#001 2008-01-22 Emil Ericsson
#002 2010-2013 Updated by Johan Thor
#003 2015-08-09 Johan Thor
#004 2016-12-30 Johan Thor
#100
#101 @LANGUAGE_DISPLAY_NAME=Svenska

ABOUT_TAB_BUILD;Version
ABOUT_TAB_CREDITS;Erkännande
ABOUT_TAB_LICENSE;Licens
ABOUT_TAB_RELEASENOTES;Versionsnyheter
ABOUT_TAB_SPLASH;Splash
BATCH_PROCESSING;Batchbehandling
CURVEEDITOR_AXIS_IN;I:
CURVEEDITOR_AXIS_OUT;O:
CURVEEDITOR_CURVE;Kurva
CURVEEDITOR_CURVES;Kurvor
CURVEEDITOR_CUSTOM;Egen
CURVEEDITOR_DARKS;Mörka partier
CURVEEDITOR_HIGHLIGHTS;Högdagrar
CURVEEDITOR_LIGHTS;Ljusa partier
CURVEEDITOR_LINEAR;Linjär
CURVEEDITOR_LOADDLGLABEL;Ladda kurva...
CURVEEDITOR_MINMAXCPOINTS;Minimi/Maxima kontrollpunkter
CURVEEDITOR_NURBS;Kontrollerad justering
CURVEEDITOR_PARAMETRIC;Parametisk
CURVEEDITOR_SAVEDLGLABEL;Spara kurva...
CURVEEDITOR_SHADOWS;Skuggor
CURVEEDITOR_TOOLTIPCOPY;Kopiera nuvarande kurva till klippbordet
CURVEEDITOR_TOOLTIPLINEAR;Återställ kurva till linjär
CURVEEDITOR_TOOLTIPLOAD;Ladda kurva från fil
CURVEEDITOR_TOOLTIPPASTE;Klistra in kurva från klippbordet
CURVEEDITOR_TOOLTIPSAVE;Spara nuvarande kurva
CURVEEDITOR_TYPE;Typ:
DIRBROWSER_FOLDERS;Mappar
EDITWINDOW_TITLE;Bildredigering
EDIT_OBJECT_TOOLTIP;Visar en widget vid förhandsvisningsfönstret som låter dig ändra detta verktyg.
EDIT_PIPETTE_TOOLTIP;För att lägga till en punkt på kurvan, håll nere Ctrl-tangenten medan du vänsterklickar på önskad punkt i förhandsgranskningen av bilden.\nFör att justera punkten håller du nere Ctrl-tangenten medan du vänsterklickar i motsvarande område i förhandsgranskningen och sen släpper du Ctrl-tangenten (håll kvar om du önskar noggrannare kontroll) och rör musen upp eller ner medan du håller nere vänster musknapp.
EXIFFILTER_APERTURE;Bländare
EXIFFILTER_CAMERA;Kamera
EXIFFILTER_EXPOSURECOMPENSATION;Exponeringskompensation (EV)
EXIFFILTER_FILETYPE;Filtyp
EXIFFILTER_FOCALLEN;Brännvidd
EXIFFILTER_ISO;ISO
EXIFFILTER_LENS;Objektiv
EXIFFILTER_METADATAFILTER;Använd metadatafilter
EXIFFILTER_SHUTTER;Slutartid
EXIFPANEL_ADDEDIT;Lägg till/Redigera
EXIFPANEL_ADDEDITHINT;Lägg till en ny eller redigera en etikett
EXIFPANEL_ADDTAGDLG_ENTERVALUE;Ange värde
EXIFPANEL_ADDTAGDLG_SELECTTAG;Välj etikett
EXIFPANEL_ADDTAGDLG_TITLE;Lägg till/redigera etikett
EXIFPANEL_KEEP;Behåll
EXIFPANEL_KEEPHINT;Behåll de valda etiketterna vid spara
EXIFPANEL_REMOVE;Ta bort
EXIFPANEL_REMOVEHINT;Ta bort de valda etiketterna vid spara
EXIFPANEL_RESET;Återställ
EXIFPANEL_RESETALL;Återställ alla
EXIFPANEL_RESETALLHINT;Återställ alla etiketter till deras originalvärden
EXIFPANEL_RESETHINT;Återställ de valda etiketterna till deras originalvärden
EXPORT_BYPASS_ALL;Markera/Avmarkera allt
EXPORT_BYPASS_DEFRINGE;Förbigå överstrålning
EXPORT_BYPASS_DIRPYRDENOISE;Förbigå brusreducering
EXPORT_BYPASS_DIRPYREQUALIZER;Förbigå kontrast genom detaljnivåer
EXPORT_BYPASS_EQUALIZER;Förbigå wavelet-nivåer
EXPORT_BYPASS_RAW_CA;Förbigå reducering av kromatiska abberationer (För råbilder)
EXPORT_BYPASS_RAW_CCSTEPS;Förbigå undertryckande av falska färger (För råbilder)
EXPORT_BYPASS_RAW_DCB_ENHANCE;Förbigå förbättringssteg för DCB (För råbilder)
EXPORT_BYPASS_RAW_DCB_ITERATIONS;Förbigå DCB-iterationer (För råbilder)
EXPORT_BYPASS_RAW_DF;Förbigå svartbild (För råbilder)
EXPORT_BYPASS_RAW_FF;Förbigå plattfält (För råbilder)
EXPORT_BYPASS_RAW_GREENTHRESH;Förbigå grönbalansering (För råbilder)
EXPORT_BYPASS_RAW_LINENOISE;Förbigå Linjärt brusfilter (För råbilder)
EXPORT_BYPASS_RAW_LMMSE_ITERATIONS;Förbigå förbättringssteg för LMMSE (För råbilder)
EXPORT_BYPASS_SHARPENEDGE;Förbigå kantskärpning
EXPORT_BYPASS_SHARPENING;Förbigå skärpning
EXPORT_BYPASS_SHARPENMICRO;Förbigå mikrokontrast
EXPORT_FASTEXPORTOPTIONS;<b>Inställningar för snabbexport</b>
EXPORT_INSTRUCTIONS;Snabbexport erbjuder snabbare konvertering genom att åsidosätta tidskrävande verktyg och framkallningsinställningar. Batchkön körs då med dessa, mindre krävande, inställningar istället så länge det här alternativet är valt. Den här metoden rekommenderas för de konverteringar där användningsområdet tillåter en lägre kvalitet på de färdiga bilderna. Genom att använda det här alternativet görs inga modifieringar i bildens normala framkallningsinställningar.
EXPORT_MAXHEIGHT;Maximal höjd:
EXPORT_MAXWIDTH;Maximal vidd:  
EXPORT_PUTTOQUEUEFAST; Lägg till i kö för snabbexport
EXPORT_RAW_DMETHOD;Demosaic-metod
EXTPROGTARGET_1;Rå
EXTPROGTARGET_2;köhanterad
FILEBROWSER_APPLYPROFILE;Använd profil
FILEBROWSER_APPLYPROFILE_PARTIAL;Applicera profil (partiell)
FILEBROWSER_AUTODARKFRAME;Automatisk svartbild
FILEBROWSER_AUTOFLATFIELD;Automatisk plattfältskorrigering
FILEBROWSER_BROWSEPATHHINT;Skriv in en sökväg och tryck Enter (Ctrl-Enter i filhanteraren).\n<b>Ctrl-O</b> för att komma till sökfältet.\n<b>Enter</b> / <b>Ctrl-Enter</b> för att bläddra;\n<b>Esc</b> för att rensa ändringar.\n<b>Shift-Esc</b> för att ta bort fokus från sökfältet.\n\n\nPath kortkommando:\n  <b>~</b> - användarens hemkatalog\n  <b>!</b> - användarens bildkatalog
FILEBROWSER_CACHE;Cache
FILEBROWSER_CLEARPROFILE;Återställ profilen
FILEBROWSER_COLORLABEL_TOOLTIP;Färgetikett\n\nAnvänd menyn eller kortkommandona:\n<b>Shift-Ctrl-0</b> No Color\n<b>Shift-Ctrl-1</b> Röd\n<b>Shift-Ctrl-2</b> Gul\n<b>Shift-Ctrl-3</b> Grön\n<b>Shift-Ctrl-4</b> Blå\n<b>Shift-Ctrl-5</b> Lila
FILEBROWSER_COPYPROFILE;Kopiera profil
FILEBROWSER_CURRENT_NAME;Nuvarande namn:
FILEBROWSER_DARKFRAME;Svartbild
FILEBROWSER_DELETEDIALOG_HEADER;Bekräftelse vid borttag
FILEBROWSER_EMPTYTRASH;Töm papperskorgen
FILEBROWSER_EXTPROGMENU;Öppna med
FILEBROWSER_FLATFIELD;Plattfält
FILEBROWSER_MOVETODARKFDIR;Flytta till katalogen för svartbilder
FILEBROWSER_MOVETOFLATFIELDDIR;Flytta till plattfältskatalogen
FILEBROWSER_NEW_NAME;Nytt namn:
FILEBROWSER_OPENDEFAULTVIEWER;Windows standardsvisare (köbehandlas)
FILEBROWSER_PARTIALPASTEPROFILE;Klistra in partiell profil
FILEBROWSER_PASTEPROFILE;Klistra in profil
FILEBROWSER_POPUPCANCELJOB;Avbryt
FILEBROWSER_POPUPCOLORLABEL;Färgetikett
FILEBROWSER_POPUPCOLORLABEL0;Label: Ingen
FILEBROWSER_POPUPCOLORLABEL1;Label: Röd
FILEBROWSER_POPUPCOLORLABEL2;Label: Gul
FILEBROWSER_POPUPCOLORLABEL3;Label: Grön
FILEBROWSER_POPUPCOLORLABEL4;Label: Blå
FILEBROWSER_POPUPCOLORLABEL5;Label: Lila
FILEBROWSER_POPUPCOPYTO;Kopiera till...
FILEBROWSER_POPUPFILEOPERATIONS;Filaktiviteter
FILEBROWSER_POPUPMOVEEND;Flytta till slutet av behandlingskön
FILEBROWSER_POPUPMOVEHEAD;Flytta till början av behandlingskön
FILEBROWSER_POPUPMOVETO;Flytta till...
FILEBROWSER_POPUPOPEN;Öppna
FILEBROWSER_POPUPOPENINEDITOR;Öppna i Editor
FILEBROWSER_POPUPPROCESS;Flytta till behandlingskön
FILEBROWSER_POPUPPROCESSFAST;Lägg till i kön (Snabbexport)
FILEBROWSER_POPUPPROFILEOPERATIONS;Profilaktiviteter
FILEBROWSER_POPUPRANK;Betyg
FILEBROWSER_POPUPRANK0;Ta bort betyg
FILEBROWSER_POPUPRANK1;Betyg 1 *
FILEBROWSER_POPUPRANK2;Betyg 2 **
FILEBROWSER_POPUPRANK3;Betyg 3 ***
FILEBROWSER_POPUPRANK4;Betyg 4 ****
FILEBROWSER_POPUPRANK5;Betyg 5 *****
FILEBROWSER_POPUPRENAME;Byt namn
FILEBROWSER_POPUPSELECTALL;Markera allt
FILEBROWSER_POPUPTRASH;Flytta till papperskorgen
FILEBROWSER_POPUPUNRANK;Ta bort betyg
FILEBROWSER_POPUPUNTRASH;Ta bort från papperskorgen
FILEBROWSER_QUERYBUTTONHINT;Rensa sökfältet
FILEBROWSER_QUERYHINT;Skriv en <i>del av ett filnamn</i> för att söka efter en <i>kommaseparerad lista</i>.\nT. ex. <i>1001,1004,1199</i>\n\n<b>Ctrl-F</b> för att komma till sökfältet.\n<b>Enter</b> för att starta sökningen.\n<b>Esc</b> för att rensa.\n<b>Shift-Esc</b> för att ta bort fokus från sökfältet.
FILEBROWSER_QUERYLABEL; Hitta:
FILEBROWSER_RANK1_TOOLTIP;Betyg 1 *\nKortkommando: <b>1</b>
FILEBROWSER_RANK2_TOOLTIP;Betyg 2 *\nKortkommando: <b>2</b>
FILEBROWSER_RANK3_TOOLTIP;Betyg 3 *\nKortkommando: <b>3</b>
FILEBROWSER_RANK4_TOOLTIP;Betyg 4 *\nKortkommando: <b>4</b>
FILEBROWSER_RANK5_TOOLTIP;Betyg 5 *\nKortkommando: <b>5</b>
FILEBROWSER_RENAMEDLGLABEL;Byt namn
FILEBROWSER_SELECTDARKFRAME;Välj svartbild...
FILEBROWSER_SELECTFLATFIELD;Välj plattfält...
FILEBROWSER_SHOWCOLORLABEL1HINT;Visa bilder märkta som röda.\nKortkommando: <b>Alt-1</b>
FILEBROWSER_SHOWCOLORLABEL2HINT;Visa bilder märkta som gula.\nKortkommando:<b>Alt-2</b>
FILEBROWSER_SHOWCOLORLABEL3HINT;Visa bilder märkta som gröna.\nKortkommando:<b>Alt-3</b>
FILEBROWSER_SHOWCOLORLABEL4HINT;Visa bilder märkta som blåa.\nKortkommando:<b>Alt-4</b>
FILEBROWSER_SHOWCOLORLABEL5HINT;Visa bilder märkta som lila.\nKortkommando: <b>Alt-5</b>
FILEBROWSER_SHOWDIRHINT;Återställ alla sökfilter.\nKortkommando: <b>d</b>
FILEBROWSER_SHOWEDITEDHINT;Visa redigerade bilder.\nKortkommando: <b>Shift-7</b>
FILEBROWSER_SHOWEDITEDNOTHINT;Visa ickeredigerade bilder.\nKortkommando: <b>Shift-6</b>
FILEBROWSER_SHOWEXIFINFO;Visa EXIF-information.\nKortkommando: <b>i</b>\n\nKortkommando i enkelbildsläget: <b>Alt-i</b>
FILEBROWSER_SHOWORIGINALHINT;Visa endast ursprungliga bilder.\n\nNär flera bilder finns med samma filnamn men med olika filändelser så anses den bild vara urpsrungsbilden som har sin ändelse närmst toppen i listan över filändelser i Inställningar > Filbläddrare > Hanterade filändelser
FILEBROWSER_SHOWRANK1HINT;Visa bilder med betyg 1.\nKortkommando: <b>Shift-1</b>
FILEBROWSER_SHOWRANK2HINT;Visa bilder med betyg 2.\nKortkommando: <b>Shift-2</b>
FILEBROWSER_SHOWRANK3HINT;Visa bilder med betyg 3.\nKortkommando: <b>Shift-3</b>
FILEBROWSER_SHOWRANK4HINT;Visa bilder med betyg 4.\nKortkommando: <b>Shift-4</b>
FILEBROWSER_SHOWRANK5HINT;Visa bilder med betyg 5.\nKortkommando: <b>Shift-5</b>
FILEBROWSER_SHOWRECENTLYSAVEDHINT;Visa bilder som nyligen sparats\nKortkommando: <b>Alt-7</b>
FILEBROWSER_SHOWRECENTLYSAVEDNOTHINT;Visa bilder som inte nyligen sparats\nKortkommando: <b>Alt-6</b>
FILEBROWSER_SHOWTRASHHINT;Visa innehållet i papperskorgen
FILEBROWSER_SHOWUNCOLORHINT;Visa bilder utan färgetikett\nKortkommando: <b>Alt-0</b>
FILEBROWSER_SHOWUNRANKHINT;Visa icke-betygsatta bilder
FILEBROWSER_THUMBSIZE;Miniatyrbildens storlek
FILEBROWSER_UNRANK_TOOLTIP;Ta bort betyg\nKortkommando: <b>0</b>
FILEBROWSER_ZOOMINHINT;Förstora miniatyrbilderna.\nKortkommando: <b>+</b>\nKortkommado i enkelbildsläget: <b>Alt-+</b>
FILEBROWSER_ZOOMOUTHINT;Förminska miniatyrbilderna.\nKortkommando: <b>-</b>\nKortkommado i enkelbildsläget: <b>Alt--</b>
FILECHOOSER_FILTER_ANY;Alla filer
FILECHOOSER_FILTER_COLPROF;Färgprofiler
FILECHOOSER_FILTER_CURVE;Kurvfiler
FILECHOOSER_FILTER_LCP;Objektivkorrigeringsprofiler
FILECHOOSER_FILTER_PP;Processprofiler
FILECHOOSER_FILTER_SAME;Samma format som nuvarande foto
FILECHOOSER_FILTER_TIFF;TIFF-filer
GENERAL_ABOUT;Om
GENERAL_AFTER;Efter
GENERAL_APPLY;Tillämpa
GENERAL_ASIMAGE;Som bild
GENERAL_AUTO;Automatisk
GENERAL_BEFORE;Före
GENERAL_CANCEL;Avbryt
GENERAL_CLOSE;Stäng
GENERAL_DISABLE;Avaktivera
GENERAL_DISABLED;Avaktiverad
GENERAL_ENABLE;Aktivera
GENERAL_ENABLED;Aktiverad
GENERAL_FILE;Fil
GENERAL_LANDSCAPE;Landskap
GENERAL_NA;Ej tillgänglig
GENERAL_NO;Nej
GENERAL_NONE;Inga
GENERAL_OK;Ok
GENERAL_OPEN;Öppna
GENERAL_PORTRAIT;Porträtt
GENERAL_SAVE;Spara
GENERAL_UNCHANGED;(Oförändrad)
GENERAL_WARNING;Varning
HISTOGRAM_TOOLTIP_B;Visa/dölj blått histogram
HISTOGRAM_TOOLTIP_BAR;Visa/dölj RBG-indikatorer\nKlicka på höger musknapp på förhandsvisningen för att frysa
HISTOGRAM_TOOLTIP_CHRO;Visa/Dölj kromananshistogrammet
HISTOGRAM_TOOLTIP_G;Visa/dölj grönt histogram
HISTOGRAM_TOOLTIP_L;Visa/dölj CIELAB histogram för luminans
HISTOGRAM_TOOLTIP_R;Visa/dölj rött histogram
HISTORY_CHANGED;Ändrad
HISTORY_CUSTOMCURVE;Egen kurva
HISTORY_FROMCLIPBOARD;Från klippbordet
HISTORY_LABEL;Historia
HISTORY_MSG_1;Fotot laddades
HISTORY_MSG_3;Profil ändrad
HISTORY_MSG_4;Historia-bläddrande
HISTORY_MSG_5;Ljusstyrka
HISTORY_MSG_6;Kontrast
HISTORY_MSG_7;Svärta
HISTORY_MSG_8;Exponeringskompensation
HISTORY_MSG_9;Högdageråterställning
HISTORY_MSG_10;Skuggkomprimering
HISTORY_MSG_11;Tonkurva 1
HISTORY_MSG_12;Autonivåer
HISTORY_MSG_13;Exponeringsmarkering
HISTORY_MSG_14;Lab - Ljushet
HISTORY_MSG_15;Lab - Kontrast
HISTORY_MSG_19;'L'-kurva
HISTORY_MSG_20;Skärpning
HISTORY_MSG_21;USM - Radie
HISTORY_MSG_22;USM - Mängd
HISTORY_MSG_23;USM - Tröskelvärde
HISTORY_MSG_24;USM - Skärp bara kanter
HISTORY_MSG_25;USM - Radie för kantdetektering
HISTORY_MSG_26;USM - Kanttolerans
HISTORY_MSG_27;USM - Halokontroll
HISTORY_MSG_28;USM - Mängd för halokontroll
HISTORY_MSG_29;Metod för skärpning
HISTORY_MSG_30;RLD - Radie
HISTORY_MSG_31;RLD - Mängd
HISTORY_MSG_32;RLD - Dämpning
HISTORY_MSG_33;RLD - Upprepningar
HISTORY_MSG_34;Distorsionskorrigering
HISTORY_MSG_35;Vinjetteringskorrigering
HISTORY_MSG_36;Kromatiska aberattioner
HISTORY_MSG_37;Autonivåer
HISTORY_MSG_38;Vitbalansmetod
HISTORY_MSG_39;VB - Färgtemperatur
HISTORY_MSG_40;VB - Färgton
HISTORY_MSG_41;Tonkurva läge 1
HISTORY_MSG_42;Tonkurva 2
HISTORY_MSG_43;Tonkurva läge 2
HISTORY_MSG_48;Använd tonkurvan i DCP
HISTORY_MSG_49;DCP ljuskälla
HISTORY_MSG_50;Skuggor/Högdagrar
HISTORY_MSG_51;S/H - Högdagrar
HISTORY_MSG_52;S/H - Skuggor
HISTORY_MSG_53;S/H - Högdagertonvidd
HISTORY_MSG_54;S/H - Skuggtonvidd
HISTORY_MSG_56;S/H - Radie
HISTORY_MSG_57;Enkel rotering
HISTORY_MSG_58;Vänd horisontellt
HISTORY_MSG_59;Vänd vertikalt
HISTORY_MSG_60;Rotering
HISTORY_MSG_61;Fyll automatiskt
HISTORY_MSG_62;Korrigering av objektivdistorsion
HISTORY_MSG_63;Bokmärke valt
HISTORY_MSG_64;Beskär
HISTORY_MSG_65;Korrigera kromatiska abberationer
HISTORY_MSG_66;Högdageråterställning
HISTORY_MSG_68;Metod för högdageråterställning
HISTORY_MSG_69;Färgrymd
HISTORY_MSG_70;Utmatningsfärgrymd
HISTORY_MSG_71;Inmatningsfärgrymd
HISTORY_MSG_72;VK - Mängd
HISTORY_MSG_73;Kanalmixer
HISTORY_MSG_74;Ändra storleksskala
HISTORY_MSG_75;Metod för ändring av storlek
HISTORY_MSG_76;Exif Metadata
HISTORY_MSG_77;IPTC Metadata
HISTORY_MSG_79;Storleksändring, bredd
HISTORY_MSG_80;Storleksändring, höjd
HISTORY_MSG_81;Storleksändring
HISTORY_MSG_82;Profilen ändrades
HISTORY_MSG_84;Korrigering av perspektiv
HISTORY_MSG_85;LCP
HISTORY_MSG_86;RGB-kurvor - Luminansläge
HISTORY_MSG_87;Brusreducering med stegsvar
HISTORY_MSG_88;Tröskelvärde för brusreducering med stegsvar
HISTORY_MSG_89;Brusreducering
HISTORY_MSG_90;Brusreducering - Luminans
HISTORY_MSG_91;Brusreducering - Kroma
HISTORY_MSG_92;Brusreducering - Gamma
HISTORY_MSG_93;Kontrast genom detaljnivåvärden
HISTORY_MSG_94;Kontrast genom detaljnivåer
HISTORY_MSG_95;Lab - kroma
HISTORY_MSG_96;'a'-kurvan
HISTORY_MSG_97;'b'-kurvan
HISTORY_MSG_98;Metod för demozaicing
HISTORY_MSG_99;Het/dödpixelfilter
HISTORY_MSG_100;Mättnad
HISTORY_MSG_101;HSV - Nyans
HISTORY_MSG_102;HSV - Mättnad
HISTORY_MSG_103;HSV - Värde
HISTORY_MSG_104;HSV Equalizer
HISTORY_MSG_105;Överstrålningsreduktion
HISTORY_MSG_106;Radie, överstrålningsreduktion
HISTORY_MSG_107;Tröskelvärde för överstrålningsreduktion
HISTORY_MSG_108;Högdagerkompr., tröskelvärde
HISTORY_MSG_109;Gränsområde, storleksändring
HISTORY_MSG_110;Storleksändring tillämpas på
HISTORY_MSG_111;Lab - Undvik färgklipp
HISTORY_MSG_112;--oanvänd--
HISTORY_MSG_113;Lab - Skydd
HISTORY_MSG_114;DCB-iterationer
HISTORY_MSG_115;Undertryck falska färger 
HISTORY_MSG_116;Förbättrad DCB
HISTORY_MSG_117;Röd CA korrigering
HISTORY_MSG_118;Blå CA korrigering
HISTORY_MSG_119;Linjärt brusfilter
HISTORY_MSG_120;Grönbalansering
HISTORY_MSG_121;Automat. CA-reducering
HISTORY_MSG_122;Automat. svartbildsval
HISTORY_MSG_123;Svartbildsfil
HISTORY_MSG_124;Vitpunktskorrigering
HISTORY_MSG_126;Plattfältsfil
HISTORY_MSG_127;Automatiskt val av plattfält
HISTORY_MSG_128;Oskärperadie för plattfält
HISTORY_MSG_129;Oskärpetyp hos plattfältet
HISTORY_MSG_130;Autodistorion
HISTORY_MSG_137;Svartpunktsnivå grön 1
HISTORY_MSG_138;Svartpunktsnivå röd
HISTORY_MSG_139;Svartpunktsnivå blå
HISTORY_MSG_140;Svartpunktsnivå grön 2
HISTORY_MSG_141;Svartpunktsnivå kopplade gröna
HISTORY_MSG_142;Kantskärpning - Iterationer
HISTORY_MSG_143;Kantskärpning - Mängd
HISTORY_MSG_144;Mikrokontrast - Mängd
HISTORY_MSG_145;Mikrokontrast - Enhetlighet
HISTORY_MSG_146;Kantskärpning
HISTORY_MSG_147;Kantskärpning - Endast luminans
HISTORY_MSG_148;Mikrokontrast
HISTORY_MSG_149;Mikrokontrast - 3×3-matris
HISTORY_MSG_150;Reducering av artefakter och brus e. demosaicing
HISTORY_MSG_151;Lyster
HISTORY_MSG_152;Lyster - Pastelltoner
HISTORY_MSG_153;Lyster - Mättade toner
HISTORY_MSG_154;Lyster - Skydda hudtoner
HISTORY_MSG_155;Lyster - Undvik färgskiftningar
HISTORY_MSG_156;Lyster - Koppla pastell- och mättade färger
HISTORY_MSG_157;Lyster - Tröskelvärde för pastell- och mättade färger
HISTORY_MSG_158;Tonmappning - Styrka
HISTORY_MSG_159;Tonmappning - Stoppa vid kanter.
HISTORY_MSG_160;Tonmappning - Skala
HISTORY_MSG_161;Tonmappning - Återviktade iterationer
HISTORY_MSG_162;Tonmappning
HISTORY_MSG_163;RGB-kurvor - Röd
HISTORY_MSG_164;RGB-kurvor - Grön
HISTORY_MSG_165;RGB-kurvor - Blå
HISTORY_MSG_166;Exponering - Återställ
HISTORY_MSG_167;Metod för demozaicing
HISTORY_MSG_168;'CC'-kurvan
HISTORY_MSG_169;'CH'-kurvan
HISTORY_MSG_170;Lyster-kurvan
HISTORY_MSG_171;'LC'-kurvan
HISTORY_MSG_172;Begränsa LC till röda färger och hudtoner
HISTORY_MSG_174;CIECAM02
HISTORY_MSG_175;CAM02 - Cat02-anpassning
HISTORY_MSG_176;CAM02 - Vyns mörka omgivning
HISTORY_MSG_177;CAM02 - Bildens anpassning av luminans
HISTORY_MSG_178;CAM02 - Vyns anpassning av luminans
HISTORY_MSG_179;CAM02 - Vitpunktsmodell
HISTORY_MSG_180;CAM02 - Ljushet (J)
HISTORY_MSG_181;CAM02 - Kroma (C)
HISTORY_MSG_182;CAM02 - Automatisk CAT02
HISTORY_MSG_183;CAM02 - Kontrast (J)
HISTORY_MSG_184;CAM02 - Bild med mörk omgivning
HISTORY_MSG_185;CAM02 - Kontroll av tonomfång
HISTORY_MSG_186;CAM02 - Algoritm
HISTORY_MSG_187;CAM02 - Bevarande av röda färger och hudtoner
HISTORY_MSG_188;CAM02 - Intensitet (Q)
HISTORY_MSG_189;CAM02 - Kontrast (Q)
HISTORY_MSG_190;CAM02 - Mättnad (S)
HISTORY_MSG_191;CAM02 - Färgmättnad (M)
HISTORY_MSG_192;CAM02 - Nyans (h)
HISTORY_MSG_193;CAM02 - Tonkurva 1
HISTORY_MSG_194;CAM02 - Tonkurva 2
HISTORY_MSG_195;CAM02 - Tonkurva 1
HISTORY_MSG_196;CAM02 - Tonkurva 2
HISTORY_MSG_197;CAM02 - Färgkurva
HISTORY_MSG_198;CAM02 - Färgkurva
HISTORY_MSG_199;CAM02 - Utmatningshistogram
HISTORY_MSG_200;CAM02 - Tonmappning
HISTORY_MSG_201;NR - Krominans röd-grön
HISTORY_MSG_202;NR - Krominans blå-gul
HISTORY_MSG_204;LMMSE förbättringssteg
HISTORY_MSG_205;CAM02 - Heta/dåliga pixlar
HISTORY_MSG_206;CAT02 - Anpassa automatiskt till bilden
HISTORY_MSG_207;Överstrålning - Nyanskurva
HISTORY_MSG_208;Vitbalans - Blå/Röd equalizer
HISTORY_MSG_210;Graderat filter - Vinkel
HISTORY_MSG_211;Graderat filter
HISTORY_MSG_212;Vinjetteringsfilter - Styrka
HISTORY_MSG_213;Vinjetteringsfilter
HISTORY_MSG_214;Svartvitt
HISTORY_MSG_215;S/V kanalmixer Röd
HISTORY_MSG_216;S/V kanalmixer Grön
HISTORY_MSG_217;S/V kanalmixer Blå
HISTORY_MSG_218;S/V Röd gamma
HISTORY_MSG_219;S/V Grön gamma
HISTORY_MSG_220;S/V Blå gamma
HISTORY_MSG_221;S/V Färgfilter
HISTORY_MSG_222;S/V Förinställningar
HISTORY_MSG_223;S/V Kanalmixer Orange
HISTORY_MSG_224;S/V Kanalmixer Gul
HISTORY_MSG_225;S/V Kanalmixer Cyan
HISTORY_MSG_226;S/V Kanalmixer Magenta
HISTORY_MSG_227;S/V Kanalmixer Lila
HISTORY_MSG_228;S/V Luminansequalizer
HISTORY_MSG_229;S/V Luminansequalizer
HISTORY_MSG_230;S/V Svartvittläge
HISTORY_MSG_231;S/V 'Före'-kurva
HISTORY_MSG_232;S/V 'Före'-kurvtyp
HISTORY_MSG_233;S/V 'Efter'-kurva
HISTORY_MSG_234;S/V 'Efter'-kurvtyp
HISTORY_MSG_236;--oanvänd--
HISTORY_MSG_238;Graderat filter - Fjäder
HISTORY_MSG_239;Graderat filter - Styrka
HISTORY_MSG_240;Graderat filter - Centrum
HISTORY_MSG_241;Vinjetteringsfilter - Fjäder
HISTORY_MSG_242;Vinjetteringsfilter - Rundhet
HISTORY_MSG_243;Vinjettering - Radie
HISTORY_MSG_244;Vinjettering - Styrka
HISTORY_MSG_245;Vinjettering - Centrum
HISTORY_MSG_246;'CL'-kurva
HISTORY_MSG_247;'LH'-kurva
HISTORY_MSG_248;'HH'-kurva
HISTORY_MSG_249;Kontrast genom detaljnivåer
HISTORY_MSG_251;B&amp;W - Algoritm
HISTORY_MSG_252;CbDL Hudtoner
HISTORY_MSG_253;CbDL Reducera artefakter
HISTORY_MSG_254;CbDL - Nyans på hudtoner
HISTORY_MSG_255;CbDL - Algoritm
HISTORY_MSG_258;CT - Färgkurva
HISTORY_MSG_259;CT - Opacitetskurva
HISTORY_MSG_260;CT - a*[b*] opacitet
HISTORY_MSG_261;CT - Metod
HISTORY_MSG_262;CT - b* opacitet
HISTORY_MSG_263;CT - Skuggor - Röd
HISTORY_MSG_264;CT - Skuggor - Grön
HISTORY_MSG_265;CT - Skuggor - Blå
HISTORY_MSG_266;CT - Mellan - Röd
HISTORY_MSG_267;CT - Mellan - Grön
HISTORY_MSG_268;CT - Mellan - Blå
HISTORY_MSG_269;CT - Hög - Röd
HISTORY_MSG_270;CT - Hög - Grön
HISTORY_MSG_271;CT - Hög - Blå
HISTORY_MSG_272;CT - Balans
HISTORY_MSG_276;CT - Opacitet
HISTORY_MSG_277;--unused--
HISTORY_MSG_278;CT - Bevara luminans
HISTORY_MSG_279;CT - Skuggor
HISTORY_MSG_280;CT - Högdagrar
HISTORY_MSG_281;CT - Mättn. styrka
HISTORY_MSG_282;CT - Mättn. tröskel
HISTORY_MSG_283;CT - Styrka
HISTORY_MSG_284;CT - Autom. mättn. skydd
HISTORY_MSG_285;NR - Median - Metod
HISTORY_MSG_286;NR - Median - Typ
HISTORY_MSG_287;NR - Median - Iterationer
HISTORY_MSG_290;Black Nivå - Röd
HISTORY_MSG_291;Black Nivå - Grön
HISTORY_MSG_292;Black Nivå - Blå
HISTORY_MSG_293;Filmsimulering
HISTORY_MSG_294;Filmsimulering - Styrka
HISTORY_MSG_295;Filmsimulering - Film
HISTORY_MSG_296;NR - Luminanskurva
HISTORY_MSG_298;Filter för döda pixlar
HISTORY_MSG_299;NR - Krominanskurva
HISTORY_MSG_301;NR - Luminanskontroll
HISTORY_MSG_302;NR - Chroma-metod
HISTORY_MSG_303;NR - Chroma-metod
HISTORY_MSG_304;W - Kontrastnivåer
HISTORY_MSG_305;Wavelet-nivåer
HISTORY_MSG_306;W - Process
HISTORY_MSG_307;W - Process
HISTORY_MSG_308;W - Process-riktning
HISTORY_MSG_309;W - ES - Detalj
HISTORY_MSG_311;W - Wavelet-nivåer
HISTORY_MSG_312;W - Återstod - Skugg-tröskel
HISTORY_MSG_314;W - Tonomfång - Reducera artefakter
HISTORY_MSG_315;W - Återstod - Kontrast
HISTORY_MSG_317;W - Tonomfång - Hudnyans
HISTORY_MSG_318;W - Kontrast - Högdagernivåer
HISTORY_MSG_319;W - Kontrast - Högdageromfång
HISTORY_MSG_320;W - Kontrast - Skuggomgång
HISTORY_MSG_321;W - Kontrast - Skuggnivåer
HISTORY_MSG_322;W - Tonomfång - Undvik färgskiftning
HISTORY_MSG_323;W - ES - Lokal kontrast
HISTORY_MSG_324;W - Chroma - Pastell
HISTORY_MSG_325;W - Chroma - Mättnad
HISTORY_MSG_326;W - Chroma - Metod
HISTORY_MSG_327;W - Kontrast - Applicera på
HISTORY_MSG_328;W - Chroma - Koppla styrka
HISTORY_MSG_331;W - Kontrastnivåer - Extra
HISTORY_MSG_332;W - Metod för tiling
HISTORY_MSG_333;W - Återstod - Skuggor
HISTORY_MSG_334;W - Återstod - Chroma
HISTORY_MSG_335;W - Återstod - Högdagrar
HISTORY_MSG_336;W - Återstod - Högdagertröskel
HISTORY_MSG_337;W - Återstod - Nyans himmel
HISTORY_MSG_338;W - ES - Radie
HISTORY_MSG_339;W - ES - Styrka
HISTORY_MSG_340;W - Styrka
HISTORY_MSG_341;W - Kantprestanda
HISTORY_MSG_342;W - ES - Första nivån
HISTORY_MSG_343;W - Chroma-nivåer
HISTORY_MSG_345;W - ES - Lokal kontrast
HISTORY_MSG_346;W - ES - Lokal kontrast-metod
HISTORY_MSG_347;W - Brusred. - Nivå 1
HISTORY_MSG_348;W - Brusred. - Nivå 2
HISTORY_MSG_349;W - Brusred. - Nivå 3
HISTORY_MSG_350;W - ES - Kandetektering
HISTORY_MSG_351;W - Återstod - HH-kurva
HISTORY_MSG_352;W - Bakgrund
HISTORY_MSG_354;W - ES - Förbättrad
HISTORY_MSG_355;W - ES - Låg tröskel
HISTORY_MSG_356;W - ES - Hög tröskel
HISTORY_MSG_357;W - Brusred. - Koppla med ES
HISTORY_MSG_358;W - Tonomfång - CH
HISTORY_MSG_359;Het/Död - Tröskel
HISTORY_MSG_360;TM Gamma
HISTORY_MSG_361;W - Slutlig - Kromabalansering
HISTORY_MSG_362;W - Återstod - Komprimeringsmetod
HISTORY_MSG_363;W - Återstod - Komprimeringsstyrka
HISTORY_MSG_364;W - Slutlig - Kontrastbalansering
HISTORY_MSG_365;W - Slutlig - Skillnadsbalansering
HISTORY_MSG_366;W - Återstod - Komprimering gamma
HISTORY_MSG_367;W - ES - Lokal kontrastkurva
HISTORY_MSG_368;W - Slutlig - Kontrastbalans
HISTORY_MSG_369;W - Slutlig - Balanseringsmetod
HISTORY_MSG_370;W - Slutlig - Lokal kontrastkurva
HISTORY_MSG_371;Skärpning efter storleksändring
HISTORY_MSG_372;PRS USM - Radie
HISTORY_MSG_373;PRS USM - Mängd
HISTORY_MSG_374;PRS USM - Tröskel
HISTORY_MSG_375;PRS USM - Skärp bara kanter
HISTORY_MSG_376;PRS USM - Radie för kantdetektering
HISTORY_MSG_377;PRS USM - Kanttolerans
HISTORY_MSG_378;PRS USM - Kontroll av halo
HISTORY_MSG_379;PRS USM - Mängd för halo-kontroll
HISTORY_MSG_380;PRS - Metod
HISTORY_MSG_381;PRS RLD - Radie
HISTORY_MSG_382;PRS RLD - Mängd
HISTORY_MSG_383;PRS RLD - Dämpning
HISTORY_MSG_384;PRS RLD - Upprepningar
HISTORY_MSG_385;W - Återstod - Färgbalans
HISTORY_MSG_386;W - Återstod - CB grön hög
HISTORY_MSG_387;W - Återstod - CB blå hög
HISTORY_MSG_388;W - Återstod - CB grön mellan
HISTORY_MSG_389;W - Återstod - CB blå mellan
HISTORY_MSG_390;W - Återstod - CB grön låg
HISTORY_MSG_391;W - Återstod - CB blå låg
HISTORY_MSG_394;DCP - Basexponering
HISTORY_MSG_395;DCP - Bastabell
HISTORY_MSG_403;W - ES - Kantkänslighet
HISTORY_MSG_404;W - ES - Basförstärkning
HISTORY_MSG_405;W - Brusred. - Nivå 4
HISTORY_MSG_407;Retinex - Metod
HISTORY_MSG_408;Retinex - Radie
HISTORY_MSG_410;Retinex - Kompensation
HISTORY_MSG_411;Retinex - Styrka
HISTORY_MSG_413;Retinex - Kontrast
HISTORY_MSG_414;Retinex - Histogram - Lab
HISTORY_MSG_415;Retinex - Överföring
HISTORY_MSG_416;Retinex
HISTORY_MSG_417;Retinex - Överföring Median
HISTORY_MSG_418;Retinex - Tröskelvärde
HISTORY_MSG_419;Retinex - Färgrymd
HISTORY_MSG_420;Retinex - Histogram - HSL
HISTORY_MSG_421;Retinex - Gamma
HISTORY_MSG_422;Retinex - Gamma
HISTORY_MSG_423;Retinex - Gamma lutning
HISTORY_MSG_424;Retinex - Tröskelvärde HL
HISTORY_MSG_426;Retinex - Nyansequalizer
HISTORY_MSG_429;Retinex - Iterationer
HISTORY_MSG_430;Retinex - Överföringsgradient
HISTORY_MSG_431;Retinex - Styrkegradient
HISTORY_MSG_432;Retinex - M - Högdagrar
HISTORY_MSG_433;Retinex - M - Högdagrar TW
HISTORY_MSG_434;Retinex - M - Skuggor
HISTORY_MSG_435;Retinex - M - Skuggor TW
HISTORY_MSG_436;Retinex - M - Radie
HISTORY_MSG_437;Retinex - M - Metod
HISTORY_MSG_438;Retinex - M - Equalizer
HISTORY_MSG_439;Retinex - Process
HISTORY_MSG_440;CbDL - Metod
HISTORY_MSG_441;Retinex - Ökning, överföring
HISTORY_MSG_442;Retinex - Skala
HISTORY_MSG_443;Kompensation svartpunkt för output
HISTORY_NEWSNAPSHOT;Nytt
HISTORY_NEWSNAPSHOT_TOOLTIP;Kortkommando: <b>Alt-s</b>
HISTORY_SNAPSHOT;Bokmärke
HISTORY_SNAPSHOTS;Bokmärken
IPTCPANEL_CATEGORY;Kategori
IPTCPANEL_CITY;Stad
IPTCPANEL_COPYHINT;Kopiera IPTC-inställningarna till klippbordet
IPTCPANEL_COUNTRY;Land
IPTCPANEL_CREDIT;Erkännande
IPTCPANEL_CREDITHINT;Identifierar tillhandahållaren av bilden, ej nödvändigtvis upphovsmannen
IPTCPANEL_DATECREATED;Skapad datum
IPTCPANEL_EMBEDDED;Inbäddad
IPTCPANEL_EMBEDDEDHINT;Återställ IPTC-informationen till innehållet i bildfilen.
