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LA - new tool - Color appearance (Cam16 & JzCzHz) (#6377)

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* Gui improvments

* Several improvments GUI Jz algo

* Change function La for lightess Jz

* SH jzazbz first

* enable Jz SH

* Clean code

* Disabled Munsell correction when Jz

* Change tooltip and Cam16 Munsell

* GUI for CzHz and HzHz curves

* Enable curves Hz(Hz) Cz(Hz)

* Improve Cz chroma

* Jz100 reference refine

* Change limit Jz100

* Refine link between jz100 and peak adaptation

* Improve GUI

* Various improvment PQ PU gamut

* Change defaults settings

* forgotten PL in gamutjz

* Small changes and comment

* Change gamujz parameter

* disabled gamut Jz too slow

* Jzazbz curve Jz(Hz)

* reenable gamutjz

* small changes

* Change tooltip

* Change labels tooltips

* Jzazbz only on advanced mode

* GUI improvments

* Change tooltip

* Change default values and tooltip

* Added tooltip Jz

* Disabled Jz gamut

* Change gamma color and light - remove exposure

* Gamma for exposure and DR

* gamma Sharp

* Gamma vibrance

* gamma optimizations

* Change tooltips

* Optimization PQ

* LA GUI for tone curve Ciecam

* LA ciecam Enable curve lightness - brightness

* LA ciecam GUI color curve

* LA ciecam enable color curve

* Change tooltip and default values

* Enable Jz curve

* Enable Cz(Cz) curve

* Enable Cz(Jz) curve

* Added Log encoding to ciecam

* Improvment algorithm remapping

* Reenable forgotten listener logencodchanged

* Change Jz tooltips

* Reenable dynamic range and exposure

* First change GUI auto ciecam

* 2nd fixed ciecam auto

* Improve GUI maskbackground curves

* Enable activspot for la ciecam

* set sensitive sliders La ciecam when auto scene conditions

* Change internal calculations see comments

* Checcbox ForceJz to 1

* Change tool position - change order CAM model

* Expander for Jzczhz

* Remove unused code

* GUI changes

* Change labels CAM16 Jzazbz

* Change slider brightness parameters

* improvment SH jz

* Some changes to brightness Jz

* Fixed scene conditions auto

* Renable forgotten change

* Prepare calculation Zcam

* Prepare Iz for zcam

* First GUI Zcam

* Improve GUI Zcam

* Calculate Qz white - brightness of the reference white

* Prepare for PQ - eventually

* Init LUT ZCAMBrightCurveJz and ZCAMBrightCurveQz

* prepare zcam achromatic variables

* First zcam

* Change algo step 5 zcam

* Another change original algo

* Another change to original algo

* first colorfullness

* Fixed bad behavior threshold and change c c2 surround parameters

* added saturation Zcam

* Change parameters surround

* Enable chroma zcam

* change chroma and lightness formula

* disable OMP for 2nd process Zcam

* Improvment zcam for some high-light images

* Change parameters overflow zcam

* Change parmeters high datas

* another change to retrieve...

* Simplify code matrix conversion xyz-jzazbz

* Adjust internam parameters zcam

* Change some parameters - clean code

* Enable PQCam16

* Enable PQ Cam16 - disable ZCAM

* remove warning compilation message

* Change GUI jzczhz

* Fixed bad behavior remaping jz

* Remove forgotten parameter - hide Jz100 - PU adaptation- chnage tooltips

* Another change to chroma parameter

* Small changes

* If verbose display in console Cam16 informations

* If verbose display in console source saturation colorfullness

* Change to La calculation for ciecam

* Change GUI cam16 - jzczhz - remove cam16 and jzczhz

* Disable exposure compensation to calculate La for all Ciecam and Log encoding

* Change label Cam16 and jzczhz

* Improve GUI Jz

* Other improvment GUI Jz Cam16

* verify nan Jz and ciecam matrix to avoid crash

* Enable La manual for Jz to change PU-adaptation

* Improve calculation to avoid crash Jz and Cam16 matrix

* Fixed crash with local contrast in cam16

* Clean code loccont

* First step GUI Cie mask

* GUI part 2 - Cie

* Build cieMask

* Gui part 3 cie

* Valid llcieMask

* Valid llcieMask

* Pass GUI curves parameters to iplocallab.cc

* 2nd pass parameters from GUI to iplocallab.cc

* Init first functions modifications

* Add expander to cam16 adjustments

* First test mask cie

* Various improvment GUI - tooltips - process

* Take into account Yb cam16 for Jz - reenable warm-cool

* Surround source Cam16 before Jz

* Improve GUI and process

* Fixed bug and bad behavior last commit

* Fixed bug chroma mask - improve GUI - Relative luminance for Jz

* Increase sensitivity mask chroma

* Improve Jz with saturation Z - improve GUI Jzczhz

* Small code improvment

* Another change mask C and enable mask for Cam16 and Jz

* Some changes

* Enable denoise chroma mask

* Small change LIM01 normchromar

* Enable Zcam matrix

* Improve chroma curves...mask and boudaries

* take into account recursive slider in settings

* Change tooltip - improvment to C curve (denoise C - best value in curves - etc.) - remove Zcam button

