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Merge branch 'dev' of https://github.com/Beep6581/RawTherapee into spot-removal-tool

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Lawrence Lee
2021-03-06 16:41:40 -08:00
parent 19e3833e66 47b1804034
commit 7e436a44d6
191 changed files with 13593 additions and 5052 deletions
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@@ -436,39 +436,39 @@ HISTORY_MSG_170;Vibrance - HH curve
HISTORY_MSG_171;L*a*b* - LC curve
HISTORY_MSG_172;L*a*b* - Restrict LC
HISTORY_MSG_173;NR - Detail recovery
HISTORY_MSG_174;CIECAM02
HISTORY_MSG_175;CAM02 - CAT02 adaptation
HISTORY_MSG_176;CAM02 - Viewing surround
HISTORY_MSG_177;CAM02 - Scene luminosity
HISTORY_MSG_178;CAM02 - Viewing luminosity
HISTORY_MSG_179;CAM02 - White-point model
HISTORY_MSG_180;CAM02 - Lightness (J)
HISTORY_MSG_181;CAM02 - Chroma (C)
HISTORY_MSG_182;CAM02 - Automatic CAT02
HISTORY_MSG_183;CAM02 - Contrast (J)
HISTORY_MSG_184;CAM02 - Scene surround
HISTORY_MSG_185;CAM02 - Gamut control
HISTORY_MSG_186;CAM02 - Algorithm
HISTORY_MSG_187;CAM02 - Red/skin prot.
HISTORY_MSG_188;CAM02 - Brightness (Q)
HISTORY_MSG_189;CAM02 - Contrast (Q)
HISTORY_MSG_190;CAM02 - Saturation (S)
HISTORY_MSG_191;CAM02 - Colorfulness (M)
HISTORY_MSG_192;CAM02 - Hue (h)
HISTORY_MSG_193;CAM02 - Tone curve 1
HISTORY_MSG_194;CAM02 - Tone curve 2
HISTORY_MSG_195;CAM02 - Tone curve 1
HISTORY_MSG_196;CAM02 - Tone curve 2
HISTORY_MSG_197;CAM02 - Color curve
HISTORY_MSG_198;CAM02 - Color curve
HISTORY_MSG_199;CAM02 - Output histograms
HISTORY_MSG_200;CAM02 - Tone mapping
HISTORY_MSG_174;CIECAM02/16
HISTORY_MSG_175;CAM02/16 - CAT02/16 adaptation
HISTORY_MSG_176;CAM02/16 - Viewing surround
HISTORY_MSG_177;CAM02/16 - Scene luminosity
HISTORY_MSG_178;CAM02/16 - Viewing luminosity
HISTORY_MSG_179;CAM02/16 - White-point model
HISTORY_MSG_180;CAM02/16 - Lightness (J)
HISTORY_MSG_181;CAM02/16 - Chroma (C)
HISTORY_MSG_182;CAM02/16 - Automatic CAT02/16
HISTORY_MSG_183;CAM02/16 - Contrast (J)
HISTORY_MSG_184;CAM02/16 - Scene surround
HISTORY_MSG_185;CAM02/16 - Gamut control
HISTORY_MSG_186;CAM02/16 - Algorithm
HISTORY_MSG_187;CAM02/16 - Red/skin prot.
HISTORY_MSG_188;CAM02/16 - Brightness (Q)
HISTORY_MSG_189;CAM02/16 - Contrast (Q)
HISTORY_MSG_190;CAM02/16 - Saturation (S)
HISTORY_MSG_191;CAM02/16 - Colorfulness (M)
HISTORY_MSG_192;CAM02/16 - Hue (h)
HISTORY_MSG_193;CAM02/16 - Tone curve 1
HISTORY_MSG_194;CAM02/16 - Tone curve 2
HISTORY_MSG_195;CAM02/16 - Tone curve 1
HISTORY_MSG_196;CAM02/16 - Tone curve 2
HISTORY_MSG_197;CAM02/16 - Color curve
HISTORY_MSG_198;CAM02/16 - Color curve
HISTORY_MSG_199;CAM02/16 - Output histograms
HISTORY_MSG_200;CAM02/16 - Tone mapping
HISTORY_MSG_201;NR - Chrominance - R&G
HISTORY_MSG_202;NR - Chrominance - B&Y
HISTORY_MSG_203;NR - Color space
HISTORY_MSG_204;LMMSE enhancement steps
HISTORY_MSG_205;CAM02 - Hot/bad pixel filter
HISTORY_MSG_206;CAT02 - Auto scene luminosity
HISTORY_MSG_205;CAT02/16 - Hot/bad pixel filter
HISTORY_MSG_206;CAT02/16 - Auto scene luminosity
HISTORY_MSG_207;Defringe - Hue curve
HISTORY_MSG_208;WB - B/R equalizer
HISTORY_MSG_210;GF - Angle
@@ -737,15 +737,15 @@ HISTORY_MSG_472;PS Smooth transitions
HISTORY_MSG_473;PS Use lmmse
HISTORY_MSG_474;PS Equalize
HISTORY_MSG_475;PS Equalize channel
HISTORY_MSG_476;CAM02 - Temp out
HISTORY_MSG_477;CAM02 - Green out
HISTORY_MSG_478;CAM02 - Yb out
HISTORY_MSG_479;CAM02 - CAT02 adaptation out
HISTORY_MSG_480;CAM02 - Automatic CAT02 out
HISTORY_MSG_481;CAM02 - Temp scene
HISTORY_MSG_482;CAM02 - Green scene
HISTORY_MSG_483;CAM02 - Yb scene
HISTORY_MSG_484;CAM02 - Auto Yb scene
HISTORY_MSG_476;CAM02/16 - Temp out
HISTORY_MSG_477;CAM02/16 - Green out
HISTORY_MSG_478;CAM02/16 - Yb out
HISTORY_MSG_479;CAM02/16 - CAT02/16 adaptation out
HISTORY_MSG_480;CAM02/16 - Automatic CAT02/16 out
HISTORY_MSG_481;CAM02/16 - Temp scene
HISTORY_MSG_482;CAM02/16 - Green scene
HISTORY_MSG_483;CAM02/16 - Yb scene
HISTORY_MSG_484;CAM02/16 - Auto Yb scene
HISTORY_MSG_485;Lens Correction
HISTORY_MSG_486;Lens Correction - Camera
HISTORY_MSG_487;Lens Correction - Lens
@@ -754,7 +754,7 @@ HISTORY_MSG_489;DRC - Detail
HISTORY_MSG_490;DRC - Amount
HISTORY_MSG_491;White Balance
HISTORY_MSG_492;RGB Curves
HISTORY_MSG_493;Local Adjustments
HISTORY_MSG_493;L*a*b* Adjustments
HISTORY_MSG_494;Capture Sharpening
HISTORY_MSG_496;Local Spot deleted
HISTORY_MSG_497;Local Spot selected
@@ -1205,7 +1205,7 @@ HISTORY_MSG_956;Local - CH Curve
HISTORY_MSG_957;Local - Denoise mode
HISTORY_MSG_958;Local - Show/hide settings
HISTORY_MSG_959;Local - Inverse blur
HISTORY_MSG_960;Local - Log encoding - cat02
HISTORY_MSG_960;Local - Log encoding - cat16
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
@@ -1226,12 +1226,74 @@ HISTORY_MSG_978;Local - Log encoding Sursource
HISTORY_MSG_979;Local - Log encoding Brightness Q
HISTORY_MSG_980;Local - Log encoding Colorfulness M
HISTORY_MSG_981;Local - Log encoding Strength
HISTORY_MSG_982;Local - Equalizer hue
HISTORY_MSG_983;Local - denoise threshold mask high
HISTORY_MSG_984;Local - denoise threshold mask low
HISTORY_MSG_985;Local - denoise Laplacian
HISTORY_MSG_986;Local - denoise reinforce
HISTORY_MSG_987;Local - GF recovery threshold
HISTORY_MSG_988;Local - GF threshold mask low
