Review the default language file

This commit is contained in:
Lawrence Lee
2024-07-13 22:00:37 -07:00
parent 4fd6b5c3db
commit a4de981329

View File

@@ -758,7 +758,7 @@ HISTORY_MSG_511;Local - SD - ΔE scope threshold
HISTORY_MSG_512;Local - SD - ΔE decay
HISTORY_MSG_513;Local - Spot - Excluding - Scope
HISTORY_MSG_514;Local - Spot structure
HISTORY_MSG_515;Local Adjustments
HISTORY_MSG_515;Selective Editing
HISTORY_MSG_516;Local - Color and light
HISTORY_MSG_517;Local - Enable super
HISTORY_MSG_518;Local - Lightness
@@ -1440,8 +1440,8 @@ HISTORY_MSG_ICM_PRESER;Preserve neutral
HISTORY_MSG_ICM_REDX;Primaries Red X
HISTORY_MSG_ICM_REDY;Primaries Red Y
HISTORY_MSG_ICM_REFI;Refinement Colors
HISTORY_MSG_ICM_SHIFTX;Refinement Colors - shift x
HISTORY_MSG_ICM_SHIFTY;Refinement Colors - shift y
HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
HISTORY_MSG_ICM_TRCEXP;Abstract Profile
HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
@@ -1450,78 +1450,77 @@ 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_CIE_ANGGRAD;Local CIECAM - gradient angle
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;Matrix adaptation
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
HISTORY_MSG_LOCAL_CIE_GAM;Local CIECAM Gamma
HISTORY_MSG_LOCAL_CIE_GAMUTCIE;Local CIECAM Gamut
HISTORY_MSG_LOCAL_CIE_ILL;Local CIECAM TRC Illuminant
HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local CIECAM Log encoding Q
HISTORY_MSG_LOCAL_CIE_MIDT;Local CIECAM Mid Tones
HISTORY_MSG_LOCAL_CIE_NORM;Local CIECAM Normalize L
HISTORY_MSG_LOCAL_CIE_PRIM;Local CIECAM TRC Primaries
HISTORY_MSG_LOCAL_CIE_REFI;Local CIECAM Refinement Colors
HISTORY_MSG_LOCAL_CIE_SIG;Sigmoid
HISTORY_MSG_LOCAL_CIE_SIGADAP;Local CIECAM Sigmoid adaptability
HISTORY_MSG_LOCAL_CIE_SIGMET;Local CIECAM - Sigmoid method
HISTORY_MSG_LOCAL_CIE_SLOP;Local CIECAM - Slope
HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local CIECAM - Gray balance
HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local CIECAM - Red balance
HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local CIECAM - Green balance
HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local CIECAM - Blue balance
HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local CIECAM - Smooth lights method
HISTORY_MSG_LOCAL_CIE_STRGRAD;Local CIECAM - gradient strength L
HISTORY_MSG_LOCAL_CIE_TRC;Local CIECAM - TRC
HISTORY_MSG_LOCAL_CIE_REDXL;Local CIECAM - Red X
HISTORY_MSG_LOCAL_CIE_REDYL;Local CIECAM - Red Y
HISTORY_MSG_LOCAL_CIE_GREXL;Local CIECAM - Green X
HISTORY_MSG_LOCAL_CIE_GREYL;Local CIECAM - Green Y
HISTORY_MSG_LOCAL_CIE_BLACKS;Local CIECAM - Blacks distribution
HISTORY_MSG_LOCAL_CIE_BLUXL;Local CIECAM - Blue X
HISTORY_MSG_LOCAL_CIE_BLUYL;Local CIECAM - Blue Y
HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local CIECAM - Shift x
HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local CIECAM - Shift y
HISTORY_MSG_LOCAL_CIE_SMOOTH;Local CIECAM - Scale Yb Scene
HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local CIECAM - Scale Yb Viewing
HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local CIECAM - levels - luminosity mode
HISTORY_MSG_LOCAL_CIE_SATCIE;Local CIECAM - Saturation control
HISTORY_MSG_LOCAL_CIE_STRLOG;Local CIECAM - Log encoding strength
HISTORY_MSG_LOCAL_CIE_WHITES;Local CIECAM - Whites distribution
HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local Cie mask blur contrast
HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local Cie mask blur fftw
HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local Cie mask blur radius
HISTORY_MSG_LOCAL_CIEMASK_CHH;Local Cie mask curve hh
HISTORY_MSG_LOCAL_CIEMASK_HIGH;Local Cie mask highlights
HISTORY_MSG_LOCAL_CIEMASK_SHAD;Local Cie mask shadows
HISTORY_MSG_LOCAL_CIEMASK_STRU;Local Cie mask structure
HISTORY_MSG_LOCAL_CIEMASK_STRU_TOOL;Local Cie mask structure as tool
HISTORY_MSG_LOCAL_CIEMASK_WLC;Local CIECAM mask wavelet Lc
HISTORY_MSG_LOCAL_CIEMASK_WLEV;Local CIECAM mask wavelet levels
HISTORY_MSG_LOCAL_FEATHERCOL;Local Color gradient feather
HISTORY_MSG_LOCAL_FEATHEREXE;Local Exp gradient feather
HISTORY_MSG_LOCAL_FEATHERVIB;Local Vib gradient feather
HISTORY_MSG_LOCAL_FEATHERWAV;Local Wav gradient feather
HISTORY_MSG_LOCAL_FEATHERLOG;Local Log gradient feather
HISTORY_MSG_LOCAL_FEATHERCIE;Local CIECAM gradient feather
HISTORY_MSG_LOCAL_FEATHERSH;Local SH gradient feather
HISTORY_MSG_LOCAL_FEATHERMAS;Local Mask common gradient feather
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_CIE_ANGGRAD;Local - CIECAM Gradient angle
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_DETAILJZ;Local - JzCzHz Local contrast
HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
HISTORY_MSG_LOCAL_CIE_GAM;Local - CIECAM Gamma
HISTORY_MSG_LOCAL_CIE_GAMUTCIE;Local - CIECAM Gamut
HISTORY_MSG_LOCAL_CIE_ILL;Local - CIECAM TRC Illuminant
HISTORY_MSG_LOCAL_CIE_LOGCIEQ;Local - CIECAM Log encoding Q
HISTORY_MSG_LOCAL_CIE_MIDT;Local - CIECAM Mid Tones
HISTORY_MSG_LOCAL_CIE_NORM;Local - CIECAM Normalize L
HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
HISTORY_MSG_LOCAL_CIE_REFI;Local - CIECAM Refinement colors
HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability
HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Sigmoid method
HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
HISTORY_MSG_LOCAL_CIE_GREXL;Local - CIECAM Green X
HISTORY_MSG_LOCAL_CIE_GREYL;Local - CIECAM Green Y
HISTORY_MSG_LOCAL_CIE_BLACKS;Local - CIECAM Blacks distribution
HISTORY_MSG_LOCAL_CIE_BLUXL;Local - CIECAM Blue X
HISTORY_MSG_LOCAL_CIE_BLUYL;Local - CIECAM Blue Y
HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
HISTORY_MSG_LOCAL_CIE_SATCIE;Local - CIECAM Saturation control
HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
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
HISTORY_MSG_LOCAL_CIEMASK_CHH;Local - CIECAM Mask curve h(h)
HISTORY_MSG_LOCAL_CIEMASK_HIGH;Local - CIECAM Mask highlights
HISTORY_MSG_LOCAL_CIEMASK_SHAD;Local - CIECAM Mask shadows
HISTORY_MSG_LOCAL_CIEMASK_STRU;Local - CIECAM Mask structure
HISTORY_MSG_LOCAL_CIEMASK_STRU_TOOL;Local - CIECAM Mask structure as tool
HISTORY_MSG_LOCAL_CIEMASK_WLC;Local - CIECAM Mask wavelet L(L)
HISTORY_MSG_LOCAL_CIEMASK_WLEV;Local - CIECAM Mask wavelet levels
HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
HISTORY_MSG_LOCAL_FEATHEREXE;Local - Exp Gradient feather
HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
HISTORY_MSG_LOCAL_FEATHERLOG;Local - Log Gradient feather
HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
HISTORY_MSG_LOCAL_FEATHERSH;Local - SH Gradient feather
HISTORY_MSG_LOCAL_FEATHERMAS;Local - Mask Common gradient feather
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_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_DEHAZE_BLACK;Local - Dehaze - black
HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
HISTORY_MSG_METADATA_MODE;Metadata copy mode
@@ -1942,7 +1941,7 @@ PREFERENCES_CLUTSCACHE;HaldCLUT Cache
PREFERENCES_CLUTSCACHE_LABEL;Maximum number of cached CLUTs
PREFERENCES_CLUTSDIR;HaldCLUT directory
PREFERENCES_CMMBPC;Black point compensation
PREFERENCES_COMPLEXITYLOC;Default complexity for Local Adjustments
PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
PREFERENCES_COMPLEXITY_EXP;Advanced
PREFERENCES_COMPLEXITY_NORM;Standard
PREFERENCES_COMPLEXITY_SIMP;Basic
@@ -2086,7 +2085,7 @@ PREFERENCES_SHOWBASICEXIF;Show basic Exif info
PREFERENCES_SHOWDATETIME;Show date and time
PREFERENCES_SHOWEXPOSURECOMPENSATION;Append exposure compensation
PREFERENCES_SHOWFILMSTRIPTOOLBAR;Show Filmstrip toolbar
PREFERENCES_SHOWTOOLTIP;Show Local Adjustments advice tooltips
PREFERENCES_SHOWTOOLTIP;Show Selective Editing advice tooltips
PREFERENCES_SHTHRESHOLD;Threshold for clipped shadows
PREFERENCES_SINGLETAB;Single Editor Tab Mode
PREFERENCES_SINGLETABVERTAB;Single Editor Tab Mode, Vertical Tabs
@@ -2094,7 +2093,7 @@ PREFERENCES_SND_HELP;Enter a full file path to set a sound, or leave blank for n
PREFERENCES_SND_LNGEDITPROCDONE;Editor processing done
PREFERENCES_SND_QUEUEDONE;Queue processing done
PREFERENCES_SND_THRESHOLDSECS;After seconds
PREFERENCES_SPOTLOC;Define Spot method for Local Adjustments
PREFERENCES_SPOTLOC;Define Spot method for Selective Editing
PREFERENCES_STARTUPIMDIR;Image Directory at Startup
PREFERENCES_TAB_BROWSER;File Browser
PREFERENCES_TAB_COLORMGR;Color Management
@@ -2741,14 +2740,14 @@ TP_ICM_SAVEREFERENCE_TOOLTIP;Save the linear TIFF image before the input profile
TP_ICM_TONECURVE;Tone curve
TP_ICM_TONECURVE_TOOLTIP;Employ the embedded DCP tone curve. The setting is only available if the selected DCP has a tone curve.
TP_ICM_TRCFRAME;Abstract Profile
TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to ciecam) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant' : which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries': which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), calibration.\nNote: Abstract profiles take into account the built-in Working profiles without modifying them. They do not work with custom Working profiles.
TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
TP_ICM_WORKINGPROFILE;Working Profile
TP_ICM_WORKING_CAT;Matrix adaptation
TP_ICM_WORKING_CAT_BRAD;Bradford
TP_ICM_WORKING_CAT_CAT16;Cat16
TP_ICM_WORKING_CAT_CAT02;Cat02
TP_ICM_WORKING_CAT_TOOLTIP;Performs the chromatic adaptation of the XYZ conversion matrix. Default Bradford
TP_ICM_WORKING_CAT_TOOLTIP;Performs the chromatic adaptation of the XYZ conversion matrix. Default: Bradford
TP_ICM_WORKING_CAT_VK;Von Kries
TP_ICM_WORKING_CAT_XYZ;XYZ scale
TP_ICM_WORKING_CIEDIAG;CIE xy diagram
@@ -2768,8 +2767,8 @@ TP_ICM_WORKING_ILLU_STDA;stdA 2875K
TP_ICM_WORKING_NON;None
TP_ICM_WORKING_PRESER;Preserves Pastel tones
TP_ICM_WORKING_PRIM;Destination primaries
TP_ICM_WORKING_PRIM_TOOLTIP;Destination primaries (Advanced): which allows you to change the destination primaries to restore or change image color (saturation), the color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are not too different, 'Working Profiles' are not modified. Perform a gamut control.\nWhen 'Custom LA (sliders)' is selected you can modify the values of the 3 primaries Red, Green, Blue for X and Y.