* Change tooltips

* First part GUI - local contrast wavelet Jz

* Passed parameters GUI local contrast wav jz to rtengine

* save config wavelet jz

* first try wavelet local contrast Jz

* Add tooltips

* Simplify code wavelet local contrast

* take into account edge wavelet performance in Wavelet Jz

* Fixed overflow jz when usig botth contradt and wavelt local jz contrast

* Adapt size winGdiHandles in filepanel to avoid crash in Windows multieditor

* First GUI part Clarity wavelet Jz

* First try wavelet Jz Cz clarity

* Added tooltips

* Small change to enable wavelet jz

* Disabled (commented) all Zcam code

* Improve behavior when SH local-contrast and Clarity are use both

* Change limit PQremap jz

* Clean and optimize code

* Reenable mjjz

* Change settings guidedfilter wavelet Jz

* Fixed crash when revory based on lum mask negative

* Change tooltip

* Fixed ad behavior auto mean and absolute luminance

* Remove warning in console

* Fixed bad behavior auto Log encoding - bad behavior curves L(H) Jz

* Fixed another bad behavior - reenable curves color and light L(H) C(H)

* first transposition Lab Jz for curves H

* Change mask boundary for Jz

* Various improvment to H curves Jz

* Add amountchrom to Hcurve Color and Light

* Improve gray boundary curves behavior

* reenable Jz curve H(H) - soft radius

* Improve guidefilter Jz H curve

* Threshold chroma Jz(Hz)

* Enable guidedfilter chroma curve H

* improve GUI curves Hz

* Checkbutton chroma for curve Jz(Hz)

* Change event selectspot

* Clean and small optimization code

* Another clean code

* Change calculation Hz references for curves Hz

* Clean code

* Various changes to GF and GUI

* Another change to Chroma for Jz(H)

* Change GUI sensitive Jz100 adapdjzcie

* Improve code for Jz100

* Change default value skin-protection to 0 instead of 50

* Clean code

* Remove BENCHFUN for ciecam

* small correction to huejz_to_huehsv2 conversion

* Added missing plum parameter for jch2xyz_ciecam02float

* another small change to huejz_to_huehsv2

* Improvment to huelab_to_huehsv2 and some double functions

* Fixed warning hide parameters in lgtm-com

* Fixed ? Missing retuen statement in lgtm-com

* Change behavior Log encoding whith PQ Cam16

* Small improvment to Jz PU adaptation

* Added forgoten to_one for Cz slider

* Replace 0.707... by RT_SQRT1_2 - change some settings chroma

* Improvment to getAutoLogloc

* Fixed crash with array in getAutoLogloc

* First try Jz Log encoding

* Forgotten Cz

* Various improvment GUI setlogscale - Jz log encoding

* Change labels tooltips Jz log

* Change wrong clipcz value

* Change tooltip auto scene conditions

* Fixed bad behavior blackevjz whiteevjz

* Small improvment to LA Log encoding std

* Avoid bad behavior Jz log when enable Relative luminance

* Change sourcegray jz calculation

* Revert last change

* Clean and comment code

* Review tooltips thanks to Wayne - harmonize response La log encoding and Jz Log encoding

* Always force Dynamic Range evaluation in full frame mode for Jz log encoding

* Remove unused code

* Small optimizations sigmoid Cam16 and Jz

* Comment code

* Change parameters deltaE for HDR

* Various improvment to Jz - La - sigmoid - log encoding

* Basic support for Sony ILCE-7M4 in camconst.json

* German translation Spot Removal (#6388)

* Filmnegative German translation (#6389)

