +2855,9 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2913,9 +2913,9 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2924,10 +2924,24 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
 !HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
 !HISTORY_MSG_FILMNEGATIVE_BALANCE;FN - Reference output
@@ -2935,6 +2949,24 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLBL;Color propagation - blur
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -2948,18 +2980,25 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
 !HISTORY_MSG_ILLUM;CAL - SC - Illuminant
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -2978,6 +3017,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -2988,7 +3028,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -2997,21 +3037,30 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -3022,10 +3071,25 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_PDSHARPEN_AUTO_CONTRAST;CS - Auto threshold
 !HISTORY_MSG_PDSHARPEN_AUTO_RADIUS;CS - Auto radius
@@ -3062,6 +3126,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -3123,8 +3188,10 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !MAIN_FRAME_PLACES_DEL;Remove
 !MAIN_TAB_LOCALLAB;Selective Editing
 !MAIN_TAB_LOCALLAB_TOOLTIP;Shortcut: <b>Alt-o</b>
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FILMNEGATIVE;Film negative
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
 !PARTIALPASTE_PREPROCWB;Preprocess White Balance
@@ -3134,7 +3201,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
 !PREFERENCES_BROWSERECURSIVEMAXDIRS;Maximum sub-folders
 !PREFERENCES_CAMERAPROFILESDIR;Camera profiles directory
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
 !PREFERENCES_COMPLEXITY_EXP;Advanced
@@ -3247,7 +3314,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D65) into new values whose white point is that of the new illuminant - see WP model (for example D50 or D55).
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
@@ -3270,11 +3337,35 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_COLORAPP_VIEWINGF_TOOLTIP;Takes into account the support on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as its environment. This process will take the data coming from process 'Image Adjustments' and 'bring' it to the support in such a way that the viewing conditions and its environment are taken into account.
 !TP_COLORAPP_YBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
 !TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_PPI;PPI
 !TP_DEHAZE_SATURATION;Saturation
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_FILMNEGATIVE_BLUE;Blue ratio
 !TP_FILMNEGATIVE_BLUEBALANCE;Cool/Warm
 !TP_FILMNEGATIVE_COLORSPACE;Inversion color space:
@@ -3294,6 +3385,36 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_FILMNEGATIVE_REF_SIZE;Size:
 !TP_FILMNEGATIVE_REF_TOOLTIP;Pick a gray patch for white-balancing the output, positive image.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3303,15 +3424,20 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
 !TP_ICM_REDFRAME;Custom Primaries
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3354,6 +3480,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
@@ -3361,6 +3488,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
 !TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
@@ -3379,6 +3507,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3420,14 +3549,16 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3450,9 +3581,9 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3461,16 +3592,19 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3485,9 +3619,9 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3527,8 +3661,8 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3549,7 +3683,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3624,7 +3758,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3688,16 +3822,16 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3706,7 +3840,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3755,8 +3889,8 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3771,16 +3905,16 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3790,7 +3924,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3805,20 +3939,20 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3827,29 +3961,29 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3936,12 +4070,18 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3951,7 +4091,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -4024,73 +4164,91 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -4098,7 +4256,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -4117,7 +4275,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -4244,6 +4402,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_PREPROCWB_MODE;Mode
 !TP_PREPROCWB_MODE_AUTO;Auto
 !TP_PREPROCWB_MODE_CAMERA;Camera
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear
 !TP_RAW_DCBBILINEAR;DCB+Bilinear
 !TP_RAW_PIXELSHIFTAVERAGE;Use average for moving parts
@@ -4291,6 +4450,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_WAVELET_COMPNORMAL;Standard
 !TP_WAVELET_CONTFRAME;Contrast - Compression
 !TP_WAVELET_CURVEEDITOR_BL_TOOLTIP;Disabled if zoom > about 300%.
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
@@ -4321,6 +4481,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_WAVELET_LEVELLOW;Radius 1-4
 !TP_WAVELET_LEVELSIGM;Radius
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_LOWTHR_TOOLTIP;Prevents amplification of fine textures and noise.
 !TP_WAVELET_MERGEC;Merge chroma
@@ -4331,8 +4492,14 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise
 !TP_WAVELET_MIXNOISE;Noise
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4340,6 +4507,7 @@ ZOOMPANEL_ZOOMOUT;Afastar\nAtalho: <b>-</b>
 !TP_WAVELET_RESBLUR;Blur luminance
 !TP_WAVELET_RESBLURC;Blur chroma
 !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SHA;Sharp mask
 !TP_WAVELET_SHFRAME;Shadows/Highlights
 !TP_WAVELET_SHOWMASK;Show wavelet 'mask'

rtdata/languages/Portugues (Brasil)

@@ -2664,8 +2664,8 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2731,7 +2731,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2848,9 +2848,9 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2858,9 +2858,9 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2916,9 +2916,9 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2927,12 +2927,26 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COLORTONING_LABREGION_OFFSET;CT - region offset
 !HISTORY_MSG_COLORTONING_LABREGION_POWER;CT - region power
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
 !HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
 !HISTORY_MSG_FILMNEGATIVE_BALANCE;FN - Reference output
@@ -2940,6 +2954,24 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLBL;Color propagation - blur
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -2953,18 +2985,25 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
 !HISTORY_MSG_ILLUM;CAL - SC - Illuminant
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -2983,6 +3022,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -2993,7 +3033,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -3002,21 +3042,30 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -3027,10 +3076,25 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_PDSHARPEN_AUTO_CONTRAST;CS - Auto threshold
 !HISTORY_MSG_PDSHARPEN_AUTO_RADIUS;CS - Auto radius
@@ -3067,6 +3131,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -3127,8 +3192,10 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !INSPECTOR_WINDOW_TITLE;Inspector
 !MAIN_TAB_LOCALLAB;Selective Editing
 !MAIN_TAB_LOCALLAB_TOOLTIP;Shortcut: <b>Alt-o</b>
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FILMNEGATIVE;Film negative
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
 !PARTIALPASTE_PREPROCWB;Preprocess White Balance
@@ -3139,7 +3206,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !PREFERENCES_BROWSERECURSIVEMAXDIRS;Maximum sub-folders
 !PREFERENCES_CACHECLEAR_SAFETY;Only files in the cache are cleared. Processing profiles stored alongside the source images are not touched.
 !PREFERENCES_CAMERAPROFILESDIR;Camera profiles directory
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
 !PREFERENCES_COMPLEXITY_EXP;Advanced
@@ -3248,7 +3315,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D65) into new values whose white point is that of the new illuminant - see WP model (for example D50 or D55).
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
@@ -3273,11 +3340,35 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
 !TP_COLORTONING_LABREGION_OFFSET;Offset
 !TP_COLORTONING_LABREGION_POWER;Power
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_PPI;PPI
 !TP_DEHAZE_SATURATION;Saturation
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_FILMNEGATIVE_BLUEBALANCE;Cool/Warm
 !TP_FILMNEGATIVE_COLORSPACE;Inversion color space:
 !TP_FILMNEGATIVE_COLORSPACE_INPUT;Input color space
@@ -3294,6 +3385,36 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_FILMNEGATIVE_REF_SIZE;Size:
 !TP_FILMNEGATIVE_REF_TOOLTIP;Pick a gray patch for white-balancing the output, positive image.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3303,15 +3424,20 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
 !TP_ICM_REDFRAME;Custom Primaries
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3354,6 +3480,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
@@ -3361,6 +3488,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
 !TP_LENSPROFILE_LENS_WARNING;Warning: the crop factor used for lens profiling is larger than the crop factor of the camera, the results might be wrong.
 !TP_LENSPROFILE_USE_HEADER;Correct
@@ -3376,6 +3504,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3417,14 +3546,16 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3447,9 +3578,9 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3458,16 +3589,19 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3482,9 +3616,9 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3524,8 +3658,8 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3546,7 +3680,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3621,7 +3755,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3685,16 +3819,16 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3703,7 +3837,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3752,8 +3886,8 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3768,16 +3902,16 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3787,7 +3921,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3802,20 +3936,20 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3824,29 +3958,29 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3933,12 +4067,18 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3948,7 +4088,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -4021,73 +4161,91 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -4095,7 +4253,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -4114,7 +4272,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -4242,6 +4400,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_PREPROCWB_MODE_AUTO;Auto
 !TP_PREPROCWB_MODE_CAMERA;Camera
 !TP_RAWCACORR_AUTOIT_TOOLTIP;This setting is available if 'Auto-correction' is checked.\nAuto-correction is conservative, meaning that it often does not correct all chromatic aberration.\nTo correct the remaining chromatic aberration, you can use up to five iterations of automatic chromatic aberration correction.\nEach iteration will reduce the remaining chromatic aberration from the last iteration at the cost of additional processing time.
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear
 !TP_RAW_DCBBILINEAR;DCB+Bilinear
 !TP_RAW_DUALDEMOSAICAUTOCONTRAST_TOOLTIP;If the checkbox is checked (recommended), RawTherapee calculates an optimum value based on flat regions in the image.\nIf there is no flat region in the image or the image is too noisy, the value will be set to 0.\nTo set the value manually, uncheck the checkbox first (reasonable values depend on the image).
@@ -4291,6 +4450,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_WAVELET_COMPNORMAL;Standard
 !TP_WAVELET_CONTFRAME;Contrast - Compression
 !TP_WAVELET_CURVEEDITOR_BL_TOOLTIP;Disabled if zoom > about 300%.
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
@@ -4321,6 +4481,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_WAVELET_LEVELLOW;Radius 1-4
 !TP_WAVELET_LEVELSIGM;Radius
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_LOWTHR_TOOLTIP;Prevents amplification of fine textures and noise.
 !TP_WAVELET_MERGEC;Merge chroma
@@ -4331,8 +4492,14 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise
 !TP_WAVELET_MIXNOISE;Noise
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4340,6 +4507,7 @@ ZOOMPANEL_ZOOMOUT;Menos Zoom\nAtalho: <b>-</b>
 !TP_WAVELET_RESBLUR;Blur luminance
 !TP_WAVELET_RESBLURC;Blur chroma
 !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SHA;Sharp mask
 !TP_WAVELET_SHFRAME;Shadows/Highlights
 !TP_WAVELET_SHOWMASK;Show wavelet 'mask'