HISTORY_MSG_989;Local - GF threshold mask high
HISTORY_MSG_990;Local - Denoise recovery threshold
HISTORY_MSG_991;Local - Denoise threshold mask low
HISTORY_MSG_992;Local - Denoise threshold mask high
HISTORY_MSG_993;Local - Denoise Inverse algo
HISTORY_MSG_994;Local - GF Inverse algo
HISTORY_MSG_995;Local - Denoise decay
HISTORY_MSG_996;Local - Color recovery threshold
HISTORY_MSG_997;Local - Color threshold mask low
HISTORY_MSG_998;Local - Color threshold mask high
HISTORY_MSG_999;Local - Color decay
HISTORY_MSG_1000;Local - Denoise luminance gray
HISTORY_MSG_1001;Local - Log recovery threshold
HISTORY_MSG_1002;Local - Log threshold mask low
HISTORY_MSG_1003;Local - Log threshold mask high
HISTORY_MSG_1004;Local - Log decay
HISTORY_MSG_1005;Local - Exp recovery threshold
HISTORY_MSG_1006;Local - Exp threshold mask low
HISTORY_MSG_1007;Local - Exp threshold mask high
HISTORY_MSG_1008;Local - Exp decay
HISTORY_MSG_1009;Local - SH recovery threshold
HISTORY_MSG_1010;Local - SH threshold mask low
HISTORY_MSG_1011;Local - SH threshold mask high
HISTORY_MSG_1012;Local - SH decay
HISTORY_MSG_1013;Local - vib recovery threshold
HISTORY_MSG_1014;Local - vib threshold mask low
HISTORY_MSG_1015;Local - vib threshold mask high
HISTORY_MSG_1016;Local - vib decay
HISTORY_MSG_1017;Local - lc recovery threshold
HISTORY_MSG_1018;Local - lc threshold mask low
HISTORY_MSG_1019;Local - lc threshold mask high
HISTORY_MSG_1020;Local - lc decay
HISTORY_MSG_1021;Local - Denoise chrominance gray
HISTORY_MSG_1022;Local - TM recovery threshold
HISTORY_MSG_1023;Local - TM threshold mask low
HISTORY_MSG_1024;Local - TM threshold mask high
HISTORY_MSG_1025;Local - TM decay
HISTORY_MSG_1026;Local - cbdl recovery threshold
HISTORY_MSG_1027;Local - cbdl threshold mask low
HISTORY_MSG_1028;Local - cbdl threshold mask high
HISTORY_MSG_1029;Local - cbdl decay
HISTORY_MSG_1030;Local - reti recovery threshold
HISTORY_MSG_1031;Local - reti threshold mask low
HISTORY_MSG_1032;Local - reti threshold mask high
HISTORY_MSG_1033;Local - reti decay
HISTORY_MSG_1034;Local - Nlmeans - strength
HISTORY_MSG_1035;Local - Nlmeans - detail
HISTORY_MSG_1036;Local - Nlmeans - patch
HISTORY_MSG_1037;Local - Nlmeans - radius
HISTORY_MSG_1038;Local - Nlmeans - gamma
HISTORY_MSG_1039;Local - Grain - gamma
HISTORY_MSG_1040;Local - Spot - soft radius
HISTORY_MSG_1041;Local - Spot - Munsell
HISTORY_MSG_BLSHAPE;Blur by level
HISTORY_MSG_BLURCWAV;Blur chroma
HISTORY_MSG_BLURWAV;Blur luminance
HISTORY_MSG_BLUWAV;Attenuation response
HISTORY_MSG_CAT02PRESET;Cat02 automatic preset
HISTORY_MSG_CATCAT;Cat02/16 mode
HISTORY_MSG_CAT02PRESET;Cat02/16 automatic preset
HISTORY_MSG_CATCOMPLEX;Ciecam complexity
HISTORY_MSG_CATMODEL;CAM Model
HISTORY_MSG_CLAMPOOG;Clip out-of-gamut colors
HISTORY_MSG_COLORTONING_LABGRID_VALUE;CT - Color correction
HISTORY_MSG_COLORTONING_LABREGION_AB;CT - Color correction
@@ -1263,6 +1325,7 @@ HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
HISTORY_MSG_HISTMATCHING;Auto-matched tone curve
HISTORY_MSG_HLBL;Color propagation - blur
HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
@@ -1543,7 +1606,7 @@ PARTIALPASTE_CACORRECTION;Chromatic aberration correction
PARTIALPASTE_CHANNELMIXER;Channel mixer
PARTIALPASTE_CHANNELMIXERBW;Black-and-white
PARTIALPASTE_COARSETRANS;Coarse rotation/flipping
PARTIALPASTE_COLORAPP;CIECAM02
PARTIALPASTE_COLORAPP;CIECAM02/16
PARTIALPASTE_COLORGROUP;Color Related Settings
PARTIALPASTE_COLORTONING;Color toning
PARTIALPASTE_COMMONTRANSFORMPARAMS;Auto-fill
@@ -1895,7 +1958,7 @@ TOOLBAR_TOOLTIP_COLORPICKER;Lockable Color Picker\n\nWhen the tool is active:\n-
TOOLBAR_TOOLTIP_CROP;<b>Crop</b> selection.\nShortcut: <b>c</b>\nMove the crop using <b>Shift</b>+<b>mouse drag</b>.
TOOLBAR_TOOLTIP_HAND;Hand tool.\nShortcut: <b>h</b>
TOOLBAR_TOOLTIP_PERSPECTIVE;<b>Perspective Correction</b>\n\nEdit control lines to correct perspective distortion. Click this button again to apply correction.
TOOLBAR_TOOLTIP_STRAIGHTEN;<b>Straighten</b> / <b>fine rotation</b>.\nShortcut: <b>s</b>\n\nIndicate the vertical or horizontal by drawing a guide line over the image preview. Angle of rotation will be shown next to the guide line. Center of rotation is the geometrical center of the image.
TOOLBAR_TOOLTIP_STRAIGHTEN;<b>Straighten</b> / <b>fine rotation</b>.\nShortcut: <b>s</b>\n\nIndicate the vertical or horizontal by drawing a guide line over the image. Angle of rotation will be shown next to the guide line. Center of rotation is the geometrical center of the image.
TOOLBAR_TOOLTIP_WB;Spot white balance.\nShortcut: <b>w</b>
TP_BWMIX_ALGO;Algorithm OYCPM
TP_BWMIX_ALGO_LI;Linear
@@ -1981,34 +2044,39 @@ TP_COLORAPP_ALGO_TOOLTIP;Lets you choose between parameter subsets or all parame
TP_COLORAPP_BADPIXSL;Hot/bad pixel filter
TP_COLORAPP_BADPIXSL_TOOLTIP;Suppression of hot/bad (brightly colored) pixels.\n0 = No effect\n1 = Median\n2 = Gaussian.\nAlternatively, adjust the image to avoid very dark shadows.\n\nThese artifacts are due to limitations of CIECAM02.
TP_COLORAPP_BRIGHT;Brightness (Q)
TP_COLORAPP_BRIGHT_TOOLTIP;Brightness in CIECAM02 is the amount of perceived light emanating from a stimulus and differs from L*a*b* and RGB brightness.
