Run generateTranslationDiffs

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_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
-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_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
 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_CYANTH;Cyan
-TP_COMPRESSGAMUT_MAGENTATH;Magenta
-TP_COMPRESSGAMUT_YELLOWTH;Yellow
-TP_COMPRESSGAMUT_THRESHOLD;Threshold
+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_MAGENTALIM;Magenta
-TP_COMPRESSGAMUT_YELLOWLIM;Yellow
+TP_COMPRESSGAMUT_CYANTH;Cyan
+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_TRCREL;Relative gamma mode
+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.\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