IPTCPANEL_HEADLINE;Rubrik
IPTCPANEL_INSTRUCTIONS;Instruktioner
IPTCPANEL_KEYWORDS;Nyckelord
IPTCPANEL_PASTEHINT;Klistra in IPTC-inställningar från klippbordet
IPTCPANEL_RESET;Återställ
IPTCPANEL_RESETHINT;Återställ till standardprofilen
IPTCPANEL_SOURCE;Källa
IPTCPANEL_TITLE;Titel
MAIN_BUTTON_FULLSCREEN;Helskärm
MAIN_BUTTON_NAVNEXT_TOOLTIP;Flytta till nästa bild relativt den bild som är öppen i redigeringsvyn\nKortkommando: <b>Shift-F4</b>\n\nFlytta till nästa bild relativt den valda miniatyrbilden i filvyn\nKortkommando: <b>F4</b>
MAIN_BUTTON_NAVPREV_TOOLTIP;Flytta till föregående bild relativt den bild som är öppen i redigeringsvyn\nKortkommando: <b>Shift-F3</b>\n\nFlytta till föregående bild relativt den valda miniatyrbilden i filvyn\nKortkommando: <b>F3</b>
MAIN_BUTTON_NAVSYNC_TOOLTIP;Synkronisera filvyn med redigeringsvyn för att uppdatera förhandsgranskningen av den nu öppna bilden, och för att nollställa filtren i filvyn.\nKortkommando: <b>x</b>\n\nSom ovan, men utan att nollställa filtren i filvyn\nKortkommando: <b>y</b>\n(Notera att förhandsgranskningen av den öppna bildens  miniatyrbilder ej visas om den är filtrerad.).
MAIN_BUTTON_PREFERENCES;Inställningar
MAIN_BUTTON_PUTTOQUEUE_TOOLTIP;Lägg till nuvarande bild i behandlingskön.\nKortkommando: Ctrl+b
MAIN_BUTTON_SAVE_TOOLTIP;Spara nuvarande bild.\nKortkommando: <b>Ctrl+s</b>
MAIN_BUTTON_SENDTOEDITOR;Redigera bilden i ett externt program
MAIN_BUTTON_SENDTOEDITOR_TOOLTIP;Redigera nuvarande bild i externt bildredigeringsprogram.\nKortkommando: <b>Ctrl+e</b>
MAIN_BUTTON_SHOWHIDESIDEPANELS_TOOLTIP;Visa/dölj alla sidopaneler.\nKortkommando: <b>m</b>
MAIN_BUTTON_UNFULLSCREEN;Avsluta helskärmsläget
MAIN_FRAME_EDITOR;Redigeringsvy
MAIN_FRAME_EDITOR_TOOLTIP;Redigeringsvy\nKortkommando: <b>Ctrl-F4</b>
MAIN_FRAME_FILEBROWSER;Filvy
MAIN_FRAME_FILEBROWSER_TOOLTIP; Filvy\nKortkommando<b>Ctrl-F2</b>
MAIN_FRAME_PLACES;Platser
MAIN_FRAME_PLACES_ADD;Lägg till
MAIN_FRAME_QUEUE;Batchkö
MAIN_FRAME_QUEUE_TOOLTIP; Batchkö\nKortkommando: <b>Ctrl-F3</b>
MAIN_FRAME_RECENT;Nyligen använda kataloger
MAIN_MSG_ALREADYEXISTS;Filen existerar redan.
MAIN_MSG_CANNOTLOAD;Kan inte ladda bilden
MAIN_MSG_CANNOTSAVE;Fel uppstod när bilden sparades
MAIN_MSG_CANNOTSTARTEDITOR;Kan ej starta externt redigeringsprogram
MAIN_MSG_CANNOTSTARTEDITOR_SECONDARY;Var vänlig och ange rätt sökväg i inställningarna
MAIN_MSG_EMPTYFILENAME;Ospecificerat filnamn!
MAIN_MSG_IMAGEUNPROCESSED;Det här kommandot kräver att alla valda bilder behandlas i kön först.
MAIN_MSG_NAVIGATOR;Översiktsvy
MAIN_MSG_OPERATIONCANCELLED;Åtgärden avbröts
MAIN_MSG_PATHDOESNTEXIST;Sökvägen\n\n<b>%1</b>\n\nfinns ej. Var vänlig och ange en korrekt sökväg i inställningarna.
MAIN_MSG_QOVERWRITE;Vill du skriva över den?
MAIN_MSG_SETPATHFIRST;Du måste först ange en sökväg i\ninställningarna för att använda denna funktion!
MAIN_MSG_WRITEFAILED;Misslyckades att skriva\n\n<b>"%1"</b>\n\nFörsäkra dig om att katalogen existerar och att du har rättighet att skriva där.
MAIN_TAB_COLOR;Färger
MAIN_TAB_COLOR_TOOLTIP;Kortkommando: <b>Alt-c</b>
MAIN_TAB_DETAIL;Detaljer
MAIN_TAB_DETAIL_TOOLTIP;Kortkommando: <b>Alt-d</b>
MAIN_TAB_DEVELOP;Framkalla
MAIN_TAB_EXIF;EXIF
MAIN_TAB_EXPORT; Snabbexport
MAIN_TAB_EXPOSURE;Exponering
MAIN_TAB_EXPOSURE_TOOLTIP;Kortkommando: <b>Alt-e</b>
MAIN_TAB_FILTER;Filter
MAIN_TAB_INSPECT; Inspektera
MAIN_TAB_IPTC;IPTC
MAIN_TAB_METADATA;Metadata
MAIN_TAB_METADATA_TOOLTIP;Kortkommando: <b>Alt-m</b>
MAIN_TAB_RAW;Råbild
MAIN_TAB_RAW_TOOLTIP;Kortkommando: <b>Alt-r</b>
MAIN_TAB_TRANSFORM;Omvandla
MAIN_TAB_TRANSFORM_TOOLTIP;Kortkommando: <b>Alt-t</b>
MAIN_TOOLTIP_BACKCOLOR0;Bakgrundsfärg: <b>Temabaserad</b>\nKortkommando: <b>9</b>
MAIN_TOOLTIP_BACKCOLOR1;Bakgrundsfärg: <b>Svart</b>\nKortkommando: <b>9</b>
MAIN_TOOLTIP_BACKCOLOR2;Bakgrundsfärg: <b>Vit</b>\nKortkommando: <b>9</b>
MAIN_TOOLTIP_BEFOREAFTERLOCK;<b>Lås</b> / <b>Lås upp</b> <b>före-vyn</b>\n\n<b>Lås</b>: behåll <b>före-vyn</b> oförändrad.\nAnvändbart för att utvärdera den sammanlagda effekten av flera stegs redigering. Dessutom kan jämförelser göras gentemot varje annat steg i historiken.\n\n<b>Lås upp</b>: <b>Före-vyn</b> kommer hela tiden visa ett tidigare steg jämfört med <b>efter-vyn</b>, och visar därmed effekten av det verktyg som användes senast.
MAIN_TOOLTIP_HIDEHP;Visa/göm den vänstra panelen. Kortkommando: <b>l</b>
MAIN_TOOLTIP_INDCLIPPEDH;Markera högdagerindikation.\nKortkommando: <b>&gt;</b>
MAIN_TOOLTIP_INDCLIPPEDS;Markera skuggindikation.\nKortkommando: <b>&lt;</b>
MAIN_TOOLTIP_PREVIEWB;Förhandsgranska den <b>blå kanalen</b>.\nGenväg: <b>b</b>
MAIN_TOOLTIP_PREVIEWFOCUSMASK;Förhandsgranska <b>fokusmasken</b>.\nKortkommando: <b>Shift-f</b>\n\nNoggrannare på bilder med kort skärpedjup, lågt brus och där en hög zoom-grad är vald.\n\nFör att förbättra detekteringen för brusiga bilder, utvärdera vid en zoom-grad om 10-30%\n\nFörhandsvisningen görs långsammare med fokusmasken påslagen.
MAIN_TOOLTIP_PREVIEWG;Förhandsgranska den <b>gröna kanalen</b>.\nGenväg: <b>g</b>
MAIN_TOOLTIP_PREVIEWL;Förhandsgranska <b>ljusstyrkan</b>.\nShortcut: <b>v</b>\n\n0.299*R + 0.587*G + 0.114*B
MAIN_TOOLTIP_PREVIEWR;Förhandsgranska den <b>röda kanalen</b>.\nGenväg: <b>r</b>
MAIN_TOOLTIP_QINFO;Visa kortfattad information om bilden\nKortkommando: <b>i</b>
MAIN_TOOLTIP_SHOWHIDELP1;Visa/dölj vänstra panelen <b>l</b>
MAIN_TOOLTIP_SHOWHIDERP1;Visa/dölj den högra panelen <b>Alt-l</b>
MAIN_TOOLTIP_SHOWHIDETP1;Visa/dölj den översta panelen <b>Shift-L</b>
MAIN_TOOLTIP_THRESHOLD;Tröskelvärde
MAIN_TOOLTIP_TOGGLE;Växla <b>före</b>/<b>efter</b> vy.\nKortkommando: <b>Shift-b</b>
MONITOR_PROFILE_SYSTEM;Systemets standard
NAVIGATOR_B;B:
NAVIGATOR_G;G:
NAVIGATOR_H;H:
NAVIGATOR_LAB_A;a*:
NAVIGATOR_LAB_B;b*:
NAVIGATOR_LAB_L;L*:
NAVIGATOR_NA; --
NAVIGATOR_R;R:
NAVIGATOR_S;S:
NAVIGATOR_V;V:
NAVIGATOR_XY_FULL;Bredd = %1, Höjd = %2
NAVIGATOR_XY_NA;x = -, y = -
PARTIALPASTE_BASICGROUP;Grundläggande inställningar
PARTIALPASTE_CACORRECTION;Reducera kromatiska abberationer
PARTIALPASTE_CHANNELMIXER;Kanalmixer
PARTIALPASTE_CHANNELMIXERBW;Svartvitt
PARTIALPASTE_COARSETRANS;Rotering 90-grader
PARTIALPASTE_COLORAPP;CIE Color Appearance Model 2002
PARTIALPASTE_COLORGROUP;Färgrelaterade inställningar
PARTIALPASTE_COMMONTRANSFORMPARAMS;Autofyll
PARTIALPASTE_COMPOSITIONGROUP;Komponeringsinställningar
PARTIALPASTE_CROP;Beskär
PARTIALPASTE_DARKFRAMEAUTOSELECT;Automatiskt val av svartbild
PARTIALPASTE_DARKFRAMEFILE;Svartbildsfil
PARTIALPASTE_DEFRINGE;Fyll ut överstrålning
PARTIALPASTE_DETAILGROUP;Detaljinställningar
PARTIALPASTE_DIALOGLABEL;Partiell inklistring av profiler
PARTIALPASTE_DIRPYRDENOISE;Brusreducering
PARTIALPASTE_DIRPYREQUALIZER;Kontrast genom detaljnivåer
PARTIALPASTE_DISTORTION;Distortionskorrigering
PARTIALPASTE_EPD;Tonmappning
PARTIALPASTE_EQUALIZER;Wavelet-nivåer
PARTIALPASTE_EVERYTHING;Allt
PARTIALPASTE_EXIFCHANGES;Förändringar i Exif-informationen
PARTIALPASTE_EXPOSURE;Exponering
PARTIALPASTE_FILMSIMULATION;Filmsimulering
PARTIALPASTE_FLATFIELDAUTOSELECT;Välj plattfält automatiskt
PARTIALPASTE_FLATFIELDBLURRADIUS;Oskärperadie för plattfält
PARTIALPASTE_FLATFIELDBLURTYPE;Oskärpetyp hos plattfältet
PARTIALPASTE_FLATFIELDFILE;Plattfältsfil
PARTIALPASTE_GRADIENT;Graderat filter
PARTIALPASTE_HSVEQUALIZER;HSV-equalizer
PARTIALPASTE_ICMSETTINGS;Färghanteringsinställningar
PARTIALPASTE_IMPULSEDENOISE;Brusreducering mha stegsvar
PARTIALPASTE_IPTCINFO;IPTC-info
PARTIALPASTE_LABCURVE;Labjusteringar
PARTIALPASTE_LENSGROUP;Objektivrelaterade inställningar
PARTIALPASTE_LENSPROFILE;Objektivkorrigeringsprofil
PARTIALPASTE_METAGROUP;Metadata
PARTIALPASTE_PCVIGNETTE;Vinjetteringsfilter
PARTIALPASTE_PERSPECTIVE;Perspektiv
PARTIALPASTE_PREPROCESS_DEADPIXFILT;Filter för döda pixlar
PARTIALPASTE_PREPROCESS_GREENEQUIL;Grönbalansering
PARTIALPASTE_PREPROCESS_HOTPIXFILT;Filter för heta pixlar
PARTIALPASTE_PREPROCESS_LINEDENOISE;Linjärt brusfilter
PARTIALPASTE_PRSHARPENING;Skärpning efter storleksändring
PARTIALPASTE_RAWCACORR_AUTO;Reducera kromatiska abberationer automatiskt
PARTIALPASTE_RAWEXPOS_BLACK;Svärta
PARTIALPASTE_RAWEXPOS_LINEAR;Vitpunktskorrigering
PARTIALPASTE_RAWGROUP;Råbildsinställningar
PARTIALPASTE_RAW_DCBENHANCE;DCB-förbättringssteg
PARTIALPASTE_RAW_DCBITERATIONS;Antal DCB-iterationer
PARTIALPASTE_RAW_DMETHOD;Metod för demosaicing
PARTIALPASTE_RAW_FALSECOLOR;Falskt färgbortträngningssteg
PARTIALPASTE_RAW_LMMSEITERATIONS;LMMSE förbättringssteg
PARTIALPASTE_RESIZE;Ändra storlek
PARTIALPASTE_RETINEX;Retinex
PARTIALPASTE_RGBCURVES;RGB-kurvor
PARTIALPASTE_ROTATION;Rotering
PARTIALPASTE_SHADOWSHIGHLIGHTS;Skugg- och högdageråterställning
PARTIALPASTE_SHARPENEDGE;Kanter
PARTIALPASTE_SHARPENING;Skärpa (Oskarp mask/RL)
PARTIALPASTE_SHARPENMICRO;Mikrokontrast
PARTIALPASTE_VIBRANCE;Lyster
PARTIALPASTE_VIGNETTING;Reducera vinjettering
PARTIALPASTE_WHITEBALANCE;Vitbalans
PREFERENCES_ADD;Lägg till
PREFERENCES_APPEARANCE_NAVGUIDECOLOR;Översiktsvyns guidefärg
PREFERENCES_APPLNEXTSTARTUP;Kräver omstart av RawTherapee
PREFERENCES_AUTOMONPROFILE;Använd operativsystemets skärmfärgprofil
PREFERENCES_BATCH_PROCESSING;Batchbehandling
PREFERENCES_BEHADDALL;Sätt allt till 'Lägg till'
PREFERENCES_BEHADDALLHINT;Sätt alla parametrar till <b>Lägg till</b>-läge.\nFörändringar i parametrar batch-verktyget kommer att vara <b>skillnader</b> gentemot de lagrade värdena.
PREFERENCES_BEHAVIOR;Uppträdande
PREFERENCES_BEHSETALL;Sätt allt till 'Ange'
PREFERENCES_BEHSETALLHINT;Sätt alla parametrar till <b>Ange</b>-läge.\nFörändringar i parametrar i batch-verktyget kommer att vara <b>absoluta</b> och de faktiska värdena kommer att visas.
PREFERENCES_CACHEMAXENTRIES;Maximalt antal cachefiler
PREFERENCES_CACHEOPTS;Cacheinställningar
PREFERENCES_CACHETHUMBHEIGHT;Maximal höjd på miniatyrbilderna
PREFERENCES_CLIPPINGIND;Klippindikering
PREFERENCES_CLUTSCACHE;HaldCLUT cache
PREFERENCES_CLUTSCACHE_LABEL;Maximalt antal cachade CLUTs
PREFERENCES_CLUTSDIR;HaldCLUT-katalog
PREFERENCES_CURVEBBOXPOS;Positionen för kopiera/klistra in-knapparna
PREFERENCES_CURVEBBOXPOS_ABOVE;Ovan
PREFERENCES_CURVEBBOXPOS_BELOW;Under
PREFERENCES_CURVEBBOXPOS_LEFT;Vänster
PREFERENCES_CURVEBBOXPOS_RIGHT;Höger
PREFERENCES_CUSTPROFBUILD;Custom Processing Profile Builder
PREFERENCES_CUSTPROFBUILDHINT;Exekverbar (eller skript) fil som anropas när en ny initial profil skall genereras för en bild.\nMottar kommandoradparametrar för att tillåta generering av en regelbaserad .pp3-fil:n[Sökväg Råbild/JPG] [Sökväg till standardprofil] [bländartal] [exponering i sek] [brännvidd i mm] [ISO] [Objektiv] [Kamera]
PREFERENCES_CUSTPROFBUILDKEYFORMAT;Format för nycklar
PREFERENCES_CUSTPROFBUILDKEYFORMAT_NAME;Namn
PREFERENCES_CUSTPROFBUILDKEYFORMAT_TID;TagID
PREFERENCES_CUSTPROFBUILDPATH;Exekverbar sökväg
PREFERENCES_DARKFRAMEFOUND;Hittade
PREFERENCES_DARKFRAMESHOTS;bilder
PREFERENCES_DARKFRAMETEMPLATES;mallar
PREFERENCES_DATEFORMAT;Datumformat
PREFERENCES_DATEFORMATHINT;Du kan använda följande format:\n<b>%y</b>: år\n<b>%m</b>: månad\n<b>%d</b>: dag\n\nTill exempel är det svenska datumformatet:\n<b>%y-%m-%d</b>
PREFERENCES_DIRDARKFRAMES;Katalog för svartbilder
PREFERENCES_DIRHOME;Hemkatalog
PREFERENCES_DIRLAST;Senaste besökta katalog
PREFERENCES_DIROTHER;Annan
PREFERENCES_DIRSELECTDLG;Välj bildkatalog vid uppstart...
PREFERENCES_DIRSOFTWARE;Installationskatalog
PREFERENCES_EDITORLAYOUT;Layout för redigeringsvyn
PREFERENCES_EXTERNALEDITOR;Externt bildredigeringsprogram
PREFERENCES_FBROWSEROPTS;Inställningar för filvyn/miniatyrbilderna
PREFERENCES_FLATFIELDFOUND;Hittade
PREFERENCES_FLATFIELDSDIR;Plattfältskatalog
PREFERENCES_FLATFIELDSHOTS;bilder
PREFERENCES_FLATFIELDTEMPLATES;mallar
PREFERENCES_FORIMAGE;För bildfiler
PREFERENCES_FORRAW;För råbilder
PREFERENCES_FSTRIP_SAME_THUMB_HEIGHT;Samma miniatyrbildshöjd mellan redigerings- och filvyn
PREFERENCES_FSTRIP_SAME_THUMB_HEIGHT_HINT;Att ha olika miniatyrbildshöjder kräver ytterligare beräkningskraft varje gång du växlar mellan redigerings- och filvyn.
PREFERENCES_GIMPPATH;Installationskatalog för GIMP
PREFERENCES_HISTOGRAMPOSITIONLEFT;Histogrammet till vänster
PREFERENCES_HISTOGRAM_TOOLTIP;Om påslagen, så används arbetsprofilen för att skapa huvudhistogrammet och översiktsvyn, annars används den gamma-korrigerade profilen istället.
PREFERENCES_HLTHRESHOLD;Tröskelvärde för högdagrar
PREFERENCES_ICCDIR;Katalog för färgprofiler
PREFERENCES_IMPROCPARAMS;Standardprofiler
PREFERENCES_INSPECT_LABEL;Inspektion
PREFERENCES_INSPECT_MAXBUFFERS_LABEL;Maximalt antal cachade bilder
PREFERENCES_INTENT_ABSOLUTE;Totalkolorimetrisk
PREFERENCES_INTENT_PERCEPTUAL;Upplevd
PREFERENCES_INTENT_RELATIVE;Relativ kolorimetrisk
PREFERENCES_INTENT_SATURATION;Mättnad
PREFERENCES_INTERNALTHUMBIFUNTOUCHED;Visa intern råbild om oredigerad
PREFERENCES_LANGAUTODETECT;Använd operativsystemets språkinställning
PREFERENCES_MAXRECENTFOLDERS;Maximalt antal visade kataloger
PREFERENCES_MENUGROUPEXTPROGS;Visa "Öppna med"
PREFERENCES_MENUGROUPFILEOPERATIONS;Visa "Filaktiviteter"
PREFERENCES_MENUGROUPLABEL;Visa "Etikett"
PREFERENCES_MENUGROUPPROFILEOPERATIONS;Visa "Profilaktiviteter"
PREFERENCES_MENUGROUPRANK;Visa "Betygsättning"
PREFERENCES_MENUOPTIONS;Menyval för högerklick
PREFERENCES_MULTITAB;Öppna bilderna i olika flikar
PREFERENCES_MULTITABDUALMON;Visa bild på andra skärmen, om möjligt, i flerfliksläge
PREFERENCES_NAVIGATIONFRAME;Navigering
PREFERENCES_OVERLAY_FILENAMES;Visa filnamn över miniatyrbilder
PREFERENCES_OVERLAY_FILENAMES_FILMSTRIP;Visa filnamnet över miniatyrbilden i redigeringsvyn
PREFERENCES_OVERWRITEOUTPUTFILE;Skriv över existerande utfiler
PREFERENCES_PANFACTORLABEL;Faktor
PREFERENCES_PARSEDEXT;Behandlade filtyper
PREFERENCES_PARSEDEXTADD;Lägg till filtyp
PREFERENCES_PARSEDEXTADDHINT;Skriv in en filändelse och tryck på den här knappen för att lägga till den i listan
PREFERENCES_PARSEDEXTDELHINT;Ta bort de markerade filändelserna från listan
PREFERENCES_PARSEDEXTDOWNHINT;Flytta valt tillägg neråt i listan
PREFERENCES_PARSEDEXTUPHINT;Flytta valt tillägg uppåt i listan
PREFERENCES_PREVDEMO;Metod för demosaicing av förhandsbilden
PREFERENCES_PREVDEMO_FAST;Snabb
PREFERENCES_PREVDEMO_LABEL;Demosaicing-metod som ska användas för förhandsvisning vid <100% förstoring:
PREFERENCES_PREVDEMO_SIDECAR;Som i PP3
PREFERENCES_PROFILEHANDLING;Hantering av bildbehandlingsparametrar
PREFERENCES_PROFILELOADPR;Laddningsprioritet för profil
PREFERENCES_PROFILEPRCACHE;Profil i cache
PREFERENCES_PROFILEPRFILE;Profil i indatafilen
PREFERENCES_PROFILESAVECACHE;Spara behandlingsparametrar till cachen
PREFERENCES_PROFILESAVEINPUT;Spara behandlingsparametrar med indatabildfilen
PREFERENCES_PROFILE_NONE;Ingen
PREFERENCES_PROPERTY;Egenskaper
PREFERENCES_PSPATH;Adobe Photoshops installationskatalog
PREFERENCES_REMEMBERZOOMPAN;Kom ihåg förstoringsprocent och panorering
PREFERENCES_REMEMBERZOOMPAN_TOOLTIP;Kom ihåg förstoringsgraden i % och panoreringen för den aktuella bilden när du öppnar en ny bild.\n\nDet här valet fungerar bara i Enkelfliksläget och när "Demosaicing-metod som ska användas för förstoringsgrader <100 %" är satt til "Som i PP3".
PREFERENCES_SELECTLANG;Välj språk
PREFERENCES_SERIALIZE_TIFF_READ_LABEL;Seriell läsning av TIFF-filer
PREFERENCES_SERIALIZE_TIFF_READ_TOOLTIP;När man arbetar med bilder i en katalog full med okomprimerade till-filer, så kan prestanda för att generera miniatyrbilder ökas genom att aktivera detta val.
PREFERENCES_SET;Ange
PREFERENCES_SHOWBASICEXIF;Visa grundlig Exif-information
PREFERENCES_SHOWDATETIME;Visa datum och tid
PREFERENCES_SHOWEXPOSURECOMPENSATION;Lägg till exponeringskompensation
PREFERENCES_SHOWFILMSTRIPTOOLBAR;Visa verktygsraden för filmstrip
PREFERENCES_SHTHRESHOLD;Tröskelvärde för skuggor
PREFERENCES_SINGLETAB;Öppna en bild åt gången
PREFERENCES_SINGLETABVERTAB;Enkelfliksläge, vertikala flikar
PREFERENCES_SND_HELP;Fyll i en sökväg till ett ljud.\nI Windows kan "SystemDefault", "SystemAsterisk" o.s.v. användas.\nPå Linuxbaserade system kan du prova med "complete", "windows-attention" o.s.v.
PREFERENCES_SND_LNGEDITPROCDONE;När behandlingen är klar
PREFERENCES_SND_QUEUEDONE;Batchkön färdig
PREFERENCES_SND_THRESHOLDSECS;Ljudet kommer efter så här många sekunder
PREFERENCES_STARTUPIMDIR;Bildkatalog som visas vid uppstart
PREFERENCES_TAB_BROWSER;Filbläddrare
PREFERENCES_TAB_COLORMGR;Färghantering
PREFERENCES_TAB_GENERAL;Allmän
PREFERENCES_TAB_IMPROC;Bildbehandling
PREFERENCES_TAB_SOUND;Ljud
PREFERENCES_TP_LABEL;Verktygspanel:
PREFERENCES_TP_VSCROLLBAR;Göm verktygpanelens vertikala skrollist
PREFERENCES_USEBUNDLEDPROFILES;Visa förinstallerade profiler
PREFERENCES_WORKFLOW;Arbetsflöde
PROFILEPANEL_COPYPPASTE;Parametrar att kopiera
PROFILEPANEL_GLOBALPROFILES;Förinstallerade profiler
PROFILEPANEL_LABEL;Efterbehandlingsprofiler
PROFILEPANEL_LOADDLGLABEL;Ladda efterbehandlingsparametrar...
PROFILEPANEL_LOADPPASTE;Parametrar att ladda
PROFILEPANEL_MODE_TOOLTIP;Ifyllnadsläge för profil.\n\nKnappen nedtryckt: partiell profil konverteras till full profil; de saknade värdena kommer att fyllas i mha standardvärden.\n\nKnapp släppt: Profilen kommer att appliceras som den är, och förändrar bara de värden som den själv innehåller.
PROFILEPANEL_MYPROFILES;Mina profiler
PROFILEPANEL_PASTEPPASTE;Parametrar att klistra in
PROFILEPANEL_PCUSTOM;Egen
PROFILEPANEL_PFILE;Från fil
PROFILEPANEL_PINTERNAL;Neutral
PROFILEPANEL_PLASTSAVED;Senast sparad
PROFILEPANEL_SAVEDLGLABEL;Spara efterbehandlingsparametrar...
PROFILEPANEL_SAVEPPASTE;Parametrar att spara
PROFILEPANEL_TOOLTIPCOPY;Kopiera nuvarande profil till klippbordet.\n<b>Ctrl-vänsterklicka</b> för att välja de parametrar du vill kopiera
PROFILEPANEL_TOOLTIPLOAD;Ladda profil.\n<b>Ctrl-klicka</b> för att välja de parametrar du vill ladda
PROFILEPANEL_TOOLTIPPASTE; Klistra in profil från klippbordet.\n<b>Ctrl-klicka</b> för att välja de parametrar du vill klistra in
PROFILEPANEL_TOOLTIPSAVE;Spara nuvarande profil.\n<b>Ctrl-klicka</b> för att välja de parametrar du vill spara
PROGRESSBAR_LOADING;Laddar bild...
PROGRESSBAR_LOADINGTHUMBS;Laddar miniatyrbilder...
PROGRESSBAR_LOADJPEG;Laddar JPEG-fil...
PROGRESSBAR_LOADJXL;Laddar JXL-fil...
PROGRESSBAR_LOADPNG;Laddar PNG-fil...
PROGRESSBAR_LOADTIFF;Laddar TIFF-fil...
PROGRESSBAR_NOIMAGES;Inga bilder funna.