TP_COLORAPP_BRIGHT_TOOLTIP;Brightness in CIECAM02/16 is the amount of perceived light emanating from a stimulus and differs from L*a*b* and RGB brightness.
TP_COLORAPP_CAT02ADAPTATION_TOOLTIP;When setting manually, values above 65 are recommended.
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_CATMOD;Cat02/16 mode
TP_COLORAPP_CATCLASSIC;Classic
TP_COLORAPP_CATSYMGEN;Automatic Symmetric
TP_COLORAPP_CATSYMSPE;Mixed
TP_COLORAPP_CHROMA;Chroma (C)
TP_COLORAPP_CHROMA_M;Colorfulness (M)
TP_COLORAPP_CHROMA_M_TOOLTIP;Colorfulness in CIECAM02 is the perceived amount of hue in relation to gray, an indicator that a stimulus appears to be more or less colored.
TP_COLORAPP_CHROMA_M_TOOLTIP;Colorfulness in CIECAM02/16 is the perceived amount of hue in relation to gray, an indicator that a stimulus appears to be more or less colored.
TP_COLORAPP_CHROMA_S;Saturation (S)
TP_COLORAPP_CHROMA_S_TOOLTIP;Saturation in CIECAM02 corresponds to the color of a stimulus in relation to its own brightness, differs from L*a*b* and RGB saturation.
TP_COLORAPP_CHROMA_TOOLTIP;Chroma in CIECAM02 corresponds to the color of a stimulus relative to the clarity of a stimulus that appears white under identical conditions, differs from L*a*b* and RGB chroma.
TP_COLORAPP_CIECAT_DEGREE;CAT02 adaptation
TP_COLORAPP_CONTRAST;Contrast (J),
TP_COLORAPP_CHROMA_S_TOOLTIP;Saturation in CIECAM02/16 corresponds to the color of a stimulus in relation to its own brightness, differs from L*a*b* and RGB saturation.
TP_COLORAPP_CHROMA_TOOLTIP;Chroma in CIECAM02/16 corresponds to the color of a stimulus relative to the clarity of a stimulus that appears white under identical conditions, differs from L*a*b* and RGB chroma.
TP_COLORAPP_CIECAT_DEGREE;CAT02/16 adaptation
TP_COLORAPP_CONTRAST;Contrast (J)
TP_COLORAPP_CONTRAST_Q;Contrast (Q)
TP_COLORAPP_CONTRAST_Q_TOOLTIP;Contrast (Q) based on brightness, differs from L*a*b* and RGB contrast.
TP_COLORAPP_CONTRAST_TOOLTIP;Contrast (J) based on lightness, differs from L*a*b* and RGB contrast.
TP_COLORAPP_CONTRAST_Q_TOOLTIP;Contrast (Q) in CIECAM02/16 is based on brightness, differs from L*a*b* and RGB contrast.
TP_COLORAPP_CONTRAST_TOOLTIP;Contrast (J) in CIECAM02/16 is based on lightness, differs from L*a*b* and RGB contrast.
TP_COLORAPP_CURVEEDITOR1;Tone curve 1
TP_COLORAPP_CURVEEDITOR1_TOOLTIP;Shows the histogram of L* (L*a*b*) before CIECAM02.\nIf the "CIECAM02 output histograms in curves" checkbox is enabled, shows the histogram of J or Q after CIECAM02.\n\nJ and Q are not shown in the main histogram panel.\n\nFor final output refer to the main histogram panel.
TP_COLORAPP_CURVEEDITOR1_TOOLTIP;Shows the histogram of L* (L*a*b*) before CIECAM02/16.\nIf the "CIECAM02/16 output histograms in curves" checkbox is enabled, shows the histogram of J or Q after CIECAM02/16.\n\nJ and Q are not shown in the main histogram panel.\n\nFor final output refer to the main histogram panel.
TP_COLORAPP_CURVEEDITOR2;Tone curve 2
TP_COLORAPP_CURVEEDITOR2_TOOLTIP;Same usage as with the second exposure tone curve.
TP_COLORAPP_CURVEEDITOR3;Color curve
TP_COLORAPP_CURVEEDITOR3_TOOLTIP;Adjust either chroma, saturation or colorfulness.\n\nShows the histogram of chromaticity (L*a*b*) before CIECAM02.\nIf the "CIECAM02 output histograms in curves" checkbox is enabled, shows the histogram of C, S or M after CIECAM02.\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;CIECAM02 output histograms in curves
TP_COLORAPP_DATACIE_TOOLTIP;When enabled, histograms in CIECAM02 curves show approximate values/ranges for J or Q, and C, s or M after the CIECAM02 adjustments.\nThis selection does not impact the main histogram panel.\n\nWhen disabled, histograms in CIECAM02 curves show L*a*b* values before CIECAM02 adjustments.
TP_COLORAPP_DEGREE_TOOLTIP;CAT02 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 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+green + CAT02 + [output]
TP_COLORAPP_CURVEEDITOR3_TOOLTIP;Adjust either chroma, saturation or colorfulness.\n\nShows the histogram of chromaticity (L*a*b*) before CIECAM02/16.\nIf the "CIECAM02/16 output histograms in curves" checkbox is enabled, shows the histogram of C, S or M after CIECAM02/16.\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;CIECAM02/16 output histograms in curves
TP_COLORAPP_DATACIE_TOOLTIP;When enabled, histograms in CIECAM02/16 curves show approximate values/ranges for J or Q, and C, s or M after the CIECAM02/16 adjustments.\nThis selection does not impact the main histogram panel.\n\nWhen disabled, histograms in CIECAM02/16 curves show L*a*b* values before CIECAM02/16 adjustments.
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_FREE;Free temp + tint + CAT02/16 +[output]
TP_COLORAPP_GAMUT;Gamut control (L*a*b*)
TP_COLORAPP_GAMUT_TOOLTIP;Allow gamut control in L*a*b* mode.
TP_COLORAPP_GEN;Settings - Preset
TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM02 color appearance model, which was designed to better simulate how human vision perceives colors under different lighting conditions, e.g., against different backgrounds.\nIt takes into account the environment of each color and modifies its appearance to get as close as possible to human perception.\nIt 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 model, which was designed to better simulate how human vision perceives colors under different lighting conditions, e.g., against different backgrounds.\nIt takes into account the environment of each color and modifies its appearance to get as close as possible to human perception.\nIt 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
@@ -2020,20 +2088,24 @@ 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 lattitude.
TP_COLORAPP_LABEL;Color Appearance & Lighting (CIECAM02)
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_LABEL;Color Appearance & Lighting (CIECAM02/16)
TP_COLORAPP_LABEL_CAM02;Image Adjustments
TP_COLORAPP_LABEL_SCENE;Scene Conditions
TP_COLORAPP_LABEL_VIEWING;Viewing Conditions
TP_COLORAPP_LIGHT;Lightness (J)
TP_COLORAPP_LIGHT_TOOLTIP;Lightness in CIECAM02 is the clarity of a stimulus relative to the clarity of a stimulus that appears white under similar viewing conditions, differs from L*a*b* and RGB lightness.
TP_COLORAPP_LIGHT_TOOLTIP;Lightness in CIECAM02/16 is the clarity of a stimulus relative to the clarity of a stimulus that appears white under similar viewing conditions, differs from L*a*b* and RGB lightness.
TP_COLORAPP_MEANLUMINANCE;Mean luminance (Yb%)
TP_COLORAPP_MODEL;WP Model
TP_COLORAPP_MODEL_TOOLTIP;White-Point Model.\n\n<b>WB [RT] + [output]</b>: RT's white balance is used for the scene, CIECAM02 is set to D50, and the output device's white balance is set in Viewing Conditions.\n\n<b>WB [RT+CAT02] + [output]</b>: RT's white balance settings are used by CAT02 and the output device's white balance is set in Viewing Conditions.\n\n<b>Free temp+green + CAT02 + [output]:</b> temp and green are selected by the user, the output device's white balance is set in Viewing Conditions.