TP_ICM_WORKING_PRIMFRAME_TOOLTIP;When 'Custom CIE xy diagram' is selected in 'Destination- primaries'' combobox, you can modify the values of the 3 primaries directly on the graph.\nNote that in this case, the white point position on the graph will not be updated.
TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
TP_ICM_WORKING_PRIMFRAME_TOOLTIP;When 'Custom CIE xy diagram' is selected in 'Destination primaries' combo box, you can modify the values of the 3 primaries directly on the graph.\nNote that in this case, the white point position on the graph will not be updated.
TP_ICM_WORKING_PRIM_AC0;ACESp0
TP_ICM_WORKING_PRIM_ACE;ACESp1
TP_ICM_WORKING_PRIM_ADOB;Adobe RGB
@@ -2864,7 +2863,7 @@ TP_LOCALLAB_ARTIF_TOOLTIP;ΔE scope threshold increases the range of ΔE scope.
TP_LOCALLAB_AUTOGRAY;Auto mean luminance (Yb%)
TP_LOCALLAB_AUTOGRAYCIE;Automatic
TP_LOCALLAB_AVOID;Avoid color shift
TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab).\n\nDefault: Munsell only.\nMunsell only, fixes Lab mode hue drifts due to non-linearity, when chromaticity is changed (Uniform Perceptual Lab).\nLab, applies a gamut control, in relative colorimetric, Munsell is then applied.\nXYZ Absolute, applies gamut control, in absolute colorimetric, Munsell is then applied.\nXYZ Relative, applies gamut control, in relative colorimetric, Munsell is then applied. The result is not the same as Lab.
TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
TP_LOCALLAB_AVOIDMUN;Munsell correction only
TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
TP_LOCALLAB_AVOIDRAD;Soft radius
@@ -2912,7 +2911,7 @@ TP_LOCALLAB_BWEVSIG;Activated
TP_LOCALLAB_BWEVSIGLOG;Sigmoid & Log-Encoding
TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images. For example to match Cam16 processing with the maximum monitor brightness of 400cd/m2.
TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
TP_LOCALLAB_CAMMODE;CAM model
TP_LOCALLAB_CAMMODE_CAM16;CAM 16
@@ -2973,7 +2972,7 @@ TP_LOCALLAB_CLARI_TOOLTIP;Levels 0 to 4 (included): 'Sharp mask' is enabled\nLev
TP_LOCALLAB_CLIPTM;Clip restored data (gain)
TP_LOCALLAB_COFR;Color & Light
TP_LOCALLAB_COLORDE;ΔE preview color - intensity
TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening' or 'Soft Light and Original Retinex' or 'Blur/Grain and Denoise' or 'Dehaze and Retinex' or 'Contrast by Detail Levels' in 'Add tool to current spot' menu.\nFor others tools Preview ΔE button is 'in the tool' - to be able to preview ΔE with several tools enabled, use preferably Mask and modifications.
TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask and modifications.
TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
TP_LOCALLAB_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.
@@ -2986,7 +2985,7 @@ TP_LOCALLAB_COMPFRA;Directional contrast
TP_LOCALLAB_COMPREFRA;Wavelet level tone mapping
TP_LOCALLAB_COMPRCIE;Brightness compression
TP_LOCALLAB_COMPRCIETH;Compression threshold
TP_LOCALLAB_COMPRLOG_TOOLTIP;This algorithm compress the data before log conversion, above the theshold slider value. To use in conjunction with Whites distribution.
TP_LOCALLAB_COMPRLOG_TOOLTIP;This algorithm compress the data before log conversion, above the threshold slider value. To use in conjunction with Whites distribution.