* (Temporarily) disable `ftree-loop-vectorize` for GCC 11 because of #6384

* Added BlacEv WhiteEv to sigmoidJz

* Improve GUI for BlackEv WhiteEv

* Change location SigmoidJz in Iplocallab

* Improvment GUI and sensitivity sliders strength sigmoid

* Change labels

Co-authored-by: Thanatomanic <6567747+Thanatomanic@users.noreply.github.com>
Co-authored-by: Anna <simonanna@gmx.net>
This commit is contained in:
Desmis
2021-12-21 07:43:59 +01:00
committed by GitHub
parent 4b8481f1c9
commit 1e4f41bc05
31 changed files with 9425 additions and 784 deletions
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@@ -1297,6 +1297,118 @@ HISTORY_MSG_1047;Local - SH and Tone Equalizer strength
HISTORY_MSG_1048;Local - DR and Exposure strength
HISTORY_MSG_1049;Local - TM strength
HISTORY_MSG_1050;Local - Log encoding chroma
HISTORY_MSG_1051;Local - Residual wavelet gamma
HISTORY_MSG_1052;Local - Residual wavelet slope
HISTORY_MSG_1053;Local - Denoise gamma
HISTORY_MSG_1054;Local - Wavelet gamma
HISTORY_MSG_1055;Local - Color and Light gamma
HISTORY_MSG_1056;Local - DR and Exposure gamma
HISTORY_MSG_1057;Local - CIECAM Enabled
HISTORY_MSG_1058;Local - CIECAM Overall strength
HISTORY_MSG_1059;Local - CIECAM Autogray
HISTORY_MSG_1060;Local - CIECAM Mean luminance source
HISTORY_MSG_1061;Local - CIECAM Source absolute
HISTORY_MSG_1062;Local - CIECAM Surround Source
HISTORY_MSG_1063;Local - CIECAM Saturation
HISTORY_MSG_1064;Local - CIECAM Chroma
HISTORY_MSG_1062;Local - CIECAM Lightness
HISTORY_MSG_1063;Local - CIECAM Brightness
HISTORY_MSG_1064;Local - CIECAM threshold
HISTORY_MSG_1065;Local - CIECAM lightness J
HISTORY_MSG_1066;Local - CIECAM brightness
HISTORY_MSG_1067;Local - CIECAM Contrast J
HISTORY_MSG_1068;Local - CIECAM threshold
HISTORY_MSG_1069;Local - CIECAM contrast Q
HISTORY_MSG_1070;Local - CIECAM colorfullness
HISTORY_MSG_1071;Local - CIECAM Absolute luminance
HISTORY_MSG_1072;Local - CIECAM Mean luminance
HISTORY_MSG_1073;Local - CIECAM Cat16
HISTORY_MSG_1074;Local - CIECAM Local contrast
HISTORY_MSG_1075;Local - CIECAM Surround viewing
HISTORY_MSG_1076;Local - CIECAM Scope
HISTORY_MSG_1077;Local - CIECAM Mode
HISTORY_MSG_1078;Local - Red and skin protection
HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J
HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold
HISTORY_MSG_1081;Local - CIECAM Sigmoid blend
HISTORY_MSG_1082;Local - CIECAM Sigmoid Q J
HISTORY_MSG_1083;Local - CIECAM Hue
HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
HISTORY_MSG_1085;Local - Jz lightness
HISTORY_MSG_1086;Local - Jz contrast
HISTORY_MSG_1087;Local - Jz chroma
HISTORY_MSG_1088;Local - Jz hue
HISTORY_MSG_1089;Local - Jz Sigmoid strength
HISTORY_MSG_1090;Local - Jz Sigmoid threshold
HISTORY_MSG_1091;Local - Jz Sigmoid blend
HISTORY_MSG_1092;Local - Jz adaptation
HISTORY_MSG_1093;Local - CAM model
HISTORY_MSG_1094;Local - Jz highligths
HISTORY_MSG_1095;Local - Jz highligths thr
HISTORY_MSG_1096;Local - Jz shadows
HISTORY_MSG_1097;Local - Jz shadows thr
HISTORY_MSG_1098;Local - Jz radius SH
//HISTORY_MSG_1099;Local - Hz(Hz) Curve
HISTORY_MSG_1099;Local - Cz(Hz) Curve
HISTORY_MSG_1100;Local - Jz reference 100
HISTORY_MSG_1101;Local - Jz PQ remap
HISTORY_MSG_1102;Local - Jz(Hz) Curve
HISTORY_MSG_1103;Local - Vibrance gamma
HISTORY_MSG_1104;Local - Sharp gamma
HISTORY_MSG_1105;Local - CIECAM Tone method
HISTORY_MSG_1106;Local - CIECAM Tone curve
HISTORY_MSG_1107;Local - CIECAM Color method
HISTORY_MSG_1108;Local - CIECAM Color curve
HISTORY_MSG_1109;Local - Jz(Jz) curve
HISTORY_MSG_1110;Local - Cz(Cz) curve
HISTORY_MSG_1111;Local - Cz(Jz) curve
HISTORY_MSG_1112;Local - forcejz
/*
HISTORY_MSG_1114;Local - ZCAM lightness
HISTORY_MSG_1115;Local - ZCAM brightness
HISTORY_MSG_1116;Local - ZCAM contrast J
HISTORY_MSG_1117;Local - ZCAM contrast Q
HISTORY_MSG_1118;Local - ZCAM contrast threshold
HISTORY_MSG_1119;Local - ZCAM colorfullness
HISTORY_MSG_1120;Local - ZCAM saturation
HISTORY_MSG_1121;Local - ZCAM chroma
*/
HISTORY_MSG_1113;Local - HDR PQ
HISTORY_MSG_1114;Local - Cie mask enable
HISTORY_MSG_1115;Local - Cie mask curve C
HISTORY_MSG_1116;Local - Cie mask curve L
HISTORY_MSG_1117;Local - Cie mask curve H
HISTORY_MSG_1118;Local - Cie mask blend
HISTORY_MSG_1119;Local - Cie mask radius
HISTORY_MSG_1120;Local - Cie mask chroma
HISTORY_MSG_1121;Local - Cie mask contrast curve
HISTORY_MSG_1122;Local - Cie mask recovery threshold