TP_COLORAPP_MODEL_TOOLTIP;White-Point Model.\n\n<b>WB [RT] + [output]</b>: RT's white balance is used for the scene, CIECAM02/16 is set to D50, and the output device's white balance is set in Viewing Conditions.\n\n<b>WB [RT+CAT02/16] + [output]</b>: RT's white balance settings are used by CAT02 and the output device's white balance is set in Viewing Conditions.\n\n<b>Free temp + tint + CAT02/16 + [output]:</b> temp and tint are selected by the user, the output device's white balance is set in Viewing Conditions.
TP_COLORAPP_MODELCAT;CAM Model
TP_COLORAPP_MODELCAT_TOOLTIP;Allows you to choose between CIECAM02 or CIECAM16.\n CIECAM02 will sometimes be more accurate.\n CIECAM16 should generate fewer artifacts
TP_COLORAPP_MOD02;CIECAM02
TP_COLORAPP_MOD16;CIECAM16
TP_COLORAPP_NEUTRAL;Reset
TP_COLORAPP_NEUTRAL_TIP;Reset all sliders checkbox and curves to their default values
TP_COLORAPP_PRESETCAT02;Preset cat02 automatic - Symetric mode
TP_COLORAPP_PRESETCAT02_TIP;Set combobox, sliders, temp, green so that Cat02 automatic is preset.\nYou can change illuminant shooting conditions.\nYou must change Cat02 adaptation Viewing conditions if needed.\nYou can change Temperature and Tint Viewing conditions if needed, and other settings if needed.
TP_COLORAPP_PRESETCAT02;Preset cat02/16 automatic - Symmetric mode
TP_COLORAPP_PRESETCAT02_TIP;Set combobox, sliders, temp, green so that Cat02/16 automatic is preset.\nYou can change illuminant shooting conditions.\nYou must change Cat02/16 adaptation Viewing conditions if needed.\nYou can change Temperature and Tint Viewing conditions if needed, and other settings if needed.\nAll auto checkbox are disabled
TP_COLORAPP_RSTPRO;Red & skin-tones protection
TP_COLORAPP_RSTPRO_TOOLTIP;Red &amp; skin-tones protection affects both sliders and curves.
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.
@@ -2056,11 +2128,11 @@ TP_COLORAPP_TCMODE_SATUR;Saturation
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;Disable to change temperature and tint
TP_COLORAPP_TEMP_TOOLTIP;To select an 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_TONECIE;Tone mapping using CIECAM02
TP_COLORAPP_TONECIE;Tone mapping using CIECAM02/16
TP_COLORAPP_TONECIE_TOOLTIP;If this option is disabled, tone mapping is done in L*a*b* space.\nIf this option is enabled, tone mapping is done using CIECAM02.\nThe Tone Mapping tool must be enabled for this setting to take effect.
TP_COLORAPP_VIEWINGF_TOOLTIP;Takes into account the support on which the final image will be viewed (monitor, TV, projector, printer, ...), 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_VIEWING_ABSOLUTELUMINANCE_TOOLTIP;Absolute luminance of the viewing environment\n(usually 16 cd/m²).
TP_COLORAPP_WBCAM;WB [RT+CAT02] + [output]
TP_COLORAPP_WBCAM;WB [RT+CAT02/16] + [output]
TP_COLORAPP_WBRT;WB [RT] + [output]
TP_COLORAPP_YBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. A gray at 18% corresponds to a background luminance expressed in CIE L of 50%.\nThis data must take into account the average luminance of the image
TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. A gray at 18% corresponds to a background luminance expressed in CIE L of 50%.\nThis data is calculated from the average luminance of the image
@@ -2184,7 +2256,7 @@ TP_DIRPYRDENOISE_MAIN_GAMMA_TOOLTIP;Gamma varies noise reduction strength across
TP_DIRPYRDENOISE_MAIN_MODE;Mode
TP_DIRPYRDENOISE_MAIN_MODE_AGGRESSIVE;Aggressive
TP_DIRPYRDENOISE_MAIN_MODE_CONSERVATIVE;Conservative
TP_DIRPYRDENOISE_MAIN_MODE_TOOLTIP;"Conservative" preserves low frequency chroma patterns, while "aggressive" obliterates them.
TP_DIRPYRDENOISE_MAIN_MODE_TOOLTIP;Conservative preserves low frequency chroma patterns, while aggressive obliterates them.
TP_DIRPYRDENOISE_MEDIAN_METHOD;Median method
TP_DIRPYRDENOISE_MEDIAN_METHOD_CHROMINANCE;Chroma only
TP_DIRPYRDENOISE_MEDIAN_METHOD_LAB;L*a*b*
@@ -2302,6 +2374,7 @@ TP_GRADIENT_STRENGTH_TOOLTIP;Filter strength in stops.
TP_HLREC_BLEND;Blend
TP_HLREC_CIELAB;CIELab Blending
TP_HLREC_COLOR;Color Propagation
TP_HLREC_HLBLUR;Blur
TP_HLREC_ENA_TOOLTIP;Could be activated by Auto Levels.
TP_HLREC_LABEL;Highlight reconstruction
TP_HLREC_LUMINANCE;Luminance Recovery
@@ -2353,7 +2426,7 @@ TP_ICM_WORKING_TRC_TOOLTIP;Only for built-in profiles.
TP_IMPULSEDENOISE_LABEL;Impulse Noise Reduction
TP_IMPULSEDENOISE_THRESH;Threshold
TP_LABCURVE_AVOIDCOLORSHIFT;Avoid color shift
TP_LABCURVE_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction.
TP_LABCURVE_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab).
TP_LABCURVE_BRIGHTNESS;Lightness
TP_LABCURVE_CHROMATICITY;Chromaticity
TP_LABCURVE_CHROMA_TOOLTIP;To apply B&amp;W toning, set Chromaticity to -100.
@@ -2418,6 +2491,8 @@ TP_LOCALLAB_ARTIF;Shape detection
TP_LOCALLAB_ARTIF_TOOLTIP;ΔE scope threshold increases the range of deltaE scope. High values are for very wide gamut images.\nIncreasing deltaE decay can improve shape detection, but can also reduce the scope.
TP_LOCALLAB_AUTOGRAY;Auto mean luminance (Yb%)
TP_LOCALLAB_AVOID;Avoid color shift
TP_LOCALLAB_AVOIDRAD;Soft radius
TP_LOCALLAB_AVOIDMUN;Munsell correction only
TP_LOCALLAB_BALAN;ab-L balance (ΔE)
TP_LOCALLAB_BALANEXP;Laplacian balance
TP_LOCALLAB_BALANH;C-H balance (ΔE)
@@ -2460,12 +2535,12 @@ TP_LOCALLAB_BUTTON_DEL;Delete
TP_LOCALLAB_BUTTON_DUPL;Duplicate
TP_LOCALLAB_BUTTON_REN;Rename
TP_LOCALLAB_BUTTON_VIS;Show/Hide
TP_LOCALLAB_CATAD;Chromatic adaptation - Cat02
TP_LOCALLAB_CATAD;Chromatic adaptation - Cat16
TP_LOCALLAB_CBDL;Contrast by Detail Levels
TP_LOCALLAB_CBDLCLARI_TOOLTIP;Enhances local contrast of the midtones.