TP_LOCALLAB_CONTCOL;Contrast threshold
TP_LOCALLAB_CONTFRA;Contrast by level
TP_LOCALLAB_CONTRAST;Contrast
@@ -3001,7 +3000,7 @@ TP_LOCALLAB_CURV;Lightness - Contrast - Chrominance 'Super'
TP_LOCALLAB_CURVCURR;Normal
TP_LOCALLAB_CURVEEDITORM_CC_TOOLTIP;If the curves are at the top, the mask is completely black and no changes are made to the image.\nAs you lower the curve, the mask gradually becomes more colorful and bright, progressively changing the image.\n\nIt is recommended (but not mandatory) to position the top of the curves on the gray boundary line which represents the reference values of chroma, luma, hue for the spot.
TP_LOCALLAB_CURVEEDITOR_CC_TOOLTIP;If curves are at the top, the mask is completely black and no changes are made to the image.\nAs you lower the curve, the mask gradually becomes more colorful and bright, progressively changing the image.\n\nIt is recommended (but not mandatory) to position the top of the curves on the gray boundary line which represents the reference values of chroma, luma, hue for the spot.
TP_LOCALLAB_CURVEEDITOR_LL_TOOLTIP;To activate the curves, set the 'Curve type' combobox to 'Normal'.
TP_LOCALLAB_CURVEEDITOR_LL_TOOLTIP;To activate the curves, set the 'Curve type' combo box to 'Normal'.
TP_LOCALLAB_CURVEEDITOR_TONES_LABEL;Tone curve
TP_LOCALLAB_CURVEEDITOR_TONES_TOOLTIP;L=f(L), can be used with L(H) in Color and Light.
TP_LOCALLAB_CURVEMETHOD_TOOLTIP;'Normal', the curve L=f(L) uses the same algorithm as the lightness slider.
@@ -3062,7 +3061,7 @@ 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.\nUse 'Scope' (Excluding) to set the exclusion intensity.\n\n'Full 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.\n\n'Global' allows you to use the local adjustment tools on the whole image, without using deltaE or transitions.
TP_LOCALLAB_EXCLUTYPE_TOOLTIP;Normal spot uses recursive data.\n\nExcluding spot reinitializes all selective editing data.\nCan be used to totally or partially cancel a previous action or to carry out operations in Inverse mode.\nUse 'Scope' (Excluding) to set the exclusion intensity.\n\n'Full image' allows you to use the selective editing tools on the whole image.\nThe RT Spot delimiters are set beyond the image preview boundaries.\nThe transition is set to 100.\nNote: You may have to reposition the RT Spot slightly and adjust the Spot size to get the desired effect.\nNote: Using Denoise or Wavelet or FFTW in full-image mode uses large amounts of memory and may cause the application to crash on lower capacity systems.\n\n'Global' allows you to use the selective editing tools on the whole image, without using Delta E or transitions.
TP_LOCALLAB_EXECLU;Excluding spot
TP_LOCALLAB_EXFULL;Full image
TP_LOCALLAB_EXMAIN;Global
@@ -3074,7 +3073,7 @@ TP_LOCALLAB_EXPCOLOR_TOOLTIP;Adjust color, lightness, contrast and correct small
TP_LOCALLAB_EXPCOMP;Exposure compensation ƒ
TP_LOCALLAB_EXPCOMPINV;Exposure compensation
TP_LOCALLAB_EXPCOMP_TOOLTIP;For portraits or images with a low color gradient. You can change 'Shape detection' in 'Settings':\n\nIncrease 'ΔE scope threshold'\nReduce 'ΔE decay'\nIncrease 'ab-L balance (ΔE)'
TP_LOCALLAB_EXPCONTRASTPYR_TOOLTIP;See the documentation for Wavelet Levels.\nThere are some differences in the Local Adjustments version, which has more tools and more possibilities for working on individual detail levels.\nE.g. wavelet-level tone mapping.
TP_LOCALLAB_EXPCONTRASTPYR_TOOLTIP;See the documentation for Wavelet Levels.\nThere are some differences in the Selective Editing version, which has more tools and more possibilities for working on individual detail levels.\nE.g. wavelet-level tone mapping.