HISTORY_MSG_1123;Local - Cie mask recovery dark
HISTORY_MSG_1124;Local - Cie mask recovery light
HISTORY_MSG_1125;Local - Cie mask recovery decay
HISTORY_MSG_1126;Local - Cie mask laplacian
HISTORY_MSG_1127;Local - Cie mask gamma
HISTORY_MSG_1128;Local - Cie mask slope
HISTORY_MSG_1129;Local - Cie Relative luminance
HISTORY_MSG_1130;Local - Cie Saturation Jz
HISTORY_MSG_1131;Local - Mask denoise chroma
HISTORY_MSG_1132;Local - Cie Wav sigma Jz
HISTORY_MSG_1133;Local - Cie Wav level Jz
HISTORY_MSG_1134;Local - Cie Wav local contrast Jz
HISTORY_MSG_1135;Local - Cie Wav clarity Jz
HISTORY_MSG_1136;Local - Cie Wav clarity Cz
HISTORY_MSG_1137;Local - Cie Wav clarity Soft
HISTORY_MSG_1138;Local - Local - Hz(Hz) Curve
HISTORY_MSG_1139;Local - Jz soft Curves H
HISTORY_MSG_1140;Local - Jz Threshold chroma
HISTORY_MSG_1141;Local - chroma curve Jz(Hz)
HISTORY_MSG_1142;Local - strength soft
HISTORY_MSG_1143;Local - Jz blackev
HISTORY_MSG_1144;Local - Jz whiteev
HISTORY_MSG_1145;Local - Jz Log encoding
HISTORY_MSG_1146;Local - Jz Log encoding target gray
HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv
HISTORY_MSG_1148;Local - Jz Sigmoid
HISTORY_MSG_BLSHAPE;Blur by level
HISTORY_MSG_BLURCWAV;Blur chroma
HISTORY_MSG_BLURWAV;Blur luminance
@@ -2172,8 +2284,8 @@ TP_COLORAPP_VIEWINGF_TOOLTIP;Takes into account the support on which the final i
TP_COLORAPP_VIEWING_ABSOLUTELUMINANCE_TOOLTIP;Absolute luminance of the viewing environment\n(usually 16 cd/m²).
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
TP_COLORAPP_YBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image
TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image
TP_COLORTONING_AB;o C/L
TP_COLORTONING_AUTOSAT;Automatic
TP_COLORTONING_BALANCE;Balance
@@ -2578,9 +2690,13 @@ TP_LOCALLAB_AMOUNT;Amount
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_AUTOGRAYCIE;Auto
TP_LOCALLAB_AUTOGRAYCIE_TOOLTIP;Automatically calculates the “Mean luminance” and “Absolute luminance”.\nFor Jz Cz Hz: automatically calculates "PU adaptation", "Black Ev" and "White Ev".
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).\nMunsell correction always disabled when Jz or CAM16 is used.
TP_LOCALLAB_AVOIDRAD;Soft radius
TP_LOCALLAB_AVOIDMUN;Munsell correction only
TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used
TP_LOCALLAB_BALAN;ab-L balance (ΔE)
TP_LOCALLAB_BALANEXP;Laplacian balance
TP_LOCALLAB_BALANH;C-H balance (ΔE)
@@ -2623,6 +2739,15 @@ TP_LOCALLAB_BUTTON_DEL;Delete
TP_LOCALLAB_BUTTON_DUPL;Duplicate
TP_LOCALLAB_BUTTON_REN;Rename
TP_LOCALLAB_BUTTON_VIS;Show/Hide
TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments
TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16. 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.
TP_LOCALLAB_CAMMODE;CAM model
TP_LOCALLAB_CAMMODE_ALL;CAM 16 + Jz Cz Hz
TP_LOCALLAB_CAMMODE_CAM16;CAM 16
TP_LOCALLAB_CAMMODE_ZCAM;ZCAM only
TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
TP_LOCALLAB_CBDL;Contrast by Detail Levels
TP_LOCALLAB_CBDLCLARI_TOOLTIP;Enhances local contrast of the midtones.
@@ -2642,19 +2767,36 @@ 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_CHROML;Chroma (C)
TP_LOCALLAB_CHRRT;Chroma
TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz)
TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz)
TP_LOCALLAB_CIEC;Use Ciecam environment parameters
TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment.
TP_LOCALLAB_CIEMODE;Change tool position
TP_LOCALLAB_CIEMODE_COM;Default
TP_LOCALLAB_CIEMODE_DR;Dynamic Range
TP_LOCALLAB_CIEMODE_TM;Tone-Mapping
TP_LOCALLAB_CIEMODE_WAV;Wavelet
TP_LOCALLAB_CIEMODE_LOG;Log Encoding
TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. "Mask and modifications" and "Recovery based on luminance mask" are available for"Cam16 and JzCzHz" at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use "Mask and modifications" and "Recovery based on luminance mask"
TP_LOCALLAB_CIETOOLEXP;Curves
TP_LOCALLAB_CIECOLORFRA;Color
TP_LOCALLAB_CIECONTFRA;Contrast
TP_LOCALLAB_CIELIGHTFRA;Lighting
TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
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 processing foliage.\nHigh values may be useful for processing skin.
TP_LOCALLAB_CLARICRES;Merge chroma
TP_LOCALLAB_CLARIFRA;Clarity & Sharp mask/Blend & Soften Images
TP_LOCALLAB_CLARILRES;Merge luma
TP_LOCALLAB_CLARISOFT;Soft radius