rtdata/languages/Russian

@@ -2088,8 +2088,8 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2155,7 +2155,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2272,9 +2272,9 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2282,9 +2282,9 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2340,9 +2340,9 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2351,6 +2351,16 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COLORTONING_LABGRID_VALUE;CT - Color correction
 !HISTORY_MSG_COLORTONING_LABREGION_AB;CT - Color correction
 !HISTORY_MSG_COLORTONING_LABREGION_CHANNEL;CT - Channel
@@ -2367,8 +2377,12 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;Dual demosaic - Auto threshold
 !HISTORY_MSG_DUALDEMOSAIC_CONTRAST;Dual demosaic - Contrast threshold
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
@@ -2378,6 +2392,24 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLBL;Color propagation - blur
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -2391,17 +2423,23 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
 !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
 !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
@@ -2409,6 +2447,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_ICM_WORKING_TRC_METHOD;TRC method
 !HISTORY_MSG_ILLUM;CAL - SC - Illuminant
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -2427,6 +2466,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -2437,7 +2477,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -2446,21 +2486,30 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -2471,10 +2520,25 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_MICROCONTRAST_CONTRAST;Microcontrast - Contrast threshold
 !HISTORY_MSG_PDSHARPEN_AUTO_CONTRAST;CS - Auto threshold
@@ -2523,6 +2587,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -2632,12 +2697,14 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !MAIN_TOOLTIP_PREVIEWSHARPMASK;Preview the <b>sharpening contrast mask</b>.\nShortcut: <b>p</b>\n\nOnly works when sharpening is enabled and zoom >= 100%, or when capture sharpening is enabled.
 !MONITOR_PROFILE_SYSTEM;System default
 !PARTIALPASTE_COLORTONING;Color toning
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_DEHAZE;Haze removal
 !PARTIALPASTE_EQUALIZER;Wavelet levels
 !PARTIALPASTE_FILMNEGATIVE;Film negative
 !PARTIALPASTE_FILMSIMULATION;Film simulation
 !PARTIALPASTE_FLATFIELDCLIPCONTROL;Flat-field clip control
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
 !PARTIALPASTE_PREPROCESS_PDAFLINESFILTER;PDAF lines filter
@@ -2665,7 +2732,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !PREFERENCES_CHUNKSIZE_RAW_RCD;RCD demosaic
 !PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic
 !PREFERENCES_CHUNKSIZE_RGB;RGB processing
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_CLUTSCACHE;HaldCLUT Cache
 !PREFERENCES_CLUTSCACHE_LABEL;Maximum number of cached CLUTs
@@ -2829,7 +2896,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_FREE;Free temp + tint + CAT02/16 +[output]
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_HUE_TOOLTIP;Hue (h) is the degree to which a stimulus can be described as similar to a color described as red, green, blue and yellow.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
@@ -2941,6 +3008,28 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_COLORTONING_TWOBY;Special a* and b*
 !TP_COLORTONING_TWOCOLOR_TOOLTIP;Standard chroma:\nLinear response, a* = b*.\n\nSpecial chroma:\nLinear response, a* = b*, but unbound - try under the diagonal.\n\nSpecial a* and b*:\nLinear response unbound with separate curves for a* and b*. Intended for special effects.\n\nSpecial chroma 2 colors:\nMore predictable.
 !TP_COLORTONING_TWOSTD;Standard chroma
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_PPI;PPI
 !TP_DEHAZE_SATURATION;Saturation
@@ -2974,6 +3063,8 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_DIRPYREQUALIZER_SKIN_TOOLTIP;At -100 skin-tones are targetted.\nAt 0 all tones are treated equally.\nAt +100 skin-tones are protected while all other tones are affected.
 !TP_DIRPYREQUALIZER_TOOLTIP;Attempts to reduce artifacts in the transitions between skin colors (hue, chroma, luma) and the rest of the image.
 !TP_DISTORTION_AUTO_TOOLTIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_EXPOS_BLACKPOINT_LABEL;Raw Black Points
 !TP_EXPOS_WHITEPOINT_LABEL;Raw White Points
 !TP_FILMNEGATIVE_BLUE;Blue ratio
@@ -2998,6 +3089,36 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_FLATFIELD_CLIPCONTROL;Clip control
 !TP_FLATFIELD_CLIPCONTROL_TOOLTIP;Clip control avoids clipped highlights caused by applying the flat field. If there are already clipped highlights before applying the flat field, value 0 is used.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3014,8 +3135,10 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
@@ -3024,9 +3147,12 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_ICM_SAVEREFERENCE;Save Reference Image
 !TP_ICM_SAVEREFERENCE_APPLYWB;Apply white balance
 !TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generally, apply the white balance when saving images to create ICC profiles, and do not apply the white balance to create DCP profiles.
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3069,6 +3195,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC;Tone response curve:
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
@@ -3082,6 +3209,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_ICM_WORKING_TRC_TOOLTIP;Only for built-in profiles.
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
 !TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
@@ -3100,6 +3228,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3141,14 +3270,16 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3171,9 +3302,9 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3182,16 +3313,19 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3206,9 +3340,9 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3248,8 +3382,8 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3270,7 +3404,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3345,7 +3479,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3409,16 +3543,16 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3427,7 +3561,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3476,8 +3610,8 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3492,16 +3626,16 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3511,7 +3645,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3526,20 +3660,20 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3548,29 +3682,29 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3657,12 +3791,18 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3672,7 +3812,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -3745,73 +3885,91 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -3819,7 +3977,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -3838,7 +3996,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -3974,6 +4132,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_PRSHARPENING_LABEL;Post-Resize Sharpening
 !TP_PRSHARPENING_TOOLTIP;Sharpens the image after resizing. Only works when the 'Lanczos' resizing method is used. It is impossible to preview the effects of this tool. See RawPedia for usage instructions.
 !TP_RAWCACORR_AUTOIT_TOOLTIP;This setting is available if 'Auto-correction' is checked.\nAuto-correction is conservative, meaning that it often does not correct all chromatic aberration.\nTo correct the remaining chromatic aberration, you can use up to five iterations of automatic chromatic aberration correction.\nEach iteration will reduce the remaining chromatic aberration from the last iteration at the cost of additional processing time.
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_1PASSMEDIUM;1-pass (Markesteijn)
 !TP_RAW_2PASS;1-pass+fast
 !TP_RAW_3PASSBEST;3-pass (Markesteijn)
@@ -4199,8 +4358,9 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_WAVELET_DAUB6;D6 - standard plus
 !TP_WAVELET_DAUB10;D10 - medium
 !TP_WAVELET_DAUB14;D14 - high
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
-!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 = Often best performance, 10% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
+!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 D20 = Often best performance, 15% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
 !TP_WAVELET_DENL;Correction structure
@@ -4274,6 +4434,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_WAVELET_LEVF;Contrast
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
 !TP_WAVELET_LEVLABEL;Preview maximum possible levels = %1
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LEVONE;Level 2
 !TP_WAVELET_LEVTHRE;Level 4
 !TP_WAVELET_LEVTWO;Level 3
@@ -4303,6 +4464,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_WAVELET_NPTYPE;Neighboring pixels
 !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_OPACITY;Opacity blue-yellow
 !TP_WAVELET_OPACITYW;Contrast balance d/v-h curve
@@ -4311,6 +4473,11 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_WAVELET_PASTEL;Pastel chroma
 !TP_WAVELET_PROC;Process
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4325,6 +4492,7 @@ ZOOMPANEL_ZOOMOUT;Отдалить\nГорячая клавиша: <b>-</b>
 !TP_WAVELET_RESCON;Shadows
 !TP_WAVELET_RESCONH;Highlights
 !TP_WAVELET_RESID;Residual Image
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SAT;Saturated chroma
 !TP_WAVELET_SETTINGS;Wavelet Settings
 !TP_WAVELET_SHA;Sharp mask

rtdata/languages/Serbian (Cyrilic Characters)