TP_LOCALLAB_CBDL_ADJ_TOOLTIP;Same as wavelets.\nThe first level (0) acts on 2x2 pixel details.\nThe last level (5) acts on 64x64 pixel details.
TP_LOCALLAB_CBDL_THRES_TOOLTIP;Prevents the sharpening of noise
TP_LOCALLAB_CBDL_TOOLNAME;CBDL - 2
TP_LOCALLAB_CBDL_TOOLNAME;Contrast by Detail Levels - 2
TP_LOCALLAB_CENTER_X;Center X
TP_LOCALLAB_CENTER_Y;Center Y
TP_LOCALLAB_CH;Curves CL - LC
@@ -2479,7 +2554,7 @@ TP_LOCALLAB_CHROMASKCOL;Chroma
TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated).
TP_LOCALLAB_CHRRT;Chroma
TP_LOCALLAB_CIEC;Use Ciecam environment parameters
TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM02 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_CIRCRADIUS;Spot size
TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the RT-spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for treating foliage.\nHigh values may be useful for treating skin
TP_LOCALLAB_CLARICRES;Merge chroma
@@ -2492,7 +2567,7 @@ TP_LOCALLAB_CLARI_TOOLTIP;Levels 0 to 4 (included): Sharp mask is enabled\
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 will only work if you have activated one (and only one) of the tools in "Add tool to current spot" menu.\nTo be able to preview ΔE with several tools enabled, use Mask and modifications - Preview ΔE
TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button will only work if you have activated one (and only one) of the tools in "Add tool to current spot" menu.\nTo be able to preview ΔE with several tools enabled, use Mask and modifications - Preview ΔE.
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_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.
@@ -2509,8 +2584,8 @@ TP_LOCALLAB_CONTCOL;Contrast threshold
TP_LOCALLAB_CONTFRA;Contrast by level
TP_LOCALLAB_CONTL;Contrast (J)
TP_LOCALLAB_CONTRAST;Contrast
TP_LOCALLAB_CONTRASTCURVMASK1_TOOLTIP;Allows you to freely modify the contrast of the mask (gamma & slope), instead of using a continuous & progressive curve. However it can create artifacts that have to be dealt with using the “Smooth radius” or “Laplacian threshold sliders”.
TP_LOCALLAB_CONTRASTCURVMASK_TOOLTIP;Allows you to freely change the contrast of the mask. May create artifacts.
TP_LOCALLAB_CONTRASTCURVMASK1_TOOLTIP;Allows you to freely modify the contrast of the mask (gamma and slope), instead of using a continuous and progressive curve. However it can create artifacts that have to be dealt with using the “Smooth radius” or “Laplacian threshold sliders”.
TP_LOCALLAB_CONTRASTCURVMASK_TOOLTIP;Allows you to freely change the contrast of the mask.\n Has a similar function to the Gamma and Slope sliders.\n It allows you to target certain parts of the image (usually the lightest parts of the mask by using the curve to exclude the darker parts).May create artifacts.
TP_LOCALLAB_CONTRESID;Contrast
TP_LOCALLAB_CONTTHMASK_TOOLTIP;Allows you to determine which parts of the image will be impacted based on the texture.
TP_LOCALLAB_CONTTHR;Contrast Threshold
@@ -2543,16 +2618,20 @@ TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by pro
TP_LOCALLAB_DENOICHROF_TOOLTIP;Allows you to adjust fine-detail chrominance noise
TP_LOCALLAB_DENOIEQUALCHRO_TOOLTIP;Allows you to direct the chroma noise reduction towards either the blue-yellow or red-green colors.
TP_LOCALLAB_DENOIEQUAL_TOOLTIP;Allows you to carry out more or less noise reduction in either the shadows or the highlights.
TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask
TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask
TP_LOCALLAB_DENOILUMDETAIL_TOOLTIP;Allows you to recover luminance detail by progressively applying a Fourier transform (DCT).
TP_LOCALLAB_DENOIQUA_TOOLTIP;Conservative mode preserves low frequency detail. Aggressive mode removes low frequency detail.
TP_LOCALLAB_DENOIQUA_TOOLTIP;Conservative mode preserves low frequency detail. Aggressive mode removes low frequency detail.\nConservative and Aggressive use wavelets and DCT, can be used in conjunction with "Non-local Means - Luminance".
TP_LOCALLAB_DENOIS;Ψ Denoise
TP_LOCALLAB_DENOITHR_TOOLTIP;Adjusts edge detection to help reduce noise in uniform, low-contrast areas.
TP_LOCALLAB_DENOI_EXP;Denoise
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 (deltaE).\n\n You can refine the result with a "Median filter" or a "Guided Filter" (Soft radius).
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 (deltaE).
TP_LOCALLAB_DEPTH;Depth
TP_LOCALLAB_DETAIL;Local contrast
TP_LOCALLAB_DETAILFRA;Edge detection
TP_LOCALLAB_DETAILSH;Details
TP_LOCALLAB_DETAILTHR;Luminance & chroma detail threshold (DCT ƒ)
TP_LOCALLAB_DIVGR;Gamma
TP_LOCALLAB_DUPLSPOTNAME;Copy
TP_LOCALLAB_EDGFRA;Edge sharpness
TP_LOCALLAB_EDGSHOW;Show all tools
@@ -2575,9 +2654,10 @@ TP_LOCALLAB_EV_VIS_ALL;Show all
TP_LOCALLAB_EXCLUF;Excluding
TP_LOCALLAB_EXCLUF_TOOLTIP;Excluding mode prevents adjacent spots from influencing certain parts of the image. Adjusting Scope will extend the range of colors.\n You can also add tools to an Excluding spot and use them in the same way as for a normal spot.
TP_LOCALLAB_EXCLUTYPE;Spot method
TP_LOCALLAB_EXCLUTYPE_TOOLTIP;Normal spot uses recursive data.\n\nExcluding spot reinitializes all local adjustment data.\nCan be used to totally or partially cancel a previous action or to carry out operations in Inverse mode
TP_LOCALLAB_EXCLUTYPE_TOOLTIP;Normal spot uses recursive data.\n\nExcluding spot reinitializes all local adjustment data.\nCan be used to totally or partially cancel a previous action or to carry out operations in Inverse mode.\n\nFull image allows you to use the local adjustment tools on the whole image.\n The RT Spot delimiters are set beyond the image preview boundaries.\n The 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.\nPlease note: 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.
TP_LOCALLAB_EXECLU;Excluding spot
TP_LOCALLAB_EXNORM;Normal spot
TP_LOCALLAB_EXFULL;Full image
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;Chroma compensation
TP_LOCALLAB_EXPCHROMA_TOOLTIP;Use in association with Exposure compensation f and Contrast Attenuator f to avoid desaturating colors.