TP_LOCALLAB_CLARISOFT_TOOLTIP;The Soft radius slider (guided filter algorithm) reduces halos and irregularities for both Clarity and Sharp Mask and for all pyramid wavelet processes. To deactivate, set slider to zero.
TP_LOCALLAB_CLARISOFT_TOOLTIP;The Soft radius slider (guided filter algorithm) reduces halos and irregularities for Clarity, Sharp Mask and all wavelet pyramid processes. To deactivate, set slider to zero.
TP_LOCALLAB_CLARISOFTJZ_TOOLTIP;The Soft radius slider (guided filter algorithm) reduces halos and irregularities for Clarity, Sharp Mask and Local contrast wavelets Jz.
TP_LOCALLAB_CLARITYML;Clarity
TP_LOCALLAB_CLARI_TOOLTIP;Levels 0 to 4 (included): Sharp mask is enabled\nLevels 5 and above: 'Clarity' is enabled.\nUseful if you use 'Wavelet level tone mapping'
TP_LOCALLAB_CLARIJZ_TOOLTIP;Levels 0 to 4 (included): Sharp mask is enabled\nLevels 5 and above: 'Clarity' is enabled.
TP_LOCALLAB_CLIPTM;Clip restored data (gain)
TP_LOCALLAB_COFR;Color & Light
TP_LOCALLAB_COLOR_CIE;Color curve
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_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.
@@ -2694,6 +2836,7 @@ TP_LOCALLAB_CURVENH;Super
TP_LOCALLAB_CURVENHSU;Combined HueChroma (experimental)
TP_LOCALLAB_CURVENSOB2;Combined HueChroma + Contrast threshold (experimental)
TP_LOCALLAB_CURVNONE;Disable curves
TP_LOCALLAB_CURVES_CIE;Tone curve
TP_LOCALLAB_DARKRETI;Darkness
TP_LOCALLAB_DEHAFRA;Dehaze
TP_LOCALLAB_DEHAZ;Strength
@@ -2710,6 +2853,8 @@ TP_LOCALLAB_DENOIEQUAL_TOOLTIP;Allows you to carry out more or less noise reduct
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_DENOIMASK;Denoise chroma mask
TP_LOCALLAB_DENOIMASK_TOOLTIP;For all tools, allows you to control the chromatic noise level of the mask.\nUseful for better control of chrominance and to avoid artifacts when using the LC(h) curve.
TP_LOCALLAB_DENOIQUA_TOOLTIP;Conservative mode preserves low frequency detail. Aggressive mode removes low frequency detail.\nConservative and Aggressive modes use wavelets and DCT and can be used in conjunction with Non-local Means Luminance.
TP_LOCALLAB_DENOIS;Denoise
TP_LOCALLAB_DENOITHR_TOOLTIP;Adjusts edge detection to help reduce noise in uniform, low-contrast areas.
@@ -2754,7 +2899,7 @@ 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 Locallab version: 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 Local Adjustments 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 RT-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
@@ -2792,6 +2937,10 @@ TP_LOCALLAB_FFTWBLUR;ƒ - Always Use Fast Fourier Transform
TP_LOCALLAB_FULLIMAGE;Black-Ev and White-Ev for whole image
TP_LOCALLAB_FULLIMAGELOG_TOOLTIP;Calculates the Ev levels for the whole image.
TP_LOCALLAB_GAM;Gamma
TP_LOCALLAB_GAMW;Gamma (wavelet pyramids)
TP_LOCALLAB_GAMC;Gamma
TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance "linear" is used.
TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance "linear" is used.
TP_LOCALLAB_GAMFRA;Tone response curve (TRC)
TP_LOCALLAB_GAMM;Gamma
TP_LOCALLAB_GAMMASKCOL;Gamma
@@ -2827,6 +2976,8 @@ TP_LOCALLAB_GUIDSTRBL_TOOLTIP;Intensity of the guided filter
TP_LOCALLAB_HHMASK_TOOLTIP;Fine hue adjustments for example for the skin.
TP_LOCALLAB_HIGHMASKCOL;Highlights
TP_LOCALLAB_HLH;H
TP_LOCALLAB_HLHZ;Hz
TP_LOCALLAB_HUECIE;Hue
TP_LOCALLAB_IND;Independent (mouse)
TP_LOCALLAB_INDSL;Independent (mouse + sliders)
TP_LOCALLAB_INVBL;Inverse
@@ -2835,6 +2986,40 @@ TP_LOCALLAB_INVERS;Inverse
TP_LOCALLAB_INVERS_TOOLTIP;Fewer possibilities if selected (Inverse).\n\nAlternative: use two spots\nFirst Spot:\n Full Image\n \nSecond spot: Excluding spot
TP_LOCALLAB_INVMASK;Inverse algorithm
TP_LOCALLAB_ISOGR;Distribution (ISO)
TP_LOCALLAB_JAB;Uses Black Ev & White Ev
TP_LOCALLAB_JABADAP_TOOLTIP;Perceptual Uniform adaptation.\nAutomatically adjusts the relationship between Jz and saturation taking into account "Absolute luminance".
TP_LOCALLAB_JZ100;Jz reference 100cd/m2
TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain.
TP_LOCALLAB_JZCLARILRES;Merge Jz
TP_LOCALLAB_JZCLARICRES;Merge chroma Cz
TP_LOCALLAB_JZFORCE;Force max Jz to 1
TP_LOCALLAB_JZFORCE_TOOLTIP;Allows you to force the maximum Jz value to 1 for better slider and curve response
TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
TP_LOCALLAB_JZPQFRA;Jz remapping
TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf “PQ - Peak luminance” is set to 10000, “Jz remappping” behaves in the same way as the original Jzazbz algorithm.
TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance
TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
TP_LOCALLAB_JZ100_TOOLTIP;Automatically adjusts the reference Jz 100 cd/m2 level (image signal).\nChanges the saturation level and action of “PU adaptation” (Perceptual Uniform adaptation).
TP_LOCALLAB_JZADAP;PU adaptation
TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments
TP_LOCALLAB_JZLIGHT;Brightness
TP_LOCALLAB_JZCONT;Contrast
TP_LOCALLAB_JZCH;Chroma
TP_LOCALLAB_JZCHROM;Chroma
TP_LOCALLAB_JZHFRA;Curves Hz
TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
TP_LOCALLAB_JZHUECIE;Hue Rotation
TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including "Log Encoding Jz".\nAlso calculates the absolute luminance at the time of shooting.
TP_LOCALLAB_JZSAT;Saturation
TP_LOCALLAB_JZSHFRA;Shadows/Highlights Jz
TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
TP_LOCALLAB_JZQTOJ;Relative luminance
TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use "Relative luminance" instead of "Absolute luminance" - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz)
TP_LOCALLAB_JZWAVEXP;Wavelet Jz
TP_LOCALLAB_JZLOG;Log encoding Jz
TP_LOCALLAB_LABBLURM;Blur Mask
TP_LOCALLAB_LABEL;Local Adjustments
TP_LOCALLAB_LABGRID;Color correction grid
@@ -2846,8 +3031,8 @@ TP_LOCALLAB_LAPLACE;Laplacian threshold ΔE
TP_LOCALLAB_LAPLACEXP;Laplacian threshold
TP_LOCALLAB_LAPMASKCOL;Laplacian threshold
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;Smooth radius uses a guided filter to decrease artifacts and smooth out the transition
TP_LOCALLAB_LAPRAD2_TOOLTIP;Smooth 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;Solves PDEs for all Laplacian masks.\nIf enabled the Laplacian threshold mask reduces artifacts and smooths the result.\nIf disabled the response is linear.
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
@@ -2871,14 +3056,14 @@ 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
TP_LOCALLAB_LOG1FRA;Image Adjustments
TP_LOCALLAB_LOG1FRA;CAM16 Image Adjustments
TP_LOCALLAB_LOG2FRA;Viewing Conditions
TP_LOCALLAB_LOGAUTO;Automatic
TP_LOCALLAB_LOGAUTOGRAY_TOOLTIP;Automatically calculates the 'Mean luminance' for the scene conditions when the Automatic button in Relative Exposure Levels is pressed.
TP_LOCALLAB_LOGAUTO_TOOLTIP;Pressing this button will calculate the dynamic range and 'Mean luminance' for the scene conditions if the "Auto mean luminance (Yb%)” is checked).\nAlso calculates the absolute luminance at the time of shooting.\nPress the button again to adjust the automatically calculated values.
TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out.
TP_LOCALLAB_LOGBLACKWHEV_TOOLTIP;Estimated values of dynamic range i.e. Black Ev and White Ev
TP_LOCALLAB_LOGCATAD_TOOLTIP;The 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_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_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)
@@ -2888,25 +3073,25 @@ TP_LOCALLAB_LOGCONTL_TOOLTIP;Contrast (J) in CIECAM16 takes into account the inc
TP_LOCALLAB_LOGCONTQ_TOOLTIP;Contrast (Q) in CIECAM16 takes into account the increase in perceived coloration with brightness.
TP_LOCALLAB_LOGCONTTHRES_TOOLTIP;Adjusts the mid-tone contrast range (J & Q).\nPositive values progressively reduce the effect of the Contrast sliders (J & Q). Negative values progressively increase the effect of the Contrast sliders.
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_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
TP_LOCALLAB_LOGFRA;Scene Conditions
TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nTakes into account exposure compensation in the main-menu Exposure tab.\nAlso calculates the absolute luminance at the time of shooting.
TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables (mainly Contrast 'J' and Saturation 's', and also Contrast (Q) , Brightness (Q), Lightness (J), Colorfulness (M) in Advanced mode).
TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode)
TP_LOCALLAB_LOGLIGHTL;Lightness (J)
TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*), takes into account the increase in perceived coloration.
TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
TP_LOCALLAB_LOGLIN;Logarithm mode
TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
TP_LOCALLAB_LOGREPART;Overall strength
TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component.