@@ -1888,8 +1888,8 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -1955,7 +1955,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2072,9 +2072,9 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2082,9 +2082,9 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2140,9 +2140,9 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2151,6 +2151,16 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_CLAMPOOG;Clip out-of-gamut colors
 !HISTORY_MSG_COLORTONING_LABGRID_VALUE;CT - Color correction
 !HISTORY_MSG_COLORTONING_LABREGION_AB;CT - Color correction
@@ -2168,12 +2178,16 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_DEPTH;Dehaze - Depth
 !HISTORY_MSG_DEHAZE_ENABLED;Haze Removal
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DEHAZE_SHOW_DEPTH_MAP;Dehaze - Show depth map
 !HISTORY_MSG_DEHAZE_STRENGTH;Dehaze - Strength
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;Dual demosaic - Auto threshold
 !HISTORY_MSG_DUALDEMOSAIC_CONTRAST;Dual demosaic - Contrast threshold
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
@@ -2183,6 +2197,24 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HISTMATCHING;Auto-matched tone curve
 !HISTORY_MSG_HLBL;Color propagation - blur
@@ -2197,17 +2229,23 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
 !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
 !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
@@ -2220,6 +2258,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_LOCALCONTRAST_LIGHTNESS;Local Contrast - Lightness
 !HISTORY_MSG_LOCALCONTRAST_RADIUS;Local Contrast - Radius
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -2238,6 +2277,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -2248,7 +2288,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -2257,21 +2297,30 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -2282,10 +2331,25 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_METADATA_MODE;Metadata copy mode
 !HISTORY_MSG_MICROCONTRAST_CONTRAST;Microcontrast - Contrast threshold
@@ -2338,6 +2402,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -2490,12 +2555,14 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !OPTIONS_DEFRAW_MISSING;The default profile for <b>raw photos</b> could not be found or is not set.\n\nPlease check your profiles' directory, it may be missing or damaged.\n\n'<b>%1</b>' will be used instead.
 !PARTIALPASTE_ADVANCEDGROUP;Advanced Settings
 !PARTIALPASTE_COLORTONING;Color toning
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_DEHAZE;Haze removal
 !PARTIALPASTE_EQUALIZER;Wavelet levels
 !PARTIALPASTE_FILMNEGATIVE;Film negative
 !PARTIALPASTE_FILMSIMULATION;Film simulation
 !PARTIALPASTE_FLATFIELDCLIPCONTROL;Flat-field clip control
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALCONTRAST;Local contrast
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
@@ -2538,7 +2605,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !PREFERENCES_CHUNKSIZE_RAW_RCD;RCD demosaic
 !PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic
 !PREFERENCES_CHUNKSIZE_RGB;RGB processing
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_CLUTSCACHE;HaldCLUT Cache
 !PREFERENCES_CLUTSCACHE_LABEL;Maximum number of cached CLUTs
@@ -2742,7 +2809,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_FREE;Free temp + tint + CAT02/16 +[output]
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
@@ -2826,6 +2893,28 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_COLORTONING_TWOBY;Special a* and b*
 !TP_COLORTONING_TWOCOLOR_TOOLTIP;Standard chroma:\nLinear response, a* = b*.\n\nSpecial chroma:\nLinear response, a* = b*, but unbound - try under the diagonal.\n\nSpecial a* and b*:\nLinear response unbound with separate curves for a* and b*. Intended for special effects.\n\nSpecial chroma 2 colors:\nMore predictable.
 !TP_COLORTONING_TWOSTD;Standard chroma
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_GTHARMMEANS;Harmonic Means
 !TP_CROP_GTTRIANGLE1;Golden Triangles 1
@@ -2892,6 +2981,8 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_DIRPYREQUALIZER_SKIN_TOOLTIP;At -100 skin-tones are targetted.\nAt 0 all tones are treated equally.\nAt +100 skin-tones are protected while all other tones are affected.
 !TP_DIRPYREQUALIZER_TOOLTIP;Attempts to reduce artifacts in the transitions between skin colors (hue, chroma, luma) and the rest of the image.
 !TP_DISTORTION_AUTO_TOOLTIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_EPD_GAMMA;Gamma
 !TP_EXPOSURE_CLAMPOOG;Clip out-of-gamut colors
 !TP_EXPOSURE_HISTMATCHING;Auto-Matched Tone Curve
@@ -2925,6 +3016,36 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_FLATFIELD_CLIPCONTROL;Clip control
 !TP_FLATFIELD_CLIPCONTROL_TOOLTIP;Clip control avoids clipped highlights caused by applying the flat field. If there are already clipped highlights before applying the flat field, value 0 is used.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -2943,8 +3064,10 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_ICM_INPUTCAMERAICC_TOOLTIP;Use RawTherapee's camera-specific DCP or ICC input color profiles. These profiles are more precise than simpler matrix ones. They are not available for all cameras. These profiles are stored in the /iccprofiles/input and /dcpprofiles folders and are automatically retrieved based on a file name matching to the exact model name of the camera.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
@@ -2953,9 +3076,12 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_ICM_SAVEREFERENCE;Save Reference Image
 !TP_ICM_SAVEREFERENCE_APPLYWB;Apply white balance
 !TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generally, apply the white balance when saving images to create ICC profiles, and do not apply the white balance to create DCP profiles.
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -2998,6 +3124,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC;Tone response curve:
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
@@ -3011,6 +3138,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_ICM_WORKING_TRC_TOOLTIP;Only for built-in profiles.
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
 !TP_LENSPROFILE_CORRECTION_LCPFILE;LCP file
 !TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
@@ -3038,6 +3166,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3079,14 +3208,16 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3109,9 +3240,9 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3120,16 +3251,19 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3144,9 +3278,9 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3186,8 +3320,8 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3208,7 +3342,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3283,7 +3417,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3347,16 +3481,16 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3365,7 +3499,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3414,8 +3548,8 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3430,16 +3564,16 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3449,7 +3583,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3464,20 +3598,20 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3486,29 +3620,29 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3595,12 +3729,18 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3610,7 +3750,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -3683,73 +3823,91 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -3757,7 +3915,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -3776,7 +3934,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -3929,6 +4087,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_RAWEXPOS_BLACK_BLUE;Blue
 !TP_RAWEXPOS_BLACK_GREEN;Green
 !TP_RAWEXPOS_BLACK_RED;Red
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAWEXPOS_RGB;Red, Green, Blue
 !TP_RAW_1PASSMEDIUM;1-pass (Markesteijn)
 !TP_RAW_2PASS;1-pass+fast
@@ -4186,8 +4345,9 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_WAVELET_DAUB6;D6 - standard plus
 !TP_WAVELET_DAUB10;D10 - medium
 !TP_WAVELET_DAUB14;D14 - high
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
-!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 = Often best performance, 10% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
+!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 D20 = Often best performance, 15% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
 !TP_WAVELET_DENL;Correction structure
@@ -4261,6 +4421,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_WAVELET_LEVF;Contrast
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
 !TP_WAVELET_LEVLABEL;Preview maximum possible levels = %1
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LEVONE;Level 2
 !TP_WAVELET_LEVTHRE;Level 4
 !TP_WAVELET_LEVTWO;Level 3
@@ -4290,6 +4451,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_WAVELET_NPTYPE;Neighboring pixels
 !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_OPACITY;Opacity blue-yellow
 !TP_WAVELET_OPACITYW;Contrast balance d/v-h curve
@@ -4298,6 +4460,11 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_WAVELET_PASTEL;Pastel chroma
 !TP_WAVELET_PROC;Process
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4312,6 +4479,7 @@ ZOOMPANEL_ZOOMOUT;Умањује приказ слике <b>-</b>
 !TP_WAVELET_RESCON;Shadows
 !TP_WAVELET_RESCONH;Highlights
 !TP_WAVELET_RESID;Residual Image
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SAT;Saturated chroma
 !TP_WAVELET_SETTINGS;Wavelet Settings
 !TP_WAVELET_SHA;Sharp mask

rtdata/languages/Slovenian

@@ -2693,8 +2693,8 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2760,7 +2760,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2877,9 +2877,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2887,9 +2887,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2945,9 +2945,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2956,15 +2956,47 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
 !HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
 !HISTORY_MSG_FILMNEGATIVE_BALANCE;FN - Reference output
 !HISTORY_MSG_FILMNEGATIVE_COLORSPACE;Film negative color space
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HLBL;Color propagation - blur
 !HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
@@ -2978,18 +3010,25 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
 !HISTORY_MSG_ILLUM;CAL - SC - Illuminant
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -3008,6 +3047,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -3018,7 +3058,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -3027,21 +3067,30 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -3052,10 +3101,25 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_PDSHARPEN_CHECKITER;CS - Auto limit iterations
 !HISTORY_MSG_PERSP_CAM_ANGLE;Perspective - Camera
@@ -3086,6 +3150,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -3146,7 +3211,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !INSPECTOR_WINDOW_TITLE;Inspector
 !MAIN_TAB_LOCALLAB;Selective Editing
 !MAIN_TAB_LOCALLAB_TOOLTIP;Shortcut: <b>Alt-o</b>
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
 !PARTIALPASTE_PREPROCWB;Preprocess White Balance
@@ -3156,7 +3223,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
 !PREFERENCES_BROWSERECURSIVEMAXDIRS;Maximum sub-folders
 !PREFERENCES_CAMERAPROFILESDIR;Camera profiles directory
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
 !PREFERENCES_COMPLEXITY_EXP;Advanced
@@ -3262,7 +3329,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D65) into new values whose white point is that of the new illuminant - see WP model (for example D50 or D55).
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
@@ -3285,10 +3352,34 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_COLORAPP_VIEWINGF_TOOLTIP;Takes into account the support on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as its environment. This process will take the data coming from process 'Image Adjustments' and 'bring' it to the support in such a way that the viewing conditions and its environment are taken into account.
 !TP_COLORAPP_YBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
 !TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_DEHAZE_SATURATION;Saturation
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
 !TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_FILMNEGATIVE_BLUEBALANCE;Cool/Warm
 !TP_FILMNEGATIVE_COLORSPACE;Inversion color space:
 !TP_FILMNEGATIVE_COLORSPACE_INPUT;Input color space
@@ -3302,6 +3393,36 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_FILMNEGATIVE_REF_SIZE;Size:
 !TP_FILMNEGATIVE_REF_TOOLTIP;Pick a gray patch for white-balancing the output, positive image.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3311,15 +3432,20 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
 !TP_ICM_REDFRAME;Custom Primaries
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3362,6 +3488,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
@@ -3369,6 +3496,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
 !TP_LOCALLAB_ACTIV;Luminance only
 !TP_LOCALLAB_ACTIVSPOT;Enable Spot
@@ -3382,6 +3510,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3423,14 +3552,16 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3453,9 +3584,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3464,16 +3595,19 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3488,9 +3622,9 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3530,8 +3664,8 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3552,7 +3686,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3627,7 +3761,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3691,16 +3825,16 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3709,7 +3843,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3758,8 +3892,8 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3774,16 +3908,16 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3793,7 +3927,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3808,20 +3942,20 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3830,29 +3964,29 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3939,12 +4073,18 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3954,7 +4094,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -4027,73 +4167,91 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -4101,7 +4259,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -4120,7 +4278,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -4246,6 +4404,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_PREPROCWB_MODE;Mode
 !TP_PREPROCWB_MODE_AUTO;Auto
 !TP_PREPROCWB_MODE_CAMERA;Camera
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear
 !TP_RAW_DCBBILINEAR;DCB+Bilinear
 !TP_RAW_PIXELSHIFTAVERAGE;Use average for moving parts
@@ -4290,6 +4449,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_WAVELET_COMPNORMAL;Standard
 !TP_WAVELET_CONTFRAME;Contrast - Compression
 !TP_WAVELET_CURVEEDITOR_BL_TOOLTIP;Disabled if zoom > about 300%.
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
@@ -4320,6 +4480,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_WAVELET_LEVELLOW;Radius 1-4
 !TP_WAVELET_LEVELSIGM;Radius
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_LOWTHR_TOOLTIP;Prevents amplification of fine textures and noise.
 !TP_WAVELET_MERGEC;Merge chroma
@@ -4330,8 +4491,14 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise
 !TP_WAVELET_MIXNOISE;Noise
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4339,6 +4506,7 @@ ZOOMPANEL_ZOOMOUT;Zoom Out\nBližnjica: <b>-</b>
 !TP_WAVELET_RESBLUR;Blur luminance
 !TP_WAVELET_RESBLURC;Blur chroma
 !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SHA;Sharp mask
 !TP_WAVELET_SHFRAME;Shadows/Highlights
 !TP_WAVELET_SHOWMASK;Show wavelet 'mask'