@@ -2642,6 +2722,8 @@ TP_LOCALLAB_GRADSTRHUE_TOOLTIP;Adjusts hue gradient strength
TP_LOCALLAB_GRADSTRLUM;Luminance gradient strength
TP_LOCALLAB_GRADSTR_TOOLTIP;Filter strength in stops
TP_LOCALLAB_GRAINFRA;Film Grain 1:1
TP_LOCALLAB_GRAINFRA2;Coarseness
TP_LOCALLAB_GRAIN_TOOLTIP;Adds film-like grain to the image
TP_LOCALLAB_GRALWFRA;Graduated filter (local contrast)
TP_LOCALLAB_GRIDFRAME_TOOLTIP;You can use this tool as a brush. Use small spot and adapt transition and transition decay\nOnly mode NORMAL and eventually Hue, Saturation, Color, Luminosity are concerned by Merge background (ΔE)
@@ -2663,7 +2745,8 @@ TP_LOCALLAB_INVBL;Inverse
TP_LOCALLAB_INVBL_TOOLTIP;Alternative to Inverse mode: use two spots\nFirst Spot:\n full image - delimiter outside preview\n RT-spot shape: rectangle. Transition 100\n\nSecond spot : Excluding spot
TP_LOCALLAB_INVERS;Inverse
TP_LOCALLAB_INVERS_TOOLTIP;Fewer possibilities if selected (Inverse).\n\nAlternative: use two spots\nFirst Spot:\n full image - delimiter outside preview\n RT-spot shape: rectangle. Transition 100\n\nSecond spot: Excluding spot
TP_LOCALLAB_ISOGR;Coarseness (ISO)
TP_LOCALLAB_INVMASK;Inverse algorithm
TP_LOCALLAB_ISOGR;Distribution (ISO)
TP_LOCALLAB_LABBLURM;Blur Mask
TP_LOCALLAB_LABEL;Local Adjustments
TP_LOCALLAB_LABGRID;Color correction grid
@@ -2674,9 +2757,9 @@ TP_LOCALLAB_LAPLACC;ΔØ Mask Laplacian solve PDE
TP_LOCALLAB_LAPLACE;Laplacian threshold ΔE
TP_LOCALLAB_LAPLACEXP;Laplacian threshold
TP_LOCALLAB_LAPMASKCOL;Laplacian threshold
TP_LOCALLAB_LAPRAD1_TOOLTIP;Avoid using “Smooth radius” and “Laplacian threshold” (advanced) together.\nTransforms the mask to eliminate values lower than the threshold.\nReduces artifacts and noise, and allows local contrast to be modified.
TP_LOCALLAB_LAPRAD1_TOOLTIP;Increases the contrast of the mask by increasing the luminance values of the lighter areas. Can be used in conjunction with the L(L) and LC(H) curves.
TP_LOCALLAB_LAPRAD2_TOOLTIP;Smooth radius uses a guided filter to decrease artifacts and smooth out the transition
TP_LOCALLAB_LAPRAD_TOOLTIP;Avoid using “Smooth radius” and “Laplacian threshold” (advanced) together.\nSmooth radius uses a guided filter to decrease artifacts and smooth out the transition
TP_LOCALLAB_LAPRAD_TOOLTIP;Smooth radius uses a guided filter to decrease artifacts and smooth out the transition
TP_LOCALLAB_LAP_MASK_TOOLTIP;Solve PDE for all Laplacian masks.\nIf enabled Laplacian threshold mask reduce artifacts and smooth result.\nIf disabled linear response.
TP_LOCALLAB_LC_FFTW_TOOLTIP;FFT improves quality and allows the use of large radii, but increases processing time (depends on the area to be processed). Preferable to use only for large radii. The size of the area can be reduced by a few pixels to optimize the FFTW. This can reduce the processing time by a factor of 1.5 to 10.
TP_LOCALLAB_LC_TOOLNAME;Local Contrast & Wavelets - 7
@@ -2689,14 +2772,14 @@ TP_LOCALLAB_LIGHTN_TOOLTIP;In inverse mode: selection = -100 forces luminance to
TP_LOCALLAB_LIGHTRETI;Lightness
TP_LOCALLAB_LINEAR;Linearity
TP_LOCALLAB_LIST_NAME;Add tool to current spot...
TP_LOCALLAB_LIST_TOOLTIP;You can select 3 levels of complexity for each tool: Basic, Standard & Advanced.\nThe default setting for all tools is Basic but this can be changed in the Preferences window.\nYou can also change the level of complexity on a per-tool basis while you are editing
TP_LOCALLAB_LMASK_LEVEL_TOOLTIP;Give priority to action on midtones and high lights and by choosing the concerned wavelet levels
TP_LOCALLAB_LMASK_LL_TOOLTIP;Allows you to freely change the contrast of the mask. May create artifacts.
TP_LOCALLAB_LIST_TOOLTIP;You can select 3 levels of complexity for each tool: Basic, Standard and Advanced.\nThe default setting for all tools is Basic but this can be changed in the Preferences window.\nYou can also change the level of complexity on a per-tool basis while you are editing
TP_LOCALLAB_LMASK_LEVEL_TOOLTIP;Allows you to decrease or increase the effect on particular levels of detail in the mask by targeting certain luminance zones (in general the lightest).
TP_LOCALLAB_LMASK_LL_TOOLTIP;Allows you to freely change the contrast of the mask.\n Has a similar function to the Gamma and Slope sliders.\n It allows you to target certain parts of the image (usually the lightest parts of the mask by using the curve to exclude the darker parts). May create artifacts.
TP_LOCALLAB_LOCCONT;Unsharp Mask
TP_LOCALLAB_LOC_CONTRAST;Local Contrast & Wavelets
TP_LOCALLAB_LOC_CONTRASTPYR;Ψ Pyramid 1:
TP_LOCALLAB_LOC_CONTRASTPYR2;Ψ Pyramid 2:
TP_LOCALLAB_LOC_CONTRASTPYR2LAB; Contrast by level- Tone Mapping - Dir.Contrast
TP_LOCALLAB_LOC_CONTRASTPYR2LAB; Contrast by level - TM - Directional contrast
TP_LOCALLAB_LOC_CONTRASTPYRLAB; Graduated Filter - Edge Sharpness - Blur
TP_LOCALLAB_LOC_RESIDPYR;Residual image (Main)
TP_LOCALLAB_LOG;Log Encoding
@@ -2712,8 +2795,8 @@ 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.
TP_LOCALLAB_LOGCONQL;Contrast (Q)
TP_LOCALLAB_LOGCONTL;Contrast (J)
TP_LOCALLAB_LOGCONTL_TOOLTIP;Contrast (J) in CIECAM02 takes into account the increase in perceived coloration with luminance.
TP_LOCALLAB_LOGCONTQ_TOOLTIP;Contrast (Q) in CIECAM02 takes into account the increase in perceived coloration with brightness.
TP_LOCALLAB_LOGCONTL_TOOLTIP;Contrast (J) in CIECAM16 takes into account the increase in perceived coloration with luminance.
TP_LOCALLAB_LOGCONTQ_TOOLTIP;Contrast (Q) in CIECAM16 takes into account the increase in perceived coloration with brightness.
TP_LOCALLAB_LOGDETAIL_TOOLTIP;Acts mainly on high frequencies.
TP_LOCALLAB_LOGENCOD_TOOLTIP;Tone Mapping with Logarithmic encoding (ACES).\nUseful for underexposed images or images with high dynamic range.\n\nTwo-step process : 1) Dynamic Range calculation 2) Manual adjustment
TP_LOCALLAB_LOGEXP;All tools
@@ -2728,7 +2811,7 @@ TP_LOCALLAB_LOGLIN;Logarithm mode
TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
TP_LOCALLAB_LOGREPART;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_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM02 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium and highlights tones
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 and highlights tones
TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
TP_LOCALLAB_LOGSRCGREY_TOOLTIP;Estimated gray point value of the image.
TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light environment (standard). The image will not change.\n\n<b>Dim</b>: Dim environment. The image will become slightly bright.
@@ -2744,14 +2827,59 @@ TP_LOCALLAB_LUMFRA;L*a*b* standard
TP_LOCALLAB_LUMONLY;Luminance only
TP_LOCALLAB_MASFRAME;Mask and Merge
TP_LOCALLAB_MASFRAME_TOOLTIP;For all masks.\nTakes into account the deltaE 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
TP_LOCALLAB_MASK;Mask
TP_LOCALLAB_MASK;Contrast
TP_LOCALLAB_MASK2;Contrast curve
TP_LOCALLAB_MASKCOL;Mask Curves
TP_LOCALLAB_MASKCOM;Common Color Mask
TP_LOCALLAB_MASKCOM_TOOLNAME;Common Color Mask - 13
TP_LOCALLAB_MASKCOM_TOOLTIP;A tool in its own right.\nCan be used to adjust the image appearance (chrominance, luminance, contrast) and texture as a function of Scope.