PROGRESSBAR_PROCESSING;Bearbetar bild...
PROGRESSBAR_PROCESSING_PROFILESAVED;Efterbehandlingsprofil sparad
PROGRESSBAR_READY;Klar
PROGRESSBAR_SAVEJPEG;Sparar JPEG-fil...
PROGRESSBAR_SAVEPNG;Sparar PNG-fil...
PROGRESSBAR_SAVETIFF;Sparar TIFF-fil...
PROGRESSBAR_SNAPSHOT_ADDED;Bokmärke tillagt.
PROGRESSDLG_PROFILECHANGEDINBROWSER;Profilen har ändrats i filhanteraren
QINFO_ISO;ISO
QINFO_NOEXIF;Exif-information ej tillgänglig.
QUEUE_AUTOSTART;Autostart
QUEUE_AUTOSTART_TOOLTIP;Starta behandlingen automatiskt när en ny bild kommer in
QUEUE_DESTFILENAME;Sökväg och filnamn
QUEUE_FORMAT_TITLE;Filformat
QUEUE_LOCATION_FOLDER;Spara till katalog
QUEUE_LOCATION_TEMPLATE;Använd förinställning
QUEUE_LOCATION_TEMPLATE_TOOLTIP;Du kan använda följande format:\n<b>%f, %d1, %d2, %p1, %p2</b>\n\nDe här format hänvisar till katalogerna och underkatalogerna till råbildens sökväg.\n\nTill exempel, om <b>/home/tom/bilder/2010-09-02/dsc0012.nef</b>har öppnats, betyder formatsträngen följande:\n<b>%f=dsc0012\n%d1=2010-09-02\n%d2=bilder\n%p1=/home/tom/bilder/2010-09-02,\n%p2=/home/tom/bilder\n%p3=/home/tom\n</b>\nOm du vill spara den behandlade filen där originalet finns, skriver du:\n<b>%p1/%f\n</b>\nOm du vill spara den behandlade filen i en katalog som heter "Konverterade filer", belägen i originalets katalog, skriver du:\n<b>%p1/Konverterade filer/%f\n</b>\nOm du vill spara den behandlade filen i en katalog "/home/tom/Konverterade filer" där du behåller samma underkatalog med datum, skriver du:\n<b>%p2/Konverterade filer/%d1/%f</b>
SAVEDLG_AUTOSUFFIX;Lägg automatiskt till en ändelse om filnamnet redan existerar
SAVEDLG_FILEFORMAT;Filformat
SAVEDLG_FORCEFORMATOPTS;Kräv att inställningar sparas
SAVEDLG_JPEGQUAL;JPEG-kvalitet
SAVEDLG_PUTTOQUEUE;Lägg till i behandlingskön
SAVEDLG_PUTTOQUEUEHEAD;Flytta längst fram i behandlingskön
SAVEDLG_PUTTOQUEUETAIL;Flytta längst bak i behandlingskön
SAVEDLG_SAVEIMMEDIATELY;Spara direkt
SAVEDLG_SAVESPP;Spara behandlingsparametrarna med bilderna
SAVEDLG_SUBSAMP;Subsampling
SAVEDLG_SUBSAMP_1;Högsta komprimering
SAVEDLG_SUBSAMP_2;Balanserad
SAVEDLG_SUBSAMP_3;Högsta kvalitet
SAVEDLG_SUBSAMP_TOOLTIP;Bästa komprimering:\nJ:a:b 4:2:0\nh/v 2/2\nKroma halveras horisontellt och vertikalt.\n\nBalanserad:\nJ:a:b 4:2:2\nh/v 2/1\nKroma halveras horisontellt.\n\nBästa kvalitet:\nJ:a:b 4:4:4\nh/v 1/1\nIngen subsampling av kroma.
SAVEDLG_TIFFUNCOMPRESSED;Okomprimerad TIFF
SAVEDLG_WARNFILENAME;Filen kommer att heta
SHCSELECTOR_TOOLTIP;Klicka på höger musknapp för att återställa\nde tre reglagens positioner
THRESHOLDSELECTOR_B;Nederst
THRESHOLDSELECTOR_BL;Nederst till vänster
THRESHOLDSELECTOR_BR;Nederst till höger
THRESHOLDSELECTOR_HINT;Håll nere <b>Shift</b> tangenten för att flytta de olika kontrollpunkterna.
THRESHOLDSELECTOR_T;Överst
THRESHOLDSELECTOR_TL;Överst till vänster
THRESHOLDSELECTOR_TR;Överst till höger
TOOLBAR_TOOLTIP_COLORPICKER;Låsbar färgpipett\n\nNär denna är aktiverad:\nTryck med vänster musknapp i förhandsgranskningen för att lägga till en färgpipett\nFlytta den medan du håller ner vänster musknapp\nTa bort den genom att trycka med höger musknapp\nTa bort alla genom att använda dig av Shift + höger musknapp\nTryck på höger musknapp utanför färgpipetten för att välja handverktyget
TOOLBAR_TOOLTIP_CROP;Välj beskärningsområde.\nKortkommando: <b>c</b>\nFlytta beskärningsområdet genom att hålla nere Shift och vänstermusknapp och flytta musen.
TOOLBAR_TOOLTIP_HAND;Handverktyg.\nKortkommando:<b>h</b>
TOOLBAR_TOOLTIP_STRAIGHTEN;Räta upp.\nKortkommando:<b>s</b>\n\nDra en linje längs antingen en vertikal eller horisontell linje i bilden för att räta upp bilden. Roterationsvinkeln visas bredvid linjen du drar. Rotationscentrum är det geometriska mittpunkten i bilden.
TOOLBAR_TOOLTIP_WB;Mät vitbalans i bilden.\nKortkommando:<b>w</b>
TP_BWMIX_ALGO;Algoritm OYCPM
TP_BWMIX_ALGO_LI;Linjär
TP_BWMIX_ALGO_SP;Specialeffekter
TP_BWMIX_ALGO_TOOLTIP;Linjär: kommer att procudera ett normalt <b>linjärt</b> svar.\nSpecialeffekter: kommer att producera specialeffekter genom att miza kanalerna <b>icke-linjärt</b>.
TP_BWMIX_AUTOCH;Auto
TP_BWMIX_CC_ENABLED;Justera komplementär färg
TP_BWMIX_CC_TOOLTIP;Aktivera för att tillåta automatisk justering av komplementär färg i ROYGCBPM-läget
TP_BWMIX_CHANNEL;Luminansequalizer
TP_BWMIX_CURVEEDITOR1;'Före'-kurva
TP_BWMIX_CURVEEDITOR2;'Efter'-kurva
TP_BWMIX_CURVEEDITOR_AFTER_TOOLTIP;Tonkurva efter S/V-konvertering, vid slutet av behandlingen
TP_BWMIX_CURVEEDITOR_BEFORE_TOOLTIP;Tonkurva precis före S/V-konverteringen\nKan ta färgkomponenterna i beaktande
TP_BWMIX_CURVEEDITOR_LH_TOOLTIP;Ändra luminansen som en funktion av nyansen\nNotera extrema värden som kan orsaka artefakter
TP_BWMIX_FILTER;Färgfilter
TP_BWMIX_FILTER_BLUE;Blå
TP_BWMIX_FILTER_BLUEGREEN;Blå-Grön
TP_BWMIX_FILTER_GREEN;Grön
TP_BWMIX_FILTER_GREENYELLOW;Grön-Gul
TP_BWMIX_FILTER_NONE;Ingen
TP_BWMIX_FILTER_PURPLE;Lila
TP_BWMIX_FILTER_RED;Röd
TP_BWMIX_FILTER_REDYELLOW;Röd-Gul
TP_BWMIX_FILTER_TOOLTIP;Färgfiltret simulerar bilder tagna med ett färgat filter placerat framför objektivet. Färgade filter reducerar transmissionen av ett specifikt spektrum av färger och påverkar deras ljushet. T. ex. mörkar ett rött filter blå himmel.
TP_BWMIX_FILTER_YELLOW;Gul
TP_BWMIX_GAMMA;Gamma-korrigering
TP_BWMIX_GAM_TOOLTIP;Korrigera gamma för varje kanal i RGB
TP_BWMIX_LABEL;Svartvitt
TP_BWMIX_MET;Metod
TP_BWMIX_MET_CHANMIX;Kanalmixer
TP_BWMIX_MET_DESAT;Reducera mättnad
TP_BWMIX_MET_LUMEQUAL;Luminansequalizer
TP_BWMIX_RGBLABEL;R: %1%%   G: %2%%   B: %3%%   Totalt: %4%%
TP_BWMIX_RGBLABEL_HINT;Slutliga RGB-faktorer som tar hand om alla mixerinställningar\n"Totalt" visar summan av RGB-värden som faktiskt används:\n- alltid 100% i relativt läge\n- högre (ljusare) eller lägre (mörkare) än 100% i absolut läge.
TP_BWMIX_RGB_TOOLTIP;Blanda RGB-kanalerna. Använd förinställningar som en vägledning.\nNotera negativa värden som kan orsaka artefakter eller felaktiga beteenden.
TP_BWMIX_SETTING;Förinställningar
TP_BWMIX_SETTING_TOOLTIP;Olika förinställningar (film, landskap...) eller manuella inställningar av kanalmixern
TP_BWMIX_SET_HIGHCONTAST;Hög kontrast
TP_BWMIX_SET_HIGHSENSIT;Hög känslighet
TP_BWMIX_SET_HYPERPANCHRO;Hyperpankromatisk
TP_BWMIX_SET_INFRARED;Infraröd
TP_BWMIX_SET_LANDSCAPE;Landskap
TP_BWMIX_SET_LOWSENSIT;Låg känslighet
TP_BWMIX_SET_LUMINANCE;Luminans
TP_BWMIX_SET_NORMCONTAST;Normal kontrast
TP_BWMIX_SET_ORTHOCHRO;Orthokromatisk
TP_BWMIX_SET_PANCHRO;Pankromatisk
TP_BWMIX_SET_PORTRAIT;Porträtt
TP_BWMIX_SET_RGBABS;Kanalmixer, absolut RGB
TP_BWMIX_SET_RGBREL;Kanalmixer, relativt RGB
TP_BWMIX_SET_ROYGCBPMABS;Kanalmixer, absolut ROYGCBPM
TP_BWMIX_SET_ROYGCBPMREL;Kanalmixer, relativt ROYGCBPM
TP_BWMIX_TCMODE_FILMLIKE;S/V Filmlik
TP_BWMIX_TCMODE_SATANDVALBLENDING;S/V mättnad och värdeblandning
TP_BWMIX_TCMODE_STANDARD;S/V standard
TP_BWMIX_TCMODE_WEIGHTEDSTD;S/V viktad standard
TP_BWMIX_VAL;L
TP_CACORRECTION_BLUE;Blå
TP_CACORRECTION_LABEL;Reducera kromatiska abberationer
TP_CACORRECTION_RED;Röd
TP_CBDL_AFT;Efter svartvitt
TP_CBDL_BEF;Före svartvitt
TP_CBDL_METHOD_TOOLTIP;Välj om verktyget ska flyttas till efter svartvittsverktyget, vilket gör att det arbetar i L*a*b-rymden, eller före svartvitt, vilket gör att det arbetar i RGB.
TP_CHMIXER_BLUE;Blå kanal
TP_CHMIXER_GREEN;Grön kanal
TP_CHMIXER_LABEL;Kanalmixer
TP_CHMIXER_RED;Röd kanal
TP_COARSETRAF_TOOLTIP_HFLIP;Vänd horisontellt
TP_COARSETRAF_TOOLTIP_ROTLEFT;Rotera åt vänster.\nKortkommando: <b>[</b>
TP_COARSETRAF_TOOLTIP_ROTRIGHT;Rotera åt höger.\nKortkommando: <b>]</b>
TP_COARSETRAF_TOOLTIP_VFLIP;Vänd vertikalt
TP_COLORAPP_ALGO;Algoritm
TP_COLORAPP_ALGO_ALL;Alla
TP_COLORAPP_ALGO_JC;Ljushet + kroma (JC)
TP_COLORAPP_ALGO_JS;Ljushet + mättnad (JS)
TP_COLORAPP_ALGO_QM;Intensitet + färgmättnad (QM)
TP_COLORAPP_ALGO_TOOLTIP;Låter dig välja mellan delmängder av eller alla parametrar.
TP_COLORAPP_BADPIXSL;Filter för heta/dålia pixlar
TP_COLORAPP_BADPIXSL_TOOLTIP;Dämpa heta/dåliga (ljust färgade) pixlar.\n 0=ingen effekt 1=median 2=gaussian.\n\nDe här artefakterna kommer sig av tillkortakommanden i CIECAM02. Alternativt, justera bilden så att mycket mörka skuggor undviks
TP_COLORAPP_BRIGHT;Intensitet (Q)
TP_COLORAPP_BRIGHT_TOOLTIP;Intensitet i CIECAM02 tar i beaktande det vitas luminositet och skiljer sig från ljushet i  Lab och RGB
TP_COLORAPP_CHROMA;Kroma (C)
TP_COLORAPP_CHROMA_M;Färgmättnad (M)
TP_COLORAPP_CHROMA_M_TOOLTIP;Färgmättnad i CIECAM02 skiljer sig från colofulness i Lab och RGB
TP_COLORAPP_CHROMA_S;Kroma (S)
TP_COLORAPP_CHROMA_S_TOOLTIP;Mättnad i CIECAM02 skiljer sig från mättnad i Lab och RGB
TP_COLORAPP_CHROMA_TOOLTIP;Kroma i CIECAM02 skiljer sig åt från kroma i Lab och RGB
TP_COLORAPP_CIECAT_DEGREE;CAT02-anpassning
TP_COLORAPP_CONTRAST;Kontrast (J)
TP_COLORAPP_CONTRAST_Q;Kontrast (Q)
TP_COLORAPP_CONTRAST_Q_TOOLTIP;Kontrast i CIECAM02 för Q-reglaget; skiljer sig från kontrast i Lab och RGB
TP_COLORAPP_CONTRAST_TOOLTIP;Kontrast i CIECAM02 för J-reglaget; skiljer sig från kontrast i Lab och RGB
TP_COLORAPP_CURVEEDITOR1;Tonkurva 1
TP_COLORAPP_CURVEEDITOR1_TOOLTIP;Visar histogrammet hos L (Lab) före CIECAM02.\nOm checkboxen "Show CIECAM02 output histograms in curves" är aktiverad, visas histogrammet för J och Q efter CIECAM02.\n\nJ och Q visas ej i histogrammet i huvudpanelen.\n\nFör slutligt resultat, se huvudpanelens histogram
TP_COLORAPP_CURVEEDITOR2;Tonkurva 2
TP_COLORAPP_CURVEEDITOR2_TOOLTIP;Används på samma sätt som med den andra tonkurvan.
TP_COLORAPP_CURVEEDITOR3;Färgkurva
TP_COLORAPP_CURVEEDITOR3_TOOLTIP;Justera antingen kroma, mättnad eller colorfulness.\n\nVisar histogrammet hos kromaciteten (Lab) före CIECAM02.\nOm checkboxen "Show CIECAM02 output histograms in curves" är aktiverad, visas histogrammet för C, s eller M efter CIECAM02.\n\nC, s och M visas ej i histogrammet i huvudpanelen.\n\nFör slutligt resultat, se huvudpanelens histogram
TP_COLORAPP_DATACIE;Resultat av CIECAM02-histogram i kurvor
TP_COLORAPP_DATACIE_TOOLTIP;När detta är aktiverat, visar CIECAM02-histogram ungefärliga värden/intervall för J eller Q, och C, s eller M efter justeringar i CIECAM02.\nDet här valet påverkar inte huvudhistogrammet.\n\nNär detta är avaktiverat, visar histogrammet för CIECAM02-kurvor Lab-värden innan justeringar av CIECAM02
TP_COLORAPP_GAMUT;Kontroll av tonomfång (Lab)
TP_COLORAPP_HUE;Nyans(h)
TP_COLORAPP_HUE_TOOLTIP;Nyans h) - vinkel mellan 0° och 360°
TP_COLORAPP_LABEL;CIE Color Appearance Model 2002
TP_COLORAPP_LABEL_CAM02;Bildjusteringar
TP_COLORAPP_LABEL_SCENE;Förhållanden då bilden togs
TP_COLORAPP_LABEL_VIEWING;Förhållanden vid betraktande
TP_COLORAPP_LIGHT;Ljushet (J)
TP_COLORAPP_LIGHT_TOOLTIP;Ljushet i CIECAM02 är ej lika som de i Lab och RGB
TP_COLORAPP_MODEL;Vitpunktsmodell
TP_COLORAPP_MODEL_TOOLTIP;Vitpunktsmodell\n\n<b>WB [RT] + [output]:</b>\nRT:s vitbalans används för bilden, CIECAM02 sätts till D50, utmatningsenhetens vitbalans sätts i <i>Inställningar > Färghantering</i>\n\n<b>WB [RT+CAT02] + [output]:</b>\nRT:s vitbalansinställningar används av CAT02 och utmatningsenhetens vitbalans sätts i Inställningar
TP_COLORAPP_RSTPRO;Bevara röda färger och hudtoner
TP_COLORAPP_RSTPRO_TOOLTIP;Bevara röda färger och hudtoner (reglage och kurvor)
TP_COLORAPP_SURROUND;Omgivning
TP_COLORAPP_SURROUND_AVER;Medel
TP_COLORAPP_SURROUND_DARK;Mörk
TP_COLORAPP_SURROUND_DIM;Dunkelt
TP_COLORAPP_SURROUND_EXDARK;Extremt mörkt
TP_COLORAPP_SURROUND_TOOLTIP;Ändra toner och färger för att ta i beaktande betraktningsförhållandena för utmatningsenheten\n\n<b>Medel:</b>\nMedelljusa omgivningar (standard)\nBilden kommer ej att ändras\n\n<b>Dunkelt:</b>\nDunkla omgivningar (TV)\nBilden kommer att bli aningen mörkare\n\n<b>Mörk:</b>\nMörka omgivningar (projektor)\nBilden kommer att bli mörkare\n\n<b>Extremt mörkt:</b>\nExtremt mörka omgivningar (cutsheet)\nBilden kommer bli mycket mörk
TP_COLORAPP_TCMODE_BRIGHTNESS;Intensitet
TP_COLORAPP_TCMODE_CHROMA;Kroma
TP_COLORAPP_TCMODE_COLORF;Färgmättnad
TP_COLORAPP_TCMODE_LABEL1;Kurvläge 1
TP_COLORAPP_TCMODE_LABEL2;Kurvläge 2
TP_COLORAPP_TCMODE_LABEL3;Kromaläge för kurvor
TP_COLORAPP_TCMODE_LIGHTNESS;Ljushet
TP_COLORAPP_TCMODE_SATUR;Mättnad
TP_COLORAPP_TONECIE;Tonmappning som använder CIECAM02 ljushet (Q)
TP_COLORAPP_TONECIE_TOOLTIP;Om det här valet ej är aktiverat, görs tonmappningen i Lab.\nOm det här valet är aktiverat, görs tonmappningen mha CIECAM02.\nTonmappningsverktyget måste vara aktiverad för att den här inställningen ska ha någon effekt
TP_COLORAPP_VIEWING_ABSOLUTELUMINANCE_TOOLTIP;Absolut luminans hos betrakningsomgivningen\n(vanligtvis 16cd/m²)
TP_COLORAPP_WBCAM;Vitbalans [RT+CAT02] + [utmatning]
TP_COLORAPP_WBRT;Vitbalans [RT] + [utmatning]
TP_COLORTONING_AB;o C/L
TP_COLORTONING_AUTOSAT;Automatisk
TP_COLORTONING_BALANCE;Balans
TP_COLORTONING_BY;o C/L
TP_COLORTONING_CHROMAC;Opacitet
TP_COLORTONING_COLOR;Färg
TP_COLORTONING_HIGHLIGHT;Högdagrar
TP_COLORTONING_HUE;Nyans
TP_COLORTONING_LAB;L*a*b*
TP_COLORTONING_LUMA;Luminans
TP_COLORTONING_LUMAMODE;Bevara luminansen
TP_COLORTONING_LUMAMODE_TOOLTIP;Om aktiverad så kommer luminansen för varje pixel bevaras när du ändrar färgerna (röd, grön, cyan, blå, etc.).
TP_COLORTONING_METHOD;Metod
TP_COLORTONING_MIDTONES;Mellantoner
TP_COLORTONING_NEUTRAL;Återställ reglage
TP_COLORTONING_NEUTRAL_TOOLTIP;Återställ alla värden (skuggor, mellantoner, högdagrar) till standardvärdena.
TP_COLORTONING_OPACITY;Opacitet
TP_COLORTONING_RGBCURVES;RGB - Kurvor
TP_COLORTONING_RGBSLIDERS;RGB - Reglage
TP_COLORTONING_SA;Skydd av mättnad
TP_COLORTONING_SATURATEDOPACITY;Styrka
TP_COLORTONING_SATURATIONTHRESHOLD;Tröskel
TP_COLORTONING_SHADOWS;Skuggor
TP_COLORTONING_SPLITCO;Skuggor/mellantoner/högdagrar
TP_COLORTONING_SPLITCOCO;Färgbalans för skuggor/mellantoner/högdagrar
TP_COLORTONING_SPLITLR;Mättnad, 2 färger
TP_COLORTONING_STR;Styrka
TP_COLORTONING_STRENGTH;Styrka
TP_COLORTONING_TWO2;Speciell kroma "2 färger"
TP_COLORTONING_TWOALL;Speciell kroma
TP_COLORTONING_TWOBY;Speciell a* and b*
TP_COLORTONING_TWOSTD;Standard-chroma
TP_CROP_FIXRATIO;Fast proportion
TP_CROP_GTDIAGONALS;Diagonalregeln
TP_CROP_GTEPASSPORT;Biometriskt pass
TP_CROP_GTFRAME;Ram
TP_CROP_GTGRID;Rutnät
TP_CROP_GTHARMMEANS;Harmoniskt medel
TP_CROP_GTNONE;Ingen
TP_CROP_GTRULETHIRDS;Tredjedelsregeln
TP_CROP_GTTRIANGLE1;Gyllene trianglar 1
TP_CROP_GTTRIANGLE2;Gyllene trianglar 2
TP_CROP_GUIDETYPE;Guidetyp:
TP_CROP_H;Höjd
TP_CROP_LABEL;Beskär
TP_CROP_W;Bredd
TP_CROP_X;x
TP_CROP_Y;y
TP_DARKFRAME_AUTOSELECT;Välj svartbild automatiskt
TP_DARKFRAME_LABEL;Svartbild
TP_DEFRINGE_LABEL;Fyll ut överstrålning
TP_DEFRINGE_RADIUS;Radie
TP_DEFRINGE_THRESHOLD;Tröskelvärde
TP_DIRPYRDENOISE_CHROMINANCE_AUTOGLOBAL;Automatisk global
TP_DIRPYRDENOISE_CHROMINANCE_BLUEYELLOW;Krominans - Blå-Gul
TP_DIRPYRDENOISE_CHROMINANCE_CURVE;Krominans-kurva
TP_DIRPYRDENOISE_CHROMINANCE_FRAME;Krominans
TP_DIRPYRDENOISE_CHROMINANCE_MANUAL;Manuell
TP_DIRPYRDENOISE_CHROMINANCE_MASTER;Kroma
TP_DIRPYRDENOISE_CHROMINANCE_METHOD;Metod
TP_DIRPYRDENOISE_CHROMINANCE_METHODADVANCED_TOOLTIP;Manuell\nVerkar på hela bilden.\nDu kontrollerar brusreduceringen manuellt.\n\nAutomatisk global\nVerkar på hela bilden.\n9 zoner används för att beräkna en global kroma-brusreducering.\n\nFörhandsgranskning\nVerkar på hela bilden.\nDen synliga delen av förhandsgranskningen används för att beräkna en global kroma-brusreducering.
TP_DIRPYRDENOISE_CHROMINANCE_PMZ;Förhandsgranska multi-zon
TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW;Förhandsgranska
TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW_INFO;Förhandsgranska storlek=%1, Centrum: Px=%2  Py=%3
TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW_NOISEINFO;Förhandsgranska brus: Medel=%1  Hög=%2
TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW_NOISEINFO_EMPTY;Förhandsgranska brus: Medel= -   Hög= -
TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW_TILEINFO;Tile-storlek=%1, Center: Tx=%2  Ty=%3
TP_DIRPYRDENOISE_CHROMINANCE_REDGREEN;Krominans - Röd-Grön
TP_DIRPYRDENOISE_LUMINANCE_CONTROL;Luminanskontroll
TP_DIRPYRDENOISE_LUMINANCE_CURVE;Luminans-kurva
TP_DIRPYRDENOISE_LUMINANCE_DETAIL;Luminansdetalj
TP_DIRPYRDENOISE_LUMINANCE_FRAME;Luminans
TP_DIRPYRDENOISE_LUMINANCE_SMOOTHING;Luminans
TP_DIRPYRDENOISE_MAIN_COLORSPACE;Metod
TP_DIRPYRDENOISE_MAIN_COLORSPACE_LAB;Lab
TP_DIRPYRDENOISE_MAIN_COLORSPACE_RGB;RGB
TP_DIRPYRDENOISE_MAIN_COLORSPACE_TOOLTIP;För råfiler kan antingen RGB- eller Labmetoder användas.\n\nFör icke-råfiler kommer Labmetoden att användas, oavsett vad som är valt.
TP_DIRPYRDENOISE_MAIN_GAMMA;Gamma
TP_DIRPYRDENOISE_MAIN_GAMMA_TOOLTIP;Gamma varierar brusreduceringens styrka över hela skalan av toner. Mindre värden riktar sig mot de mörka partierna i bilden, medan större värden utökar effekten till högdagrarna.
TP_DIRPYRDENOISE_MAIN_MODE;Kvalitet
TP_DIRPYRDENOISE_MAIN_MODE_AGGRESSIVE;Hög
TP_DIRPYRDENOISE_MAIN_MODE_CONSERVATIVE;Standard
TP_DIRPYRDENOISE_MEDIAN_METHOD_CHROMINANCE;Endast chroma
TP_DIRPYRDENOISE_MEDIAN_METHOD_LAB;L*a*b*
TP_DIRPYRDENOISE_MEDIAN_METHOD_LUMINANCE;Endast luminans
TP_DIRPYRDENOISE_MEDIAN_METHOD_RGB;RGB
TP_DIRPYRDENOISE_MEDIAN_METHOD_WEIGHTED;Viktad L* (litet) + a*b* (normal)
TP_DIRPYRDENOISE_TYPE_3X3;3×3
TP_DIRPYRDENOISE_TYPE_3X3SOFT;3×3 mjuk
TP_DIRPYRDENOISE_TYPE_5X5;5×5
TP_DIRPYRDENOISE_TYPE_5X5SOFT;5×5 mjuk
TP_DIRPYRDENOISE_TYPE_7X7;7×7
TP_DIRPYRDENOISE_TYPE_9X9;9×9
TP_DIRPYREQUALIZER_ALGO;Algoritm för hudtoner
TP_DIRPYREQUALIZER_ALGO_TOOLTIP;Fin: närmre hudens färger, minimerar inverkan på andra färger\nStor: undvik än mer artefakter
TP_DIRPYREQUALIZER_ARTIF;Reducera artefakter
TP_DIRPYREQUALIZER_HUESKIN;Nyans på hudtoner
TP_DIRPYREQUALIZER_LABEL;Kontrast genom detaljnivåer
TP_DIRPYREQUALIZER_LUMACOARSEST;Grövst
TP_DIRPYREQUALIZER_LUMACONTRAST_MINUS;Minska kontrasten
TP_DIRPYREQUALIZER_LUMACONTRAST_PLUS;Öka kontrasten
TP_DIRPYREQUALIZER_LUMAFINEST;Finast
TP_DIRPYREQUALIZER_LUMANEUTRAL;Neutralt
TP_DIRPYREQUALIZER_SKIN;Hudtoner Mål/Skydd
TP_DIRPYREQUALIZER_SKIN_TOOLTIP;Vid -100 påverkas hudtoner.\nVid 0 behandlas alla toner likvärdigt.\nVid +100 skyddas hudtoner medan alla andra toner är påverkade.
TP_DIRPYREQUALIZER_THRESHOLD;Tröskelvärde
TP_DIRPYREQUALIZER_TOOLTIP;Försöker reducera artefakter uppkomna av övergångarna mellan färgerna (nyans, kroma, luminans) på hyn och övriga i bilden
TP_DISTORTION_AMOUNT;Mängd
TP_DISTORTION_LABEL;Distorsion
TP_EPD_EDGESTOPPING;Stoppa vid kanter
TP_EPD_GAMMA;Gamma
TP_EPD_LABEL;Tonmappning
TP_EPD_REWEIGHTINGITERATES;Återviktade iterationer
TP_EPD_SCALE;Skala
TP_EPD_STRENGTH;Styrka
TP_EXPOSURE_AUTOLEVELS;Autonivåer
TP_EXPOSURE_AUTOLEVELS_TOOLTIP;Slå av/på autonivåer för att automatiskt beräkna och använda värden baserat på bildanalys\nAktiverar högdageråterställning om nödvändigt
TP_EXPOSURE_BLACKLEVEL;Svärta
TP_EXPOSURE_BRIGHTNESS;Ljushet
TP_EXPOSURE_CLIP;Klippnivå %
TP_EXPOSURE_CLIP_TOOLTIP;Andelen pixlar som ska klippas när autonivåer används.
TP_EXPOSURE_COMPRHIGHLIGHTS;Högdageråterställning
TP_EXPOSURE_COMPRHIGHLIGHTSTHRESHOLD;Högdageråterställning, tröskelvärde
TP_EXPOSURE_COMPRSHADOWS;Skuggåterställning
TP_EXPOSURE_CONTRAST;Kontrast
TP_EXPOSURE_CURVEEDITOR1;Tonkurva 1
TP_EXPOSURE_CURVEEDITOR2;Tonkurva 2
TP_EXPOSURE_CURVEEDITOR2_TOOLTIP;Se följande del i manualen hur man uppnår bästa resultat med dubbla kurvor:\nThe Toolbox > Exposure Tab > Exposure Panel > Tone Curve
TP_EXPOSURE_EXPCOMP;Exponeringskompensation
TP_EXPOSURE_LABEL;Exponering
TP_EXPOSURE_SATURATION;Mättnad
TP_EXPOSURE_TCMODE_FILMLIKE;Filmlik
TP_EXPOSURE_TCMODE_LABEL1;Kurvläge 1
TP_EXPOSURE_TCMODE_LABEL2;Kurvläge 2
TP_EXPOSURE_TCMODE_LUMINANCE;Luminans
TP_EXPOSURE_TCMODE_PERCEPTUAL;Perceptuell
TP_EXPOSURE_TCMODE_SATANDVALBLENDING;Mättnads- och värdeblandning
TP_EXPOSURE_TCMODE_STANDARD;Standard
TP_EXPOSURE_TCMODE_WEIGHTEDSTD;Viktad standard
TP_EXPOS_BLACKPOINT_LABEL;Svartpunkter, Raw
TP_EXPOS_WHITEPOINT_LABEL;Vitpunkter, Raw
TP_FILMSIMULATION_LABEL;Filmsimulering
TP_FILMSIMULATION_SLOWPARSEDIR;RawTherapee är konfigurerad för att leta efter Hald CLUT-bilder, som används för filmsimuleringsverktyget, i en katalog som tar för lång tid att ladda.\nGå till Inställningar > Bildbehandling > Filmsimulering\nför att se vilken katalog som används. Du bör antingen hänvisa till en katalog som enbart innehåller Hald CLUT-bilder, eller till en helt tom katalog om du inte vill använda filmsimuleringsverktyget alls.\n\nLäs artikeln på RawPedia för mer information.\n\nVill du avbryta genomsökningen nu?
TP_FILMSIMULATION_STRENGTH;Styrka
TP_FILMSIMULATION_ZEROCLUTSFOUND;Ange katalog för HaldCLUT i Inställningar
TP_FLATFIELD_AUTOSELECT;Autoval
TP_FLATFIELD_BLURRADIUS;Oskärperadie
TP_FLATFIELD_BLURTYPE;Oskärpetyp
TP_FLATFIELD_BT_AREA;Area
TP_FLATFIELD_BT_HORIZONTAL;Horisontell
TP_FLATFIELD_BT_VERTHORIZ;Vertikal + horisontell
TP_FLATFIELD_BT_VERTICAL;Vertikal
TP_FLATFIELD_LABEL;Plattfält
TP_GENERAL_11SCALE_TOOLTIP;Effekten från det här verktyget eller några av dess underkomponenter syns endast då de visas  i 1:1-skala eller högre
TP_GRADIENT_CENTER;Centrum
TP_GRADIENT_CENTER_X;Centrum, X
TP_GRADIENT_CENTER_X_TOOLTIP;Rotationspunkt, X:\n -100=vänstra kanten\n 0=centrum\n +100=högra kanten
TP_GRADIENT_CENTER_Y;Centrum, Y
TP_GRADIENT_CENTER_Y_TOOLTIP;Rotationspunkt, Y:\n -100=övre kanten\n 0=centrum\n +100=nedersta kanten
TP_GRADIENT_DEGREE;Vinkel
TP_GRADIENT_DEGREE_TOOLTIP;Rotationsvinkel i grader
TP_GRADIENT_FEATHER;Fjäder
TP_GRADIENT_FEATHER_TOOLTIP;Bredd på gradienten i procent av bilddiagonalen
TP_GRADIENT_LABEL;Graderat filter
TP_GRADIENT_STRENGTH;Styrka
TP_GRADIENT_STRENGTH_TOOLTIP;Filterstyrka i steg
TP_HLREC_BLEND;Smält samman
TP_HLREC_CIELAB;CIELab
TP_HLREC_COLOR;Färgspridning
TP_HLREC_ENA_TOOLTIP;Kan aktiveras av autonivåer
TP_HLREC_LABEL;Högdageråterställning
TP_HLREC_LUMINANCE;Bättring av luminans
TP_HLREC_METHOD;Metod:
TP_HSVEQUALIZER_CHANNEL;Kanal
TP_HSVEQUALIZER_HUE;Nyans
TP_HSVEQUALIZER_LABEL;HSV-equalizer
TP_HSVEQUALIZER_SAT;Mättnad
TP_HSVEQUALIZER_VAL;Värde
TP_ICM_APPLYBASELINEEXPOSUREOFFSET;Bas-exponering
TP_ICM_APPLYHUESATMAP;Bas-tabell
TP_ICM_APPLYLOOKTABLE_TOOLTIP;Tillämpa den inbäddade DCP:ns uppslagstabell. Inställningen är bara aktiv om den valda DCP har en sådan.