rtdata/languages/Swedish

@@ -2237,8 +2237,8 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
 !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
 !HISTORY_MSG_891;Local - Contrast Wavelet Graduated
-!HISTORY_MSG_892;Local - Log Encoding Graduated Strength
+!HISTORY_MSG_892;Local - Log encoding Graduated Strength
-!HISTORY_MSG_893;Local - Log Encoding Graduated angle
+!HISTORY_MSG_893;Local - Log encoding Graduated angle
 !HISTORY_MSG_894;Local - SD - ΔE preview color intensity
 !HISTORY_MSG_897;Local - Contrast Wavelet ES strength
 !HISTORY_MSG_898;Local - Contrast Wavelet ES radius
@@ -2304,7 +2304,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_958;Local - Show/hide settings
 !HISTORY_MSG_959;Local - Inverse blur
 !HISTORY_MSG_960;Local - Log encoding - cat16
-!HISTORY_MSG_961;Local - Log encoding Ciecam
+!HISTORY_MSG_961;Local - Log encoding CIECAM
 !HISTORY_MSG_962;Local - Log encoding Absolute luminance source
 !HISTORY_MSG_963;Local - Log encoding Absolute luminance target
 !HISTORY_MSG_964;Local - Log encoding Surround
@@ -2421,9 +2421,9 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_1076;Local - CIECAM Scope
 !HISTORY_MSG_1077;Local - CIECAM Mode
 !HISTORY_MSG_1078;Local - Red and skin protection
-!HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
+!HISTORY_MSG_1079;Local - CIECAM Sigmoid Q Contrast
-!HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
+!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
-!HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
+!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
 !HISTORY_MSG_1082;Local - CIECAM Auto threshold
 !HISTORY_MSG_1083;Local - CIECAM Hue
 !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
@@ -2431,9 +2431,9 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_1086;Local - Jz contrast
 !HISTORY_MSG_1087;Local - Jz chroma
 !HISTORY_MSG_1088;Local - Jz hue
-!HISTORY_MSG_1089;Local - Jz Sigmoid strength
+!HISTORY_MSG_1089;Local - Jz Sigmoid contrast
-!HISTORY_MSG_1090;Local - Jz Sigmoid threshold
+!HISTORY_MSG_1090;Local - Jz Sigmoid skew
-!HISTORY_MSG_1091;Local - Jz Sigmoid blend
+!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
 !HISTORY_MSG_1092;Local - Jz adaptation
 !HISTORY_MSG_1093;Local - CAM model
 !HISTORY_MSG_1094;Local - Jz highligths
@@ -2489,9 +2489,9 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_1144;Local - Jz whiteev
 !HISTORY_MSG_1145;Local - Jz Log encoding
 !HISTORY_MSG_1146;Local - Jz Log encoding target gray
-!HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
+!HISTORY_MSG_1147;Local - Jz Scale Yb scene
 !HISTORY_MSG_1148;Local - Jz Sigmoid
-!HISTORY_MSG_1149;Local - Q Sigmoid
+!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
 !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
 !HISTORY_MSG_BLSHAPE;Blur by level
 !HISTORY_MSG_BLURCWAV;Blur chroma
@@ -2500,6 +2500,16 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_CATCAT;CAL - Settings - Mode
 !HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 !HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_CLAMPOOG;Clip out-of-gamut colors
 !HISTORY_MSG_COLORTONING_LABGRID_VALUE;CT - Color correction
 !HISTORY_MSG_COLORTONING_LABREGION_AB;CT - Color correction
@@ -2517,12 +2527,16 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
 !HISTORY_MSG_COMPLEX;Wavelet complexity
 !HISTORY_MSG_COMPLEXRETI;Retinex complexity
+!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
+!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DEHAZE_DEPTH;Dehaze - Depth
 !HISTORY_MSG_DEHAZE_ENABLED;Haze Removal
 !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
 !HISTORY_MSG_DEHAZE_SHOW_DEPTH_MAP;Dehaze - Show depth map
 !HISTORY_MSG_DEHAZE_STRENGTH;Dehaze - Strength
 !HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
+!HISTORY_MSG_DISTORTION_DEFISH;De-fish
+!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
 !HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;Dual demosaic - Auto threshold
 !HISTORY_MSG_DUALDEMOSAIC_CONTRAST;Dual demosaic - Contrast threshold
 !HISTORY_MSG_EDGEFFECT;Edge Attenuation response
@@ -2532,6 +2546,24 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
 !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
 !HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
 !HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
 !HISTORY_MSG_HISTMATCHING;Auto-matched tone curve
 !HISTORY_MSG_HLBL;Color propagation - blur
@@ -2546,17 +2578,23 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_ICM_GREX;Primaries Green X
 !HISTORY_MSG_ICM_GREY;Primaries Green Y
 !HISTORY_MSG_ICM_MIDTCIE;Midtones
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
 !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
 !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
 !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
 !HISTORY_MSG_ICM_PRESER;Preserve neutral
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
 !HISTORY_MSG_ICM_REDX;Primaries Red X
 !HISTORY_MSG_ICM_REDY;Primaries Red Y
 !HISTORY_MSG_ICM_REFI;Refinement Colors
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
 !HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 !HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 !HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 !HISTORY_MSG_ICM_TRCEXP;Abstract Profile
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
 !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
 !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
 !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
@@ -2569,6 +2607,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_LOCALCONTRAST_LIGHTNESS;Local Contrast - Lightness
 !HISTORY_MSG_LOCALCONTRAST_RADIUS;Local Contrast - Radius
 !HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 !HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 !HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 !HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -2587,6 +2626,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 !HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 !HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 !HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 !HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 !HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -2597,7 +2637,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
 !HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
 !HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
-!HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
 !HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
 !HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
 !HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
@@ -2606,21 +2646,30 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
 !HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 !HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
-!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
+!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
-!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
+!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 !HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 !HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 !HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 !HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 !HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 !HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 !HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 !HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 !HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 !HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 !HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 !HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 !HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -2631,10 +2680,25 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 !HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 !HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 !HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 !HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 !HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 !HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 !HISTORY_MSG_METADATA_MODE;Metadata copy mode
 !HISTORY_MSG_MICROCONTRAST_CONTRAST;Microcontrast - Contrast threshold
@@ -2687,6 +2751,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
 !HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
 !HISTORY_MSG_TRANS_METHOD;Geometry - Method
+!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
 !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
 !HISTORY_MSG_WAVBALLUM;Equalizer luminance
 !HISTORY_MSG_WAVBL;Blur levels
@@ -2827,10 +2892,12 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !OPTIONS_DEFRAW_MISSING;The default profile for <b>raw photos</b> could not be found or is not set.\n\nPlease check your profiles' directory, it may be missing or damaged.\n\n'<b>%1</b>' will be used instead.
 !PARTIALPASTE_ADVANCEDGROUP;Advanced Settings
 !PARTIALPASTE_COLORTONING;Color toning
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
 !PARTIALPASTE_DEHAZE;Haze removal
 !PARTIALPASTE_FILMNEGATIVE;Film negative
 !PARTIALPASTE_FLATFIELDCLIPCONTROL;Flat-field clip control
 !PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
+!PARTIALPASTE_FRAMING;Framing
 !PARTIALPASTE_LOCALCONTRAST;Local contrast
 !PARTIALPASTE_LOCALLAB;Selective Editing
 !PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
@@ -2867,7 +2934,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !PREFERENCES_CHUNKSIZE_RAW_RCD;RCD demosaic
 !PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic
 !PREFERENCES_CHUNKSIZE_RGB;RGB processing
-!PREFERENCES_CIE;Ciecam
+!PREFERENCES_CIE;CIECAM
 !PREFERENCES_CIEARTIF;Avoid artifacts
 !PREFERENCES_CMMBPC;Black point compensation
 !PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
@@ -3035,7 +3102,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
 !TP_COLORAPP_FREE;Free temp + tint + CAT02/16 +[output]
 !TP_COLORAPP_GEN;Settings
-!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
+!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
 !TP_COLORAPP_IL41;D41
 !TP_COLORAPP_IL50;D50
 !TP_COLORAPP_IL55;D55
@@ -3087,6 +3154,28 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_COLORTONING_LABREGION_SLOPE;Slope
 !TP_COLORTONING_METHOD_TOOLTIP;'L*a*b* blending', 'RGB sliders' and 'RGB curves' use interpolated color blending.\n'Color balance (Shadows/Midtones/Highlights)' and 'Saturation 2 colors' use direct colors.\n\nThe Black-and-White tool can be enabled when using any color toning method, which allows for color toning.
 !TP_COLORTONING_TWOCOLOR_TOOLTIP;Standard chroma:\nLinear response, a* = b*.\n\nSpecial chroma:\nLinear response, a* = b*, but unbound - try under the diagonal.\n\nSpecial a* and b*:\nLinear response unbound with separate curves for a* and b*. Intended for special effects.\n\nSpecial chroma 2 colors:\nMore predictable.
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_CROP_GTCENTEREDSQUARE;Centered square
 !TP_CROP_PPI;PPI
 !TP_CROP_RESETCROP;Reset