TP_LOCALLAB_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_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights.
TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
TP_LOCALLAB_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 brighter.\n\n<b>Dark</b>: Dark environment. The image will become more bright.
TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
TP_LOCALLAB_LOGTARGGREY_TOOLTIP;You can adjust this value to suit.
TP_LOCALLAB_LOGVIEWING_TOOLTIP;Corresponds to the medium on which the final image will be viewed (monitor, TV, projector, printer,..), as well as its environment.
TP_LOCALLAB_LOGVIEWING_TOOLTIP;Corresponds to the medium on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as the surrounding conditions..
TP_LOCALLAB_LOG_TOOLNAME;Log Encoding
TP_LOCALLAB_LUM;LL - CC
TP_LOCALLAB_LUMADARKEST;Darkest
@@ -2972,7 +3157,7 @@ TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma 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_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 allow you to make fine adjustments.
TP_LOCALLAB_MED;Medium
TP_LOCALLAB_MEDIAN;Median Low
TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
@@ -3030,7 +3215,7 @@ 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_NLDENOISENLGAM_TOOLTIP;Lower values preserve details and texture, higher values increase denoise.\nIf gamma = 3.0 Luminance "linear" is used.
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.
TP_LOCALLAB_NLLUM;Strength
@@ -3043,6 +3228,8 @@ TP_LOCALLAB_NOISECHROC_TOOLTIP;If superior to zero, high quality algorithm is en
TP_LOCALLAB_NOISECHRODETAIL;Chroma detail recovery
TP_LOCALLAB_NOISECHROFINE;Fine chroma (Wav)
TP_LOCALLAB_NOISEDETAIL_TOOLTIP;Disabled if slider = 100
TP_LOCALLAB_NOISEGAM;Gamma
TP_LOCALLAB_NOISEGAM_TOOLTIP;If gamma = 1 Luminance "Lab" is used. If gamma = 3.0 Luminance "linear" is used.\nLower values preserve details and texture, higher values increase denoise.
TP_LOCALLAB_NOISELEQUAL;Equalizer white-black
TP_LOCALLAB_NOISELUMCOARSE;Luminance coarse (Wav)
TP_LOCALLAB_NOISELUMDETAIL;Luma detail recovery
@@ -3077,6 +3264,7 @@ TP_LOCALLAB_RADIUS;Radius
TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30
TP_LOCALLAB_RADMASKCOL;Smooth radius
TP_LOCALLAB_RECT;Rectangle
TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the “Recovery threshold” value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the “Recovery threshold” is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the “Recovery threshold” acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.).
TP_LOCALLAB_RECURS;Recursive references
TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
TP_LOCALLAB_REFLABEL;Ref. (0..1) Chroma=%1 Luma=%2 Hue=%3
@@ -3115,6 +3303,7 @@ TP_LOCALLAB_RGB;RGB Tone Curve
TP_LOCALLAB_RGBCURVE_TOOLTIP;In RGB mode you have 4 choices : Standard, Weighted standard, Luminance & Film-like.
TP_LOCALLAB_ROW_NVIS;Not visible
TP_LOCALLAB_ROW_VIS;Visible
TP_LOCALLAB_RSTPROTECT_TOOLTIP;Red and skin-tone protection affects the Saturation, Chroma and Colorfulness sliders.
TP_LOCALLAB_SATUR;Saturation
TP_LOCALLAB_SATURV;Saturation (s)
TP_LOCALLAB_SAVREST;Save - Restore Current Image
@@ -3180,10 +3369,17 @@ TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
TP_LOCALLAB_SHOWT;Mask and modifications
TP_LOCALLAB_SHOWVI;Mask and modifications
TP_LOCALLAB_SHRESFRA;Shadows/Highlights
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_SIGMAWAV;Attenuation response
TP_LOCALLAB_SIGFRA;Sigmoid J & Q
TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point)
TP_LOCALLAB_SIGMOIDBL;Blend
TP_LOCALLAB_SIGMOIDQJ;Use Q instead of J
TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a Tone-mapping appearance using both the'Ciecam' and 'Sigmoid' function.\nThree sliders: a) Strength acts on the shape of the sigmoid curve and consequently on the strength; b) Threshold distributes the action according to the luminance; c)Blend acts on the final aspect of the image, contrast and luminance.
TP_LOCALLAB_SIM;Simple
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.
@@ -3268,20 +3464,22 @@ 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.
TP_LOCALLAB_WAT_CLARIL_TOOLTIP;“Merge luma” is used to select the intensity of the desired effect on luminance.
TP_LOCALLAB_WAT_CLARICJZ_TOOLTIP;“Merge chroma” is used to select the intensity of the desired effect on chrominance.\nOnly the maximum value of wavelet levels (bottom-right) is taken into account.