TP_ICM_BPC;Svartpunktskompensation
TP_ICM_DCPILLUMINANT;Ljuskälla
TP_ICM_DCPILLUMINANT_INTERPOLATED;Interpolerad ljuskälla
TP_ICM_DCPILLUMINANT_TOOLTIP;Välj vilken inbäddad DCP-ljuskälla som ska användas. Standard är "interpolerad" som är en blandning mellan de två baserad på vitbalans. Valet är endast aktiverat om en DCP från en dubbel ljuskälla med interpoleringsstöd är vald
TP_ICM_INPUTCAMERA;Standard för kameran
TP_ICM_INPUTCAMERAICC;Automatiskt vald kameraprofil
TP_ICM_INPUTCAMERAICC_TOOLTIP;Använd RawTherapees kameraspecifika DCP- eller ICC-färgprofiler. Dessa profiler är mer exakta än enkla matrisprofiler, men finns inte för alla kameror. Profilerna lagras i /iccprofiles/input- och i /dcpprofiles-katalogerna och hämtas automatiskt baserat på ett filnamn som exakt matchar kameramodellen.
TP_ICM_INPUTCAMERA_TOOLTIP;Använd enkel färgmatris från dcraw, förbättrad version från RawTherapee (oavsett vilken som är tillgänglig baserad på kameramodell) eller inbäddad från DNG.
TP_ICM_INPUTCUSTOM;Egen
TP_ICM_INPUTCUSTOM_TOOLTIP;Välj din egen DCP/ICC-profil för kameran.
TP_ICM_INPUTDLGLABEL;Välj färginmatningsprofil...
TP_ICM_INPUTEMBEDDED;Använd inbäddad, om möjligt
TP_ICM_INPUTEMBEDDED_TOOLTIP;Använd den färgprofil som är inbäddad i icke-råfiler.
TP_ICM_INPUTNONE;Ingen profil
TP_ICM_INPUTNONE_TOOLTIP;Använd ingen färginmatningsprofil alls. Används bara i specialfall.
TP_ICM_INPUTPROFILE;Inmatningsprofil
TP_ICM_LABEL;Färghantering
TP_ICM_NOICM;Ingen färghantering: sRGB-utmatning
TP_ICM_OUTPUTPROFILE;Utmatningsprofil
TP_ICM_SAVEREFERENCE_APPLYWB;Applicera witbalans
TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generellt sätt gäller att du ska applicera vitbalansen när du sparar bilder för att skapa ICC-profiler, men inte när du ska skapa DCP-profiler.
TP_ICM_SAVEREFERENCE_TOOLTIP;Spara den linjära TIFF-bilden innan inmatningsprofilen appliceras. Detta kan användas för kalibreringsändamål eller generering av en kameraprofil.
TP_ICM_TONECURVE;Använd DCP:s tonkurva
TP_ICM_TONECURVE_TOOLTIP;Aktivera för att använda tonkurvor som kan finnas i DCP-profilen.
TP_ICM_WORKINGPROFILE;Färgrymd
TP_IMPULSEDENOISE_LABEL;Brusreducering mha av stegsvar
TP_IMPULSEDENOISE_THRESH;Tröskelvärde
TP_LABCURVE_BRIGHTNESS;Ljushet
TP_LABCURVE_CHROMATICITY;Kroma
TP_LABCURVE_CHROMA_TOOLTIP;För att åstadkomma en S/V-toning, sätt Kroma till -100
TP_LABCURVE_CONTRAST;Kontrast
TP_LABCURVE_CURVEEDITOR;Luminanskurva
TP_LABCURVE_CURVEEDITOR_A_RANGE1;Grön mättad
TP_LABCURVE_CURVEEDITOR_A_RANGE2;Grön pastell
TP_LABCURVE_CURVEEDITOR_A_RANGE3;Röd pastell
TP_LABCURVE_CURVEEDITOR_A_RANGE4;Röd mättad
TP_LABCURVE_CURVEEDITOR_B_RANGE1;Blå mättad
TP_LABCURVE_CURVEEDITOR_B_RANGE2;Blå pastell
TP_LABCURVE_CURVEEDITOR_B_RANGE3;Gul pastell
TP_LABCURVE_CURVEEDITOR_B_RANGE4;Gul mättad
TP_LABCURVE_CURVEEDITOR_CC;CC
TP_LABCURVE_CURVEEDITOR_CC_RANGE1;Neutral
TP_LABCURVE_CURVEEDITOR_CC_RANGE2;Svag
TP_LABCURVE_CURVEEDITOR_CC_RANGE3;Pastell
TP_LABCURVE_CURVEEDITOR_CC_RANGE4;Mättad
TP_LABCURVE_CURVEEDITOR_CC_TOOLTIP;Kroma enligt kroma C=f(C)
TP_LABCURVE_CURVEEDITOR_CH;CH
TP_LABCURVE_CURVEEDITOR_CH_TOOLTIP;Kroma enligt nyans C=f(H)
TP_LABCURVE_CURVEEDITOR_CL;CL
TP_LABCURVE_CURVEEDITOR_CL_TOOLTIP;Kroma enligt luminans C=f(L)
TP_LABCURVE_CURVEEDITOR_HH;HH
TP_LABCURVE_CURVEEDITOR_HH_TOOLTIP;Nyans enligt nyans H=f(H)
TP_LABCURVE_CURVEEDITOR_LC;LC
TP_LABCURVE_CURVEEDITOR_LC_TOOLTIP;Luminans enligt kroma L=f(C)
TP_LABCURVE_CURVEEDITOR_LH;LH
TP_LABCURVE_CURVEEDITOR_LH_TOOLTIP;Luminans enligt nyans L=f(H)
TP_LABCURVE_CURVEEDITOR_LL_TOOLTIP;Luminans enligt luminans L=f(L)
TP_LABCURVE_LABEL;Labjusteringar
TP_LABCURVE_LCREDSK;Begränsa LC till röda färger och hudtoner
TP_LABCURVE_LCREDSK_TOOLTIP;Om aktiverad så påverkar LC-kurvan enbart röda färger och hudtoner.\nOm ej aktiverad så appliceras den till alla färger och toner.
TP_LABCURVE_RSTPROTECTION;Skydda röda färger och hudtoner
TP_LABCURVE_RSTPRO_TOOLTIP;Kan användas med kromareglaget och CC-kurvan
TP_LENSGEOM_AUTOCROP;Autobeskärning
TP_LENSGEOM_FILL;Fyll automatiskt
TP_LENSGEOM_LABEL;Geometrisk- och distorsionskorrigering
TP_LENSPROFILE_LABEL;Objektivkorrigeringsprofil
TP_NEUTRAL;Återställ
TP_NEUTRAL_TOOLTIP;Återställ exponeringsreglagen till neutrala värden.\nGäller för samma reglage som autonivåer, oavsett om du använder autonivåer eller ej
TP_PCVIGNETTE_FEATHER;Fjäder
TP_PCVIGNETTE_FEATHER_TOOLTIP;Fjäder: 0=enbart kanter, 50=halvvägs till mitten, 100=i mitten
TP_PCVIGNETTE_LABEL;Vinjetteringsfilter
TP_PCVIGNETTE_ROUNDNESS;Rundhet
TP_PCVIGNETTE_ROUNDNESS_TOOLTIP;Rundhet: 0=rektangel, 50=passad ellips, 100=cirkel
TP_PCVIGNETTE_STRENGTH;Styrka
TP_PCVIGNETTE_STRENGTH_TOOLTIP;Filterstyrka i steg (som nått till kanterna)
TP_PERSPECTIVE_HORIZONTAL;Horisontell
TP_PERSPECTIVE_LABEL;Perspektiv
TP_PERSPECTIVE_VERTICAL;Vertikal
TP_PFCURVE_CURVEEDITOR_CH;Nyans
TP_PFCURVE_CURVEEDITOR_CH_TOOLTIP;Kontrollerar överstrålning efter färg. Högre = mer, lägre = mindre.
TP_PREPROCESS_DEADPIXFILT;Filter för döda pixlar
TP_PREPROCESS_DEADPIXFILT_TOOLTIP;Försöker att undertrycka döda pixlar.
TP_PREPROCESS_GREENEQUIL;Grönbalansering
TP_PREPROCESS_HOTPIXFILT;Filter för heta pixlar
TP_PREPROCESS_HOTPIXFILT_TOOLTIP;Försöker att undertrycka heta pixlar.
TP_PREPROCESS_LABEL;Förbehandling
TP_PREPROCESS_LINEDENOISE;Linjärt brusfilter
TP_PREPROCESS_NO_FOUND;Inga hittade
TP_PRSHARPENING_LABEL;Skärpning efter storleksförändring
TP_PRSHARPENING_TOOLTIP;Skärper bilden efter att den storleksförändrats. Fungerar endast när "Lanczos" är valt som storleksändringsmetod. Det är omöjligt att förhandsgranska denna effekt. Se på RawPedia-sidan hur du ska använda verktyget.
TP_RAWCACORR_AUTO;Reducera automatiskt kromatiska abberationer
TP_RAWCACORR_CABLUE;Blå
TP_RAWCACORR_CARED;Röd
TP_RAWCACORR_LABEL;Reducera kromatiska abberationer
TP_RAWEXPOS_BLACK_0;Grön 1 (ledare)
TP_RAWEXPOS_BLACK_1;Röd
TP_RAWEXPOS_BLACK_2;Blå
TP_RAWEXPOS_BLACK_3;Grön 2
TP_RAWEXPOS_BLACK_BLUE;Blå
TP_RAWEXPOS_BLACK_GREEN;Grön
TP_RAWEXPOS_BLACK_RED;Röd
TP_RAWEXPOS_LINEAR;Vitpunktskorrigering
TP_RAWEXPOS_RGB;Röd, grön, blå
TP_RAWEXPOS_TWOGREEN;Två gröna tillsammans
TP_RAW_DCBENHANCE;DCB-förbättringssteg
TP_RAW_DCBITERATIONS;Antal DCB-iterationer
TP_RAW_DMETHOD;Metod
TP_RAW_DMETHOD_PROGRESSBAR;%1 demosaicing...
TP_RAW_DMETHOD_PROGRESSBAR_REFINE;Förfining av demosaicing...
TP_RAW_DMETHOD_TOOLTIP;Notera: IGV och LMMSE är avsedda för bilder där mycket brus förekommer.
TP_RAW_FALSECOLOR;Falskt färgbortträngningssteg
TP_RAW_HD;Tröskel
TP_RAW_HD_TOOLTIP;Lägre värden kommer göra het/dödpixelupptäckning mer aggressiv, men fler skenträffar leder också till fler artefakter. Om du noterar artefakter när du använder detta verktg, så minska tröskelvärdet till dess att de försvinner.
TP_RAW_LABEL;Demosaicing
TP_RAW_LMMSEITERATIONS;LMMSE förbättringssteg
TP_RAW_LMMSE_TOOLTIP;Adderar gamma (steg 1) - adderar median (steg 2,3 och 4), slutligen adderas ett förfiningssteg (steg 5 och 6) för att reducera artefakter och för att förbättra signal/brusförhållandet.
TP_RAW_SENSOR_BAYER_LABEL;Sensor med Bayer-matris
TP_RAW_SENSOR_XTRANS_DMETHOD_TOOLTIP;3-pass ger bäst resultat (rekommenderas för bilder tagna med ett lågt ISO-tal).\n1-pass är nästintill ej urskiljbart från 3-pass för bilder tagna på högre ISO-värden, och är dessutom snabbare.
TP_RAW_SENSOR_XTRANS_LABEL;Sensor med X-Transteknik
TP_RESIZE_APPLIESTO;Tillämpas på:
TP_RESIZE_CROPPEDAREA;Beskuren yta
TP_RESIZE_FITBOX;Begränsad yta
TP_RESIZE_FULLIMAGE;Hela bilden
TP_RESIZE_H;H:
TP_RESIZE_HEIGHT;Höjd
TP_RESIZE_LABEL;Ändra storlek
TP_RESIZE_LANCZOS;Lanczos
TP_RESIZE_METHOD;Metod:
TP_RESIZE_NEAREST;Närmast
TP_RESIZE_SCALE;Skala
TP_RESIZE_SPECIFY;Specificera:
TP_RESIZE_W;B:
TP_RESIZE_WIDTH;Bredd
TP_RETINEX_CONTEDIT_HSL;Histogramequalizer HSL
TP_RETINEX_CONTEDIT_LAB;Histogramequalizer L*a*b*
TP_RETINEX_CONTEDIT_LH;Nyans-equalizer
TP_RETINEX_CURVEEDITOR_CD;L=f(L)
TP_RETINEX_CURVEEDITOR_LH;Styrka=f(H)
TP_RETINEX_CURVEEDITOR_LH_TOOLTIP;Styrka enligt nyans Styrkan=f(H)\nDen här kurvan agerar även på kroma när "Högdager"-metoden används i retinex
TP_RETINEX_CURVEEDITOR_MAP;L=f(L)
TP_RETINEX_EQUAL;Equalizer
TP_RETINEX_FREEGAMMA;Fri gamma
TP_RETINEX_GAIN;Ökning
TP_RETINEX_GAINOFFS;Ökning och kompensation (ljushet)
TP_RETINEX_GAINTRANSMISSION;Transmissionsökning
TP_RETINEX_GAMMA;Gamma
TP_RETINEX_GAMMA_FREE;Fri
TP_RETINEX_GAMMA_HIGH;Hög
TP_RETINEX_GAMMA_LOW;Låg
TP_RETINEX_GAMMA_MID;Mellan
TP_RETINEX_GAMMA_NONE;Ingen
TP_RETINEX_GRAD;Överföringsgradient
TP_RETINEX_GRADS;Styrkegradient
TP_RETINEX_GRADS_TOOLTIP;Om reglaget är på 0 så kommer alla iterationer att vara lika.\nOm > 0 så kommer styrkan att reduceras i takt med att iterationerna ökar och omvänt.
TP_RETINEX_GRAD_TOOLTIP;Om reglaget är på 0 så kommer alla iterationer att vara lika.\nOm > 0 så kommer variansen och tröskelvärdet att reduceras i takt med att iterationerna ökar och omvänt.
TP_RETINEX_HIGH;Hög
TP_RETINEX_HIGHLIG;Högdagrar
TP_RETINEX_HIGHLIGHT;Tröskelvärde för högdagrar
TP_RETINEX_HSLSPACE_LIN;HSL-linjär
TP_RETINEX_HSLSPACE_LOG;HSL-logaritmisk
TP_RETINEX_ITER;Iterationer (Tone-mapping)
TP_RETINEX_ITERF;Tone-mapping
TP_RETINEX_ITER_TOOLTIP;Simulera en tone-mappingoperator.\nHöga värden ökar processtiden.
TP_RETINEX_LABEL;Retinex
TP_RETINEX_LABSPACE;L*a*b*
TP_RETINEX_LOW;Låg
TP_RETINEX_MAP_NONE;Ingen
TP_RETINEX_METHOD;Metod
TP_RETINEX_NEIGHBOR;Radie
TP_RETINEX_NEUTRAL;Återställ
TP_RETINEX_NEUTRAL_TOOLTIP;Återställer alla reglage och kurvor till sina ursprungliga värden.
TP_RETINEX_OFFSET;Kompensation (ljushet)
TP_RETINEX_SCALES;Gaussisk gradient
TP_RETINEX_SCALES_TOOLTIP;Om reglaget är på 0 så kommer alla iterationer att vara lika.\nOm > 0 så kommer skalan och radien reduceras när iterationerna ökar och omvänt.
TP_RETINEX_SETTINGS;Inställningar
TP_RETINEX_SKAL;Sakal
TP_RETINEX_SLOPE;Lutning, fri gamma
TP_RETINEX_STRENGTH;Styrka
TP_RETINEX_THRESHOLD;Tröskelvärde
TP_RETINEX_TLABEL;TM Min=%1 Max=%2 Medel=%3 Sigma=%4
TP_RETINEX_TLABEL2;TM Tm=%1 TM=%2
TP_RETINEX_TRANF;Överföring
TP_RETINEX_UNIFORM;Uniform
TP_RETINEX_VARIANCE;Kontrast
TP_RETINEX_VARIANCE_TOOLTIP;Låga variationer ökar lokal kontrast och mättnad men kan leda till artefakter.
TP_RETINEX_VIEW;Process
TP_RETINEX_VIEW_NONE;Standard
TP_RETINEX_VIEW_TRAN;Överföring - Auto
TP_RETINEX_VIEW_TRAN2;Överföring - Fixerad
TP_RETINEX_VIEW_UNSHARP;Oskarp mask
TP_RGBCURVES_BLUE;B
TP_RGBCURVES_CHANNEL;Kanal
TP_RGBCURVES_GREEN;G
TP_RGBCURVES_LABEL;RGB-kurvor
TP_RGBCURVES_LUMAMODE;Luminansläge
TP_RGBCURVES_LUMAMODE_TOOLTIP;<b>Luminansläget</b> tillåter att bidraget från R-, G- och B-kanalerna varierar för bildens luminans utan att ändra färgerna
TP_RGBCURVES_RED;R
TP_ROTATE_DEGREE;Grader
TP_ROTATE_LABEL;Rotera
TP_ROTATE_SELECTLINE;Välj rak linje
TP_SAVEDIALOG_OK_TOOLTIP;Kortkommando: <b>Ctrl-Enter</b>
TP_SHADOWSHLIGHTS_HIGHLIGHTS;Högdager
TP_SHADOWSHLIGHTS_HLTONALW;Tonvidd (Högdagrar)
TP_SHADOWSHLIGHTS_LABEL;Skugg- och högdageråterställning
TP_SHADOWSHLIGHTS_RADIUS;Radie
TP_SHADOWSHLIGHTS_SHADOWS;Skuggor
TP_SHADOWSHLIGHTS_SHTONALW;Tonvidd (Skuggor)
TP_SHARPENEDGE_AMOUNT;Mängd
TP_SHARPENEDGE_LABEL;Kanter
TP_SHARPENEDGE_PASSES;Iterationer
TP_SHARPENEDGE_THREE;Endast luminans
TP_SHARPENING_AMOUNT;Mängd
TP_SHARPENING_EDRADIUS;Radie
TP_SHARPENING_EDTOLERANCE;Kanttolerans
TP_SHARPENING_HALOCONTROL;Halo-kontroll
TP_SHARPENING_HCAMOUNT;Mängd
TP_SHARPENING_LABEL;Skärpa
TP_SHARPENING_METHOD;Metod
TP_SHARPENING_ONLYEDGES;Skärp bara kanter
TP_SHARPENING_RADIUS;Radie
TP_SHARPENING_RLD;RL-dekonvolution
TP_SHARPENING_RLD_AMOUNT;Mängd
TP_SHARPENING_RLD_DAMPING;Dämpning
TP_SHARPENING_RLD_ITERATIONS;Upprepningar
TP_SHARPENING_THRESHOLD;Tröskelvärde
TP_SHARPENING_USM;Oskarp mask
TP_SHARPENMICRO_AMOUNT;Mängd
TP_SHARPENMICRO_LABEL;Mikrokontrast
TP_SHARPENMICRO_MATRIX;3×3-matris istället för 5×5
TP_SHARPENMICRO_UNIFORMITY;Enhetlighet
TP_VIBRANCE_AVOIDCOLORSHIFT;Undivk färgskiftningar
TP_VIBRANCE_CURVEEDITOR_SKINTONES;HH
TP_VIBRANCE_CURVEEDITOR_SKINTONES_LABEL;Hudtoner
TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE1;Röd/Lila
TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE2;Röd
TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE3;Röd/Gul
TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE4;Gul
TP_VIBRANCE_CURVEEDITOR_SKINTONES_TOOLTIP;Nyans enligt nyans
TP_VIBRANCE_LABEL;Lyster
TP_VIBRANCE_PASTELS;Pastellfärger
TP_VIBRANCE_PASTSATTOG;Koppla pastell- och mättade toner
TP_VIBRANCE_PROTECTSKINS;Skydda hudfärger
TP_VIBRANCE_PSTHRESHOLD;Tröskelvärde för pastell- eller mättade toner
TP_VIBRANCE_PSTHRESHOLD_SATTHRESH;Tröskelvärde för mättnaden
TP_VIBRANCE_PSTHRESHOLD_TOOLTIP;Den vertikala axeln representerar pastelltoner vid nederkanten och mättade toner vid överkanten.\nDen horisontella axeln representerar mättnadens omfattning.
TP_VIBRANCE_PSTHRESHOLD_WEIGTHING;Viktning av pastell- eller mättade övergångar
TP_VIBRANCE_SATURATED;Mättade färger
TP_VIGNETTING_AMOUNT;Mängd
TP_VIGNETTING_CENTER;Centrum
TP_VIGNETTING_CENTER_X;Centrum X
TP_VIGNETTING_CENTER_Y;Centrum Y
TP_VIGNETTING_LABEL;Vinjetteringskorrigering
TP_VIGNETTING_RADIUS;Radie
TP_VIGNETTING_STRENGTH;Styrka
TP_WAVELET_1;Nivå 1
TP_WAVELET_2;Nivå 2
TP_WAVELET_3;Nivå 3
TP_WAVELET_4;Nivå 4
TP_WAVELET_5;Nivå 5
TP_WAVELET_6;Nivå 6
TP_WAVELET_7;Nivå 7
TP_WAVELET_8;Nivå 8
TP_WAVELET_9;Nivå 9
TP_WAVELET_APPLYTO;Applicera på
TP_WAVELET_AVOID;Undvik färgskiftningar
TP_WAVELET_B0;Svart
TP_WAVELET_B1;Grått
TP_WAVELET_B2;Återstod
TP_WAVELET_BACKGROUND;Bakgrund
TP_WAVELET_BACUR;Kurva
TP_WAVELET_BALANCE;Kontrast-balans d/v-h
TP_WAVELET_BALANCE_TOOLTIP;Ändrar balansen mellan riktningen för waveleten: vertikal-horisontell och diagonalt.\nOm kontrast-, kroma eller återstodstonmappning är aktiverad, förstärks effekten tack vare balansens värde.
TP_WAVELET_BALCHRO;Kroma-balans
TP_WAVELET_BALCHRO_TOOLTIP;Om aktiverad så ändras kromabalansen av kontrastbalansens kurva eller reglage.
TP_WAVELET_BANONE;Ingen
TP_WAVELET_BASLI;Reglage
TP_WAVELET_BATYPE;Kontrast-balans-metod
TP_WAVELET_CCURVE;Lokal kontrast
TP_WAVELET_CH1;Hela kromaomfånget
TP_WAVELET_CH2;Mättad/pastell
TP_WAVELET_CH3;Koppla kontrastnivåer
TP_WAVELET_CHCU;Kurva
TP_WAVELET_CHR;Styrkan i kopplingen mellan kroma och kontrast
TP_WAVELET_CHRO;Mättad/pastell - tröskelvärde
TP_WAVELET_CHSL;Reglage
TP_WAVELET_CHTYPE;Krominans-metod
TP_WAVELET_COLORT;Opacitet rött-grönt
TP_WAVELET_COMPCONT;Kontrast
TP_WAVELET_COMPGAMMA;Komprimering av gamma
TP_WAVELET_COMPGAMMA_TOOLTIP;Justering av gammat i den återstående bilden låter dig jämna ut datat och histogrammet.
TP_WAVELET_COMPTM;Tone-mapping
TP_WAVELET_CONTEDIT;'Efter' kontrastkurvan
TP_WAVELET_CONTR;Tonomfång
TP_WAVELET_CONTRA;Kontrast
TP_WAVELET_CONTRAST_MINUS;Kontrast -
TP_WAVELET_CONTRAST_PLUS;Kontrast +
TP_WAVELET_CONTRA_TOOLTIP;Ändrar kontrast i den återstående bilden.
TP_WAVELET_CTYPE;Kontroll av krominans
TP_WAVELET_CURVEEDITOR_CH;Kontrastnivåer=f(Nyans)
TP_WAVELET_CURVEEDITOR_CL;L
TP_WAVELET_CURVEEDITOR_CL_TOOLTIP;Applicerar en kontrastbaserad luminanskurva vid slitet av waveletbehandlingen.
TP_WAVELET_CURVEEDITOR_HH;HH
TP_WAVELET_CURVEEDITOR_HH_TOOLTIP;Ändrar den återstående bildens nyans som en funktion av nyansen.
TP_WAVELET_DALL;Alla riktningar
TP_WAVELET_DAUB;Kantprestanda
TP_WAVELET_DAUB2;D2 - låg
TP_WAVELET_DAUB4;D4 - standard
TP_WAVELET_DAUB6;D6 - standard plus
TP_WAVELET_DAUB10;D10 - medium
TP_WAVELET_DAUB14;D14 - hög
TP_WAVELET_DONE;Vertikal
TP_WAVELET_DTHR;Diagonal
TP_WAVELET_DTWO;Horisontell
TP_WAVELET_EDCU;Kurva
TP_WAVELET_EDGCONT;Lokal kontrast
TP_WAVELET_EDGE;Kantskärpa
TP_WAVELET_EDGEAMPLI;Basförstärkning
TP_WAVELET_EDGEDETECT;Känslighet för gradient
TP_WAVELET_EDGEDETECTTHR_TOOLTIP;Det här reglaget siktar in sig på kantdetektering, t ex för att undvika att kantskärpning appliceras på fina detaljer så som brus i himlen.
TP_WAVELET_EDGEDETECT_TOOLTIP;Att flytta reglaget till höger ökar kantkänsligheten. Detta påverkar den lokala kontrasten, kantinställningarna och bruset.
TP_WAVELET_EDGESENSI;Kantkänslighet
TP_WAVELET_EDGTHRESH;Detalj
TP_WAVELET_EDRAD;Radie
TP_WAVELET_EDSL;Tröskelreglage
TP_WAVELET_EDTYPE;Lokal kontrast-metod
TP_WAVELET_EDVAL;Styrka
TP_WAVELET_FINAL;Slutlig förbättring
TP_WAVELET_FINEST;Finast
TP_WAVELET_HS2;Skuggor/Högdagrar
TP_WAVELET_HUESKIN;Hudnyans
TP_WAVELET_HUESKY;Himmelsnyans
TP_WAVELET_LABEL;Wavelet-nivåer
TP_WAVELET_LARGEST;Grövst
TP_WAVELET_LEVCH;Kroma
TP_WAVELET_LEVDIR_ALL;Alla nivåer i en riktning
TP_WAVELET_LEVDIR_INF;Under eller lika med nivån
TP_WAVELET_LEVDIR_ONE;En nivå
TP_WAVELET_LEVDIR_SUP;Över nivån
TP_WAVELET_LEVELS;Waveletnivåer
TP_WAVELET_LEVF;Kontrast
TP_WAVELET_LEVONE;Nivå 2
TP_WAVELET_LEVTHRE;Nivå 4
TP_WAVELET_LEVTWO;Nivå 3
TP_WAVELET_LEVZERO;Nivå 1
TP_WAVELET_LIPST;Förbättrad algoritm
TP_WAVELET_MEDGREINF;Första nivån
TP_WAVELET_MEDI;Reducera artefakter i blå himmel
TP_WAVELET_MEDILEV;Kantdetektering
TP_WAVELET_NEUTRAL;Neutral
TP_WAVELET_NOIS;Brusreducering
TP_WAVELET_NOISE;Brusreducera och förfina
TP_WAVELET_NPHIGH;Hög
TP_WAVELET_NPLOW;Låg
TP_WAVELET_NPNONE;Ingen
TP_WAVELET_NPTYPE;Angränsande pixlar
TP_WAVELET_OPACITYWL;Slutlig lokal kontrast
TP_WAVELET_PROC;Process
TP_WAVELET_RE1;Förstärkt
TP_WAVELET_RE2;Oförändrad
TP_WAVELET_RE3;Reducerad
TP_WAVELET_RESCHRO;Kroma
TP_WAVELET_RESCON;Skuggor
TP_WAVELET_RESCONH;Högdagrar
TP_WAVELET_RESID;Återstod bild
TP_WAVELET_SAT;Mättad kroma
TP_WAVELET_SETTINGS;Wavelet-inställningar
TP_WAVELET_STREN;Styrka
TP_WAVELET_STRENGTH;Styrka
TP_WAVELET_SUPE;Extra
TP_WAVELET_THR;Skuggtröskel
TP_WAVELET_THRESHOLD;Högdagernivåer
TP_WAVELET_THRESHOLD2;Skuggnivåer
TP_WAVELET_THRH;Högdagertröskel
TP_WAVELET_TILESBIG;Stora tiles
TP_WAVELET_TILESFULL;Hela bilden
TP_WAVELET_TILESIZE;Metod för tiling
TP_WAVELET_TMSTRENGTH;Komprimeringsstyrka
TP_WAVELET_TMTYPE;Komprimeringsmetod
TP_WBALANCE_AUTO;Auto
TP_WBALANCE_CAMERA;Kamera
TP_WBALANCE_CLOUDY;Molnigt
TP_WBALANCE_CUSTOM;Egen
TP_WBALANCE_DAYLIGHT;Dagsljus (soligt)
TP_WBALANCE_EQBLUERED;Blå/Röd equalizer
TP_WBALANCE_EQBLUERED_TOOLTIP;Tillåt att avvika från det normala beteendet för vitbalansen genom att modulera balansen mellan blått och rött.\nDet här kan vara användbart när förhållandena då bilden togs:\na) är långtifrån standardilluminansen (t. ex. under vattnet)\nb) är långt ifrån de förhållanden då kalibreringen gjordes\nc) där matriserna eller färgprofilerna ej är passande
TP_WBALANCE_FLASH55;Leica
TP_WBALANCE_FLASH60;Standard, Canon, Pentax, Olympus
TP_WBALANCE_FLASH65;Nikon, Panasonic, Sony, Minolta
TP_WBALANCE_FLASH_HEADER;Blixt
TP_WBALANCE_FLUO1;F1 - Dagsljus
TP_WBALANCE_FLUO2;F2 - Vit, kall
TP_WBALANCE_FLUO3;F3 - Vit
TP_WBALANCE_FLUO4;F4 - Vit, varm
TP_WBALANCE_FLUO5;F5 - Dagsljus
TP_WBALANCE_FLUO6;F6 - Vitt, ljus
TP_WBALANCE_FLUO7;F7 - D65 Dagsljussimulerat
TP_WBALANCE_FLUO8;F8 - D50 / Sylvania F40 Design
TP_WBALANCE_FLUO9;F9 - Vit, kall deluve
TP_WBALANCE_FLUO10;F10 - Philips TL85
TP_WBALANCE_FLUO11;F11 - Philips TL84
TP_WBALANCE_FLUO12;F12 - Philips TL83
TP_WBALANCE_FLUO_HEADER;Lysrör
TP_WBALANCE_GREEN;Färgton
TP_WBALANCE_GTI;GTI
TP_WBALANCE_HMI;HMI
TP_WBALANCE_JUDGEIII;JudgeIII
TP_WBALANCE_LABEL;Vitbalans
TP_WBALANCE_LAMP_HEADER;Lampa
TP_WBALANCE_LED_CRS;CRS SP12 WWMR16
TP_WBALANCE_LED_HEADER;LED
TP_WBALANCE_LED_LSI;LSI Lumelex 2040
TP_WBALANCE_METHOD;Metod
TP_WBALANCE_SHADE;Skugga
TP_WBALANCE_SIZE;Storlek:
TP_WBALANCE_SOLUX35;Solux 3500K
TP_WBALANCE_SOLUX41;Solux 4100K
TP_WBALANCE_SOLUX47;Solux 4700K (tillverkare)
TP_WBALANCE_SOLUX47_NG;Solux 4700K (Nat. Gallery)
TP_WBALANCE_SPOTWB;Punktmätning av vitbalansen
TP_WBALANCE_TEMPERATURE;Temperatur
TP_WBALANCE_TUNGSTEN;Glödlampa
TP_WBALANCE_WATER1;Under vattnet 1
TP_WBALANCE_WATER2;Under vattnet 2
TP_WBALANCE_WATER_HEADER;Under vattnet
ZOOMPANEL_100;(100%)
ZOOMPANEL_NEWCROPWINDOW;Öppna (nytt) detaljfönster.
ZOOMPANEL_ZOOM100;Förstora till 100%.\nKortkommando: <b>z</b>
ZOOMPANEL_ZOOMFITCROPSCREEN;Anpassa beskärningen till skärmen\nKortkommando: <b>f</b>
ZOOMPANEL_ZOOMFITSCREEN;Passa till skärmen.\nKortkommando: <b>Alt</b>-<b>f</b>
ZOOMPANEL_ZOOMIN;Förstora.\nKortkommando: <b>+</b>
ZOOMPANEL_ZOOMOUT;Förminska.\nKortkommando: <b>-</b>

!!!!!!!!!!!!!!!!!!!!!!!!!
! Untranslated keys follow; remove the ! prefix after an entry is translated.
!!!!!!!!!!!!!!!!!!!!!!!!!

!ADJUSTER_RESET_TO_DEFAULT;<b>Click</b> - reset to default value.\n<b>Ctrl</b>+<b>click</b> - reset to initial value.
!CURVEEDITOR_AXIS_LEFT_TAN;LT:
!CURVEEDITOR_AXIS_RIGHT_TAN;RT:
!CURVEEDITOR_CATMULLROM;Flexible
!CURVEEDITOR_EDITPOINT_HINT;Enable edition of node in/out values.\n\nRight-click on a node to select it.\nRight-click on empty space to de-select the node.
!DONT_SHOW_AGAIN;Don't show this message again.
!DYNPROFILEEDITOR_DELETE;Delete
!DYNPROFILEEDITOR_EDIT;Edit
!DYNPROFILEEDITOR_EDIT_RULE;Edit Dynamic Profile Rule
!DYNPROFILEEDITOR_ENTRY_TOOLTIP;The matching is case insensitive.\nUse the 're:' prefix to enter\na regular expression.
!DYNPROFILEEDITOR_IMGTYPE_ANY;Any
!DYNPROFILEEDITOR_IMGTYPE_HDR;HDR
!DYNPROFILEEDITOR_IMGTYPE_PS;Pixel Shift
!DYNPROFILEEDITOR_IMGTYPE_STD;Standard
!DYNPROFILEEDITOR_MOVE_DOWN;Move Down
!DYNPROFILEEDITOR_MOVE_UP;Move Up
!DYNPROFILEEDITOR_NEW;New
!DYNPROFILEEDITOR_NEW_RULE;New Dynamic Profile Rule
!DYNPROFILEEDITOR_PROFILE;Processing Profile
!ERROR_MSG_METADATA_VALUE;Metadata: error setting %1 to %2
!EXIFFILTER_IMAGETYPE;Image type
!EXIFFILTER_PATH;File path
!EXIFPANEL_ACTIVATE_ALL_HINT;Select all tags
!EXIFPANEL_ACTIVATE_NONE_HINT;Unselect all tags
!EXIFPANEL_BASIC_GROUP;Basic
!EXIFPANEL_VALUE_NOT_SHOWN;Not shown
!EXPORT_BYPASS;Processing steps to bypass
!EXPORT_PIPELINE;Processing pipeline
!EXPORT_USE_FAST_PIPELINE;Dedicated (full processing on resized image)
!EXPORT_USE_FAST_PIPELINE_TOOLTIP;Use a dedicated processing pipeline for images in Fast Export mode, that trades speed for quality. Resizing of the image is done as early as possible, instead of doing it at the end like in the normal pipeline. The speedup can be significant, but be prepared to see artifacts and a general degradation of output quality.