@@ -3113,6 +3202,8 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_DIRPYRDENOISE_MEDIAN_TYPE_TOOLTIP;Apply a median filter of the desired window size. The larger the window's size, the longer it takes.\n\n3×3 soft: treats 5 pixels in a 3×3 pixel window.\n3×3: treats 9 pixels in a 3×3 pixel window.\n5×5 soft: treats 13 pixels in a 5×5 pixel window.\n5×5: treats 25 pixels in a 5×5 pixel window.\n7×7: treats 49 pixels in a 7×7 pixel window.\n9×9: treats 81 pixels in a 9×9 pixel window.\n\nSometimes it is possible to achieve higher quality running several iterations with a smaller window size than one iteration with a larger one.
 !TP_DIRPYREQUALIZER_HUESKIN_TOOLTIP;This pyramid is for the upper part, so far as the algorithm at its maximum efficiency.\nTo the lower part, the transition zones.\nIf you need to move the area significantly to the left or right - or if there are artifacts: the <b>white balance is incorrect</b>\nYou can slightly reduce the zone to prevent the rest of the image is affected.
 !TP_DISTORTION_AUTO_TOOLTIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera.
+!TP_DISTORTION_DEFISH;De-fish
+!TP_DISTORTION_FOCAL_LENGTH;Focal length
 !TP_EXPOSURE_CLAMPOOG;Clip out-of-gamut colors
 !TP_EXPOSURE_HISTMATCHING;Auto-Matched Tone Curve
 !TP_EXPOSURE_HISTMATCHING_TOOLTIP;Automatically adjust sliders and curves (except exposure compensation) to match the look of the embedded JPEG thumbnail.
@@ -3137,6 +3228,36 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_FLATFIELD_CLIPCONTROL;Clip control
 !TP_FLATFIELD_CLIPCONTROL_TOOLTIP;Clip control avoids clipped highlights caused by applying the flat field. If there are already clipped highlights before applying the flat field, value 0 is used.
 !TP_FLATFIELD_FROMMETADATA;From Metadata
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
 !TP_HLREC_COLOROPP;Inpaint Opposed
 !TP_HLREC_HLBLUR;Blur
 !TP_HLREC_HLTH;Gain threshold
@@ -3149,17 +3270,22 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
 !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
 !TP_ICM_NEUTRAL;Reset
+!TP_ICM_OPACITYWLI;Variable contrast
 !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
 !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
 !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
 !TP_ICM_PROFILEINTENT;Rendering Intent
 !TP_ICM_REDFRAME;Custom Primaries
 !TP_ICM_SAVEREFERENCE;Save Reference Image
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
 !TP_ICM_TRCFRAME;Abstract Profile
 !TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
 !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
 !TP_ICM_WORKING_CAT;Matrix adaptation
 !TP_ICM_WORKING_CAT_BRAD;Bradford
 !TP_ICM_WORKING_CAT_CAT02;Cat02
@@ -3202,6 +3328,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_ICM_WORKING_PRIM_SRGB;sRGB
 !TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
 !TP_ICM_WORKING_PRIM_WID;WideGamut
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
 !TP_ICM_WORKING_TRC;Tone response curve:
 !TP_ICM_WORKING_TRC_18;Prophoto g=1.8
 !TP_ICM_WORKING_TRC_22;Adobe g=2.2
@@ -3215,6 +3342,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_ICM_WORKING_TRC_TOOLTIP;Only for built-in profiles.
 !TP_LENSGEOM_LIN;Linear
 !TP_LENSGEOM_LOG;Logarithmic
+!TP_LENSGEOM_SCALE;Scale
 !TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
 !TP_LENSPROFILE_CORRECTION_LCPFILE;LCP file
 !TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
@@ -3242,6 +3370,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
 !TP_LOCALLAB_AVOIDMUN;Munsell correction only
 !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
 !TP_LOCALLAB_AVOIDRAD;Soft radius
 !TP_LOCALLAB_BALAN;ab-L balance (ΔE)
 !TP_LOCALLAB_BALANEXP;Laplacian balance
@@ -3283,14 +3412,16 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_BUTTON_REN;Rename
 !TP_LOCALLAB_BUTTON_VIS;Show/Hide
 !TP_LOCALLAB_BWEVNONE;None
-!TP_LOCALLAB_BWEVSIG;Activated
+!TP_LOCALLAB_BWEVNONE11;None
-!TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
+!TP_LOCALLAB_BWEVSIG;Sigmoid
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
 !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
-!TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
+!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
 !TP_LOCALLAB_CAMMODE;CAM model
-!TP_LOCALLAB_CAMMODE_CAM16;CAM 16
+!TP_LOCALLAB_CAMMODE_CAM16;CAM16
 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
 !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
 !TP_LOCALLAB_CBDL;Contrast by Detail Levels
@@ -3313,9 +3444,9 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
 !TP_LOCALLAB_CHROML;Chroma (C)
 !TP_LOCALLAB_CHRRT;Chroma
-!TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-!TP_LOCALLAB_CIEC;Use Ciecam environment parameters
+!TP_LOCALLAB_CIEC;Use CIECAM environment parameters
-!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
+!TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 !TP_LOCALLAB_CIECOLORFRA;Color
 !TP_LOCALLAB_CIECONTFRA;Contrast
 !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
@@ -3324,16 +3455,19 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_CIEMODE_COM;Default
 !TP_LOCALLAB_CIEMODE_DR;Dynamic Range
 !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
-!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. 'Mask and modifications' and 'Recovery based on luminance mask' are available for'Cam16 and JzCzHz' at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use 'Mask and modifications' and 'Recovery based on luminance mask'.
+!TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
 !TP_LOCALLAB_CIEMODE_WAV;Wavelet
 !TP_LOCALLAB_CIETOOLEXP;Curves
 !TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 !TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 !TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-!TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 !TP_LOCALLAB_CIE_SMOOTH_NONE;None
-!TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 !TP_LOCALLAB_CIRCRADIUS;Spot size
 !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
 !TP_LOCALLAB_CLARICRES;Merge chroma
@@ -3348,9 +3482,9 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_CLIPTM;Clip restored data (gain)
 !TP_LOCALLAB_COFR;Color & Light
 !TP_LOCALLAB_COLORDE;ΔE preview color - intensity
-!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
+!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
-!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
+!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
-!TP_LOCALLAB_COLORFRAME;Dominant color
+!TP_LOCALLAB_COLORFRAME;Dominant Color
 !TP_LOCALLAB_COLORSCOPE;Scope (color tools)
 !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
 !TP_LOCALLAB_COLOR_CIE;Color curve
@@ -3390,8 +3524,8 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
 !TP_LOCALLAB_DELTAD;Delta balance
 !TP_LOCALLAB_DELTAEC;ΔE Image mask
-!TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
+!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
-!TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
+!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
 !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
 !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
 !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
@@ -3412,7 +3546,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_DETAILFRA;Edge detection - DCT
 !TP_LOCALLAB_DETAILSH;Details
 !TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
-!TP_LOCALLAB_DISAB_CIECAM;Disable Ciecam or Weak Jz surround
+!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
 !TP_LOCALLAB_DIVGR;Gamma
 !TP_LOCALLAB_DUPLSPOTNAME;Copy
 !TP_LOCALLAB_EDGFRA;Edge sharpness
@@ -3487,7 +3621,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_GAMC;Gamma
 !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance 'linear' is used.
 !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance 'linear' is used.
-!TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
+!TP_LOCALLAB_GAMFRA;Tone Response Curve (TRC)
 !TP_LOCALLAB_GAMM;Gamma
 !TP_LOCALLAB_GAMMASKCOL;Gamma
 !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
@@ -3551,16 +3685,16 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
 !TP_LOCALLAB_JZHFRA;Curves Hz
 !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
-!TP_LOCALLAB_JZHUECIE;Hue Rotation
+!TP_LOCALLAB_JZHUECIE;Hue rotation
 !TP_LOCALLAB_JZLIGHT;Brightness
 !TP_LOCALLAB_JZLOG;Log encoding Jz
 !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
-!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log Encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
+!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
+!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
 !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
 !TP_LOCALLAB_JZPQFRA;Jz remapping
 !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
-!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
+!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 !TP_LOCALLAB_JZQTOJ;Relative luminance
 !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
@@ -3569,7 +3703,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
 !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
 !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
-!TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
+!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
 !TP_LOCALLAB_JZWAVEXP;Wavelet Jz
 !TP_LOCALLAB_LABBLURM;Blur Mask
 !TP_LOCALLAB_LABEL;Selective Editing
@@ -3618,8 +3752,8 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
 !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
 !TP_LOCALLAB_LOGCIE;Log encoding
-!TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
+!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
-!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecam’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
+!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
 !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
 !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
 !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
@@ -3634,16 +3768,16 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_LOGEXP;All tools
 !TP_LOCALLAB_LOGFRA;Scene Conditions
 !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
-!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
+!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
 !TP_LOCALLAB_LOGLIGHTL;Lightness (J)
 !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
 !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
 !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
 !TP_LOCALLAB_LOGLIN;Logarithm mode
 !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
-!TP_LOCALLAB_LOGPFRA2;Log Encoding settings
+!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
 !TP_LOCALLAB_LOGREPART;Overall strength
-!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
+!TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the CIECAM component.
 !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
 !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
 !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
@@ -3653,7 +3787,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
 !TP_LOCALLAB_LUMADARKEST;Darkest
 !TP_LOCALLAB_LUMASK;Background color/luma mask
-!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications).
+!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
 !TP_LOCALLAB_LUMAWHITESEST;Lightest
 !TP_LOCALLAB_LUMFRA;L*a*b* standard
 !TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
@@ -3668,20 +3802,20 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_MASKDDECAY;Decay strength