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_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_MASKH;Hue curve
TP_LOCALLAB_MASKLC_TOOLTIP;This 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 settings 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_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 if 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_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_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_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_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_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_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_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Light-tone limit above which Color and Light 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 wavelet.\n Use a lockable color picker on the mask to see which areas will be affected. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Light-tone limit above which Shadows Highlights 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Light-tone limit above which CBDL (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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Light-tone limit above which Retinex (Luminance only) 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Light-tone limit above which Tone Mapping 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Light-tone limit above which Vibrance and Warm Cool 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Light-tone limit above which Local contrast and Wavelet 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Light-tone limit above which 'Dynamic range and Exposure' 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Light-tone limit above which Log encoding 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. Be carefull in 'settings' to Background color mask = 0
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 wavelet.\n Use a lockable color picker on the mask to see which areas will be affected. Be carefull in 'settings' to Background color mask = 0
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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
TP_LOCALLAB_MASKLNOISELOW;Reinforce denoise in dark and light areas
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 wavelet.\n Use a lockable color picker on the mask to see which areas will be affected. Be carefull in 'settings' to Background color mask = 0
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 wavelet.\n Use a lockable color picker on the mask to see which areas will be affected. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which Color and Light 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 wavelet.\n Use a lockable color picker on the mask to see which areas will be affected. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which Log encoding 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which 'Dynamic range and Exposure' 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which Shadows Highligts 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which CBDL (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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which Retinex (Luminance only) 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which Tone Mapping 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which Vibrance and Warm Cool 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which Local contrast and Wavelet 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. Be carefull in 'settings' to Background color mask = 0
TP_LOCALLAB_MASKLCTHRMID;Gray area luminance denoise
TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chrominance denoise
TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications)
TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Mask & modifications)
TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
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 RT-spot and place it close to the first spot. The small variations in the spot references allows you to make fine adjustments.
TP_LOCALLAB_MED;Medium
TP_LOCALLAB_MEDIAN;Median Low
@@ -2807,6 +2935,17 @@ TP_LOCALLAB_MRTHR;Original Image
TP_LOCALLAB_MRTWO;Short Curves 'L' Mask
TP_LOCALLAB_MULTIPL_TOOLTIP;Wide-range tone adjustment: -18EV to +4EV. The first slider acts on very dark tones between -18EV and -6EV. The last slider acts on light tones up to 4EV
TP_LOCALLAB_NEIGH;Radius
TP_LOCALLAB_NLDENOISE_TOOLTIP;“Detail recovery” acts on a Laplacian transform to target uniform areas rather than areas with detail.
TP_LOCALLAB_NLDENOISENLPAT_TOOLTIP;Use this slider to adapt the amount of denoise to the size of the objects to be processed.
TP_LOCALLAB_NLDENOISENLRAD_TOOLTIP;Higher values increase denoise at the expense of processing time.
TP_LOCALLAB_NLDENOISENLGAM_TOOLTIP;Lower values preserve details and texture, higher values increase denoise.
TP_LOCALLAB_NLFRA;Non-local Means - Luminance
TP_LOCALLAB_NLFRAME_TOOLTIP;Non-local means denoising takes a mean of all pixels in the image, weighted by how similar they are to the target pixel.\nReduces loss of detail compared with local mean algorithms.\nOnly luminance noise is taken into account. Chrominance noise is best processed using wavelets and Fourier transforms (DCT).\nCan be used in conjunction with 'Luminance denoise by level' or on its own.\nRT-Spot size must be greater than 150x150 pixels (Output).
TP_LOCALLAB_NLLUM;Strength
TP_LOCALLAB_NLDET;Detail recovery
TP_LOCALLAB_NLGAM;Gamma
TP_LOCALLAB_NLPAT;Maximum patch size
TP_LOCALLAB_NLRAD;Maximum radius size
TP_LOCALLAB_NOISECHROCOARSE;Coarse chroma (Wav)
TP_LOCALLAB_NOISECHROC_TOOLTIP;If superior to zero, high quality algorithm is enabled.\nCoarse is for slider >=0.02
TP_LOCALLAB_NOISECHRODETAIL;Chroma detail recovery (DCT ƒ)
@@ -2838,6 +2977,10 @@ TP_LOCALLAB_PREVSHOW;Show additional settings
TP_LOCALLAB_PROXI;ΔE decay
TP_LOCALLAB_QUALCURV_METHOD;Curve type
TP_LOCALLAB_QUAL_METHOD;Global quality
TP_LOCALLAB_QUACONSER;Conservative
TP_LOCALLAB_QUAAGRES;Aggressive
TP_LOCALLAB_QUANONEWAV;Non-local means only
TP_LOCALLAB_QUANONEALL;Off
TP_LOCALLAB_RADIUS;Radius
TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30
TP_LOCALLAB_RADMASKCOL;Smooth radius
@@ -2885,17 +3028,17 @@ TP_LOCALLAB_SCOPEMASK_TOOLTIP;Enabled if DeltaE Image Mask is enabled.\nLow valu
TP_LOCALLAB_SENSI;Scope
TP_LOCALLAB_SENSIEXCLU;Scope
TP_LOCALLAB_SENSIEXCLU_TOOLTIP;Adjust the colors to be excluded
TP_LOCALLAB_SENSIMASK_TOOLTIP;Scope adjustment specific to common mask tool.\nActs on the difference between the original image and the mask.\nUses the luma, chroma & hue references from the center of the RT-spot\n\nYou can also adjust the deltaE of the mask itself by using 'Scope (deltaE image mask)' in 'Settings' > Mask & Merge
TP_LOCALLAB_SENSIMASK_TOOLTIP;Scope adjustment specific to common mask tool.\nActs on the difference between the original image and the mask.\nUses the luma, chroma and hue references from the center of the RT-spot\n\nYou can also adjust the deltaE of the mask itself by using 'Scope (deltaE image mask)' in 'Settings' > Mask and Merge
TP_LOCALLAB_SENSI_TOOLTIP;Adjusts the scope of the action:\nSmall values limit the action to colors similar to those in the center of the spot.\nHigh values let the tool act on a wider range of colors
TP_LOCALLAB_SETTINGS;Settings
TP_LOCALLAB_SH1;Shadows Highlights
TP_LOCALLAB_SH2;Equalizer
TP_LOCALLAB_SHADEX;Shadows
TP_LOCALLAB_SHADEXCOMP;Shadow compression & tonal width
TP_LOCALLAB_SHADHIGH;Shadows/Highlights & Tone equalizer
TP_LOCALLAB_SHADHIGH;Shadows/Highlights-Equalizer
TP_LOCALLAB_SHADHMASK_TOOLTIP;Lowers the highlights of the mask in the same way as the shadows/highlights algorithm
TP_LOCALLAB_SHADMASK_TOOLTIP;Lifts the shadows of the mask in the same way as the shadows/highlights algorithm
TP_LOCALLAB_SHADOWHIGHLIGHT_TOOLTIP;Adjust shadows & highlights either with shadows & highlights sliders or with a tone equalizer.\nCan be used instead of, or in conjunction with the Exposure module.\nCan also be used as a graduated filter.