!EXPORT_USE_NORMAL_PIPELINE;Standard (bypass some steps, resize at the end)
!FILEBROWSER_BROWSEPATHBUTTONHINT;Click to open specified path, reload folder and apply 'find' keywords.
!FILEBROWSER_CACHECLEARFROMFULL;Clear all including cached profiles
!FILEBROWSER_CACHECLEARFROMPARTIAL;Clear all except cached profiles
!FILEBROWSER_DELETEDIALOG_ALL;Are you sure you want to <b>permanently</b> delete all <b>%1</b> files in trash?
!FILEBROWSER_DELETEDIALOG_SELECTED;Are you sure you want to <b>permanently</b> delete the selected <b>%1</b> files?
!FILEBROWSER_DELETEDIALOG_SELECTEDINCLPROC;Are you sure you want to <b>permanently</b> delete the selected <b>%1</b> files, <b>including</b> a queue-processed version?
!FILEBROWSER_EMPTYTRASHHINT;<b>Permanently</b> delete all files in trash.
!FILEBROWSER_POPUPINSPECT;Inspect
!FILEBROWSER_POPUPREMOVE;Delete permanently
!FILEBROWSER_POPUPREMOVEINCLPROC;Delete permanently, including queue-processed version
!FILEBROWSER_POPUPSORTBY;Sort Files
!FILEBROWSER_RESETDEFAULTPROFILE;Reset to default
!FILEBROWSER_SHOWNOTTRASHHINT;Show only images not in trash.
!FILEBROWSER_SHOWRECURSIVE;Show images in sub-folders recursively.
!FILECHOOSER_FILTER_EXECUTABLE;Executable files
!GENERAL_CURRENT;Current
!GENERAL_DELETE_ALL;Delete all
!GENERAL_EDIT;Edit
!GENERAL_HELP;Help
!GENERAL_OTHER;Other
!GENERAL_RESET;Reset
!GENERAL_SAVE_AS;Save as...
!GENERAL_SLIDER;Slider
!GIMP_PLUGIN_INFO;Welcome to the RawTherapee GIMP plugin!\nOnce you are done editing, simply close the main RawTherapee window and the image will be automatically imported in GIMP.
!HISTOGRAM_TOOLTIP_CROSSHAIR;Show/Hide indicator crosshair.
!HISTOGRAM_TOOLTIP_MODE;Toggle between linear, log-linear and log-log scaling of the histogram.
!HISTOGRAM_TOOLTIP_SHOW_OPTIONS;Toggle visibility of the scope option buttons.
!HISTOGRAM_TOOLTIP_TRACE_BRIGHTNESS;Adjust scope brightness.
!HISTOGRAM_TOOLTIP_TYPE_HISTOGRAM;Histogram
!HISTOGRAM_TOOLTIP_TYPE_HISTOGRAM_RAW;Raw Histogram
!HISTOGRAM_TOOLTIP_TYPE_PARADE;RGB Parade
!HISTOGRAM_TOOLTIP_TYPE_VECTORSCOPE_HC;Hue-Chroma Vectorscope
!HISTOGRAM_TOOLTIP_TYPE_VECTORSCOPE_HS;Hue-Saturation Vectorscope
!HISTOGRAM_TOOLTIP_TYPE_WAVEFORM;Waveform
!HISTORY_MSG_173;NR - Detail recovery
!HISTORY_MSG_203;NR - Color space
!HISTORY_MSG_235;B&amp;W - CM - Auto
!HISTORY_MSG_237;B&amp;W - CM
!HISTORY_MSG_256;NR - Median - Type
!HISTORY_MSG_257;Color Toning
!HISTORY_MSG_273;CT - Color Balance SMH
!HISTORY_MSG_288;Flat-Field - Clip control
!HISTORY_MSG_289;Flat-Field - Clip control - Auto
!HISTORY_MSG_297;NR - Mode
!HISTORY_MSG_310;W - Residual - Sky tar/prot
!HISTORY_MSG_313;W - Chroma - Sat/past
!HISTORY_MSG_316;W - Gamut - Skin tar/prot
!HISTORY_MSG_329;W - Toning - Opacity RG
!HISTORY_MSG_330;W - Toning - Opacity BY
!HISTORY_MSG_344;W - Meth chroma sl/cur
!HISTORY_MSG_353;W - ES - Gradient sensitivity
!HISTORY_MSG_392;W - Residual - Color balance
!HISTORY_MSG_393;DCP - Look table
!HISTORY_MSG_396;W - Contrast sub-tool
!HISTORY_MSG_397;W - Chroma sub-tool
!HISTORY_MSG_398;W - ES sub-tool
!HISTORY_MSG_399;W - Residual sub-tool
!HISTORY_MSG_400;W - Final sub-tool
!HISTORY_MSG_401;W - Toning sub-tool
!HISTORY_MSG_402;W - Denoise sub-tool
!HISTORY_MSG_406;W - ES - Neighboring pixels
!HISTORY_MSG_412;Retinex - Gaussian gradient
!HISTORY_MSG_425;--unused--
!HISTORY_MSG_427;Output rendering intent
!HISTORY_MSG_428;Monitor rendering intent
!HISTORY_MSG_444;WB - Temp bias
!HISTORY_MSG_445;Raw Sub-Image
!HISTORY_MSG_446;--unused--
!HISTORY_MSG_447;--unused--
!HISTORY_MSG_448;--unused--
!HISTORY_MSG_449;PS ISO adaption
!HISTORY_MSG_450;--unused--
!HISTORY_MSG_451;--unused--
!HISTORY_MSG_452;PS Show motion
!HISTORY_MSG_453;PS Show mask only
!HISTORY_MSG_454;--unused--
!HISTORY_MSG_455;--unused--
!HISTORY_MSG_456;--unused--
!HISTORY_MSG_457;PS Check red/blue
!HISTORY_MSG_458;--unused--
!HISTORY_MSG_459;--unused--
!HISTORY_MSG_460;--unused--
!HISTORY_MSG_461;--unused--
!HISTORY_MSG_462;PS Check green
!HISTORY_MSG_463;--unused--
!HISTORY_MSG_464;PS Blur motion mask
!HISTORY_MSG_465;PS Blur radius
!HISTORY_MSG_466;--unused--
!HISTORY_MSG_467;--unused--
!HISTORY_MSG_468;PS Fill holes
!HISTORY_MSG_469;PS Median
!HISTORY_MSG_470;--unused--
!HISTORY_MSG_471;PS Motion correction
!HISTORY_MSG_472;PS Smooth transitions
!HISTORY_MSG_474;PS Equalize
!HISTORY_MSG_475;PS Equalize channel
!HISTORY_MSG_476;CAL - VC - Temperature
!HISTORY_MSG_477;CAL - VC - Tint
!HISTORY_MSG_478;CAL - VC - Mean luminance
!HISTORY_MSG_479;CAL - VC - Adaptation
!HISTORY_MSG_480;CAL - VC - Auto adaptation
!HISTORY_MSG_481;CAL - SC - Temperature
!HISTORY_MSG_482;CAL - SC - Tint
!HISTORY_MSG_483;CAL - SC - Mean luminance
!HISTORY_MSG_484;CAL - SC - Auto mean luminance
!HISTORY_MSG_485;Lens Correction
!HISTORY_MSG_486;Lens Correction - Camera
!HISTORY_MSG_487;Lens Correction - Lens
!HISTORY_MSG_488;Dynamic Range Compression
!HISTORY_MSG_489;DRC - Detail
!HISTORY_MSG_490;DRC - Amount
!HISTORY_MSG_491;White Balance
!HISTORY_MSG_492;RGB Curves
!HISTORY_MSG_493;L*a*b* Adjustments
!HISTORY_MSG_494;Capture Sharpening
!HISTORY_MSG_496;Local Spot deleted
!HISTORY_MSG_497;Local Spot selected
!HISTORY_MSG_498;Local - Spot name
!HISTORY_MSG_499;Local - Spot visibility
!HISTORY_MSG_500;Local - Spot shape
!HISTORY_MSG_501;Local - Spot method
!HISTORY_MSG_502;Local - SC - Shape method
!HISTORY_MSG_503;Local - Spot - Right
!HISTORY_MSG_504;Local - Spot - Left
!HISTORY_MSG_505;Local - Spot - Bottom
!HISTORY_MSG_506;Local - Spot - Top
!HISTORY_MSG_507;Local - Spot - Center
!HISTORY_MSG_508;Local - Spot - Size
!HISTORY_MSG_509;Local - Spot quality method
!HISTORY_MSG_510;Local - TG - Transition value
!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;Selective Editing
!HISTORY_MSG_516;Local - Color and light
!HISTORY_MSG_517;Local - Enable super
!HISTORY_MSG_518;Local - Lightness
!HISTORY_MSG_519;Local - Contrast
!HISTORY_MSG_520;Local - Chrominance
!HISTORY_MSG_521;Local - Scope
!HISTORY_MSG_522;Local - Curve method
!HISTORY_MSG_523;Local - LL Curve
!HISTORY_MSG_524;Local - CC curve
!HISTORY_MSG_525;Local - LH Curve
!HISTORY_MSG_526;Local - H curve
!HISTORY_MSG_527;Local - Color Inverse
!HISTORY_MSG_528;Local - Exposure
!HISTORY_MSG_529;Local - Exp Compensation
!HISTORY_MSG_530;Local - Exp Hlcompr
!HISTORY_MSG_531;Local - Exp hlcomprthresh
!HISTORY_MSG_532;Local - Exp black
!HISTORY_MSG_533;Local - Exp Shcompr
!HISTORY_MSG_534;Local - Warm Cool
!HISTORY_MSG_535;Local - Exp Scope
!HISTORY_MSG_536;Local - Exp Contrast curve
!HISTORY_MSG_537;Local - Vibrance
!HISTORY_MSG_538;Local - Vib Saturated
!HISTORY_MSG_539;Local - Vib Pastel
!HISTORY_MSG_540;Local - Vib Threshold
!HISTORY_MSG_541;Local - Vib Protect skin tones
!HISTORY_MSG_542;Local - Vib avoid colorshift
!HISTORY_MSG_543;Local - Vib link
!HISTORY_MSG_544;Local - Vib Scope
!HISTORY_MSG_545;Local - Vib H curve
!HISTORY_MSG_546;Local - Blur and noise
!HISTORY_MSG_547;Local - Radius
!HISTORY_MSG_548;Local - Noise
!HISTORY_MSG_549;Local - Blur scope
!HISTORY_MSG_550;Local - Blur method
!HISTORY_MSG_551;Local - Blur Luminance only
!HISTORY_MSG_552;Local - Tone mapping
!HISTORY_MSG_553;Local - TM compression strength
!HISTORY_MSG_554;Local - TM gamma
!HISTORY_MSG_555;Local - TM edge stopping
!HISTORY_MSG_556;Local - TM scale
!HISTORY_MSG_557;Local - TM Reweighting
!HISTORY_MSG_558;Local - TM scope
!HISTORY_MSG_559;Local - Retinex
!HISTORY_MSG_560;Local - Retinex method
!HISTORY_MSG_561;Local - Retinex strength
!HISTORY_MSG_562;Local - Retinex chroma
!HISTORY_MSG_563;Local - Retinex radius
!HISTORY_MSG_564;Local - Retinex contrast
!HISTORY_MSG_565;Local - scope
!HISTORY_MSG_566;Local - Retinex Gain curve
!HISTORY_MSG_567;Local - Retinex Inverse
!HISTORY_MSG_568;Local - Sharpening
!HISTORY_MSG_569;Local - Sh Radius
!HISTORY_MSG_570;Local - Sh Amount
!HISTORY_MSG_571;Local - Sh Damping
!HISTORY_MSG_572;Local - Sh Iterations
!HISTORY_MSG_573;Local - Sh Scope
!HISTORY_MSG_574;Local - Sh Inverse
!HISTORY_MSG_575;Local - CBDL
!HISTORY_MSG_576;Local - cbdl mult
!HISTORY_MSG_577;Local - cbdl chroma
!HISTORY_MSG_578;Local - cbdl threshold
!HISTORY_MSG_579;Local - cbdl scope
!HISTORY_MSG_580;--unused--
!HISTORY_MSG_581;Local - Denoise lum f 1
!HISTORY_MSG_582;Local - Denoise lum c
!HISTORY_MSG_583;Local - Denoise lum detail
!HISTORY_MSG_584;Local - Denoise equalizer White-Black
!HISTORY_MSG_585;Local - Denoise chro f
!HISTORY_MSG_586;Local - Denoise chro c
!HISTORY_MSG_587;Local - Denoise chro detail
!HISTORY_MSG_588;Local - Denoise equalizer Blue-Red
!HISTORY_MSG_589;Local - Denoise bilateral
!HISTORY_MSG_590;Local - Denoise Scope
!HISTORY_MSG_591;Local - Avoid color shift
!HISTORY_MSG_592;Local - Sh Contrast
!HISTORY_MSG_593;Local - Local contrast
!HISTORY_MSG_594;Local - Local contrast radius
!HISTORY_MSG_595;Local - Local contrast amount
!HISTORY_MSG_596;Local - Local contrast darkness
!HISTORY_MSG_597;Local - Local contrast lightness
!HISTORY_MSG_598;Local - Local contrast scope
!HISTORY_MSG_599;Local - Retinex dehaze
!HISTORY_MSG_600;Local - Soft Light enable
!HISTORY_MSG_601;Local - Soft Light strength
!HISTORY_MSG_602;Local - Soft Light scope
!HISTORY_MSG_603;Local - Sh Blur radius
!HISTORY_MSG_605;Local - Mask preview choice
!HISTORY_MSG_606;Local Spot selected
!HISTORY_MSG_607;Local - Color Mask C
!HISTORY_MSG_608;Local - Color Mask L
!HISTORY_MSG_609;Local - Exp Mask C
!HISTORY_MSG_610;Local - Exp Mask L
!HISTORY_MSG_611;Local - Color Mask H
!HISTORY_MSG_612;Local - Color Structure
!HISTORY_MSG_613;Local - Exp Structure
!HISTORY_MSG_614;Local - Exp Mask H
!HISTORY_MSG_615;Local - Blend color
!HISTORY_MSG_616;Local - Blend Exp
!HISTORY_MSG_617;Local - Blur Exp
!HISTORY_MSG_618;Local - Use Color Mask
!HISTORY_MSG_619;Local - Use Exp Mask
!HISTORY_MSG_620;Local - Blur col
!HISTORY_MSG_621;Local - Exp inverse
!HISTORY_MSG_622;Local - Spot - Excluding - Spot structure
!HISTORY_MSG_623;Local - Exp Chroma compensation
!HISTORY_MSG_624;Local - Color correction grid
!HISTORY_MSG_625;Local - Color correction strength
!HISTORY_MSG_626;Local - Color correction Method
!HISTORY_MSG_627;Local - Shadow Highlight
!HISTORY_MSG_628;Local - SH Highlight
!HISTORY_MSG_629;Local - SH H tonalwidth
!HISTORY_MSG_630;Local - SH Shadows
!HISTORY_MSG_631;Local - SH S tonalwidth
!HISTORY_MSG_632;Local - SH radius
!HISTORY_MSG_633;Local - SH Scope
!HISTORY_MSG_634;Local - radius color
!HISTORY_MSG_635;Local - radius Exp
!HISTORY_MSG_636;Local - Tool added
!HISTORY_MSG_637;Local - SH Mask C
!HISTORY_MSG_638;Local - SH Mask L
!HISTORY_MSG_639;Local - SH Mask H
!HISTORY_MSG_640;Local - SH blend
!HISTORY_MSG_641;Local - Use SH mask
!HISTORY_MSG_642;Local - radius SH
!HISTORY_MSG_643;Local - Blur SH
!HISTORY_MSG_644;Local - inverse SH
!HISTORY_MSG_645;Local - SD - Lightness-chroma balance
!HISTORY_MSG_646;Local - Exp mask chroma
!HISTORY_MSG_647;Local - Exp mask gamma
!HISTORY_MSG_648;Local - Exp mask slope
!HISTORY_MSG_649;Local - Exp soft radius
!HISTORY_MSG_650;Local - Color mask chroma
!HISTORY_MSG_651;Local - Color mask gamma
!HISTORY_MSG_652;Local - Color mask slope
!HISTORY_MSG_653;Local - SH mask chroma
!HISTORY_MSG_654;Local - SH mask gamma
!HISTORY_MSG_655;Local - SH mask slope
!HISTORY_MSG_656;Local - Color soft radius
!HISTORY_MSG_657;Local - Retinex Reduce artifacts
!HISTORY_MSG_658;Local - CBDL soft radius
!HISTORY_MSG_659;Local - TG - Transition decay
!HISTORY_MSG_660;Local - cbdl clarity
!HISTORY_MSG_661;Local - cbdl contrast residual
!HISTORY_MSG_662;Local - Denoise lum f 0
!HISTORY_MSG_663;Local - Denoise lum f 2
!HISTORY_MSG_664;--unused--
!HISTORY_MSG_665;Local - cbdl mask Blend
!HISTORY_MSG_666;Local - cbdl mask radius
!HISTORY_MSG_667;Local - cbdl mask chroma
!HISTORY_MSG_668;Local - cbdl mask gamma
!HISTORY_MSG_669;Local - cbdl mask slope
!HISTORY_MSG_670;Local - cbdl mask C
!HISTORY_MSG_671;Local - cbdl mask L
!HISTORY_MSG_672;Local - cbdl mask CL
!HISTORY_MSG_673;Local - Use cbdl mask
!HISTORY_MSG_674;Local - Tool removed
!HISTORY_MSG_675;Local - TM soft radius
!HISTORY_MSG_676;Local - TG - Transition differentiation
!HISTORY_MSG_677;Local - TM amount
!HISTORY_MSG_678;Local - TM saturation
!HISTORY_MSG_679;Local - Retinex mask C
!HISTORY_MSG_680;Local - Retinex mask L
!HISTORY_MSG_681;Local - Retinex mask CL
!HISTORY_MSG_682;Local - Retinex mask
!HISTORY_MSG_683;Local - Retinex mask Blend
!HISTORY_MSG_684;Local - Retinex mask radius
!HISTORY_MSG_685;Local - Retinex mask chroma
!HISTORY_MSG_686;Local - Retinex mask gamma
!HISTORY_MSG_687;Local - Retinex mask slope
!HISTORY_MSG_688;Local - Tool removed
!HISTORY_MSG_689;Local - Retinex mask transmission map
!HISTORY_MSG_690;Local - Retinex scale
!HISTORY_MSG_691;Local - Retinex darkness
!HISTORY_MSG_692;Local - Retinex lightness
!HISTORY_MSG_693;Local - Retinex threshold
!HISTORY_MSG_694;Local - Retinex Laplacian threshold
!HISTORY_MSG_695;Local - Soft method
!HISTORY_MSG_696;Local - Retinex Normalize
!HISTORY_MSG_697;Local - TM Normalize
!HISTORY_MSG_698;Local - Local contrast Fast Fourier
!HISTORY_MSG_699;Local - Retinex Fast Fourier
!HISTORY_MSG_701;Local - Exp Shadows
!HISTORY_MSG_702;Local - Exp Method
!HISTORY_MSG_703;Local - Exp Laplacian threshold
!HISTORY_MSG_704;Local - Exp PDE balance
!HISTORY_MSG_705;Local - Exp linearity
!HISTORY_MSG_706;Local - TM mask C
!HISTORY_MSG_707;Local - TM mask L
!HISTORY_MSG_708;Local - TM mask CL
!HISTORY_MSG_709;Local - use TM mask
!HISTORY_MSG_710;Local - TM mask Blend
!HISTORY_MSG_711;Local - TM mask radius
!HISTORY_MSG_712;Local - TM mask chroma
!HISTORY_MSG_713;Local - TM mask gamma
!HISTORY_MSG_714;Local - TM mask slope
!HISTORY_MSG_716;Local - Local method
!HISTORY_MSG_717;Local - Local contrast
!HISTORY_MSG_718;Local - Local contrast levels
!HISTORY_MSG_719;Local - Local contrast residual L
!HISTORY_MSG_720;Local - Blur mask C
!HISTORY_MSG_721;Local - Blur mask L
!HISTORY_MSG_722;Local - Blur mask CL
!HISTORY_MSG_723;Local - use Blur mask
!HISTORY_MSG_725;Local - Blur mask Blend
!HISTORY_MSG_726;Local - Blur mask radius
!HISTORY_MSG_727;Local - Blur mask chroma
!HISTORY_MSG_728;Local - Blur mask gamma
!HISTORY_MSG_729;Local - Blur mask slope
!HISTORY_MSG_730;Local - Blur method
!HISTORY_MSG_731;Local - median method
!HISTORY_MSG_732;Local - median iterations
!HISTORY_MSG_733;Local - soft radius
!HISTORY_MSG_734;Local - detail
!HISTORY_MSG_738;Local - Local contrast Merge L
!HISTORY_MSG_739;Local - Local contrast Soft radius
!HISTORY_MSG_740;Local - Local contrast Merge C
!HISTORY_MSG_741;Local - Local contrast Residual C
!HISTORY_MSG_742;Local - Exp Laplacian gamma
!HISTORY_MSG_743;Local - Exp Fattal Amount
!HISTORY_MSG_744;Local - Exp Fattal Detail
!HISTORY_MSG_745;Local - Exp Fattal Offset
!HISTORY_MSG_746;Local - Exp Fattal Sigma
!HISTORY_MSG_747;Local Spot created
!HISTORY_MSG_748;Local - Exp Denoise
!HISTORY_MSG_749;Local - Reti Depth
!HISTORY_MSG_750;Local - Reti Mode log - lin
!HISTORY_MSG_751;Local - Reti Dehaze saturation
!HISTORY_MSG_752;Local - Reti Offset
!HISTORY_MSG_753;Local - Reti Transmission map
!HISTORY_MSG_754;Local - Reti Clip
!HISTORY_MSG_755;Local - TM use tm mask
!HISTORY_MSG_756;Local - Exp use algo exposure mask
!HISTORY_MSG_757;Local - Exp Laplacian mask
!HISTORY_MSG_758;Local - Reti Laplacian mask
!HISTORY_MSG_759;Local - Exp Laplacian mask
!HISTORY_MSG_760;Local - Color Laplacian mask
!HISTORY_MSG_761;Local - SH Laplacian mask
!HISTORY_MSG_762;Local - cbdl Laplacian mask
!HISTORY_MSG_763;Local - Blur Laplacian mask
!HISTORY_MSG_764;Local - Solve PDE Laplacian mask
!HISTORY_MSG_765;Local - Denoise Detail threshold
!HISTORY_MSG_766;Local - Blur Fast Fourier
!HISTORY_MSG_767;Local - Grain Iso
!HISTORY_MSG_768;Local - Grain Strength
!HISTORY_MSG_769;Local - Grain Scale
!HISTORY_MSG_770;Local - Color Mask contrast curve
!HISTORY_MSG_771;Local - Exp Mask contrast curve
!HISTORY_MSG_772;Local - SH Mask contrast curve
!HISTORY_MSG_773;Local - TM Mask contrast curve
!HISTORY_MSG_774;Local - Reti Mask contrast curve
!HISTORY_MSG_775;Local - CBDL Mask contrast curve
!HISTORY_MSG_776;Local - Blur Denoise Mask contrast curve
!HISTORY_MSG_777;Local - Blur Mask local contrast curve
!HISTORY_MSG_778;Local - Mask highlights
!HISTORY_MSG_779;Local - Color Mask local contrast curve
!HISTORY_MSG_780;Local - Color Mask shadows
!HISTORY_MSG_781;Local - Contrast Mask Wavelet level
!HISTORY_MSG_782;Local - Blur Denoise Mask Wavelet levels
!HISTORY_MSG_783;Local - Color Wavelet levels
!HISTORY_MSG_784;Local - Mask - ΔE Image Mask
!HISTORY_MSG_785;Local - Mask - Scope
!HISTORY_MSG_786;Local - SH method
!HISTORY_MSG_787;Local - Equalizer multiplier
!HISTORY_MSG_788;Local - Equalizer detail
!HISTORY_MSG_789;Local - SH mask amount
!HISTORY_MSG_790;Local - SH mask anchor
!HISTORY_MSG_791;Local - Mask Short L curves
!HISTORY_MSG_792;Local - Mask - Background
!HISTORY_MSG_793;Local - SH TRC gamma
!HISTORY_MSG_794;Local - SH TRC slope
!HISTORY_MSG_795;Local - Mask save restore image
!HISTORY_MSG_796;Local - SC - Recursive references
!HISTORY_MSG_797;Local - Merge Original method
!HISTORY_MSG_798;Local - Opacity
!HISTORY_MSG_799;Local - Color RGB ToneCurve
!HISTORY_MSG_800;Local - Color ToneCurve Method
!HISTORY_MSG_801;Local - Color ToneCurve Special
!HISTORY_MSG_802;Local - Contrast threshold
!HISTORY_MSG_803;Local - Color Merge
!HISTORY_MSG_804;Local - Color mask Structure
!HISTORY_MSG_805;Local - Blur Noise mask Structure
!HISTORY_MSG_806;Local - Color mask Structure as tool
!HISTORY_MSG_807;Local - Blur Noise mask Structure as tool
!HISTORY_MSG_808;Local - Color mask curve H(H)
!HISTORY_MSG_809;Local - Vib mask curve C(C)
!HISTORY_MSG_810;Local - Vib mask curve L(L)
!HISTORY_MSG_811;Local - Vib mask curve LC(H)
!HISTORY_MSG_813;Local - Use Vib mask
!HISTORY_MSG_814;Local - Vib mask Blend
!HISTORY_MSG_815;Local - Vib mask radius
!HISTORY_MSG_816;Local - Vib mask chroma
!HISTORY_MSG_817;Local - Vib mask gamma
!HISTORY_MSG_818;Local - Vib mask slope
!HISTORY_MSG_819;Local - Vib mask laplacian
!HISTORY_MSG_820;Local - Vib mask contrast curve
!HISTORY_MSG_821;Local - color grid background
!HISTORY_MSG_822;Local - color background merge
!HISTORY_MSG_823;Local - color background luminance
!HISTORY_MSG_824;Local - Exp gradient mask strength
!HISTORY_MSG_825;Local - Exp gradient mask angle
!HISTORY_MSG_826;Local - Exp gradient strength
!HISTORY_MSG_827;Local - Exp gradient angle
!HISTORY_MSG_828;Local - SH gradient strength
!HISTORY_MSG_829;Local - SH gradient angle
!HISTORY_MSG_830;Local - Color gradient strength L
!HISTORY_MSG_831;Local - Color gradient angle
!HISTORY_MSG_832;Local - Color gradient strength C
!HISTORY_MSG_833;Local - Mask gradient feather
!HISTORY_MSG_834;Local - Color gradient strength H
!HISTORY_MSG_835;Local - Vib gradient strength L
!HISTORY_MSG_836;Local - Vib gradient angle
!HISTORY_MSG_837;Local - Vib gradient strength C
!HISTORY_MSG_838;Local - Vib gradient strength H
!HISTORY_MSG_839;Local - Software complexity
!HISTORY_MSG_840;Local - CL Curve
!HISTORY_MSG_841;Local - LC curve
!HISTORY_MSG_842;Local - Blur mask Radius
!HISTORY_MSG_843;Local - Blur mask Contrast Threshold
!HISTORY_MSG_844;Local - Blur mask FFTW
!HISTORY_MSG_845;Local - Log encoding
!HISTORY_MSG_846;Local - Log encoding auto
!HISTORY_MSG_847;Local - Log encoding Source
!HISTORY_MSG_849;Local - Log encoding Source auto
!HISTORY_MSG_850;Local - Log encoding B_Ev
!HISTORY_MSG_851;Local - Log encoding W_Ev
!HISTORY_MSG_852;Local - Log encoding Target
!HISTORY_MSG_853;Local - Log encodind loc contrast
!HISTORY_MSG_854;Local - Log encodind Scope
!HISTORY_MSG_855;Local - Log encoding Whole image
!HISTORY_MSG_856;Local - Log encoding Shadows range
!HISTORY_MSG_857;Local - Wavelet blur residual
!HISTORY_MSG_858;Local - Wavelet blur luminance only
!HISTORY_MSG_859;Local - Wavelet max blur
!HISTORY_MSG_860;Local - Wavelet blur levels
!HISTORY_MSG_861;Local - Wavelet contrast levels
!HISTORY_MSG_862;Local - Wavelet contrast attenuation
!HISTORY_MSG_863;Local - Wavelet merge original image
!HISTORY_MSG_864;Local - Wavelet dir contrast attenuation
!HISTORY_MSG_865;Local - Wavelet dir contrast delta
!HISTORY_MSG_866;Local - Wavelet dir compression
!HISTORY_MSG_868;Local - SD - Hue-Chroma balance
!HISTORY_MSG_869;Local - Denoise by level
!HISTORY_MSG_870;Local - Wavelet mask curve H
!HISTORY_MSG_871;Local - Wavelet mask curve C
!HISTORY_MSG_872;Local - Wavelet mask curve L
!HISTORY_MSG_873;Local - Wavelet mask
!HISTORY_MSG_875;Local - Wavelet mask blend
!HISTORY_MSG_876;Local - Wavelet mask smooth
!HISTORY_MSG_877;Local - Wavelet mask chroma
!HISTORY_MSG_878;Local - Wavelet mask contrast curve
!HISTORY_MSG_879;Local - Wavelet contrast chroma
!HISTORY_MSG_880;Local - Wavelet blur chroma
!HISTORY_MSG_881;Local - Wavelet contrast offset
!HISTORY_MSG_882;Local - Wavelet blur
!HISTORY_MSG_883;Local - Wavelet contrast by level
!HISTORY_MSG_884;Local - Wavelet dir contrast
!HISTORY_MSG_885;Local - Wavelet tone mapping
!HISTORY_MSG_886;Local - Wavelet tone mapping compress
!HISTORY_MSG_887;Local - Wavelet tone mapping compress residual
!HISTORY_MSG_888;Local - Contrast Wavelet Balance Threshold
!HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength
!HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle
!HISTORY_MSG_891;Local - Contrast Wavelet Graduated
!HISTORY_MSG_892;Local - Log encoding Graduated Strength
!HISTORY_MSG_893;Local - Log encoding Graduated angle
!HISTORY_MSG_894;Local - SD - ΔE preview color intensity
!HISTORY_MSG_897;Local - Contrast Wavelet ES strength
!HISTORY_MSG_898;Local - Contrast Wavelet ES radius
!HISTORY_MSG_899;Local - Contrast Wavelet ES detail
!HISTORY_MSG_900;Local - Contrast Wavelet ES gradient
!HISTORY_MSG_901;Local - Contrast Wavelet ES threshold low
!HISTORY_MSG_902;Local - Contrast Wavelet ES threshold high
!HISTORY_MSG_903;Local - Contrast Wavelet ES local contrast
!HISTORY_MSG_904;Local - Contrast Wavelet ES first level
!HISTORY_MSG_905;Local - Contrast Wavelet Edge Sharpness
!HISTORY_MSG_906;Local - Contrast Wavelet ES sensitivity
!HISTORY_MSG_907;Local - Contrast Wavelet ES amplification
!HISTORY_MSG_908;Local - Contrast Wavelet ES neighboring
!HISTORY_MSG_909;Local - Contrast Wavelet ES show
!HISTORY_MSG_910;Local - SC - Wavelet Edge performance
!HISTORY_MSG_911;Local - Blur Chroma Luma
!HISTORY_MSG_912;Local - Blur Guide filter strength
!HISTORY_MSG_913;Local - Contrast Wavelet Sigma DR
!HISTORY_MSG_914;Local - Blur Wavelet Sigma BL
!HISTORY_MSG_915;Local - Edge Wavelet Sigma ED
!HISTORY_MSG_916;Local - Residual wavelet shadows
!HISTORY_MSG_917;Local - Residual wavelet shadows threshold
!HISTORY_MSG_918;Local - Residual wavelet highlights
!HISTORY_MSG_919;Local - Residual wavelet highlights threshold
!HISTORY_MSG_920;Local - Wavelet sigma LC
!HISTORY_MSG_921;Local - Wavelet Graduated sigma LC2
!HISTORY_MSG_922;Local - SC - Changes in B/W
!HISTORY_MSG_923;Local - Tool complexity mode
!HISTORY_MSG_924;--unused--
!HISTORY_MSG_925;Local - Scope (color tools)
!HISTORY_MSG_926;Local - Show mask type
!HISTORY_MSG_927;Local - Shadow
!HISTORY_MSG_928;Local - Common color mask
!HISTORY_MSG_929;Local - Mask common scope
!HISTORY_MSG_930;Local - Mask Common blend luma
!HISTORY_MSG_931;Local - Mask Common enable
!HISTORY_MSG_932;Local - Mask Common radius soft
!HISTORY_MSG_933;Local - Mask Common laplacian
!HISTORY_MSG_934;Local - Mask Common chroma
!HISTORY_MSG_935;Local - Mask Common gamma
!HISTORY_MSG_936;Local - Mask Common slope
!HISTORY_MSG_937;Local - Mask Common curve C(C)
!HISTORY_MSG_938;Local - Mask Common curve L(L)
!HISTORY_MSG_939;Local - Mask Common curve LC(H)
!HISTORY_MSG_940;Local - Mask Common structure as tool
!HISTORY_MSG_941;Local - Mask Common structure strength
!HISTORY_MSG_942;Local - Mask Common H(H) curve
!HISTORY_MSG_943;Local - Mask Common FFT
!HISTORY_MSG_944;Local - Mask Common Blur radius
!HISTORY_MSG_945;Local - Mask Common contrast threshold
!HISTORY_MSG_946;Local - Mask Common shadows
!HISTORY_MSG_947;Local - Mask Common Contrast curve
!HISTORY_MSG_948;Local - Mask Common Wavelet curve
!HISTORY_MSG_949;Local - Mask Common Threshold levels
!HISTORY_MSG_950;Local - Mask Common GF strength
!HISTORY_MSG_951;Local - Mask Common GF angle