 !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions.
 !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
-!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
+!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
-!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
+!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
 !TP_LOCALLAB_MASKH;Hue curve
-!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
 !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
 !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
@@ -3690,29 +3824,29 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
 !TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
 !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
-!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
 !TP_LOCALLAB_MEDIAN;Median Low
 !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3799,12 +3933,18 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
 !TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
 !TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
-!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
+!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
 !TP_LOCALLAB_PREVHIDE;Hide additional settings
 !TP_LOCALLAB_PREVIEW;Preview ΔE
 !TP_LOCALLAB_PREVSHOW;Show additional settings
 !TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 !TP_LOCALLAB_PROXI;ΔE decay
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
 !TP_LOCALLAB_QUAAGRES;Aggressive
 !TP_LOCALLAB_QUACONSER;Conservative
 !TP_LOCALLAB_QUALCURV_METHOD;Curve type
@@ -3814,7 +3954,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_RADIUS;Radius
 !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
 !TP_LOCALLAB_RADMASKCOL;Smooth radius
-!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
+!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
 !TP_LOCALLAB_RECT;Rectangle
 !TP_LOCALLAB_RECURS;Recursive references
 !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
@@ -3887,73 +4027,91 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_SHARRADIUS;Radius
 !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
 !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
-!TP_LOCALLAB_SHOWC;Mask and modifications
+!TP_LOCALLAB_SHOWC;Mask And Modifications
 !TP_LOCALLAB_SHOWC1;Merge file
-!TP_LOCALLAB_SHOWCB;Mask and modifications
+!TP_LOCALLAB_SHOWCB;Mask And Modifications
 !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
-!TP_LOCALLAB_SHOWE;Mask and modifications
+!TP_LOCALLAB_SHOWE;Mask And Modifications
 !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
 !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
-!TP_LOCALLAB_SHOWLC;Mask and modifications
+!TP_LOCALLAB_SHOWLC;Mask And Modifications
 !TP_LOCALLAB_SHOWMASK;Show mask
-!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
+!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
 !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
 !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
 !TP_LOCALLAB_SHOWMASKTYP2;Denoise
 !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
-!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask and modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
+!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
 !TP_LOCALLAB_SHOWMNONE;Show modified image
 !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
 !TP_LOCALLAB_SHOWMODIF2;Show modified areas
 !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
 !TP_LOCALLAB_SHOWNORMAL;No luminance normalization
-!TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise)
+!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
 !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
-!TP_LOCALLAB_SHOWR;Mask and modifications
+!TP_LOCALLAB_SHOWR;Mask And Modifications
 !TP_LOCALLAB_SHOWREF;Preview ΔE
-!TP_LOCALLAB_SHOWS;Mask and modifications
+!TP_LOCALLAB_SHOWS;Mask And Modifications
 !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
 !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
-!TP_LOCALLAB_SHOWT;Mask and modifications
+!TP_LOCALLAB_SHOWT;Mask And Modifications
-!TP_LOCALLAB_SHOWVI;Mask and modifications
+!TP_LOCALLAB_SHOWVI;Mask And Modifications
 !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
 !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
 !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
 !TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
 !TP_LOCALLAB_SIGCIE;Sigmoid
-!TP_LOCALLAB_SIGFRA;Sigmoid Q
+!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
 !TP_LOCALLAB_SIGGAMJCIE;Gamma
 !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
 !TP_LOCALLAB_SIGMAWAV;Attenuation response
-!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
+!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
-!TP_LOCALLAB_SIGMOIDBL;Blend
+!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
 !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
 !TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
 !TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
-!TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 !TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
 !TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
-!TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 !TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
 !TP_LOCALLAB_SIGMOIDSENSI;Adaptability
-!TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
+!TP_LOCALLAB_SIGMOIDTH;Skew
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
 !TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
-!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
+!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
 !TP_LOCALLAB_SIGSLOPJCIE;Slope
 !TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
 !TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 !TP_LOCALLAB_SLOMASKCOL;Slope
 !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 !TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHB;Blue balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
 !TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-!TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
+!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
 !TP_LOCALLAB_SLOSH;Slope
-!TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
+!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 !TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 !TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
-!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
+!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 !TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_LOCALLAB_SOFT;Soft Light & Original Retinex
 !TP_LOCALLAB_SOFTM;Soft Light
 !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -3961,7 +4119,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
 !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
 !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
-!TP_LOCALLAB_SOURCE_ABS;Absolute luminance
+!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
 !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
 !TP_LOCALLAB_SPECCASE;Specific cases
 !TP_LOCALLAB_SPECIAL;Special use of RGB curves
@@ -3980,7 +4138,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_LOCALLAB_STRUC;Structure
 !TP_LOCALLAB_STRUCCOL;Spot structure
 !TP_LOCALLAB_STRUCCOL1;Spot structure
-!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask and modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
+!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
 !TP_LOCALLAB_STRUMASKCOL;Structure mask strength
 !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
 !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
@@ -4120,6 +4278,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_RAWCACORR_AUTOIT;Iterations
 !TP_RAWCACORR_AUTOIT_TOOLTIP;This setting is available if 'Auto-correction' is checked.\nAuto-correction is conservative, meaning that it often does not correct all chromatic aberration.\nTo correct the remaining chromatic aberration, you can use up to five iterations of automatic chromatic aberration correction.\nEach iteration will reduce the remaining chromatic aberration from the last iteration at the cost of additional processing time.
 !TP_RAWCACORR_AVOIDCOLORSHIFT;Avoid color shift
+!TP_RAWEXPOS_DEHA;Dehaze
 !TP_RAW_1PASSMEDIUM;1-pass (Markesteijn)
 !TP_RAW_2PASS;1-pass+fast
 !TP_RAW_3PASSBEST;3-pass (Markesteijn)
@@ -4258,8 +4417,9 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_WAVELET_CURVEEDITOR_BL_TOOLTIP;Disabled if zoom > about 300%.
 !TP_WAVELET_CURVEEDITOR_CC_TOOLTIP;Modifies local contrast as a function of the original local contrast (abscissa).\nLow abscissa values represent small local contrast (real values about 10..20).\n50% abscissa represents average local contrast (real value about 100..300).\n66% abscissa represents standard deviation of local contrast (real value about 300..800).\n100% abscissa represents maximum local contrast (real value about 3000..8000).
 !TP_WAVELET_CURVEEDITOR_CH_TOOLTIP;Modifies each level's contrast as a function of hue.\nTake care not to overwrite changes made with the Gamut sub-tool's hue controls.\nThe curve will only have an effect when wavelet contrast level sliders are non-zero.
+!TP_WAVELET_DAUB20;D20 - high plus
 !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
-!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 = Often best performance, 10% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
+!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 D20 = Often best performance, 15% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
 !TP_WAVELET_DEN5THR;Guided threshold
 !TP_WAVELET_DENCURV;Curve
 !TP_WAVELET_DENL;Correction structure
@@ -4303,6 +4463,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_WAVELET_LEVELS_TOOLTIP;Choose the number of wavelet decomposition levels for the image.\nMore levels require more RAM and require a longer processing time.
 !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
 !TP_WAVELET_LEVLABEL;Preview maximum possible levels = %1
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
 !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
 !TP_WAVELET_LINKEDG;Link to Edge Sharpness Strength
 !TP_WAVELET_LOWLIGHT;Coarser levels luminance range
@@ -4317,12 +4478,18 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_WAVELET_MIXNOISE;Noise
 !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
 !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
+!TP_WAVELET_OFFSFIN;Offset
 !TP_WAVELET_OLDSH;Algorithm using negatives values
 !TP_WAVELET_OPACITY;Opacity blue-yellow
 !TP_WAVELET_OPACITYW;Contrast balance d/v-h curve
 !TP_WAVELET_OPACITYWL_TOOLTIP;Modify the final local contrast at the end of the wavelet treatment.\n\nThe left side represents the smallest local contrast, progressing to the largest local contrast on the right.
 !TP_WAVELET_PASTEL;Pastel chroma
 !TP_WAVELET_PROTAB;Protection
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 !TP_WAVELET_QUAAGRES;Aggressive
 !TP_WAVELET_QUACONSER;Conservative
 !TP_WAVELET_RADIUS;Radius shadows - highlight
@@ -4330,6 +4497,7 @@ ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>
 !TP_WAVELET_RESBLUR;Blur luminance
 !TP_WAVELET_RESBLURC;Blur chroma
 !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !TP_WAVELET_SHA;Sharp mask
 !TP_WAVELET_SHFRAME;Shadows/Highlights
 !TP_WAVELET_SHOWMASK;Show wavelet 'mask'