TP_LOCALLAB_SHADOWHIGHLIGHT_TOOLTIP;Adjust shadows and highlights either with shadows & highlights sliders or with a tone equalizer.\nCan be used instead of, or in conjunction with the Exposure module.\nCan also be used as a graduated filter.
TP_LOCALLAB_SHAMASKCOL;Shadows
TP_LOCALLAB_SHAPETYPE;RT-spot shape
TP_LOCALLAB_SHAPE_TOOLTIP;”Ellipse” is the normal mode.\n “Rectangle” can be used in certain cases, for example to work in full-image mode by placing the delimiters outside the preview area. In this case, set transition = 100.\n\nFuture developments will include polygon shapes and Bezier curves.
@@ -2926,6 +3069,7 @@ TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Mask and modifications can be chosen.\nBlur and noise : in this case it is not used for 'denoise'.\nDenoise : in this case it is not used for 'blur and noise'.\n\nBlur and noise + denoise : mask is shared, be carefull to 'show modifications' and 'scope'
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)
@@ -3010,7 +3154,7 @@ TP_LOCALLAB_TRANSIT_TOOLTIP;Adjust smoothness of transition between affected and
TP_LOCALLAB_TRANSMISSIONGAIN;Transmission gain
TP_LOCALLAB_TRANSMISSIONMAP;Transmission map
TP_LOCALLAB_TRANSMISSION_TOOLTIP;Transmission according to transmission.\nAbscissa: transmission from negative values (min), mean, and positive values (max).\nOrdinate: amplification or reduction.\nYou can adjust this curve to change the Transmission and reduce artifacts
TP_LOCALLAB_USEMASK;Use mask
TP_LOCALLAB_USEMASK;Laplacian
TP_LOCALLAB_VART;Variance (contrast)
TP_LOCALLAB_VIBRANCE;Vibrance & Warm/Cool
TP_LOCALLAB_VIBRA_TOOLTIP;Adjusts vibrance (essentially the same as the global adjustment).\nCarries out the equivalent of a white-balance adjustment using a CIECAM algorithm.
@@ -3019,7 +3163,7 @@ TP_LOCALLAB_VIS_TOOLTIP;<b>Click</b> to show/hide selected Control Spot.\n<b>Ctr
TP_LOCALLAB_WAMASKCOL;Ψ Mask Wavelet level
TP_LOCALLAB_WARM;Warm/Cool & Color artifacts
TP_LOCALLAB_WARM_TOOLTIP;This slider uses the CIECAM algorithm and acts as a White Balance control to make the color temperature of the selected area warmer or cooler.\nIt can also reduce color artifacts in some cases.
TP_LOCALLAB_WASDEN_TOOLTIP;Luminance noise reduction: the left-hand side of the curve corresponds to the first 3 levels 0,1 &2 (fine detail). The right hand side of the curve corresponds to the coarser details (level 3 and beyond).
TP_LOCALLAB_WASDEN_TOOLTIP;Luminance noise reduction: the left-hand side of the curve including the dark-gray/light-gray boundary corresponds to the first 3 levels 0, 1, 2 (fine detail). The right hand side of the curve corresponds to the coarser details (level 3, 4, 5, 6).
TP_LOCALLAB_WAT_BALTHRES_TOOLTIP;Balances the action within each level.
TP_LOCALLAB_WAT_BLURLC_TOOLTIP;The default blur setting affects all 3 L*a* b* components (luminance and colour).\nWhen checked, only luminance is blurred.
TP_LOCALLAB_WAT_CLARIC_TOOLTIP;“Merge chroma” is used to select the intensity of the desired effect on chrominance.
@@ -3060,6 +3204,7 @@ TP_LOCALLAB_WAVEEDG_TOOLTIP;Improves sharpness by targeting the action of local
TP_LOCALLAB_WAVEMASK_LEVEL_TOOLTIP;Range of wavelet levels used in “Local contrast (by wavelet level)”
TP_LOCALLAB_WAVGRAD_TOOLTIP;Allows the local contrast to be varied according to a chosen gradient and angle. The variation of the luminance signal is taken into account and not the luminance.
TP_LOCALLAB_WAVHIGH;Ψ Wavelet high
TP_LOCALLAB_WAVHUE_TOOLTIP;Allows you to reduce or increase the denoise based on hue.
TP_LOCALLAB_WAVLEV;Blur by level
TP_LOCALLAB_WAVLOW;Ψ Wavelet low
TP_LOCALLAB_WAVMASK;Ψ Local contrast (by wavelet level)
@@ -3494,7 +3639,7 @@ TP_WAVELET_DENMIX_TOOLTIP;Balances the action of the guide taking into account t
TP_WAVELET_DENOISE;Guide curve based on Local contrast
TP_WAVELET_DENOISEGUID;Guided threshold based on hue
TP_WAVELET_DENOISEH;High levels Curve Local contrast
TP_WAVELET_DENOISEHUE;Denoise equalizer Hue
TP_WAVELET_DENOISEHUE;Denoise hue equalizer
TP_WAVELET_DENQUA;Mode
TP_WAVELET_DENSIGMA_TOOLTIP;Adapts the shape of the guide
TP_WAVELET_DENSLI;Slider
@@ -3581,7 +3726,7 @@ TP_WAVELET_MIXNOISE;Noise
TP_WAVELET_NEUTRAL;Neutral
TP_WAVELET_NOIS;Denoise
TP_WAVELET_NOISE;Denoise and Refine
TP_WAVELET_NOISE_TOOLTIP;If level 4 luminance denoise superior to 50, mode Agressive is used.\nIf chrominance coarse superior to 20, mode Agressive is used.
TP_WAVELET_NOISE_TOOLTIP;If level 4 luminance denoise superior to 50, mode Aggressive is used.\nIf chrominance coarse superior to 20, mode Aggressive is used.
TP_WAVELET_NPHIGH;High
TP_WAVELET_NPLOW;Low
TP_WAVELET_NPNONE;None
@@ -3596,7 +3741,8 @@ TP_WAVELET_OPACITYWL_TOOLTIP;Modify the final local contrast at the end of the w
TP_WAVELET_PASTEL;Pastel chroma
TP_WAVELET_PROC;Process
TP_WAVELET_PROTAB;Protection
TP_WAVELET_QUAAGRES;Agressive
TP_WAVELET_QUAAGRES;Aggressive
TP_WAVELET_QUANONE;Off
TP_WAVELET_QUACONSER;Conservative
TP_WAVELET_RADIUS;Radius shadows - highlight
TP_WAVELET_RANGEAB;Range a and b %
@@ -3716,7 +3862,7 @@ ZOOMPANEL_ZOOMFITCROPSCREEN;Fit crop to screen\nShortcut: <b>f</b>
ZOOMPANEL_ZOOMFITSCREEN;Fit whole image to screen\nShortcut: <b>Alt</b>-<b>f</b>
ZOOMPANEL_ZOOMIN;Zoom In\nShortcut: <b>+</b>
ZOOMPANEL_ZOOMOUT;Zoom Out\nShortcut: <b>-</b>
//TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM02 color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nOnly the third Ciecam process (Viewing conditions - Target) is taken into account, as well as part of the second (contrast J, saturation s) , as well as some data from the first process (Scene conditions - Source) which is used for the Log encoding.\nIt also 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.\nOnly the third Ciecam process (Viewing conditions - Target) is taken into account, as well as part of the second (contrast J, saturation s) , as well as some data from the first process (Scene conditions - Source) which is used for the Log encoding.\nIt also 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_WAVELET_DENH;Low levels (1234)- Finest details
//TP_WAVELET_DENL;High levels - Coarsest details
//TP_WAVELET_DENLH;Guided threshold by detail levels 1-4