!HISTORY_MSG_952;Local - Mask Common soft radius
!HISTORY_MSG_953;Local - Mask Common blend chroma
!HISTORY_MSG_954;Local - Show-hide tools
!HISTORY_MSG_955;Local - Enable Spot
!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 - 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
!HISTORY_MSG_964;Local - Log encoding Surround
!HISTORY_MSG_965;Local - Log encoding Saturation s
!HISTORY_MSG_966;Local - Log encoding Contrast J
!HISTORY_MSG_967;Local - Log encoding Mask curve C
!HISTORY_MSG_968;Local - Log encoding Mask curve L
!HISTORY_MSG_969;Local - Log encoding Mask curve H
!HISTORY_MSG_970;Local - Log encoding Mask enable
!HISTORY_MSG_971;Local - Log encoding Mask blend
!HISTORY_MSG_972;Local - Log encoding Mask radius
!HISTORY_MSG_973;Local - Log encoding Mask chroma
!HISTORY_MSG_974;Local - Log encoding Mask contrast
!HISTORY_MSG_975;Local - Log encoding Lightness J
!HISTORY_MSG_977;Local - Log encoding Contrast Q
!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 - SC - Soft radius
!HISTORY_MSG_1041;Local - Spot - Munsell
!HISTORY_MSG_1042;Local - Log encoding - threshold
!HISTORY_MSG_1043;Local - Exp - normalize
!HISTORY_MSG_1044;Local - Local contrast strength
!HISTORY_MSG_1045;Local - Color and Light strength
!HISTORY_MSG_1046;Local - Denoise strength
!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_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 Q Contrast
!HISTORY_MSG_1080;Local - CIECAM Sigmoid Q Skew
!HISTORY_MSG_1081;Local - CIECAM Sigmoid Q Display white point
!HISTORY_MSG_1082;Local - CIECAM Auto threshold
!HISTORY_MSG_1083;Local - CIECAM Hue
!HISTORY_MSG_1084;Local - Uses Black Ev - White Ev
!HISTORY_MSG_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 contrast
!HISTORY_MSG_1090;Local - Jz Sigmoid skew
!HISTORY_MSG_1091;Local - Jz Sigmoid Display White point
!HISTORY_MSG_1092;Local - Jz adaptation
!HISTORY_MSG_1093;Local - CAM model
!HISTORY_MSG_1094;Local - Jz highligths
!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 - 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_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
!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 Scale Yb scene
!HISTORY_MSG_1148;Local - Jz Sigmoid
!HISTORY_MSG_1149;Local - Q Sigmoid & Slope based
!HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q
!HISTORY_MSG_BLSHAPE;Blur by level
!HISTORY_MSG_BLURCWAV;Blur chroma
!HISTORY_MSG_BLURWAV;Blur luminance
!HISTORY_MSG_BLUWAV;Attenuation response
!HISTORY_MSG_CATCAT;CAL - Settings - Mode
!HISTORY_MSG_CATCOMPLEX;CAL - Settings - Complexity
!HISTORY_MSG_CATMODEL;CAL - Settings - CAM
!HISTORY_MSG_CG_COLORSPACE;Gamut Compression - Target
!HISTORY_MSG_CG_CYANLIM;Gamut Compression - Max Limits Cyan
!HISTORY_MSG_CG_CYANTH;Gamut Compression - Threshold Cyan
!HISTORY_MSG_CG_ENABLED;Gamut Compression - Enabled
!HISTORY_MSG_CG_MAGENTALIM;Gamut Compression - Max Limits Magenta
!HISTORY_MSG_CG_MAGENTATH;Gamut Compression - Threshold Magenta
!HISTORY_MSG_CG_ROLLOFF;Gamut Compression - Rolloff
!HISTORY_MSG_CG_VALUE;Gamut Compression - Power
!HISTORY_MSG_CG_YELLOWLIM;Gamut Compression - Max Limits Yellow
!HISTORY_MSG_CG_YELLOWTH;Gamut Compression - Threshold Yellow
!HISTORY_MSG_CLAMPOOG;Clip out-of-gamut colors
!HISTORY_MSG_COLORTONING_LABGRID_VALUE;CT - Color correction
!HISTORY_MSG_COLORTONING_LABREGION_AB;CT - Color correction
!HISTORY_MSG_COLORTONING_LABREGION_CHANNEL;CT - Channel
!HISTORY_MSG_COLORTONING_LABREGION_CHROMATICITYMASK;CT - region C mask
!HISTORY_MSG_COLORTONING_LABREGION_HUEMASK;CT - H mask
!HISTORY_MSG_COLORTONING_LABREGION_LIGHTNESS;CT - Lightness
!HISTORY_MSG_COLORTONING_LABREGION_LIGHTNESSMASK;CT - L mask
!HISTORY_MSG_COLORTONING_LABREGION_LIST;CT - List
!HISTORY_MSG_COLORTONING_LABREGION_MASKBLUR;CT - region mask blur
!HISTORY_MSG_COLORTONING_LABREGION_OFFSET;CT - region offset
!HISTORY_MSG_COLORTONING_LABREGION_POWER;CT - region power
!HISTORY_MSG_COLORTONING_LABREGION_SATURATION;CT - Saturation
!HISTORY_MSG_COLORTONING_LABREGION_SHOWMASK;CT - region show mask
!HISTORY_MSG_COLORTONING_LABREGION_SLOPE;CT - region slope
!HISTORY_MSG_COMPLEX;Wavelet complexity
!HISTORY_MSG_COMPLEXRETI;Retinex complexity
!HISTORY_MSG_DEHABLACK;Dehaze Bayer Black
!HISTORY_MSG_DEHABLACKX;Dehaze X-Trans Black
!HISTORY_MSG_DEHAZE_DEPTH;Dehaze - Depth
!HISTORY_MSG_DEHAZE_ENABLED;Haze Removal
!HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation
!HISTORY_MSG_DEHAZE_SHOW_DEPTH_MAP;Dehaze - Show depth map
!HISTORY_MSG_DEHAZE_STRENGTH;Dehaze - Strength
!HISTORY_MSG_DIRPYRDENOISE_GAIN;NR - Compensate for lightness
!HISTORY_MSG_DISTORTION_DEFISH;De-fish
!HISTORY_MSG_DISTORTION_DEFISH_FOCAL;De-fish - Focal length
!HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;Dual demosaic - Auto threshold
!HISTORY_MSG_DUALDEMOSAIC_CONTRAST;Dual demosaic - Contrast threshold
!HISTORY_MSG_EDGEFFECT;Edge Attenuation response
!HISTORY_MSG_FF_FROMMETADATA;Flat-Field - From Metadata
!HISTORY_MSG_FILMNEGATIVE_BALANCE;FN - Reference output
!HISTORY_MSG_FILMNEGATIVE_COLORSPACE;Film negative color space
!HISTORY_MSG_FILMNEGATIVE_ENABLED;Film Negative
!HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input
!HISTORY_MSG_FILMNEGATIVE_VALUES;Film negative values
!HISTORY_MSG_FRAMING_ABSOLUTE_HEIGHT;Framing - Border Height
!HISTORY_MSG_FRAMING_ABSOLUTE_WIDTH;Framing - Border Width
!HISTORY_MSG_FRAMING_ALLOW_UPSCALING;Framing - Upscaling
!HISTORY_MSG_FRAMING_ASPECT_RATIO;Framing - Aspect Ratio
!HISTORY_MSG_FRAMING_BASIS;Framing - Basis
!HISTORY_MSG_FRAMING_BORDER_BLUE;Framing - Border (B)
!HISTORY_MSG_FRAMING_BORDER_GREEN;Framing - Border (G)
!HISTORY_MSG_FRAMING_BORDER_RED;Framing - Border (R)
!HISTORY_MSG_FRAMING_BORDER_SIZE;Framing - Relative Size
!HISTORY_MSG_FRAMING_BORDER_SIZE_METHOD;Framing - Border Sizing Method
!HISTORY_MSG_FRAMING_ENABLED;Framing
!HISTORY_MSG_FRAMING_FRAMED_HEIGHT;Framing - Framed Height
!HISTORY_MSG_FRAMING_FRAMED_WIDTH;Framing - Framed Width
!HISTORY_MSG_FRAMING_METHOD;Framing - Method
!HISTORY_MSG_FRAMING_MIN_HEIGHT;Framing - Min Height
!HISTORY_MSG_FRAMING_MIN_SIZE_ENABLED;Framing - Min Size
!HISTORY_MSG_FRAMING_MIN_WIDTH;Framing - Min Width
!HISTORY_MSG_FRAMING_ORIENTATION;Framing - Orientation
!HISTORY_MSG_GAMUTMUNSEL;Gamut-Munsell
!HISTORY_MSG_HISTMATCHING;Auto-matched tone curve
!HISTORY_MSG_HLBL;Color propagation - blur
!HISTORY_MSG_HLTH;Inpaint opposed - gain threshold
!HISTORY_MSG_ICL_LABGRIDCIEXY;Cie xy
!HISTORY_MSG_ICM_AINTENT;Abstract profile intent
!HISTORY_MSG_ICM_BLUX;Primaries Blue X
!HISTORY_MSG_ICM_BLUY;Primaries Blue Y
!HISTORY_MSG_ICM_CAT;Matrix adaptation
!HISTORY_MSG_ICM_FBW;Black and White
!HISTORY_MSG_ICM_GAMUT;Gamut control
!HISTORY_MSG_ICM_GREX;Primaries Green X
!HISTORY_MSG_ICM_GREY;Primaries Green Y
!HISTORY_MSG_ICM_MIDTCIE;Midtones
!HISTORY_MSG_ICM_OFFSTRC;Offset
!HISTORY_MSG_ICM_OPACITYW;Offset
!HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries
!HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D
!HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type
!HISTORY_MSG_ICM_PRESER;Preserve neutral
!HISTORY_MSG_ICM_PYRWAVTRC;Contrast profile
!HISTORY_MSG_ICM_REDX;Primaries Red X
!HISTORY_MSG_ICM_REDY;Primaries Red Y
!HISTORY_MSG_ICM_REFI;Refinement Colors
!HISTORY_MSG_ICM_RESIDTRC;Residual contrast
!HISTORY_MSG_ICM_SHIFTX;Refinement Colors - Shift x
!HISTORY_MSG_ICM_SHIFTY;Refinement Colors - Shift y
!HISTORY_MSG_ICM_SIGMATRC;Local contrast Attenation response
!HISTORY_MSG_ICM_SMOOTHCIE;Smooth highlights
!HISTORY_MSG_ICM_TRCEXP;Abstract Profile
!HISTORY_MSG_ICM_WAVEXP;Contrast Enhancement
!HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma
!HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method
!HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method
!HISTORY_MSG_ICM_WORKING_SLOPE;TRC - Slope
!HISTORY_MSG_ICM_WORKING_TRC_METHOD;TRC method
!HISTORY_MSG_ILLUM;CAL - SC - Illuminant
!HISTORY_MSG_LOCALCONTRAST_AMOUNT;Local Contrast - Amount
!HISTORY_MSG_LOCALCONTRAST_DARKNESS;Local Contrast - Darkness
!HISTORY_MSG_LOCALCONTRAST_ENABLED;Local Contrast
!HISTORY_MSG_LOCALCONTRAST_LIGHTNESS;Local Contrast - Lightness
!HISTORY_MSG_LOCALCONTRAST_RADIUS;Local Contrast - Radius
!HISTORY_MSG_LOCALLAB_TE_PIVOT;Local - Equalizer pivot
!HISTORY_MSG_LOCAL_AVOIDNEGATIVE;Local - SC - Pre-filter zero and negative values
!HISTORY_MSG_LOCAL_CIEMASK_BLURCONT;Local - CIECAM Mask blur contrast
!HISTORY_MSG_LOCAL_CIEMASK_BLURFFT;Local - CIECAM Mask blur FFTW
!HISTORY_MSG_LOCAL_CIEMASK_BLURRAD;Local - CIECAM Mask blur radius
!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_CIE_ANGGRAD;Local - CIECAM Gradient angle
!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_BRICOMP;Local - CIECAM Brightness compression
!HISTORY_MSG_LOCAL_CIE_BRICOMPTH;Local - CIECAM Brightness compression threshold
!HISTORY_MSG_LOCAL_CIE_BWCIE;Local - CIECAM Black and white
!HISTORY_MSG_LOCAL_CIE_CAT;Local - Matrix adaptation
!HISTORY_MSG_LOCAL_CIE_CONTSIG;Local CIECAM - Sigmoid contrast
!HISTORY_MSG_LOCAL_CIE_DETAILJZ;Local - JzCzHz Local contrast
!HISTORY_MSG_LOCAL_CIE_ENAMASKALL;Local - CIECAM All mask tools
!HISTORY_MSG_LOCAL_CIE_EXPPRECAM;Local - CIECAM Pre-Cam
!HISTORY_MSG_LOCAL_CIE_GAM;Local - CIECAM Gamma
!HISTORY_MSG_LOCAL_CIE_GAMUTCIE;Local - CIECAM Gamut
!HISTORY_MSG_LOCAL_CIE_GREXL;Local - CIECAM Green X
!HISTORY_MSG_LOCAL_CIE_GREYL;Local - CIECAM Green Y
!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_NORM11;Local - CIECAM Normalize luminance 5.11
!HISTORY_MSG_LOCAL_CIE_PRIM;Local - CIECAM TRC primaries
!HISTORY_MSG_LOCAL_CIE_REDXL;Local - CIECAM Red X
!HISTORY_MSG_LOCAL_CIE_REDYL;Local - CIECAM Red Y
!HISTORY_MSG_LOCAL_CIE_REFI;Local - CIECAM Refinement colors
!HISTORY_MSG_LOCAL_CIE_SATCIE;Local - CIECAM Saturation control
!HISTORY_MSG_LOCAL_CIE_SHIFTXL;Local - CIECAM Shift x
!HISTORY_MSG_LOCAL_CIE_SHIFTYL;Local - CIECAM Shift y
!HISTORY_MSG_LOCAL_CIE_SIG;Local - Sigmoid
!HISTORY_MSG_LOCAL_CIE_SIGADAP;Local - CIECAM Sigmoid adaptability 5.11
!HISTORY_MSG_LOCAL_CIE_SIGMET;Local - CIECAM Tone mapping Q 
!HISTORY_MSG_LOCAL_CIE_SKEWSIG;Local CIECAM - Sigmoid skew
!HISTORY_MSG_LOCAL_CIE_SLOP;Local - CIECAM Slope
!HISTORY_MSG_LOCAL_CIE_SLOPESMO;Local - CIECAM Gray balance
!HISTORY_MSG_LOCAL_CIE_SLOPESMOB;Local - CIECAM Blue balance
!HISTORY_MSG_LOCAL_CIE_SLOPESMOG;Local - CIECAM Green balance
!HISTORY_MSG_LOCAL_CIE_SLOPESMOQ;Local - CIECAM Gray balance
!HISTORY_MSG_LOCAL_CIE_SLOPESMOR;Local - CIECAM Red balance
!HISTORY_MSG_LOCAL_CIE_SMOOTH;Local - CIECAM Scale Yb scene
!HISTORY_MSG_LOCAL_CIE_SMOOTHLNK;Local CIECAM - Link R G B
!HISTORY_MSG_LOCAL_CIE_SMOOTHMET;Local - CIECAM Smooth lights method
!HISTORY_MSG_LOCAL_CIE_SMOOTHTH;Local CIECAM - Attenuation threshold
!HISTORY_MSG_LOCAL_CIE_SMOOTHTRC;Local CIECAM - Gamma based Highlight attenuation
!HISTORY_MSG_LOCAL_CIE_SMOOTHTRCREL;Local CIECAM - Relative gamma mode
!HISTORY_MSG_LOCAL_CIE_SMOOTHYB;Local - CIECAM Scale Yb viewing
!HISTORY_MSG_LOCAL_CIE_SMOOTH_HIGH;Local CIECAM - Highlight Attenuation only
!HISTORY_MSG_LOCAL_CIE_SMOOTH_LUM;Local - CIECAM Levels - Luminosity mode
!HISTORY_MSG_LOCAL_CIE_STRGRAD;Local - CIECAM Gradient strength L
!HISTORY_MSG_LOCAL_CIE_STRLOG;Local - CIECAM Log encoding strength
!HISTORY_MSG_LOCAL_CIE_TRC;Local - CIECAM TRC
!HISTORY_MSG_LOCAL_CIE_WEVMETHOD11;Local CIECAM - Black Ev White Ev
!HISTORY_MSG_LOCAL_CIE_WHITES;Local - CIECAM Whites distribution
!HISTORY_MSG_LOCAL_CIE_WHITSIG;Local CIECAM - Sigmoid Display white point
!HISTORY_MSG_LOCAL_DEHAZE_BLACK;Local - Dehaze Black
!HISTORY_MSG_LOCAL_FEATHERCIE;Local - CIECAM Gradient feather
!HISTORY_MSG_LOCAL_FEATHERCOL;Local - Color Gradient feather
!HISTORY_MSG_LOCAL_FEATHEREXE;Local - Exp Gradient feather
!HISTORY_MSG_LOCAL_FEATHERLOG;Local - Log Gradient feather
!HISTORY_MSG_LOCAL_FEATHERMAS;Local - Mask Common gradient feather
!HISTORY_MSG_LOCAL_FEATHERSH;Local - SH Gradient feather
!HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
!HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
!HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
!HISTORY_MSG_LOCAL_GHSMETHOD;Local - GHS - Method
!HISTORY_MSG_LOCAL_GHS_B;Local - GHS - Local intensity
!HISTORY_MSG_LOCAL_GHS_BLP;Local - GHS - Black point
!HISTORY_MSG_LOCAL_GHS_CHRO;Local - GHS - Lab chromaticity factor
!HISTORY_MSG_LOCAL_GHS_D;Local - GHS - Stretch factor
!HISTORY_MSG_LOCAL_GHS_HLP;Local - GHS - White point
!HISTORY_MSG_LOCAL_GHS_HP;Local - GHS - Protect highlights
!HISTORY_MSG_LOCAL_GHS_INV;Local - GHS - Inverse
!HISTORY_MSG_LOCAL_GHS_LC;Local - GHS - Local Contrast
!HISTORY_MSG_LOCAL_GHS_LP;Local - GHS - Protect shadows
!HISTORY_MSG_LOCAL_GHS_MID;Local - GHS - Midtones
!HISTORY_MSG_LOCAL_GHS_SLOPE;Local - GHS - Lab slope factor
!HISTORY_MSG_LOCAL_GHS_SMOOTH;Local - GHS - Highlight attenuation
!HISTORY_MSG_LOCAL_GHS_SP;Local - GHS - Symmetry point
!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
!HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
!HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
!HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
!HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
!HISTORY_MSG_LOCAL_NLITER;Local - Nlmeans - Iterations
!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
!HISTORY_MSG_LOCAL_SIGBLCIE;Local - CIECAM Blend 5.11
!HISTORY_MSG_LOCAL_SIGDACIE;Local - CIECAM Contrast 5.11
!HISTORY_MSG_LOCAL_SIGFORCEBW;Local - Jz White Ev and Black Ev 5.11
!HISTORY_MSG_LOCAL_SIGJZ11;Local - Jz Sigmoid J 5.11
!HISTORY_MSG_LOCAL_SIGJZ11BL;Local - Jz Blend 5.11
!HISTORY_MSG_LOCAL_SIGJZ11CONT;Local - Jz Contrast 5.11
!HISTORY_MSG_LOCAL_SIGJZ11GRAY;Local - Jz Threshold 5.11
!HISTORY_MSG_LOCAL_SIGQ11;Local - CIECAM Sigmoid Q - deprecated
!HISTORY_MSG_LOCAL_SIGQ12;Local - CIECAM Sigmoid Q and Slope based
!HISTORY_MSG_LOCAL_SIGSENSICIE;Local - CIECAM Adaptability 5.11
!HISTORY_MSG_LOCAL_SIGTHCIE;Local - CIECAM Threshold 5.11
!HISTORY_MSG_LOCAL_TMO_SATUR;Local Exp Fattal Saturation
!HISTORY_MSG_METADATA_MODE;Metadata copy mode
!HISTORY_MSG_MICROCONTRAST_CONTRAST;Microcontrast - Contrast threshold
!HISTORY_MSG_PDSHARPEN_AUTO_CONTRAST;CS - Auto threshold
!HISTORY_MSG_PDSHARPEN_AUTO_RADIUS;CS - Auto radius
!HISTORY_MSG_PDSHARPEN_CHECKITER;CS - Auto limit iterations
!HISTORY_MSG_PDSHARPEN_CONTRAST;CS - Contrast threshold
!HISTORY_MSG_PDSHARPEN_ITERATIONS;CS - Iterations
!HISTORY_MSG_PDSHARPEN_RADIUS;CS - Radius
!HISTORY_MSG_PDSHARPEN_RADIUS_BOOST;CS - Corner radius boost
!HISTORY_MSG_PERSP_CAM_ANGLE;Perspective - Camera
!HISTORY_MSG_PERSP_CAM_FL;Perspective - Camera
!HISTORY_MSG_PERSP_CAM_SHIFT;Perspective - Camera
!HISTORY_MSG_PERSP_CTRL_LINE;Perspective - Control lines
!HISTORY_MSG_PERSP_METHOD;Perspective - Method
!HISTORY_MSG_PERSP_PROJ_ANGLE;Perspective - Recovery
!HISTORY_MSG_PERSP_PROJ_ROTATE;Perspective - PCA rotation
!HISTORY_MSG_PERSP_PROJ_SHIFT;Perspective - PCA
!HISTORY_MSG_PIXELSHIFT_AVERAGE;PS - Average
!HISTORY_MSG_PIXELSHIFT_DEMOSAIC;PS - Demosaic method for motion
!HISTORY_MSG_PREPROCESS_LINEDENOISE_DIRECTION;Line noise filter direction
!HISTORY_MSG_PREPROCESS_PDAFLINESFILTER;PDAF lines filter
!HISTORY_MSG_PREPROCWB_MODE;Preprocess WB Mode
!HISTORY_MSG_PROTAB;Protection
!HISTORY_MSG_PRSHARPEN_CONTRAST;PRS - Contrast threshold
!HISTORY_MSG_RANGEAB;Range ab
!HISTORY_MSG_RAWCACORR_AUTOIT;Raw CA Correction - Iterations
!HISTORY_MSG_RAWCACORR_COLORSHIFT;Raw CA Correction - Avoid color shift
!HISTORY_MSG_RAW_BORDER;Raw border
!HISTORY_MSG_RESIZE_ALLOWUPSCALING;Resize - Allow upscaling
!HISTORY_MSG_RESIZE_LONGEDGE;Resize - Long Edge
!HISTORY_MSG_RESIZE_SHORTEDGE;Resize - Short Edge
!HISTORY_MSG_SHARPENING_BLUR;Sharpening - Blur radius
!HISTORY_MSG_SHARPENING_CONTRAST;Sharpening - Contrast threshold
!HISTORY_MSG_SH_COLORSPACE;S/H - Colorspace
!HISTORY_MSG_SIGMACOL;Chroma Attenuation response
!HISTORY_MSG_SIGMADIR;Dir Attenuation response
!HISTORY_MSG_SIGMAFIN;Final contrast Attenuation response
!HISTORY_MSG_SIGMATON;Toning Attenuation response
!HISTORY_MSG_SOFTLIGHT_ENABLED;Soft light
!HISTORY_MSG_SOFTLIGHT_STRENGTH;Soft light - Strength
!HISTORY_MSG_SPOT;Spot removal
!HISTORY_MSG_SPOT_ENTRY;Spot removal - Point modif.
!HISTORY_MSG_TEMPOUT;CAM02 automatic temperature
!HISTORY_MSG_THRESWAV;Balance threshold
!HISTORY_MSG_TM_FATTAL_ANCHOR;DRC - Anchor
!HISTORY_MSG_TONE_EQUALIZER_BANDS;Tone equalizer - Bands
!HISTORY_MSG_TONE_EQUALIZER_ENABLED;Tone equalizer
!HISTORY_MSG_TONE_EQUALIZER_PIVOT;Tone equalizer - Pivot
!HISTORY_MSG_TONE_EQUALIZER_REGULARIZATION;Tone equalizer - Regularization
!HISTORY_MSG_TONE_EQUALIZER_SHOW_COLOR_MAP;Tone equalizer - Tonal map
!HISTORY_MSG_TRANS_METHOD;Geometry - Method
!HISTORY_MSG_TRANS_SCALE;Geometry - Scale
!HISTORY_MSG_WAVBALCHROM;Equalizer chrominance
!HISTORY_MSG_WAVBALLUM;Equalizer luminance
!HISTORY_MSG_WAVBL;Blur levels
!HISTORY_MSG_WAVCHR;Blur levels - blur chroma
!HISTORY_MSG_WAVCHROMCO;Chroma coarse
!HISTORY_MSG_WAVCHROMFI;Chroma fine
!HISTORY_MSG_WAVCLARI;Clarity
!HISTORY_MSG_WAVDENLH;Level 5
!HISTORY_MSG_WAVDENOISE;Local contrast
!HISTORY_MSG_WAVDENOISEH;High levels Local contrast
!HISTORY_MSG_WAVDETEND;Details soft
!HISTORY_MSG_WAVEDGS;Edge stopping
!HISTORY_MSG_WAVGUIDH;Local contrast-Hue equalizer
!HISTORY_MSG_WAVHUE;Equalizer hue
!HISTORY_MSG_WAVLABGRID_VALUE;Toning - exclude colors
!HISTORY_MSG_WAVLEVDEN;High level local contrast
!HISTORY_MSG_WAVLEVELSIGM;Denoise - radius
!HISTORY_MSG_WAVLEVSIGM;Radius
!HISTORY_MSG_WAVLIMDEN;Interaction 56 14
!HISTORY_MSG_WAVLOWTHR;Threshold low contrast
!HISTORY_MSG_WAVMERGEC;Merge C
!HISTORY_MSG_WAVMERGEL;Merge L
!HISTORY_MSG_WAVMIXMET;Reference local contrast
!HISTORY_MSG_WAVOFFSET;Offset
!HISTORY_MSG_WAVOLDSH;Old algorithm
!HISTORY_MSG_WAVQUAMET;Denoise mode
!HISTORY_MSG_WAVRADIUS;Radius shadows-highlights
!HISTORY_MSG_WAVSCALE;Scale
!HISTORY_MSG_WAVSHOWMASK;Show wavelet mask
!HISTORY_MSG_WAVSIGM;Sigma
!HISTORY_MSG_WAVSIGMA;Attenuation response
!HISTORY_MSG_WAVSLIMET;Method
!HISTORY_MSG_WAVSOFTRAD;Soft radius clarity
!HISTORY_MSG_WAVSOFTRADEND;Soft radius final
!HISTORY_MSG_WAVSTREND;Strength soft
!HISTORY_MSG_WAVTHRDEN;Threshold local contrast
!HISTORY_MSG_WAVTHREND;Threshold local contrast
!HISTORY_MSG_WAVUSHAMET;Clarity method
!HISTORY_MSG_WBALANCE_OBSERVER10;Observer 10°
!HISTORY_MSG_WBITC_CUSTOM;Itcwb Custom
!HISTORY_MSG_WBITC_DELTA;Itcwb Delta green
!HISTORY_MSG_WBITC_FGREEN;Itcwb Green - student
!HISTORY_MSG_WBITC_FORCE;Itcwb Force
!HISTORY_MSG_WBITC_GREEN;Green refinement
!HISTORY_MSG_WBITC_MINSIZE;Patch min size
!HISTORY_MSG_WBITC_NOPURPLE;Itcwb Nopurple
!HISTORY_MSG_WBITC_OBS;Remove algo 2 passes
!HISTORY_MSG_WBITC_PONDER;Itcwb ponderated
!HISTORY_MSG_WBITC_PRECIS;Itcwb Precision
!HISTORY_MSG_WBITC_PRIM;Primaries
!HISTORY_MSG_WBITC_RGREEN;Itcwb Green range
!HISTORY_MSG_WBITC_SAMPLING;Low sampling
!HISTORY_MSG_WBITC_SIZE;Itcwb Size
!HISTORY_MSG_WBITC_SORTED;Itcwb ponderated
!HISTORY_MSG_WBITC_THRES;Itcwb Threshold
!ICCPROFCREATOR_COPYRIGHT;Copyright:
!ICCPROFCREATOR_COPYRIGHT_RESET_TOOLTIP;Reset to the default copyright, granted to 'RawTherapee, CC0'.
!ICCPROFCREATOR_CUSTOM;Custom
!ICCPROFCREATOR_DESCRIPTION;Description:
!ICCPROFCREATOR_DESCRIPTION_ADDPARAM;Append gamma and slope values to the description
!ICCPROFCREATOR_DESCRIPTION_TOOLTIP;Leave empty to set the default description.
!ICCPROFCREATOR_GAMMA;Gamma
!ICCPROFCREATOR_ICCVERSION;ICC version:
!ICCPROFCREATOR_ILL;Illuminant:
!ICCPROFCREATOR_ILL_41;D41
!ICCPROFCREATOR_ILL_50;D50
!ICCPROFCREATOR_ILL_55;D55
!ICCPROFCREATOR_ILL_60;D60
!ICCPROFCREATOR_ILL_63;D63 : DCI-P3 Theater
!ICCPROFCREATOR_ILL_65;D65
!ICCPROFCREATOR_ILL_80;D80
!ICCPROFCREATOR_ILL_DEF;Default
!ICCPROFCREATOR_ILL_INC;StdA 2856K
!ICCPROFCREATOR_ILL_TOOLTIP;You can set the illuminant for ICC v4 profiles and also for ICC v2 profiles.
!ICCPROFCREATOR_PRIMARIES;Primaries:
!ICCPROFCREATOR_PRIM_ACESP0;ACES AP0
!ICCPROFCREATOR_PRIM_ACESP1;ACES AP1
!ICCPROFCREATOR_PRIM_ADOBE;Adobe RGB (1998)
!ICCPROFCREATOR_PRIM_BEST;BestRGB
!ICCPROFCREATOR_PRIM_BETA;BetaRGB
!ICCPROFCREATOR_PRIM_BLUX;Blue X
!ICCPROFCREATOR_PRIM_BLUY;Blue Y
!ICCPROFCREATOR_PRIM_BRUCE;BruceRGB
!ICCPROFCREATOR_PRIM_DCIP3;DCI-P3
!ICCPROFCREATOR_PRIM_GREX;Green X
!ICCPROFCREATOR_PRIM_GREY;Green Y
!ICCPROFCREATOR_PRIM_PROPH;Prophoto
!ICCPROFCREATOR_PRIM_REC2020;Rec2020
!ICCPROFCREATOR_PRIM_REDX;Red X
!ICCPROFCREATOR_PRIM_REDY;Red Y
!ICCPROFCREATOR_PRIM_SRGB;sRGB
!ICCPROFCREATOR_PRIM_TOOLTIP;You can set custom primaries for ICC v4 profiles and also for ICC v2 profiles.
!ICCPROFCREATOR_PRIM_WIDEG;Widegamut
!ICCPROFCREATOR_PROF_V2;ICC v2
!ICCPROFCREATOR_PROF_V4;ICC v4
!ICCPROFCREATOR_SAVEDIALOG_TITLE;Save ICC profile as...
!ICCPROFCREATOR_SLOPE;Slope
!ICCPROFCREATOR_TRC_PRESET;Tone response curve
!INSPECTOR_WINDOW_TITLE;Inspector
!IPTCPANEL_CATEGORYHINT;Identifies the subject of the image in the opinion of the provider.
!IPTCPANEL_CITYHINT;Enter the name of the city pictured in this image.
!IPTCPANEL_COPYRIGHT;Copyright notice
!IPTCPANEL_COPYRIGHTHINT;Enter a Notice on the current owner of the Copyright for this image, such as ©2008 Jane Doe.
!IPTCPANEL_COUNTRYHINT;Enter the name of the country pictured in this image.
!IPTCPANEL_CREATOR;Creator
!IPTCPANEL_CREATORHINT;Enter the name of the person that created this image.
!IPTCPANEL_CREATORJOBTITLE;Creator's job title
!IPTCPANEL_CREATORJOBTITLEHINT;Enter the Job Title of the person listed in the Creator field.
!IPTCPANEL_DATECREATEDHINT;Enter the Date the image was taken.
!IPTCPANEL_DESCRIPTION;Description
!IPTCPANEL_DESCRIPTIONHINT;Enter a 'caption' describing the who, what, and why of what is happening in this image, this might include names of people, and/or their role in the action that is taking place within the image.
!IPTCPANEL_DESCRIPTIONWRITER;Description writer
!IPTCPANEL_DESCRIPTIONWRITERHINT;Enter the name of the person involved in writing, editing or correcting the description of the image.
!IPTCPANEL_HEADLINEHINT;Enter a brief publishable synopsis or summary of the contents of the image.
!IPTCPANEL_INSTRUCTIONSHINT;Enter information about embargoes, or other restrictions not covered by the Copyright field.
!IPTCPANEL_KEYWORDSHINT;Enter any number of keywords, terms or phrases used to express the subject matter in the image.
!IPTCPANEL_PROVINCE;Province or state
!IPTCPANEL_PROVINCEHINT;Enter the name of the province or state pictured in this image.
!IPTCPANEL_SOURCEHINT;Enter or edit the name of a person or party who has a role in the content supply chain, such as a person or entity from whom you received this image from.
!IPTCPANEL_SUPPCATEGORIES;Supplemental categories
!IPTCPANEL_SUPPCATEGORIESHINT;Further refines the subject of the image.
!IPTCPANEL_TITLEHINT;Enter a short verbal and human readable name for the image, this may be the file name.
!IPTCPANEL_TRANSREFERENCE;Job ID
!IPTCPANEL_TRANSREFERENCEHINT;Enter a number or identifier needed for workflow control or tracking.
!MAIN_BUTTON_ICCPROFCREATOR;ICC Profile Creator
!MAIN_FRAME_PLACES_DEL;Remove
!MAIN_MSG_TOOMANYOPENEDITORS;Too many open editors.\nPlease close an editor to continue.
!MAIN_TAB_ADVANCED;Advanced
!MAIN_TAB_ADVANCED_TOOLTIP;Shortcut: <b>Alt</b>-<b>a</b>
!MAIN_TAB_FAVORITES;Favorites
!MAIN_TAB_FAVORITES_TOOLTIP;Shortcut: <b>Alt-u</b>
!MAIN_TAB_LOCALLAB;Selective Editing
!MAIN_TAB_LOCALLAB_TOOLTIP;Shortcut: <b>Alt-o</b>
!MAIN_TOOLTIP_BACKCOLOR3;Background color of the preview: <b>middle grey</b>\nShortcut: <b>9</b>
!MAIN_TOOLTIP_PREVIEWSHARPMASK;Preview the <b>sharpening contrast mask</b>.\nShortcut: <b>p</b>\n\nOnly works when sharpening is enabled and zoom >= 100%, or when capture sharpening is enabled.
!OPTIONS_BUNDLED_MISSING;The bundled profile '<b>%1</b>' could not be found!\n\nYour installation could be damaged.\n\nDefault internal values will be used instead.
!OPTIONS_DEFIMG_MISSING;The default profile for <b>non-raw photos</b> could not be found or is not set.\n\nPlease check your profiles' directory, it may be missing or damaged.\n\n'<b>%1</b>' will be used instead.
!OPTIONS_DEFRAW_MISSING;The default profile for <b>raw photos</b> could not be found or is not set.\n\nPlease check your profiles' directory, it may be missing or damaged.\n\n'<b>%1</b>' will be used instead.