rtdata/languages/Ukrainian

@@ -1484,7 +1484,6 @@ HISTORY_MSG_LOCAL_CIE_GREYL;Локальний - Зелений CIECAM Y
 HISTORY_MSG_LOCAL_CIE_ILL;Локальний - Освітлення TRC CIECAM
 HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Локальний - Логарифмічне кодування Q CIECAM
 HISTORY_MSG_LOCAL_CIE_MIDT;Локальний - Середні тони CIECAM
-HISTORY_MSG_LOCAL_CIE_NORM;Локальний - Нормалізація L CIECAM
 HISTORY_MSG_LOCAL_CIE_PRIM;Локальний - Основні кольори TRC CIECAM
 HISTORY_MSG_LOCAL_CIE_REDXL;Локальний - Червоний CIECAM X
 HISTORY_MSG_LOCAL_CIE_REDYL;Локальний - Червоний CIECAM Y
@@ -2862,7 +2861,6 @@ TP_LOCALLAB_BUTTON_REN;Перейменувати
 TP_LOCALLAB_BUTTON_VIS;Показати/Сховати
 TP_LOCALLAB_BWEVNONE;Немає
 TP_LOCALLAB_BWEVSIG;Активовано
-TP_LOCALLAB_BWEVSIGLOG;Сигмоїдальне та логарифмічне кодування
 TP_LOCALLAB_BWFORCE;Використовує чорний Ev та білий Ev
 TP_LOCALLAB_CAM16PQREMAP;HDR PQ (пікова яскравість)
 TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (перцептивний квантизатор), адаптований до CAM16 (експериментально). Дозволяє змінювати внутрішню функцію PQ (зазвичай 10000 cd/m2 - за замовчуванням 100 cd/m2 - вимкнено для 100 cd/m2).\nМоже бути використано для адаптації до різних пристроїв та зображень, наприклад, для узгодження обробки CAM16 з максимальною яскравістю монітора 400 cd/m2.
@@ -4350,10 +4348,73 @@ ZOOMPANEL_ZOOMOUT;Зменшити масштаб\nШвидка клавіша:
 !!!!!!!!!!!!!!!!!!!!!!!!!
 
 !HISTORY_MSG_112;--unused--
+!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 !HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
 !HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 !HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
+!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
+!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
+!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
+!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
+!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
+!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
+!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
+!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
+!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
+!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
+!HISTORY_MSG_FRAMING_ENABLED;Framing
+!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
+!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
+!HISTORY_MSG_FRAMING_METHOD;Framing - Method
+!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
+!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
+!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
+!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
+!HISTORY_MSG_ICM_OFFSTRC;Offset
+!HISTORY_MSG_ICM_OPACITYW;Offset
+!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
+!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
+!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
+!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
+!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
+!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
+!HISTORY_MSG_LOCAL_CIE_NORM11;Local - CIECAM Normalize luminance 5.11
+!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
+!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
+!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
+!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
+!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
+!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
+!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
+!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
+!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
+!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
+!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
+!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
+!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
+!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
+!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 !HISTORY_MSG_TRANS_SCALE;Geometry - Scale
+!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
+!PARTIALPASTE_FRAMING;Framing
 !TP_COARSETRAF_TOOLTIP_ROTRIGHT;Rotate right.\n\nShortcuts:\n<b>]</b> - Multiple Editor Tabs Mode,\n<b>Alt-]</b> - Single Editor Tab Mode.
 !TP_COLORAPP_SURROUND_DARK;Dark
 !TP_COLORAPP_SURROUND_DIM;Dim
@@ -4405,21 +4466,119 @@ ZOOMPANEL_ZOOMOUT;Зменшити масштаб\nШвидка клавіша:
 !TP_COLORTONING_LABREGION_LIGHTNESSMASK;L
 !TP_COLORTONING_LABREGION_LIST_TITLE;Correction
 !TP_COLORTONING_LABREGION_MASK;Mask
+!TP_COMPRESSGAMUT_ACESP1;ACES AP1
+!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
+!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
+!TP_COMPRESSGAMUT_CYANLIM;Cyan
+!TP_COMPRESSGAMUT_CYANTH;Cyan
+!TP_COMPRESSGAMUT_DCIP3;DCI-P3
+!TP_COMPRESSGAMUT_LABEL;Gamut Compression
+!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
+!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+!TP_COMPRESSGAMUT_MAGENTATH;Magenta
+!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
+!TP_COMPRESSGAMUT_PWR;Power
+!TP_COMPRESSGAMUT_REC2020;Rec. 2020
+!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+!TP_COMPRESSGAMUT_SRGB;sRGB
+!TP_COMPRESSGAMUT_THRESHOLD;Threshold
+!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+!TP_COMPRESSGAMUT_YELLOWTH;Yellow
 !TP_DISTORTION_FOCAL_LENGTH;Focal length
-!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
-!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
+!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
+!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
+!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
+!TP_FRAMING_BASIS;Basis
+!TP_FRAMING_BASIS_AUTO;Auto
+!TP_FRAMING_BASIS_HEIGHT;Height
+!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
+!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
+!TP_FRAMING_BASIS_WIDTH;Width
+!TP_FRAMING_BLUE;Blue
+!TP_FRAMING_BORDER_COLOR;Border Color
+!TP_FRAMING_BORDER_SIZE;Size
+!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
+!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
+!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
+!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
+!TP_FRAMING_FRAMED_HEIGHT;Framed Height
+!TP_FRAMING_FRAMED_WIDTH;Framed Width
+!TP_FRAMING_GREEN;Green
+!TP_FRAMING_LABEL;Framing
+!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
+!TP_FRAMING_METHOD;Method:
+!TP_FRAMING_METHOD_BBOX;Bounding Box
+!TP_FRAMING_METHOD_FIXED;Fixed Frame
+!TP_FRAMING_METHOD_STANDARD;Standard
+!TP_FRAMING_MIN_HEIGHT;Minimum Height
+!TP_FRAMING_MIN_WIDTH;Minimum Width
+!TP_FRAMING_ORIENTATION;Orientation:
+!TP_FRAMING_RED;Red
+!TP_ICM_OPACITYWLI;Variable contrast
+!TP_ICM_PRIMFRAME;Primaries & Illuminant
+!TP_ICM_SMOOTHFRAME;Highlight attenuation
+!TP_ICM_WAVFRAME;Contrast Enhancement
+!TP_ICM_WAVREFI;Refinement
+!TP_ICM_WORKING_SMOOTH;Highlight attenuation
+!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
+!TP_LOCALLAB_BWEVNONE11;None
+!TP_LOCALLAB_BWEVSIG11;Activated
+!TP_LOCALLAB_BWEVSLOP;Slope based
+!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
+!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
+!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
+!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
+!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
 !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
-!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
+!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
-!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
+!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
-!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
+!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
-!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
+!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
-!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
+!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
-!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
+!TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied.
-!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
+!TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied.
-!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
+!TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied.
-!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & modifications)
+!TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
-!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
+!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
 !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
+!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
+!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
+!TP_LOCALLAB_QJMODE_511;5.11 deprecated
+!TP_LOCALLAB_QJMODE_512;5.12
+!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
+!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
+!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
+!TP_LOCALLAB_SIGMOIDBL11;Blend
+!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
+!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
+!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
+!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
+!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
+!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
+!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
+!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
+!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
+!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
+!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
+!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
+!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
 !TP_RAWEXPOS_DEHA;Dehaze
+!TP_WAVELET_DAUB20;D20 - high plus
+!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
+!TP_WAVELET_OFFSFIN;Offset
+!TP_WAVELET_PYRWAVTRC;Contrast profile
+!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
+!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
+!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
+!TP_WAVELET_RESIDTRC;Residual contrast
 !//TP_WBALANCE_ITCWBNOPURPLE_TOOLTIP;By default when "Inpaint opposed" is activated, purple colors are not taken into account. However, if the image does not need highlight reconstruction, or if this image naturally contains purple tints (flowers, etc.), it may be necessary to deactivate, to take into account all the colors.
 !//TP_WBALANCE_ITCWB_FORCED;Forces use of the entire CIE diagram