TP_LOCALLAB_EXPCONTRAST_TOOLTIP;Avoid spots that are too small ( < 32x32 pixels).\nUse low 'Transition value' and high 'Transition decay' and 'Scope' to simulate small spots and deal with defects.\nUse 'Clarity and Sharp mask and Blend and Soften Images' if necessary by adjusting 'Soft radius' to reduce artifacts.
TP_LOCALLAB_EXPCURV;Curves
TP_LOCALLAB_EXPGRAD;Graduated Filter
@@ -3244,10 +3243,9 @@ TP_LOCALLAB_LOGAUTO_TOOLTIP;Pressing this button will calculate the dynamic rang
TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
TP_LOCALLAB_LOGCIE;Log encoding
TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you tu use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
TP_LOCALLAB_LOGCIEQ;Log Encoding Q (with Ciecam)
TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecams brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast etc.:\nThe user may have to adjust the following:\n Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between log encoding based on the 3 RGB channels, and log encoding based solely on Ciecams brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and Ciecam alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log Encoding (Q), be careful not to activate the Disable Ciecam option in the Scene Conditions, Surround menu.
TP_LOCALLAB_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)
@@ -3421,18 +3419,18 @@ TP_LOCALLAB_ORRETILAP_TOOLTIP;Modifies ΔE prior to any changes made by 'Scope'.
TP_LOCALLAB_ORRETISTREN_TOOLTIP;Acts on the Laplacian threshold, the greater the action, the more the differences in contrast will be reduced.
TP_LOCALLAB_PASTELS2;Vibrance
TP_LOCALLAB_PDE;Contrast Attenuator - Dynamic Range compression
TP_LOCALLAB_PRECAM_TOOLTIP;This 'Source Data Adjustments' modifies: a)the Dynamic Range using Log encoding; b) the tones of the image and primaries(simplified Abstract Profile) and also midtones, just before the Ciecam process. The values are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\n\n\n-Destination primaries: which allows you to change the destination primaries to restore or change image color (saturation), the color balance is 'significantly' preserved when the 'Working Profile' and the 'Destination primaries' are not too different (be careful), 'Working Profiles' are not modified.\nYou can also finely adapt the primaries and the illuminant (white-point).\nMoving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked ensures a gamut control just after primary conversion to XYZ matrix.
TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the Ciecam process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
TP_LOCALLAB_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y" allows you to carry out moderate Color Toning.
TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
TP_LOCALLAB_PDEFRA;Contrast Attenuator ƒ
TP_LOCALLAB_PDEFRAME_TOOLTIP;PDE IPOL algorithm adapted for Rawtherapee : gives different results and requires different settings compared to main-menu 'Exposure'.\nMay be useful for under-exposed or high dynamic range images.
TP_LOCALLAB_PDEFRAME_TOOLTIP;PDE IPOL algorithm adapted for RawTherapee: gives different results and requires different settings compared to main-menu 'Exposure'.\nMay be useful for under-exposed or high dynamic range images.
TP_LOCALLAB_PREVHIDE;Hide additional settings
TP_LOCALLAB_PREVIEW;Preview ΔE
TP_LOCALLAB_PREVSHOW;Show additional settings
TC_LOCALLAB_PRIM_SHIFTX;Shift x
TC_LOCALLAB_PRIM_SHIFTY;Shift y
TC_LOCALLAB_PRIM_SHIFTX_TOOLTIP;In combination with "Refine colors" allows you:\n 1) for low values adjust the image purity.\n 2) for higher values, carry out moderate Color Toning.\n 3) Be careful not to go outside the CIE xy diagram.
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.
TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
TP_LOCALLAB_PROXI;ΔE decay
TP_LOCALLAB_QUAAGRES;Aggressive
@@ -3550,7 +3548,7 @@ TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer
TP_LOCALLAB_SIGCIE;Sigmoid
TP_LOCALLAB_SIGFRA;Sigmoid Q
TP_LOCALLAB_SIGFRA;Sigmoid Q
TP_LOCALLAB_SIGGAMJCIE;Gamma
TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
TP_LOCALLAB_SIGMAWAV;Attenuation response
@@ -3560,18 +3558,18 @@ TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
TP_LOCALLAB_SIGMOIDQJ;Black Ev & White Ev
TP_LOCALLAB_SIGMOIDSENSI;Adaptability
TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a Tone-mapping appearance using both the 'Jz' and 'Sigmoid' function.\nThree sliders: a) Contrast acts on the shape of the sigmoid curve and consequently on the strength; b) Threshold (Gray point) distributes the action according to the luminance; c)Blend acts on the final aspect of the image, contrast and luminance.
TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a Tone-mapping appearance using both the'Ciecam' and 'Sigmoid Q'.\nSigmoid Q: three sliders: a) Contrast acts on the shape of the sigmoid curve and consequently on the strength; b) Threshold (Gray point) distributes the action according to the luminance; c)Adaptability weights the action of the sigmoid by action on the internal exponential function.
TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the comboxbox selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc)Blend acts on the final aspect of the image, contrast and luminance.
TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'Ciecam' and 'Sigmoid Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Threshold (Gray point) distributes the action according to the luminance\nc) Adaptability weights the action of the sigmoid by action on the internal exponential function.
TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
TP_LOCALLAB_SIGMOIDNORMCIE;Normalize Luminance
TP_LOCALLAB_SIGMOIDNORMCIE_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_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance : ratio between original and output image.
TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the comboxbox 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. This last value stands for brightness (Q) should be a near the possible value 'Compression treshold' (calculate when 'Auto threshold" checked, often > 1).
TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
TP_LOCALLAB_SIGSLOPJCIE;Slope
TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
TP_LOCALLAB_SIGWHITESCIE;Whites distribution
TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic, when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
TP_LOCALLAB_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)
@@ -3583,7 +3581,7 @@ TP_LOCALLAB_SMOOTHCIE;Highlight Attenuation
TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
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 - Slope - based: choice (Standard and Advanced) allows you to simulate a "Tone mapping" using: a) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%); b) Viewing conditions: Mean luminance (Yb%).\nScale Yb Scene is function of White-Ev.
TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.
TP_LOCALLAB_SOFT;Soft Light & Original Retinex
TP_LOCALLAB_SOFTM;Soft Light
TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
@@ -4379,7 +4377,7 @@ TP_WBALANCE_METHOD;Method
TP_WBALANCE_MULLABEL;Multipliers: r=%1 g=%2 b=%3
TP_WBALANCE_MULLABEL_TOOLTIP;Values given for information purposes. You cannot change them.
TP_WBALANCE_OBSERVER10;Observer 10° instead of Observer 2°
TP_WBALANCE_OBSERVER10_TOOLTIP;The color management in Rawtherapee (White balance, channel multipliers, highlight recovery,...) uses the spectral data of the illuminants and colors. Observer is an important parameter of this management which takes into account the angle of perception of the eye. In 1931 it was fixed at 2° (privileges the use of the cones). In 1964 it was fixed at 10° (privileges the use of the cones, but partially takes into account the rods).\nIn the rare case of a color drift with "Observer 2°" (probably due to the conversion matrix) Observer 10° must be selected.
TP_WBALANCE_OBSERVER10_TOOLTIP;The color management in RawTherapee (White balance, channel multipliers, highlight recovery,...) uses the spectral data of the illuminants and colors. Observer is an important parameter of this management which takes into account the angle of perception of the eye. In 1931 it was fixed at 2° (privileges the use of the cones). In 1964 it was fixed at 10° (privileges the use of the cones, but partially takes into account the rods).\nIn the rare case of a color drift with "Observer 2°" (probably due to the conversion matrix) "Observer 10°" must be selected.
TP_WBALANCE_PATCHLABEL;Read colors:%1 Patch: Chroma:%2 Size=%3
TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colors (max=237).\nDisplay calculated Patch Chroma.\nAWB temperature bias, lets try to reduce this value, a minimum may seem to optimize the algorithm.\n\nPatch size matching chroma optimization.
TP_WBALANCE_PATCHLEVELLABEL;Patch: ΔE=%1 - datas x 9 Min:%2 Max=%3