!PARTIALPASTE_ADVANCEDGROUP;Advanced Settings
!PARTIALPASTE_COLORTONING;Color toning
!PARTIALPASTE_COMPRESSGAMUT;Gamut Compression
!PARTIALPASTE_DEHAZE;Haze removal
!PARTIALPASTE_FILMNEGATIVE;Film negative
!PARTIALPASTE_FLATFIELDCLIPCONTROL;Flat-field clip control
!PARTIALPASTE_FLATFIELDFROMMETADATA;Flat-field from Metadata
!PARTIALPASTE_FRAMING;Framing
!PARTIALPASTE_LOCALCONTRAST;Local contrast
!PARTIALPASTE_LOCALLAB;Selective Editing
!PARTIALPASTE_LOCALLABGROUP;Selective Editing Settings
!PARTIALPASTE_METADATA;Metadata mode
!PARTIALPASTE_PREPROCESS_PDAFLINESFILTER;PDAF lines filter
!PARTIALPASTE_PREPROCWB;Preprocess White Balance
!PARTIALPASTE_RAWCACORR_AVOIDCOLORSHIFT;CA avoid color shift
!PARTIALPASTE_RAWCACORR_CAREDBLUE;CA red & blue
!PARTIALPASTE_RAW_BORDER;Raw border
!PARTIALPASTE_RAW_IMAGENUM;Sub-image
!PARTIALPASTE_RAW_PIXELSHIFT;Pixel Shift
!PARTIALPASTE_SOFTLIGHT;Soft light
!PARTIALPASTE_SPOT;Spot removal
!PARTIALPASTE_TM_FATTAL;Dynamic range compression
!PARTIALPASTE_TONE_EQUALIZER;Tone equalizer
!PREFERENCES_APPEARANCE;Appearance
!PREFERENCES_APPEARANCE_COLORPICKERFONT;Color picker font
!PREFERENCES_APPEARANCE_CROPMASKCOLOR;Crop mask color
!PREFERENCES_APPEARANCE_MAINFONT;Main font
!PREFERENCES_APPEARANCE_THEME;Theme
!PREFERENCES_AUTOSAVE_TP_OPEN;Save tool collapsed/expanded state on exit
!PREFERENCES_BROWSERECURSIVEDEPTH;Browse sub-folders depth
!PREFERENCES_BROWSERECURSIVEFOLLOWLINKS;Follow symbolic links when browsing sub-folders
!PREFERENCES_BROWSERECURSIVEMAXDIRS;Maximum sub-folders
!PREFERENCES_CACHECLEAR;Clear
!PREFERENCES_CACHECLEAR_ALL;Clear all cached files:
!PREFERENCES_CACHECLEAR_ALLBUTPROFILES;Clear all cached files except for cached processing profiles:
!PREFERENCES_CACHECLEAR_ONLYPROFILES;Clear only cached processing profiles:
!PREFERENCES_CACHECLEAR_SAFETY;Only files in the cache are cleared. Processing profiles stored alongside the source images are not touched.
!PREFERENCES_CAMERAPROFILESDIR;Camera profiles directory
!PREFERENCES_CHUNKSIZES;Tiles per thread
!PREFERENCES_CHUNKSIZE_RAW_AMAZE;AMaZE demosaic
!PREFERENCES_CHUNKSIZE_RAW_CA;Raw CA correction
!PREFERENCES_CHUNKSIZE_RAW_RCD;RCD demosaic
!PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic
!PREFERENCES_CHUNKSIZE_RGB;RGB processing
!PREFERENCES_CIE;CIECAM
!PREFERENCES_CIEARTIF;Avoid artifacts
!PREFERENCES_CMMBPC;Black point compensation
!PREFERENCES_COMPLEXITYLOC;Default complexity for Selective Editing
!PREFERENCES_COMPLEXITY_EXP;Advanced
!PREFERENCES_COMPLEXITY_NORM;Standard
!PREFERENCES_COMPLEXITY_SIMP;Basic
!PREFERENCES_CROP;Crop Editing
!PREFERENCES_CROP_AUTO_FIT;Automatically zoom to fit the crop
!PREFERENCES_CROP_GUIDES;Guides shown when not editing the crop
!PREFERENCES_CROP_GUIDES_FRAME;Frame
!PREFERENCES_CROP_GUIDES_FULL;Original
!PREFERENCES_CROP_GUIDES_NONE;None
!PREFERENCES_DIRECTORIES;Directories
!PREFERENCES_EDITORCMDLINE;Custom command line
!PREFERENCES_EXTEDITOR_BYPASS_OUTPUT_PROFILE;Bypass output profile
!PREFERENCES_EXTEDITOR_DIR;Output directory
!PREFERENCES_EXTEDITOR_DIR_CURRENT;Same as input image
!PREFERENCES_EXTEDITOR_DIR_CUSTOM;Custom
!PREFERENCES_EXTEDITOR_DIR_TEMP;OS temp dir
!PREFERENCES_EXTEDITOR_FLOAT32;32-bit float TIFF output
!PREFERENCES_EXTERNALEDITOR_CHANGE;Change Application
!PREFERENCES_EXTERNALEDITOR_CHANGE_FILE;Change Executable
!PREFERENCES_EXTERNALEDITOR_COLUMN_COMMAND;Command
!PREFERENCES_EXTERNALEDITOR_COLUMN_NAME;Name
!PREFERENCES_EXTERNALEDITOR_COLUMN_NATIVE_COMMAND;Native command
!PREFERENCES_FILEBROWSERTOOLBARSINGLEROW;Compact toolbars in File Browser
!PREFERENCES_INSPECTORWINDOW;Open inspector in own window or fullscreen
!PREFERENCES_INSPECT_MAXBUFFERS_TOOLTIP;Set the maximum number of images stored in cache when hovering over them in the File Browser; systems with little RAM (2GB) should keep this value set to 1 or 2.
!PREFERENCES_LANG;Language
!PREFERENCES_LENSFUNDBDIR;Lensfun database directory
!PREFERENCES_LENSFUNDBDIR_TOOLTIP;Directory containing the Lensfun database.  Leave empty to use the default directories.
!PREFERENCES_LENSPROFILESDIR;Lens profiles directory
!PREFERENCES_LENSPROFILESDIR_TOOLTIP;Directory containing Adobe Lens Correction Profiles (LCPs)
!PREFERENCES_MAX_ZOOM_TITLE;Maximum zoom
!PREFERENCES_METADATA;Metadata
!PREFERENCES_METADATA_SYNC;Metadata synchronization with XMP sidecars
!PREFERENCES_METADATA_SYNC_NONE;Off
!PREFERENCES_METADATA_SYNC_READ;Read only
!PREFERENCES_METADATA_SYNC_READWRITE;Bidirectional
!PREFERENCES_MONINTENT;Default rendering intent
!PREFERENCES_MONITOR;Monitor
!PREFERENCES_MONPROFILE;Default color profile
!PREFERENCES_MONPROFILE_WARNOSX;Due to MacOS limitations, only sRGB is supported.
!PREFERENCES_PERFORMANCE_MEASURE;Measure
!PREFERENCES_PERFORMANCE_MEASURE_HINT;Logs processing times in console
!PREFERENCES_PERFORMANCE_THREADS;Threads
!PREFERENCES_PERFORMANCE_THREADS_LABEL;Maximum number of threads for Noise Reduction and Wavelet Levels (0 = Automatic)
!PREFERENCES_PRINTER;Printer (Soft-Proofing)
!PREFERENCES_PROFILESAVEBOTH;Save processing profile both to the cache and next to the input file
!PREFERENCES_PROFILESAVELOCATION;Processing profile saving location
!PREFERENCES_PRTINTENT;Rendering intent
!PREFERENCES_PRTPROFILE;Color profile
!PREFERENCES_RAW_DECODER;Raw Decoder
!PREFERENCES_RAW_DECODER_ENABLE_LIBRAW;Use LibRaw
!PREFERENCES_SAVE_TP_OPEN_NOW;Save tool collapsed/expanded state now
!PREFERENCES_SERIALIZE_TIFF_READ;TIFF Read Settings
!PREFERENCES_SHOWTOOLTIP;Show Selective Editing advice tooltips
!PREFERENCES_SPOTLOC;Define Spot method for Selective Editing
!PREFERENCES_TAB_DYNAMICPROFILE;Dynamic Profile Rules
!PREFERENCES_TAB_FAVORITES;Favorites
!PREFERENCES_TAB_PERFORMANCE;Performance
!PREFERENCES_THUMBNAIL_INSPECTOR_JPEG;Embedded JPEG preview
!PREFERENCES_THUMBNAIL_INSPECTOR_MODE;Image to show
!PREFERENCES_THUMBNAIL_INSPECTOR_RAW;Neutral raw rendering
!PREFERENCES_THUMBNAIL_INSPECTOR_RAW_IF_NO_JPEG_FULLSIZE;Embedded JPEG if fullsize, neutral raw otherwise
!PREFERENCES_THUMBNAIL_RANK_COLOR_MODE;Load/Save thumbnail rank and color from/to XMP sidecars
!PREFERENCES_TOOLPANEL_AVAILABLETOOLS;Available Tools
!PREFERENCES_TOOLPANEL_CLONE_FAVORITES;Keep favorite tools in original locations
!PREFERENCES_TOOLPANEL_CLONE_FAVORITES_TOOLTIP;If set, favorite tools will appear in both the favorites tab and their original tabs.\n\nNote: Enabling this option may result in a slight delay when switching tabs.
!PREFERENCES_TOOLPANEL_FAVORITE;Favorite
!PREFERENCES_TOOLPANEL_FAVORITESPANEL;Favorites Panel
!PREFERENCES_TOOLPANEL_TOOL;Tool
!PREFERENCES_WBA;White Balance
!PREFERENCES_WBACORR;White Balance - Automatic temperature correlation
!PREFERENCES_WBACORR_TOOLTIP;These settings allow, depending on the images (type of raw file, colorimetry, etc.), an adaptation of the " Temperature correlation " algorithm in order to obtain the best overall results. There is no absolute rule, linking these parameters to the results obtained.\n\nThe settings are of 3 types: \n* those accessible to the user from the GUI.\n* those accessible only in reading from each pp3 file : Itcwb_minsize=20, Itcwb_delta=4 Itcwb_rgreen=1 Itcwb_nopurple=false (See Rawpedia)\n* those accessible to the user in 'options' (see Rawpedia)\n You can use "Awb temperature bias" and "Green refinement" to adjust the results. Each movement of these commands brings a new calculation of temperature, tint and correlation.\n\nPlease note that the 3 indicators 'Correlation factor', 'Patch chroma' and ΔE are given for information only. It is not because one of these indicators is better that the result will necessarily be better.
!PREFERENCES_WBAENA;Show White Balance Auto temperature correlation settings
!PREFERENCES_WBAENACUSTOM;Use Custom temperature & tint
!PREFERENCES_WBAFORC;Forces Extra algoritm
!PREFERENCES_WBAGREENDELTA;Delta temperature in green iterate loop (if Force Extra enabled)
!PREFERENCES_WBANOPURP;No purple color used
!PREFERENCES_WBAPATCH;Number maximum of colors used in picture
!PREFERENCES_WBAPRECIS;Precision algorithm - scale used
!PREFERENCES_WBASIZEREF;Size of reference color compare to size of histogram color
!PREFERENCES_WBASORT;Sort in chroma order instead of histogram
!PREFERENCES_XMP_SIDECAR_MODE;XMP sidecar style
!PREFERENCES_XMP_SIDECAR_MODE_EXT;darktable-like (FILENAME.ext.xmp for FILENAME.ext)
!PREFERENCES_XMP_SIDECAR_MODE_STD;Standard (FILENAME.xmp for FILENAME.ext)
!PREFERENCES_ZOOMONSCROLL;Zoom images by scrolling
!PROFILEPANEL_PDYNAMIC;Dynamic
!PROGRESSBAR_DECODING;Decoding...
!PROGRESSBAR_GREENEQUIL;Green equilibration...
!PROGRESSBAR_HLREC;Highlight reconstruction...
!PROGRESSBAR_HOTDEADPIXELFILTER;Hot/dead pixel filter...
!PROGRESSBAR_LINEDENOISE;Line noise filter...
!PROGRESSBAR_RAWCACORR;Raw CA correction...
!QINFO_FRAMECOUNT;%2 frames
!QINFO_HDR;HDR / %2 frame(s)
!QINFO_PIXELSHIFT;Pixel Shift / %2 frame(s)
!QUEUE_DESTPREVIEW_TITLE;Select a thumbnail to preview its destination path here
!QUEUE_DESTPREVIEW_TOOLTIP;Destination path for the first selected image appears here
!QUEUE_LOCATION_TEMPLATE_HELP_BUTTON_TOOLTIP;Show or hide a help panel with instructions for creating location templates
!QUEUE_LOCATION_TEMPLATE_HELP_EXAMPLES_BODY;If you want to save the output image alongside the source image, write:\n<b>%p1/%f</b>\n\nIf you want to save the output image in a folder named '<i>converted</i>' located in the source photo's folder, write:\n<b>%p1/converted/%f</b>\n\nIf you want to save the output image in\n'<i>/home/tom/photos/converted/2010-10-31</i>', write:\n<b>%p-3/converted/%P-4/%f</b>
!QUEUE_LOCATION_TEMPLATE_HELP_EXAMPLES_TITLE;Common examples
!QUEUE_LOCATION_TEMPLATE_HELP_INTRO;The output template field allows you to to dynamically customize the destination folder and filename. When you include certain specifiers, which begin with <b>%</b>, they are replaced by the program when each file is being saved.\n\nThe sections below describe each type of specifier.
!QUEUE_LOCATION_TEMPLATE_HELP_PATHS_BODY_1;Using this pathname as an example:
!QUEUE_LOCATION_TEMPLATE_HELP_PATHS_BODY_2;The meanings of the formatting strings are:
!QUEUE_LOCATION_TEMPLATE_HELP_PATHS_EXAMPLE_LINUX;/home/tom/photos/2010-10-31/photo1.raw
!QUEUE_LOCATION_TEMPLATE_HELP_PATHS_EXAMPLE_WINDOWS;D:\tom\photos\2010-10-31\photo1.raw
!QUEUE_LOCATION_TEMPLATE_HELP_PATHS_INTRO;The <b>%dN</b>, <b>%d-N</b>, <b>%pN</b>, <b>%p-N</b>, <b>%PN</b> and <b>%P-N</b> (N = 1..9) specifiers will be replaced by elements of the image file's directory path.\nThe format specifiers operate as follows:\n  <b>%dN</b> = Nth directory from the end of the path\n  <b>%d-N</b> = Nth directory from the start of the path\n  <b>%pN</b>  = all directories up to the Nth from the end of the path\n  <b>%p-N</b> = the first N directories in the path\n  <b>%PN</b>  = the last N directories in the path\n  <b>%P-N</b> = all directories from the Nth to the end of the path\n  <b>%f</b> = base filename (no extension)
!QUEUE_LOCATION_TEMPLATE_HELP_PATHS_INTRO_WINDOWS;For Windows paths, <b>%d-1</b> is the drive letter and colon, and <b>%d-2</b> is the base directory on that drive.
!QUEUE_LOCATION_TEMPLATE_HELP_PATHS_TITLE;Directories and partial paths
!QUEUE_LOCATION_TEMPLATE_HELP_RANK_BODY;<b>%r</b> will be replaced by the photo's rank. If the photo is unranked, '<i>0</i>' is used. If the photo is in the trash, '<i>x</i>' is used.
!QUEUE_LOCATION_TEMPLATE_HELP_RANK_TITLE;Rank
!QUEUE_LOCATION_TEMPLATE_HELP_RESULT_MISMATCH;ERROR: 2nd result is different:
!QUEUE_LOCATION_TEMPLATE_HELP_SEQUENCE_BODY;<b>%s1</b>, ..., <b>%s9</b> will be replaced by the photo's initial position in the queue at the time the queue is started. The number specifies the padding, e.g. <b>%s3</b> results in '<i>001</i>'.
!QUEUE_LOCATION_TEMPLATE_HELP_SEQUENCE_TITLE;Position/sequence in queue
!QUEUE_LOCATION_TEMPLATE_HELP_TIMESTAMP_BODY;Three different date/time values may be used in templates:\n  <b>%tE"%Y-%m-%d"</b> = when export started\n  <b>%tF"%Y-%m-%d"</b> = when file was last saved\n  <b>%tP"%Y-%m-%d"</b> = when photo was taken\nThe quoted string defines the format of the resulting date and/or time. The format string <b>%tF"%Y-%m-%d"</b> is just one example. The string can use all conversion specifiers defined for the g_date_time_format function (see https://docs.gtk.org/glib/method.DateTime.format.html).\n\nExample format strings:
!QUEUE_LOCATION_TEMPLATE_HELP_TIMESTAMP_TITLE;Date and time
!QUEUE_LOCATION_TEMPLATE_HELP_TITLE;Creating an output template
!QUEUE_LOCATION_TITLE;Output Location
!QUEUE_STARTSTOP_TOOLTIP;Start or stop processing the images in the queue.\n\nShortcut: <b>Ctrl</b>+<b>s</b>
!SAMPLEFORMAT_0;Unknown data format
!SAMPLEFORMAT_1;8-bit unsigned
!SAMPLEFORMAT_2;16-bit unsigned
!SAMPLEFORMAT_4;24-bit LogLuv
!SAMPLEFORMAT_8;32-bit LogLuv
!SAMPLEFORMAT_16;16-bit floating-point
!SAMPLEFORMAT_32;24-bit floating-point
!SAMPLEFORMAT_64;32-bit floating-point
!SAVEDLG_BIGTIFF;BigTIFF (no metadata support)
!SAVEDLG_FILEFORMAT_FLOAT; floating-point
!SOFTPROOF_GAMUTCHECK_TOOLTIP;Highlight pixels with out-of-gamut colors with respect to:\n- the printer profile, if one is set and soft-proofing is enabled,\n- the output profile, if a printer profile is not set and soft-proofing is enabled,\n- the monitor profile, if soft-proofing is disabled.
!SOFTPROOF_TOOLTIP;Soft-proofing simulates the appearance of the image:\n- when printed, if a printer profile is set in Preferences > Color Management,\n- when viewed on a display that uses the current output profile, if a printer profile is not set.
!SORT_ASCENDING;Ascending
!SORT_BY_DATE;By Date
!SORT_BY_EXIF;By EXIF
!SORT_BY_LABEL;By Color Label
!SORT_BY_NAME;By Name
!SORT_BY_RANK;By Rank
!SORT_DESCENDING;Descending
!TC_LOCALLAB_PRIM_SHIFTX;Shift x
!TC_LOCALLAB_PRIM_SHIFTX_TOOLTIP;In combination with "Refine colors", allows you to:\n 1) for low values, adjust the image purity.\n 2) for higher values, carry out moderate color toning.\nBe careful not to go outside the CIE xy diagram.
!TC_LOCALLAB_PRIM_SHIFTY;Shift y
!TC_PRIM_BLUX;Bx
!TC_PRIM_BLUY;By
!TC_PRIM_GREX;Gx
!TC_PRIM_GREY;Gy
!TC_PRIM_REDX;Rx
!TC_PRIM_REDY;Ry
!TC_PRIM_REFI;Refine colors (white-point)
!TOOLBAR_TOOLTIP_PERSPECTIVE;<b>Perspective Correction</b>\n\nEdit control lines to correct perspective distortion. Click this button again to apply correction.
!TP_BWMIX_MIXC;Channel Mixer
!TP_BWMIX_NEUTRAL;Reset
!TP_CBDL_METHOD;Process located
!TP_COLORAPP_ABSOLUTELUMINANCE;Absolute luminance
!TP_COLORAPP_ADAPSCEN_TOOLTIP;Corresponds to the luminance in candelas per m2 at the time of shooting, calculated automatically from the exif data.
!TP_COLORAPP_CAT02ADAPTATION_TOOLTIP;When setting manually, values above 65 are recommended.
!TP_COLORAPP_CATCLASSIC;Classic
!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;Mode
!TP_COLORAPP_CATSYMGEN;Automatic Symmetric
!TP_COLORAPP_CATSYMSPE;Mixed
!TP_COLORAPP_CIECAT_DEGREEOUT;Chromatic Adaptation Viewing
!TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D65) into new values whose white point is that of the new illuminant - see WP model (for example D50 or D55).
!TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation. It converts the values of an image whose white point is that of a given illuminant (for example D50) into new values whose white point is that of the new illuminant - see WP model (for example D75).
!TP_COLORAPP_FREE;Free temp + tint + CAT02/16 +[output]
!TP_COLORAPP_GEN;Settings
!TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM Color Appearance models, which were designed to better simulate how human vision perceives colors under different lighting conditions, e.g. against different backgrounds. It takes into account the environment of each color and modifies its appearance to get as close as possible to human perception. It also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments.
!TP_COLORAPP_IL41;D41
!TP_COLORAPP_IL50;D50
!TP_COLORAPP_IL55;D55
!TP_COLORAPP_IL60;D60
!TP_COLORAPP_IL65;D65
!TP_COLORAPP_IL75;D75
!TP_COLORAPP_ILA;Incandescent StdA 2856K
!TP_COLORAPP_ILFREE;Free
!TP_COLORAPP_ILLUM;Illuminant
!TP_COLORAPP_ILLUM_TOOLTIP;Select the illuminant closest to the shooting conditions.\nIn general D50, but it can change depending on the time and latitude.
!TP_COLORAPP_MEANLUMINANCE;Mean luminance (Yb%)
!TP_COLORAPP_MOD02;CAM02
!TP_COLORAPP_MOD16;CAM16
!TP_COLORAPP_MODELCAT;CAM
!TP_COLORAPP_MODELCAT_TOOLTIP;Allows you to choose between CAM02 or CAM16.\nCAM02 will sometimes be more accurate.\nCAM16 should generate fewer artifacts.
!TP_COLORAPP_NEUTRAL;Reset
!TP_COLORAPP_NEUTRAL_TOOLTIP;Reset all sliders checkbox and curves to their default values.
!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.
!TP_COLORAPP_SURROUNDSRC;Surround
!TP_COLORAPP_SURSOURCE_TOOLTIP;Changes tones and colors to take into account the surround conditions of the scene lighting. The darker the surround conditions, the brighter the image will become. Image brightness will not be changed when the surround is set to average.
!TP_COLORAPP_TEMP2_TOOLTIP;Either symmetrical mode temp = White balance.\nEither select illuminant always set Tint=1.\n\nA temp=2856\nD41 temp=4100\nD50 temp=5003\nD55 temp=5503\nD60 temp=6000\nD65 temp=6504\nD75 temp=7504
!TP_COLORAPP_TEMPOUT_TOOLTIP;Temperature and Tint.\nDepending on the choices made previously, the selected temperature is:\nWhite balance\nA temp=2856\nD41 temp=4100\nD50 temp=5003\nD55 temp=5503\nD60 temp=6000\nD65 temp=6504\nD75 temp=7504\nFree.
!TP_COLORAPP_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_VIEWINGF_TOOLTIP;Takes into account the support on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as its environment. This process will take the data coming from process 'Image Adjustments' and 'bring' it to the support in such a way that the viewing conditions and its environment are taken into account.
!TP_COLORAPP_YBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
!TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image.
!TP_COLORTONING_CURVEEDITOR_CL_TOOLTIP;Chroma opacity as a function of luminance oC=f(L).
!TP_COLORTONING_LABEL;Color Toning
!TP_COLORTONING_LABGRID;L*a*b* color correction grid
!TP_COLORTONING_LABGRID_VALUES;HL: a=%1 b=%2\nS: a=%3 b=%4
!TP_COLORTONING_LABREGIONS;Color correction regions
!TP_COLORTONING_LABREGION_ABVALUES;a=%1 b=%2
!TP_COLORTONING_LABREGION_CHANNEL;Channel
!TP_COLORTONING_LABREGION_CHANNEL_ALL;All
!TP_COLORTONING_LABREGION_CHANNEL_B;Blue
!TP_COLORTONING_LABREGION_CHANNEL_G;Green
!TP_COLORTONING_LABREGION_CHANNEL_R;Red
!TP_COLORTONING_LABREGION_CHROMATICITYMASK;C
!TP_COLORTONING_LABREGION_HUEMASK;H
!TP_COLORTONING_LABREGION_LIGHTNESS;Lightness
!TP_COLORTONING_LABREGION_LIGHTNESSMASK;L
!TP_COLORTONING_LABREGION_LIST_TITLE;Correction
!TP_COLORTONING_LABREGION_MASK;Mask
!TP_COLORTONING_LABREGION_MASKBLUR;Mask Blur
!TP_COLORTONING_LABREGION_OFFSET;Offset
!TP_COLORTONING_LABREGION_POWER;Power
!TP_COLORTONING_LABREGION_SATURATION;Saturation
!TP_COLORTONING_LABREGION_SHOWMASK;Show mask
!TP_COLORTONING_LABREGION_SLOPE;Slope
!TP_COLORTONING_METHOD_TOOLTIP;'L*a*b* blending', 'RGB sliders' and 'RGB curves' use interpolated color blending.\n'Color balance (Shadows/Midtones/Highlights)' and 'Saturation 2 colors' use direct colors.\n\nThe Black-and-White tool can be enabled when using any color toning method, which allows for color toning.
!TP_COLORTONING_TWOCOLOR_TOOLTIP;Standard chroma:\nLinear response, a* = b*.\n\nSpecial chroma:\nLinear response, a* = b*, but unbound - try under the diagonal.\n\nSpecial a* and b*:\nLinear response unbound with separate curves for a* and b*. Intended for special effects.\n\nSpecial chroma 2 colors:\nMore predictable.
!TP_COMPRESSGAMUT_ACESP1;ACES AP1
!TP_COMPRESSGAMUT_ADOBE;Adobe RGB
!TP_COMPRESSGAMUT_COLORSPACE_TOOLTIP;Gamut-compress is a tool which allows you to compress highly chromatic camera source colorimetry into a smaller gamut.\n Out of gamut negative pixel values are problematic for working on images and should be avoided if possible.\n Blue LED are perceive as highly colorful and colors like beetles, flowers and hummingbirds often over saturated.\n\n This is not a gamut conversion : converting from one gamut to another does change the values of the pixels. However it does not actually change the colorimetric meaning of the pixel data. You could say that by converting between gamuts, you are changing frame of reference to the same colors. After compression the working profile is restored.\n\n Choose the workspace that will be used to set the gamut limits. Depending on the case you can choose:\n The display gamut (sRGB, DCI P3,...). \n The gamut of an output file for use by another software (Prophoto, Rec 2020...). 
!TP_COMPRESSGAMUT_CYANLIM;Cyan
!TP_COMPRESSGAMUT_CYANTH;Cyan
!TP_COMPRESSGAMUT_DCIP3;DCI-P3
!TP_COMPRESSGAMUT_LABEL;Gamut Compression
!TP_COMPRESSGAMUT_LIMIT;Maximum Distance Limits
!TP_COMPRESSGAMUT_LIMIT_TOOLTIP;Maximum Distance Limit: is the distance outside of the gamut boundary to compress to the gamut boundary. For example, a value of 1.2 will compress distance values of 1.2 to a value of 1.0. \nIndividual controls are given for each color component. They are named cyan magenta and yellow because they actually control the max distance from the edge of the triangle (primaries related to the CIExy diagram), not the corner. For example, boosting the value of the cyan distance limit will increase the distance from which values are mapped to the edge between the blue and green corners of the triangle.\nThe distance limits also control the RGB ratios of the compressed values, which affects the apparent hue.\n\nThe distances are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the amount of compression to remain unchanged.
!TP_COMPRESSGAMUT_MAGENTALIM;Magenta
!TP_COMPRESSGAMUT_MAGENTATH;Magenta
!TP_COMPRESSGAMUT_MAIN_COLORSPACE;Target Compression Gamut
!TP_COMPRESSGAMUT_POWER_TOOLTIP;Power: Control the aggressiveness of the compression curve.\n Higher power values result in more compressed values distributed closer to the gamut boundary. This will increase the "color purity" or "saturation" once the image has been rendered through a display transform.\n Higher values have a smoother transition.
!TP_COMPRESSGAMUT_PROPHOTO;ProPhoto
!TP_COMPRESSGAMUT_PWR;Power
!TP_COMPRESSGAMUT_REC2020;Rec. 2020
!TP_COMPRESSGAMUT_ROLLOFF;Rolloff
!TP_COMPRESSGAMUT_SRGB;sRGB
!TP_COMPRESSGAMUT_THRESHOLD;Threshold
!TP_COMPRESSGAMUT_THRESHOLD_TOOLTIP;Threshold: controls the percentage of the outer gamut to affect. A value of 0.8 will compress out of gamut values into the outer 20% of the gamut. The inner 80% of the gamut core will not be affected. You can adjust the colors separately: for example if you wanted to protect magenta and yellow a little more than cyan, you could set the threshold a bit higher for cyan.\n\nThe thresholds are relative to the Target Compression Gamut. They may need to be adjusted after changing the target gamut if you want the protected color range to remain unchanged.
!TP_COMPRESSGAMUT_YELLOWLIM;Yellow
!TP_COMPRESSGAMUT_YELLOWTH;Yellow
!TP_CROP_GTCENTEREDSQUARE;Centered square
!TP_CROP_PPI;PPI
!TP_CROP_RESETCROP;Reset
!TP_CROP_SELECTCROP;Select
!TP_DEHAZE_DEPTH;Depth
!TP_DEHAZE_LABEL;Haze Removal
!TP_DEHAZE_SATURATION;Saturation
!TP_DEHAZE_SHOW_DEPTH_MAP;Show depth map
!TP_DEHAZE_STRENGTH;Strength
!TP_DIRPYRDENOISE_CHROMINANCE_AMZ;Auto multi-zones
!TP_DIRPYRDENOISE_CHROMINANCE_CURVE_TOOLTIP;Increase (multiply) the value of all chrominance sliders.\nThis curve lets you adjust the strength of chromatic noise reduction as a function of chromaticity, for instance to increase the action in areas of low saturation and to decrease it in those of high saturation.
!TP_DIRPYRDENOISE_CHROMINANCE_METHOD_TOOLTIP;Manual\nActs on the full image.\nYou control the noise reduction settings manually.\n\nAutomatic global\nActs on the full image.\n9 zones are used to calculate a global chrominance noise reduction setting.\n\nAutomatic multi-zones\nNo preview - works only during saving, but using the 'Preview' method by matching the tile size and center to the preview size and center you can get an idea of the expected results.\nThe image is divided into tiles (about 10 to 70 depending on image size) and each tile receives its own chrominance noise reduction settings.\n\nPreview\nActs on the whole image.\nThe part of the image visible in the preview is used to calculate global chrominance noise reduction settings.
!TP_DIRPYRDENOISE_CHROMINANCE_PREVIEWRESIDUAL_INFO_TOOLTIP;Displays the remaining noise levels of the part of the image visible in the preview after wavelet.\n\n>300 Very noisy\n100-300 Noisy\n50-100 A little noisy\n<50 Very low noise\n\nBeware, the values will differ between RGB and L*a*b* mode. The RGB values are less accurate because the RGB mode does not completely separate luminance and chrominance.
!TP_DIRPYRDENOISE_LABEL;Noise Reduction
!TP_DIRPYRDENOISE_MAIN_AUTO_GAIN;Compensate for lightness
!TP_DIRPYRDENOISE_MAIN_AUTO_GAIN_TOOLTIP;Alter the noise reduction strength based on the image lightness. Strength is reduced for dark images and increased for bright images.
!TP_DIRPYRDENOISE_MAIN_MODE_TOOLTIP;Conservative preserves low frequency chroma patterns, while aggressive obliterates them.
!TP_DIRPYRDENOISE_MEDIAN_METHOD;Median method
!TP_DIRPYRDENOISE_MEDIAN_METHOD_LABEL;Median Filter
!TP_DIRPYRDENOISE_MEDIAN_METHOD_TOOLTIP;When using the 'Luminance only' and 'L*a*b*' methods, median filtering will be performed just after the wavelet step in the noise reduction pipeline.\nWhen using the 'RGB' mode, it will be performed at the very end of the noise reduction pipeline.
!TP_DIRPYRDENOISE_MEDIAN_PASSES;Median iterations
!TP_DIRPYRDENOISE_MEDIAN_PASSES_TOOLTIP;Applying three median filter iterations with a 3×3 window size often leads to better results than using one median filter iteration with a 7×7 window size.
!TP_DIRPYRDENOISE_MEDIAN_TYPE;Median type
!TP_DIRPYRDENOISE_MEDIAN_TYPE_TOOLTIP;Apply a median filter of the desired window size. The larger the window's size, the longer it takes.\n\n3×3 soft: treats 5 pixels in a 3×3 pixel window.\n3×3: treats 9 pixels in a 3×3 pixel window.\n5×5 soft: treats 13 pixels in a 5×5 pixel window.\n5×5: treats 25 pixels in a 5×5 pixel window.\n7×7: treats 49 pixels in a 7×7 pixel window.\n9×9: treats 81 pixels in a 9×9 pixel window.\n\nSometimes it is possible to achieve higher quality running several iterations with a smaller window size than one iteration with a larger one.
!TP_DIRPYREQUALIZER_HUESKIN_TOOLTIP;This pyramid is for the upper part, so far as the algorithm at its maximum efficiency.\nTo the lower part, the transition zones.\nIf you need to move the area significantly to the left or right - or if there are artifacts: the <b>white balance is incorrect</b>\nYou can slightly reduce the zone to prevent the rest of the image is affected.
!TP_DISTORTION_AUTO_TOOLTIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera.
!TP_DISTORTION_DEFISH;De-fish
!TP_DISTORTION_FOCAL_LENGTH;Focal length
!TP_EXPOSURE_CLAMPOOG;Clip out-of-gamut colors
!TP_EXPOSURE_HISTMATCHING;Auto-Matched Tone Curve
!TP_EXPOSURE_HISTMATCHING_TOOLTIP;Automatically adjust sliders and curves (except exposure compensation) to match the look of the embedded JPEG thumbnail.
!TP_FILMNEGATIVE_BLUE;Blue ratio
!TP_FILMNEGATIVE_BLUEBALANCE;Cool/Warm
!TP_FILMNEGATIVE_COLORSPACE;Inversion color space:
!TP_FILMNEGATIVE_COLORSPACE_INPUT;Input color space
!TP_FILMNEGATIVE_COLORSPACE_TOOLTIP;Select the color space used to perform the negative inversion:\n<b>Input color space</b> : perform inversion before the input profile is applied, as in the previous versions of RT.\n<b>Working color space</b> : perform inversion after input profile, using the currently selected working profile.
!TP_FILMNEGATIVE_COLORSPACE_WORKING;Working color space
!TP_FILMNEGATIVE_GREEN;Reference exponent
!TP_FILMNEGATIVE_GREENBALANCE;Magenta/Green
!TP_FILMNEGATIVE_GUESS_TOOLTIP;Automatically set the red and blue ratios by picking two patches which had a neutral hue (no color) in the original scene. The patches should differ in brightness.
!TP_FILMNEGATIVE_LABEL;Film Negative
!TP_FILMNEGATIVE_OUT_LEVEL;Output level
!TP_FILMNEGATIVE_PICK;Pick neutral spots
!TP_FILMNEGATIVE_PICK_SIZE;Size:
!TP_FILMNEGATIVE_RED;Red ratio
!TP_FILMNEGATIVE_REF_LABEL;Input RGB: %1
!TP_FILMNEGATIVE_REF_PICK;Pick white balance spot
!TP_FILMNEGATIVE_REF_SIZE;Size:
!TP_FILMNEGATIVE_REF_TOOLTIP;Pick a gray patch for white-balancing the output, positive image.