rtdata/languages/default

@@ -1387,6 +1387,16 @@ HISTORY_MSG_BLUWAV;Attenuation response
 HISTORY_MSG_CATCAT;CAL - Settings - Mode
 HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
 HISTORY_MSG_CATMODEL;CAL - Settings - CAM
+HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
+HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
+HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
+HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
+HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
+HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
+HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
+HISTORY_MSG_CG_VALUE;Gamut Compression - Power
+HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
+HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
 HISTORY_MSG_CLAMPOOG;Clip out-of-gamut colors
 HISTORY_MSG_COLORTONING_LABGRID_VALUE;CT - Color correction
 HISTORY_MSG_COLORTONING_LABREGION_AB;CT - Color correction
@@ -1404,16 +1414,6 @@ HISTORY_MSG_COLORTONING_LABREGION_SHOWMASK;CT - region show mask
 HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
 HISTORY_MSG_COMPLEX;Wavelet complexity
 HISTORY_MSG_COMPLEXRETI;Retinex complexity
-HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
-HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
-HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
-HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
-HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
-HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
-HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
-HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
-HISTORY_MSG_CG_VALUE;Gamut Compression - Power
-HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
 HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
 HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
 HISTORY_MSG_DEHAZE_DEPTH;Dehaze - Depth
@@ -1476,9 +1476,9 @@ HISTORY_MSG_ICM_REDX;Primaries Red X
 HISTORY_MSG_ICM_REDY;Primaries Red Y
 HISTORY_MSG_ICM_REFI;Refinement Colors
 HISTORY_MSG_ICM_RESIDTRC;Residual contrast
-HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
 HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
+HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
 HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
 HISTORY_MSG_ICM_TRCEXP;Abstract Profile
 HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
@@ -1488,23 +1488,13 @@ HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
 HISTORY_MSG_ICM_WORKING_SLOPE;TRC - Slope
 HISTORY_MSG_ICM_WORKING_TRC_METHOD;TRC method
 HISTORY_MSG_ILLUM;CAL - SC - Illuminant
-HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
-HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
-HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
-HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
-HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
-HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
-HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
-HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
-HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
-HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
-HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
 HISTORY_MSG_LOCALCONTRAST_AMOUNT;Local Contrast - Amount
 HISTORY_MSG_LOCALCONTRAST_DARKNESS;Local Contrast - Darkness
 HISTORY_MSG_LOCALCONTRAST_ENABLED;Local Contrast
 HISTORY_MSG_LOCALCONTRAST_LIGHTNESS;Local Contrast - Lightness
 HISTORY_MSG_LOCALCONTRAST_RADIUS;Local Contrast - Radius
 HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
+HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
 HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
 HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
 HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
@@ -1523,6 +1513,7 @@ HISTORY_MSG_LOCAL_CIE_BRICOMP;Local - CIECAM Brightness compression
 HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
 HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
 HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
+HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
 HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
 HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
 HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
@@ -1544,20 +1535,28 @@ HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
 HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
 HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
 HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
+HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
 HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
 HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
-HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
 HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
+HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
 HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
 HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
+HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
 HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
+HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
+HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
+HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
 HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
+HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
 HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
 HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
 HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
 HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
+HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
 HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
+HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
 HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
 HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
 HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
@@ -1568,25 +1567,26 @@ HISTORY_MSG_LOCAL_FEATHERSH;Local - SH Gradient feather
 HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
 HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
 HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
+HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
 HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
 HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
 HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
 HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
-HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
+HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
 HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
-HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
 HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
-HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
-HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
 HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
+HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
+HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
+HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
+HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
 HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
 HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
 HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
-HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
+HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
-HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
+HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
-HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
-HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
-HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
 HISTORY_MSG_METADATA_MODE;Metadata copy mode
 HISTORY_MSG_MICROCONTRAST_CONTRAST;Microcontrast - Contrast threshold
 HISTORY_MSG_PDSHARPEN_AUTO_CONTRAST;CS - Auto threshold
@@ -2315,8 +2315,6 @@ SORT_DESCENDING;Descending
 TC_LOCALLAB_PRIM_SHIFTX;Shift x
 TC_LOCALLAB_PRIM_SHIFTX_TOOLTIP;In combination with "Refine colors", allows you to:\n 1) for low values, adjust the image purity.\n 2) for higher values, carry out moderate color toning.\nBe careful not to go outside the CIE xy diagram.
 TC_LOCALLAB_PRIM_SHIFTY;Shift y
-TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
-TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 TC_PRIM_BLUX;Bx
 TC_PRIM_BLUY;By
 TC_PRIM_GREX;Gx
@@ -2568,28 +2566,28 @@ TP_COLORTONING_TWOALL;Special chroma
 TP_COLORTONING_TWOBY;Special a* and b*
 TP_COLORTONING_TWOCOLOR_TOOLTIP;Standard chroma:\nLinear response, a* = b*.\n\nSpecial chroma:\nLinear response, a* = b*, but unbound - try under the diagonal.\n\nSpecial a* and b*:\nLinear response unbound with separate curves for a* and b*. Intended for special effects.\n\nSpecial chroma 2 colors:\nMore predictable.
 TP_COLORTONING_TWOSTD;Standard chroma
-TP_COMPRESSGAMUT_LABEL;Gamut Compression
-TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
-TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
-TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
-TP_COMPRESSGAMUT_DCIP3;DCI-P3
 TP_COMPRESSGAMUT_ACESP1;ACES AP1
-TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
-TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
-TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
-TP_COMPRESSGAMUT_REC2020;Rec. 2020
 TP_COMPRESSGAMUT_ADOBE;Adobe RGB
-TP_COMPRESSGAMUT_SRGB;sRGB
+TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
-TP_COMPRESSGAMUT_CYANTH;Cyan
-TP_COMPRESSGAMUT_MAGENTATH;Magenta
-TP_COMPRESSGAMUT_YELLOWTH;Yellow
-TP_COMPRESSGAMUT_THRESHOLD;Threshold
 TP_COMPRESSGAMUT_CYANLIM;Cyan
-TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+TP_COMPRESSGAMUT_CYANTH;Cyan
-TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+TP_COMPRESSGAMUT_DCIP3;DCI-P3
+TP_COMPRESSGAMUT_LABEL;Gamut Compression
 TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
-TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
+TP_COMPRESSGAMUT_MAGENTALIM;Magenta
+TP_COMPRESSGAMUT_MAGENTATH;Magenta
+TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
+TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
+TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
 TP_COMPRESSGAMUT_PWR;Power
+TP_COMPRESSGAMUT_REC2020;Rec. 2020
+TP_COMPRESSGAMUT_ROLLOFF;Rolloff
+TP_COMPRESSGAMUT_SRGB;sRGB
+TP_COMPRESSGAMUT_THRESHOLD;Threshold
+TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
+TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+TP_COMPRESSGAMUT_YELLOWTH;Yellow
 TP_CROP_FIXRATIO;Lock ratio
 TP_CROP_GTCENTEREDSQUARE;Centered square
 TP_CROP_GTDIAGONALS;Rule of Diagonals
@@ -3041,10 +3039,10 @@ TP_LOCALLAB_BUTTON_DUPL;Duplicate
 TP_LOCALLAB_BUTTON_REN;Rename
 TP_LOCALLAB_BUTTON_VIS;Show/Hide
 TP_LOCALLAB_BWEVNONE;None
-TP_LOCALLAB_BWEVSIG;Sigmoid
-TP_LOCALLAB_BWEVSLOP;Slope based
 TP_LOCALLAB_BWEVNONE11;None
+TP_LOCALLAB_BWEVSIG;Sigmoid
 TP_LOCALLAB_BWEVSIG11;Activated
+TP_LOCALLAB_BWEVSLOP;Slope based
 TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
 TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
 TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
@@ -3074,10 +3072,6 @@ TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e.
 TP_LOCALLAB_CHROML;Chroma (C)
 TP_LOCALLAB_CHRRT;Chroma
 TP_LOCALLAB_CIE;Color Appearance (CAM16 & JzCzHz)
-TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
-TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
-TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
-TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
 TP_LOCALLAB_CIEC;Use CIECAM environment parameters
 TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM Color Appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first CIECAM process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second CIECAM process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third CIECAM process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
 TP_LOCALLAB_CIECOLORFRA;Color
@@ -3092,11 +3086,14 @@ TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, CIECAM is added at the end of the p
 TP_LOCALLAB_CIEMODE_WAV;Wavelet
 TP_LOCALLAB_CIETOOLEXP;Curves
 TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
+TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
 TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
 TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
 TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
-TP_LOCALLAB_CIE_SMOOTH_LEVELS;Levels
+TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
+TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
 TP_LOCALLAB_CIE_SMOOTH_NONE;None
+TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
 TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
 TP_LOCALLAB_CIRCRADIUS;Spot size
 TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
@@ -3306,7 +3303,6 @@ TP_LOCALLAB_JZ100;Jz reference 100cd/m2
 TP_LOCALLAB_JZ100_TOOLTIP;Automatically adjusts the reference Jz 100 cd/m2 level (image signal).\nChanges the saturation level and action of 'PU adaptation' (Perceptual Uniform adaptation).
 TP_LOCALLAB_JZADAP;PU adaptation
 TP_LOCALLAB_JZCH;Chroma
-TP_LOCALLAB_JZCH;Chroma
 TP_LOCALLAB_JZCHROM;Chroma
 TP_LOCALLAB_JZCLARICRES;Merge chroma Cz
 TP_LOCALLAB_JZCLARILRES;Merge Jz
@@ -3327,7 +3323,6 @@ TP_LOCALLAB_JZPQFRA;Jz remapping
 TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
 TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
 TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
-TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
 TP_LOCALLAB_JZQTOJ;Relative luminance
 TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
 TP_LOCALLAB_JZSAT;Saturation
@@ -3570,6 +3565,8 @@ TP_LOCALLAB_PREVHIDE;Hide additional settings
 TP_LOCALLAB_PREVIEW;Preview ΔE
 TP_LOCALLAB_PREVSHOW;Show additional settings
 TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
+TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
+TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
 TP_LOCALLAB_PROXI;ΔE decay
 TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
 TP_LOCALLAB_QJMODE_511;5.11 deprecated
@@ -3706,8 +3703,8 @@ TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White
 TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
 TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
 TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
-TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
 TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
+TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
 TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
 TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
 TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
@@ -3722,24 +3719,22 @@ TP_LOCALLAB_SIGWHITESCIE;Whites distribution
 TP_LOCALLAB_SLOMASKCOL;Slope
 TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
 TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
-TP_LOCALLAB_SLOPESMOOTHR;Red Slope
-TP_LOCALLAB_SLOPESMOOTHG;Green Slope
 TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
+TP_LOCALLAB_SLOPESMOOTHG;Green Slope
+TP_LOCALLAB_SLOPESMOOTHR;Red Slope
+TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
 TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
 TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
-TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
-TP_LOCALLAB_SLOPESMOOTHR;Red balance (Slope)
-TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
 TP_LOCALLAB_SLOSH;Slope
 TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
-TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
 TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
 TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
-TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
-TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
 TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
 TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
+TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
+TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
 TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
 TP_LOCALLAB_SMOOTHCONTSIG;Contrast
 TP_LOCALLAB_SMOOTHSKEWSIG;Skew
@@ -4409,10 +4404,10 @@ TP_WAVELET_PASTEL;Pastel chroma
 TP_WAVELET_PROC;Process
 TP_WAVELET_PROTAB;Protection
 TP_WAVELET_PYRWAVTRC;Contrast profile
-TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
 TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
 TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
+TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
 TP_WAVELET_QUAAGRES;Aggressive
 TP_WAVELET_QUACONSER;Conservative
 TP_WAVELET_RADIUS;Radius shadows - highlight