TP_LOCALLAB_WAT_CLARILJZ_TOOLTIP;“Merge luma” is used to select the intensity of the desired effect on luminance.\nOnly the maximum value of wavelet levels (bottom-right) is taken into account.
TP_LOCALLAB_WAT_CONTCHROMALEV_TOOLTIP;Chroma levels: adjusts the “a” and “b” components of Lab* as a proportion of the luminance value.
TP_LOCALLAB_WAT_CONTOFFSET_TOOLTIP;Offset modifies the balance between low-contrast and high-contrast details.\nHigh values will amplify contrast changes to the higher-contrast details, whereas low values will amplify contrast changes to low-contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
TP_LOCALLAB_WAT_DELTABAL_TOOLTIP;By moving the slider to the left, the lower levels are accentuated. To the right, the lower levels are reduced and the higher levels accentuated.
TP_LOCALLAB_WAT_EXPRESID_TOOLTIP;The residual image behaves in the same way as the main image when making adjustments to contrast, chroma etc.
TP_LOCALLAB_WAT_GRADW_TOOLTIP;The more you move the slider to the right, the more effective the detection algorithm will be and the less noticeable the effects of local contrast.
TP_LOCALLAB_WAT_LEVELLOCCONTRAST_TOOLTIP;Low to high local contrast from left to right on the x-axis.\nIncrease or decrease local contrast on the y-axis.
TP_LOCALLAB_WAT_LEVELLOCCONTRAST_TOOLTIP;Low to high local contrast from left to right on the x-axis.\nIncreases or decreases local contrast on the y-axis.
TP_LOCALLAB_WAT_LOCCONTRASTEDG_TOOLTIP;You can adjust the distribution of local contrast by wavelet level based on the initial intensity of the contrast. This will modify the effects of perspective and relief in the image, and/or reduce the contrast values for very low initial contrast levels.
TP_LOCALLAB_WAT_ORIGLC_TOOLTIP;Merge only with original image, prevents the Wavelet Pyramid settings from interfering with Clarity and Sharp mask.
TP_LOCALLAB_WAT_RESIDBLUR_TOOLTIP;Blurs the residual image, independent of the levels.
TP_LOCALLAB_WAT_RESIDCOMP_TOOLTIP;Compresses the residual image to increase or reduce contrast.
TP_LOCALLAB_WAT_SIGMALC_TOOLTIP;The effect of the local contrast adjustment is stronger for medium-contrast details, and weaker for high and low-contrast details.\n This slider controls how quickly the effect dampens towards the extreme contrasts.\nThe higher the value of the slider, the wider the range of contrasts that will receive the full effect of the local contrast adjustment, and the higher the risk of generating artifacts.\nThe lower the value, the more the effect will be pinpointed towards a narrow range of contrast values.
TP_LOCALLAB_WAT_SIGMALC_TOOLTIP;The effect of the local contrast adjustment is stronger for medium-contrast details and weaker for high and low-contrast details.\n This slider controls how quickly the effect dampens towards the extreme contrasts.\nThe higher the value of the slider, the wider the range of contrasts that will receive the full effect of the local contrast adjustment and the higher the risk of generating artifacts.\nThe lower the value, the more the effect will be pinpointed towards a narrow range of contrast values.
TP_LOCALLAB_WAT_STRENGTHW_TOOLTIP;Intensity of edge-effect detection.
TP_LOCALLAB_WAT_STRWAV_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_WAT_THRESHOLDWAV_TOOLTIP;Range of wavelet levels used throughout the Wavelets module.
TP_LOCALLAB_WAT_THRESHOLDWAV_TOOLTIP;Range of wavelet levels used throughout the Wavelets module.
TP_LOCALLAB_WAT_WAVBLURCURV_TOOLTIP;Allows you to blur each level of decomposition.\nThe finest to coarsest levels of decomposition are from left to right.
TP_LOCALLAB_WAT_WAVCBDL_TOOLTIP;Similar to Contrast By Detail Levels. Fine to coarse detail levels from left to right on the x-axis.
TP_LOCALLAB_WAT_WAVDELTABAL_TOOLTIP;Acts on the balance of the three directions (horizontal, vertical and diagonal) based on the luminance of the image.\nBy default the shadows or highlights are reduced to avoid artifacts.
@@ -3313,6 +3511,8 @@ TP_LOCALLAB_WAVMASK_TOOLTIP;Uses wavelets to modify the local contrast of the ma
TP_LOCALLAB_WAVMED;Wavelet normal
TP_LOCALLAB_WEDIANHI;Median Hi
TP_LOCALLAB_WHITE_EV;White Ev
TP_LOCALLAB_ZCAMFRA;ZCAM Image Adjustments
TP_LOCALLAB_ZCAMTHRES;Retrieve high datas
TP_LOCAL_HEIGHT;Bottom
TP_LOCAL_HEIGHT_T;Top
TP_LOCAL_WIDTH;Right