!TP_FLATFIELD_CLIPCONTROL;Clip control
!TP_FLATFIELD_CLIPCONTROL_TOOLTIP;Clip control avoids clipped highlights caused by applying the flat field. If there are already clipped highlights before applying the flat field, value 0 is used.
!TP_FLATFIELD_FROMMETADATA;From Metadata
!TP_FRAMING_ABSOLUTE_HEIGHT;Border Height
!TP_FRAMING_ABSOLUTE_WIDTH;Border Width
!TP_FRAMING_ALLOW_UPSCALING;Allow upscaling to frame
!TP_FRAMING_ASPECT_RATIO;Aspect Ratio:
!TP_FRAMING_BASIS;Basis
!TP_FRAMING_BASIS_AUTO;Auto
!TP_FRAMING_BASIS_HEIGHT;Height
!TP_FRAMING_BASIS_LONG_SIDE;Long Edge
!TP_FRAMING_BASIS_SHORT_SIDE;Short Edge
!TP_FRAMING_BASIS_WIDTH;Width
!TP_FRAMING_BLUE;Blue
!TP_FRAMING_BORDER_COLOR;Border Color
!TP_FRAMING_BORDER_SIZE;Size
!TP_FRAMING_BORDER_SIZE_ABSOLUTE;Absolute
!TP_FRAMING_BORDER_SIZE_METHOD;Sizing:
!TP_FRAMING_BORDER_SIZE_RELATIVE;Relative
!TP_FRAMING_BORDER_SIZE_UNIFORM_RELATIVE;Uniform Relative
!TP_FRAMING_FRAMED_HEIGHT;Framed Height
!TP_FRAMING_FRAMED_WIDTH;Framed Width
!TP_FRAMING_GREEN;Green
!TP_FRAMING_LABEL;Framing
!TP_FRAMING_LIMIT_MINIMUM;Limit minimum size
!TP_FRAMING_METHOD;Method:
!TP_FRAMING_METHOD_BBOX;Bounding Box
!TP_FRAMING_METHOD_FIXED;Fixed Frame
!TP_FRAMING_METHOD_STANDARD;Standard
!TP_FRAMING_MIN_HEIGHT;Minimum Height
!TP_FRAMING_MIN_WIDTH;Minimum Width
!TP_FRAMING_ORIENTATION;Orientation:
!TP_FRAMING_RED;Red
!TP_HLREC_COLOROPP;Inpaint Opposed
!TP_HLREC_HLBLUR;Blur
!TP_HLREC_HLTH;Gain threshold
!TP_ICM_APPLYBASELINEEXPOSUREOFFSET_TOOLTIP;Employ the embedded DCP baseline exposure offset. The setting is only available if the selected DCP has one.
!TP_ICM_APPLYHUESATMAP_TOOLTIP;Employ the embedded DCP base table (HueSatMap). The setting is only available if the selected DCP has one.
!TP_ICM_APPLYLOOKTABLE;Look table
!TP_ICM_BW;Black and White
!TP_ICM_FBW;Black-and-White
!TP_ICM_GAMUT;Gamut control
!TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the 'Destination primaries' selection is set to 'Custom (sliders)'.
!TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6
!TP_ICM_NEUTRAL;Reset
!TP_ICM_OPACITYWLI;Variable contrast
!TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K
!TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046
!TP_ICM_PRIMFRAME;Primaries & Illuminant
!TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750
!TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode ('working profile') to a different mode ('destination primaries'). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the 'primaries' is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders).
!TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653
!TP_ICM_PROFILEINTENT;Rendering Intent
!TP_ICM_REDFRAME;Custom Primaries
!TP_ICM_SAVEREFERENCE;Save Reference Image
!TP_ICM_SMOOTHFRAME;Highlight attenuation
!TP_ICM_TRCFRAME;Abstract Profile
!TP_ICM_TRCFRAME_TOOLTIP;Also known as 'synthetic' or 'virtual' profiles, which are applied at the end of the processing pipeline (prior to CIECAM) allowing you to create custom image effects.\nYou can make changes to the:\n 'Tone response curve', which modifies the tones of the image.\n 'Illuminant', which allows you to change the profile primaries to adapt them to the shooting conditions.\n 'Destination primaries', which allows you to change the destination primaries with three main uses - channel mixer, restore image color (saturation), and calibration.\nNote: Abstract profiles take into account the built-in working profiles without modifying them. They do not work with custom working profiles.
!TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB 'Tone response curve' in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus.
!TP_ICM_WAVFRAME;Contrast Enhancement
!TP_ICM_WAVREFI;Refinement
!TP_ICM_WORKING_CAT;Matrix adaptation
!TP_ICM_WORKING_CAT_BRAD;Bradford
!TP_ICM_WORKING_CAT_CAT02;Cat02
!TP_ICM_WORKING_CAT_CAT16;Cat16
!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
!TP_ICM_WORKING_ILLU;Illuminant
!TP_ICM_WORKING_ILLU_1500;Tungsten 1500K
!TP_ICM_WORKING_ILLU_2000;Tungsten 2000K
!TP_ICM_WORKING_ILLU_D41;D41
!TP_ICM_WORKING_ILLU_D50;D50
!TP_ICM_WORKING_ILLU_D55;D55
!TP_ICM_WORKING_ILLU_D60;D60
!TP_ICM_WORKING_ILLU_D65;D65
!TP_ICM_WORKING_ILLU_D80;D80
!TP_ICM_WORKING_ILLU_D120;D120
!TP_ICM_WORKING_ILLU_E;E
!TP_ICM_WORKING_ILLU_NONE;Default
!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_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
!TP_ICM_WORKING_PRIM_BET;Beta RGB
!TP_ICM_WORKING_PRIM_BRU;BruceRGB
!TP_ICM_WORKING_PRIM_BST;BestRGB
!TP_ICM_WORKING_PRIM_CUS;Custom (sliders)
!TP_ICM_WORKING_PRIM_CUSGR;Custom (CIE xy Diagram)
!TP_ICM_WORKING_PRIM_FREE;Custom LA (sliders)
!TP_ICM_WORKING_PRIM_JDCMAX;JDC Max
!TP_ICM_WORKING_PRIM_JDCMAXSTDA;JDC Max stdA
!TP_ICM_WORKING_PRIM_NONE;Default
!TP_ICM_WORKING_PRIM_PROP;ProPhoto
!TP_ICM_WORKING_PRIM_REC;Rec2020
!TP_ICM_WORKING_PRIM_SRGB;sRGB
!TP_ICM_WORKING_PRIM_TOOLTIP;Performs a gamut control. Destination primaries (Advanced) allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified.\nWhen 'Custom LA (sliders)' is selected, you can modify the values of the 3 primaries (Red, Green, and Blue) for x and y.
!TP_ICM_WORKING_PRIM_WID;WideGamut
!TP_ICM_WORKING_SMOOTH;Highlight attenuation
!TP_ICM_WORKING_TRC;Tone response curve:
!TP_ICM_WORKING_TRC_18;Prophoto g=1.8
!TP_ICM_WORKING_TRC_22;Adobe g=2.2
!TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5
!TP_ICM_WORKING_TRC_CUSTOM;Custom
!TP_ICM_WORKING_TRC_GAMMA;Gamma
!TP_ICM_WORKING_TRC_LIN;Linear g=1
!TP_ICM_WORKING_TRC_NONE;None
!TP_ICM_WORKING_TRC_SLOPE;Slope
!TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92
!TP_ICM_WORKING_TRC_TOOLTIP;Only for built-in profiles.
!TP_LENSGEOM_LIN;Linear
!TP_LENSGEOM_LOG;Logarithmic
!TP_LENSGEOM_SCALE;Scale
!TP_LENSPROFILE_CORRECTION_AUTOMATCH;Automatically selected
!TP_LENSPROFILE_CORRECTION_LCPFILE;LCP file
!TP_LENSPROFILE_CORRECTION_MANUAL;Manually selected
!TP_LENSPROFILE_CORRECTION_METADATA;From file metadata
!TP_LENSPROFILE_LENS_WARNING;Warning: the crop factor used for lens profiling is larger than the crop factor of the camera, the results might be wrong.
!TP_LENSPROFILE_MODE_HEADER;Lens Profile
!TP_LENSPROFILE_USE_CA;Chromatic aberration
!TP_LENSPROFILE_USE_GEOMETRIC;Geometric distortion
!TP_LENSPROFILE_USE_HEADER;Correct
!TP_LENSPROFILE_USE_VIGNETTING;Vignetting
!TP_LOCALCONTRAST_AMOUNT;Amount
!TP_LOCALCONTRAST_DARKNESS;Darkness level
!TP_LOCALCONTRAST_LABEL;Local Contrast
!TP_LOCALCONTRAST_LIGHTNESS;Lightness level
!TP_LOCALCONTRAST_RADIUS;Radius
!TP_LOCALLAB_ACTIV;Luminance only
!TP_LOCALLAB_ACTIVSPOT;Enable Spot
!TP_LOCALLAB_ADJ;Equalizer Color
!TP_LOCALLAB_AMOUNT;Amount
!TP_LOCALLAB_ARTIF;ΔE Shape detection
!TP_LOCALLAB_ARTIF_TOOLTIP;ΔE scope threshold increases the range of ΔE scope. High values are for very wide gamut images.\nIncreasing ΔE decay can improve shape detection, but can also reduce the scope.
!TP_LOCALLAB_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). Default: Munsell only.\n\nMunsell only: Fixes Lab mode hue drifts due to non-linearity when chromaticity is changed (Uniform Perceptual Lab).\nLab: Applies a gamut control in relative colorimetric. Munsell is then applied.\nXYZ Absolute: Applies gamut control in absolute colorimetric. Munsell is then applied.\nXYZ Relative: Applies gamut control in relative colorimetric. Munsell is then applied. The result is not the same as Lab.
!TP_LOCALLAB_AVOIDMUN;Munsell correction only
!TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
!TP_LOCALLAB_AVOIDRAD;Soft radius
!TP_LOCALLAB_BALAN;Lightness-Chroma balance
!TP_LOCALLAB_BALANEXP;Laplacian balance
!TP_LOCALLAB_BALANH;Hue-Chroma balance
!TP_LOCALLAB_BALAN_TOOLTIP;Changes the ΔE algorithm parameters.\nTakes into account more or less a*b* or L*, or more or less C or H.\nNot for Denoise.
!TP_LOCALLAB_BASELOG;Shadows range (logarithm base)
!TP_LOCALLAB_BILATERAL;Bilateral filter
!TP_LOCALLAB_BLACK_EV;Black Ev
!TP_LOCALLAB_BLCO;Chrominance only
!TP_LOCALLAB_BLENDMASKCOL;Blend
!TP_LOCALLAB_BLENDMASKMASK;Add/subtract luma mask
!TP_LOCALLAB_BLENDMASKMASKAB;Add/subtract chroma mask
!TP_LOCALLAB_BLENDMASKMASK_TOOLTIP;If this slider = 0 no action.\nAdd or subtract the mask from the original image.
!TP_LOCALLAB_BLENDMASK_TOOLTIP;If blend = 0 only shape detection is improved.\nIf blend > 0 the mask is added to the image. If blend < 0 the mask is subtracted from the image.
!TP_LOCALLAB_BLGUID;Guided Filter
!TP_LOCALLAB_BLINV;Inverse
!TP_LOCALLAB_BLLC;Luminance & Chrominance
!TP_LOCALLAB_BLLO;Luminance only
!TP_LOCALLAB_BLMED;Median
!TP_LOCALLAB_BLMETHOD_TOOLTIP;Normal: direct blur and noise with all settings.\nInverse: blur and noise with all settings. Warning, some settings may give curious results.
!TP_LOCALLAB_BLNOI_EXP;Blur & Noise
!TP_LOCALLAB_BLNORM;Normal
!TP_LOCALLAB_BLUFR;Blur/Grain & Denoise
!TP_LOCALLAB_BLUMETHOD_TOOLTIP;To blur the background and isolate the foreground:\n-blur the background by completely covering the image with a spot (high values for scope and transition and 'Normal' or 'Inverse' in checkbox).\n-Isolate the foreground by using one or more 'Excluding' spots and increase the scope.\n\nThis module (including the 'median' and 'Guided filter') can be used in addition to the main-menu noise reduction.
!TP_LOCALLAB_BLUR;Gaussian Blur - Noise - Grain
!TP_LOCALLAB_BLURCOL;Radius
!TP_LOCALLAB_BLURCOLDE_TOOLTIP;The image used to calculate dE is blurred slightly to avoid taking isolated pixels into account.
!TP_LOCALLAB_BLURDE;Blur shape detection
!TP_LOCALLAB_BLURLC;Luminance only
!TP_LOCALLAB_BLURLEVELFRA;Blur levels
!TP_LOCALLAB_BLURMASK_TOOLTIP;Uses a large-radius blur to create a mask that allows you to vary the contrast of the image and/or darken/lighten parts of it.
!TP_LOCALLAB_BLURRMASK_TOOLTIP;Allows you to vary the 'radius' of the Gaussian blur (0 to 1000).
!TP_LOCALLAB_BLUR_TOOLNAME;Blur/Grain & Denoise
!TP_LOCALLAB_BLWH;All changes forced in Black-and-White
!TP_LOCALLAB_BLWH_TOOLTIP;Force color components 'a' and 'b' to zero.\nUseful for black and white processing, or film simulation.
!TP_LOCALLAB_BUTTON_ADD;Add
!TP_LOCALLAB_BUTTON_DEL;Delete
!TP_LOCALLAB_BUTTON_DUPL;Duplicate
!TP_LOCALLAB_BUTTON_REN;Rename
!TP_LOCALLAB_BUTTON_VIS;Show/Hide
!TP_LOCALLAB_BWEVNONE;None
!TP_LOCALLAB_BWEVNONE11;None
!TP_LOCALLAB_BWEVSIG;Sigmoid
!TP_LOCALLAB_BWEVSIG11;Activated
!TP_LOCALLAB_BWEVSLOP;Slope based
!TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev
!TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance)
!TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16 (experimental). Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images, for example, to match CAM16 processing with the maximum monitor brightness of 400cd/m2.
!TP_LOCALLAB_CAM16_FRA;CAM16 Image Adjustments
!TP_LOCALLAB_CAMMODE;CAM model
!TP_LOCALLAB_CAMMODE_CAM16;CAM16
!TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz
!TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16
!TP_LOCALLAB_CBDL;Contrast by Detail Levels
!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;Contrast by Detail Levels
!TP_LOCALLAB_CENTER_X;Center X
!TP_LOCALLAB_CENTER_Y;Center Y
!TP_LOCALLAB_CH;CL - LC
!TP_LOCALLAB_CHRO46LABEL;Chroma levels 456: Mean=%1 High=%2
!TP_LOCALLAB_CHROLABEL;Chroma levels 0123: Mean=%1 High=%2
!TP_LOCALLAB_CHROMA;Chrominance
!TP_LOCALLAB_CHROMABLU;Chroma levels
!TP_LOCALLAB_CHROMABLU_TOOLTIP;Increases or reduces the effect depending on the luma settings.\nValues under 1 reduce the effect. Values greater than 1 increase the effect.
!TP_LOCALLAB_CHROMACBDL;Chroma
!TP_LOCALLAB_CHROMACB_TOOLTIP;Increases or reduces the effect depending on the luma settings.\nValues under 1 reduce the effect. Values greater than 1 increase the effect.
!TP_LOCALLAB_CHROMALEV;Chroma levels
!TP_LOCALLAB_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;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_CIECOLORFRA;Color
!TP_LOCALLAB_CIECONTFRA;Contrast
!TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast
!TP_LOCALLAB_CIELIGHTFRA;Lighting
!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_TOOLTIP;In Default mode, CIECAM is added at the end of the process. 'Mask And Modifications' and 'Recovery Based On Luminance Mask' are available for'CAM16 and JzCzHz' at your disposal .\nYou can also integrate CIECAM into other tools if you wish (TM, Wavelet, Dynamic Range, Log encoding). The results for these tools will be different to those without CIECAM. In this mode, you can also use 'Mask And Modifications' and 'Recovery Based On Luminance Mask'.
!TP_LOCALLAB_CIEMODE_WAV;Wavelet
!TP_LOCALLAB_CIETOOLEXP;Curves
!TP_LOCALLAB_CIE_SMOOTHFRAME;Highlight Attenuation & Levels
!TP_LOCALLAB_CIE_SMOOTHFRAME12;Tone Mapping Operators
!TP_LOCALLAB_CIE_SMOOTH_EV;Ev based
!TP_LOCALLAB_CIE_SMOOTH_GAMMA;Slope based
!TP_LOCALLAB_CIE_SMOOTH_GAMMA ROLLOFF;Gamma based
!TP_LOCALLAB_CIE_SMOOTH_LEVELS;RGB channel Slope
!TP_LOCALLAB_CIE_SMOOTH_LEVELSTRC;RGB channel TRC
!TP_LOCALLAB_CIE_SMOOTH_NONE;None
!TP_LOCALLAB_CIE_SMOOTH_SIG;Sigmoid based
!TP_LOCALLAB_CIE_TOOLNAME;Color Appearance (CAM16 & JzCzHz)
!TP_LOCALLAB_CIRCRADIUS;Spot size
!TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin.
!TP_LOCALLAB_CLARICRES;Merge chroma
!TP_LOCALLAB_CLARIFRA;Clarity & Sharp mask/Blend & Soften Images
!TP_LOCALLAB_CLARIJZ_TOOLTIP;Levels 0 to 4 (included): 'Sharp mask' is enabled\nLevels 5 and above: 'Clarity' is enabled.
!TP_LOCALLAB_CLARILRES;Merge luma
!TP_LOCALLAB_CLARISOFT;Soft radius
!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_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_CLARITYML;Clarity
!TP_LOCALLAB_CLARI_TOOLTIP;Levels 0 to 4 (included): 'Sharp mask' is enabled\nLevels 5 and above: 'Clarity' is enabled.\nUseful if you use 'Wavelet level tone mapping'.
!TP_LOCALLAB_CLIPTM;Clip restored data (gain)
!TP_LOCALLAB_COFR;Color & Light
!TP_LOCALLAB_COLORDE;ΔE preview color - intensity
!TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button in Settings will only work if you have activated 'Sharpening', 'Soft Light and Original Retinex', 'Blur/Grain and Denoise', 'Dehaze and Retinex', or 'Contrast by Detail Levels' in the 'Add tool to current spot' menu.\nFor others tools, the Preview ΔE button is in the tool, which allows previewing ΔE with several tools enabled. Prefer using Mask And Modifications.
!TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask And Modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative.
!TP_LOCALLAB_COLORFRAME;Dominant Color
!TP_LOCALLAB_COLORSCOPE;Scope (color tools)
!TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls.
!TP_LOCALLAB_COLOR_CIE;Color curve
!TP_LOCALLAB_COLOR_TOOLNAME;Color & Light
!TP_LOCALLAB_COL_NAME;Name
!TP_LOCALLAB_COL_VIS;Status
!TP_LOCALLAB_COMPFRA;Directional contrast
!TP_LOCALLAB_COMPRCIE;Brightness compression
!TP_LOCALLAB_COMPRCIETH;Compression threshold
!TP_LOCALLAB_COMPREFRA;Wavelet level tone mapping
!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
!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
!TP_LOCALLAB_CONTWFRA;Local contrast
!TP_LOCALLAB_CSTHRESHOLD;Wavelet levels
!TP_LOCALLAB_CSTHRESHOLDBLUR;Wavelet level selection
!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' 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.
!TP_LOCALLAB_CURVES_CIE;Tone curve
!TP_LOCALLAB_CURVNONE;Disable curves
!TP_LOCALLAB_DARKRETI;Darkness
!TP_LOCALLAB_DEHAFRA;Dehaze
!TP_LOCALLAB_DEHAZ;Strength
!TP_LOCALLAB_DEHAZE_BLACK;Black
!TP_LOCALLAB_DEHAZFRAME_TOOLTIP;Removes atmospheric haze. Increases overall saturation and detail.\nCan remove color casts, but may also introduce a blue cast which can be corrected with other tools.
!TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze.
!TP_LOCALLAB_DELTAD;Delta balance
!TP_LOCALLAB_DELTAEC;ΔE Image mask
!TP_LOCALLAB_DENOI1_EXP;Denoise Based On Luminance Mask
!TP_LOCALLAB_DENOI2_EXP;Recovery Based On Luminance Mask
!TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or 'salt &amp; pepper' noise.
!TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise.
!TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT).
!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_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_DENOITHR_TOOLTIP;Adjusts edge detection to help reduce noise in uniform, low-contrast areas.
!TP_LOCALLAB_DENOIWAVCH;Wavelets: Chrominance
!TP_LOCALLAB_DENOIWAVLUM;Wavelets: Luminance
!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 (ΔE).\nMinimum spot size: 128x128.
!TP_LOCALLAB_DEPTH;Depth
!TP_LOCALLAB_DETAIL;Local contrast
!TP_LOCALLAB_DETAILFRA;Edge detection - DCT
!TP_LOCALLAB_DETAILSH;Details
!TP_LOCALLAB_DETAILTHR;Lum/chrom detail threshold
!TP_LOCALLAB_DISAB_CIECAM;Disable CIECAM or Weak Jz surround
!TP_LOCALLAB_DIVGR;Gamma
!TP_LOCALLAB_DUPLSPOTNAME;Copy
!TP_LOCALLAB_EDGFRA;Edge sharpness
!TP_LOCALLAB_EDGSHOW;Show all tools
!TP_LOCALLAB_ELI;Ellipse
!TP_LOCALLAB_ENABLE_AFTER_MASK;Use Tone Mapping
!TP_LOCALLAB_ENABLE_MASK;Enable mask
!TP_LOCALLAB_ENABLE_MASKAFT;Use all algorithms Exposure
!TP_LOCALLAB_ENABLE_MASKALL;Enable all mask tools
!TP_LOCALLAB_ENARETIMASKTMAP_TOOLTIP;If enabled the Mask uses Restored Data after Transmission Map instead of Original data.
!TP_LOCALLAB_ENH;Enhanced
!TP_LOCALLAB_ENHDEN;Enhanced + chroma denoise
!TP_LOCALLAB_EPSBL;Detail
!TP_LOCALLAB_EQUIL;Normalize luminance
!TP_LOCALLAB_EQUILTM_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image are identical to those of the original.
!TP_LOCALLAB_ESTOP;Edge stopping
!TP_LOCALLAB_EV_DUPL;Copy of
!TP_LOCALLAB_EV_NVIS;Hide
!TP_LOCALLAB_EV_NVIS_ALL;Hide all
!TP_LOCALLAB_EV_VIS;Show
!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 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
!TP_LOCALLAB_EXNORM;Normal spot
!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.
!TP_LOCALLAB_EXPCOLOR_TOOLTIP;Adjust color, lightness, contrast and correct small defects such as red-eye, sensor dust etc.
!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 'Lightness-chroma balance (ΔE)'
!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
!TP_LOCALLAB_EXPGRADCOL_TOOLTIP;A graduated filter is available in Color & Light (luminance, chrominance & hue gradients, and 'Merge file'), Exposure (luminance gradient), Exposure Mask (luminance gradient), Shadows/Highlights (luminance gradient), Vibrance (luminance, chrominance & hue gradients), Local contrast & wavelet pyramid (local contrast gradient).\nThe graduated filter preview is only accurate when the image is viewed in fit-to-screen mode.\n\nThe graduated filter is only available in Full image or Global mode.
!TP_LOCALLAB_EXPLAPBAL_TOOLTIP;Changes the transformed/original image blend.
!TP_LOCALLAB_EXPLAPGAMM_TOOLTIP;Changes the behaviour for images with too much or too little contrast by adding a gamma curve before and after the Laplace transform.
!TP_LOCALLAB_EXPLAPLIN_TOOLTIP;Changes the behaviour for underexposed images by adding a linear component prior to applying the Laplace transform.
!TP_LOCALLAB_EXPLAP_TOOLTIP;Moving the slider to the right progressively reduces the contrast.
!TP_LOCALLAB_EXPMERGEFILE_TOOLTIP;Allows you to use GIMP or Photoshop layer blend modes (difference, multiply, soft light, overlay, etc.) with opacity control.\nOriginal image: merge current spot with original.\nPrevious spot: merge current spot with previous (if there is only one spot, previous = original).\nBackground: merge current spot with a color and luminance background (fewer possibilties).
!TP_LOCALLAB_EXPNOISEMETHOD_TOOLTIP;Applies a median filter before the Laplace transform to prevent artifacts (noise).\nYou can also use the 'Denoise' tool.
!TP_LOCALLAB_EXPOSE;Dynamic Range & Exposure
!TP_LOCALLAB_EXPOSURE_TOOLTIP;Modify exposure in L*a*b space using Laplacian PDE algorithms to take into account dE and minimize artifacts.
!TP_LOCALLAB_EXPRETITOOLS;Advanced Retinex Tools
!TP_LOCALLAB_EXPSHARP_TOOLTIP;Spot minimum 39*39.\nUse low transition values and high 'Transition decay' and 'Scope' values to simulate smaller spots.
!TP_LOCALLAB_EXPTOOL;Exposure Tools
!TP_LOCALLAB_EXP_TOOLNAME;Dynamic Range & Exposure
!TP_LOCALLAB_FATAMOUNT;Amount
!TP_LOCALLAB_FATANCHOR;Anchor
!TP_LOCALLAB_FATDETAIL;Detail
!TP_LOCALLAB_FATFRA;Dynamic Range Compression ƒ
!TP_LOCALLAB_FATFRAME_TOOLTIP;PDE Fattal – uses the Fattal Tone-mapping algorithm.
!TP_LOCALLAB_FATLEVEL;Sigma
!TP_LOCALLAB_FATSAT;Saturation control
!TP_LOCALLAB_FATSHFRA;Dynamic Range Compression Mask ƒ
!TP_LOCALLAB_FEATH_TOOLTIP;Gradient width as a percentage of the Spot diagonal\nUsed by all graduated filters in all tools.\nNo action if a graduated filter hasn't been activated.
!TP_LOCALLAB_FEATVALUE;Feather gradient
!TP_LOCALLAB_FEATVALUE_MASK;Feather gradient (Grad. Filters Mask)
!TP_LOCALLAB_FFTCOL_MASK;FFTW ƒ
!TP_LOCALLAB_FFTMASK_TOOLTIP;Use a Fourier transform for better quality (increased processing time and memory requirements).
!TP_LOCALLAB_FFTW;ƒ - Use Fast Fourier Transform
!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_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
!TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
!TP_LOCALLAB_GAMSH;Gamma
!TP_LOCALLAB_GAMUTLABRELA;Lab
!TP_LOCALLAB_GAMUTMUNSELL;Munsell only
!TP_LOCALLAB_GAMUTNON;None
!TP_LOCALLAB_GAMUTXYZABSO;XYZ Absolute
!TP_LOCALLAB_GAMUTXYZRELA;XYZ Relative
!TP_LOCALLAB_GAMW;Gamma (wavelet pyramids)
!TP_LOCALLAB_GHSBPWP;Clipped pixel count - Shadows:%1 Highlights:%2
!TP_LOCALLAB_GHSBPWPVALUE;Pixel values - Darkest:%1 Lightest:%2
!TP_LOCALLAB_GHSFRA;Stretch Settings
!TP_LOCALLAB_GHSHUE;Hue (HSL)
!TP_LOCALLAB_GHSLAB;Lightness & chromaticity (Lab)
!TP_LOCALLAB_GHSLABFRA;Lab settings
!TP_LOCALLAB_GHSLUM;Luminance (HSL)
!TP_LOCALLAB_GHSRGBLUM;RGB Luminance
!TP_LOCALLAB_GHSRGBSTD;RGB Standard
!TP_LOCALLAB_GHSSAT;Saturation (HSL)
!TP_LOCALLAB_GHS_B;Local intensity (b)
!TP_LOCALLAB_GHS_BLACKPOINT_FRAME;Black point/White point/Highlights
!TP_LOCALLAB_GHS_BLP;Black point (BP linear)
!TP_LOCALLAB_GHS_BLP_TOOLTIP;Sets the Black point for a linear stretch of the image.\n * For negatives slider values, in GHS ‘normal’, shadows are raised linearly to avoid excessive noise build-up and facilitate GHS work.\n * For positives slider values, the histogram is shifted to the left. For Raw images, you can also use Raw-Tab > Raw Black Points – Dehaze,  which is more precise.\n * Contrast gained by performing the linear stretch will be evenly distributed over the image.\n\n * You can adjust a linear black point offset to either:\n  - account for noise in the deep shadows.\n  - adjust the histogram.\n\n * It is recommended to adjust these sliders before the main GHS sliders to avoid clipping data. A very low Stretch factor (D) value (0.001 by default) is recommended for performing this adjustment.\n * The label 'Clipped pixel count Shadows:x Highlights=y' shows you the number of pixels that would be clipped without adjusting the two sliders.\n * The label Pixel values - Darkest:w Lightest:z shows you the minimum and maximum values in the range [0, 1].\n\n * In ‘Inverse GHS’ mode the behavior is reversed and there are possible interactions with the White point.
!TP_LOCALLAB_GHS_BPFRAME_TOOLTIP;Sets the Black point (BP linear), White point (WP linear) and Highlight for a linear stretch of the image.\n\n * Black Point (BP linear) and White Point (WP linear) settings are only available if Stretch factor (D) is between 0.001 and 0.002 so as to not affect the histogram.\n\n * When Stretch factor is 0.002 or less, all stretch settings except for Black point and White point have no effect.\n\n * Black point (BP linear) and White point (WP linear) settings are sensitive to the general settings upstream of GHS: Highlight reconstruction, White balance and RAW processes.\n\n * To have relevant Black Point (BP linear) and White Point (WP linear) settings, the entire image must be analyzed. It is recommended to use 'Fit whole image to screen - Shortcut Alt-f'.
!TP_LOCALLAB_GHS_B_TOOLTIP;This parameter controls how tightly focused the stretch is around the Symmetry point (SP) by changing the form of the transform itself:\n * For concentrated stretches (such as initial stretches on linear images) a large 'b' factor should be employed to focus a stretch within a histogram peak while de-focusing the stretch away from the histogram peak.\n * For adjustment of non-linear images, lower 'b' parameters should be employed to distribute contrast and brightness more evenly.\n * Large positive values of 'b' can be thought of as a histogram widener, i.e. spreading the histogram wider about the focus point, SP.\n * By contrast, lower values of 'b' tend to shift the histogram to a brighter or dimmer position without affecting its width too greatly.\n * As a general rule, the level of 'b' employed will decrease as a stretch sequence nears completion, although larger 'b' values can still be employed for precise placement of additional contrast.
!TP_LOCALLAB_GHS_CHRO;Chromaticity Lab factor (C)
!TP_LOCALLAB_GHS_CHRO_TOOLTIP;GHS chromaticity - compensate large stretches
!TP_LOCALLAB_GHS_CURVE_TOOLTIP;Shows the 'S' curve generated by GHS calculations. Mainly for educational purposes.\n\n * The curve only reacts to the adjusters and cannot be modified directly.
!TP_LOCALLAB_GHS_D;Stretch factor (D)
!TP_LOCALLAB_GHS_D_TOOLTIP;This parameter controls the amount of stretch. If the Stretch factor is set to zero, there is no stretch. In other words, the transformation is the identity transformation.\n\n * Black Point (BP linear) and White Point (WP linear) settings are only available if Stretch factor (D) is between 0.001 and 0.002.
!TP_LOCALLAB_GHS_GHSDIAG;GHS Curve Visualization
!TP_LOCALLAB_GHS_HLP;White point (WP linear)
!TP_LOCALLAB_GHS_HLP_TOOLTIP;Sets the White point for a linear stretch of the image. Any pixel with value greater than the White point input will be clipped and the data lost.\n * Contrast gained by performing the linear stretch will be evenly distributed over the image, which will be brightened. Pixels with values greater than the White point will appear white and have a value of 1.0.\n * Setting this parameter to a value greater than 1 will extend the dynamic range at the high end.\n * The 'Highlight reconstruction' method has a very strong impact on the White-point value.\n\n * It is recommended to adjust this slider before the main GHS sliders to avoid clipping data. A very low Stretch factor (D) value (0.001 by default) is recommended for performing this adjustment.\n * The label 'Clipped pixel count - Shadows:x Highlights=y' shows you the number of pixels that would be clipped without adjusting the two sliders.\n * The label Pixel values - Darkest:w Lightest:z shows you the minimum and maximum values in the range [0, 1].\n\n * In ‘Inverse GHS’ mode the behavior is reversed and there are possible interactions with the Black point.
!TP_LOCALLAB_GHS_HP;Protect highlights (HP)
!TP_LOCALLAB_GHS_HP_TOOLTIP;Sets a value above which the stretch is modified to preserve contrast in the highlights. This is done by performing a linear stretch of the data above the 'HP' level by reserving contrast from the rest of the image. Moving the HP level towards the current setting of SP increases both the scope (range) and the amount of this contrast reservation. The net effect is to push the overall stretch to lower brightness levels while keeping the contrast and definition in the highlights. The amount of contrast reserved for the highlights is such that the continuity of the stretch is preserved.\n * This parameter must be at most 1 and no less than the Symmetry point.\n * The adjuster will automatically limit the minimum value based on the Symmetry Point (SP).\n\n * Using Highlight attenuation helps to reinforce the action of Protect highlights (HP).
!TP_LOCALLAB_GHS_INV;Inverse GHS
!TP_LOCALLAB_GHS_INV_TOOLTIP;The inverse GHS is useful for working in negative space. It adds contrast on the far right and left of the histogram, brightening the deep shadows, darkening the bright highlights, and squeezing the histogram to the middle.\n\n * The Generalized Hyperbolic inverse transformation allows you to recover your original image, subject to mathematical precision, but you can use it for other purposes.\n\n * If the White point and Black point were changed in normal mode, they will likely need to be readjusted. The White point often needs to be readjusted lower. There is interaction between the two settings.
!TP_LOCALLAB_GHS_LC;Value (LC)
!TP_LOCALLAB_GHS_LC_FRAME;Stretch Regularization & Midtones
!TP_LOCALLAB_GHS_LC_TOOLTIP;Slightly increases local contrast that was weakened by stretching.\nCan be completed by other tools specific to local contrast such as wavelets.\n\nWhen Stretch factor is 0.002 or less, Stretch Regularization & Midtones is disabled.
!TP_LOCALLAB_GHS_LP;Protect shadows (LP)
!TP_LOCALLAB_GHS_LP_TOOLTIP;Sets a value below which the stretch is modified to preserve contrast in the shadows/lowlights. This is done by performing a linear stretch of the data below the 'LP' level by reserving contrast from the rest of the image. Moving the LP level towards the current setting of SP changes both the scope (range) and the amount of this contrast reservation. The net effect is to push the overall stretch to higher brightness levels while keeping the contrast and definition in the background. The amount of contrast reserved for the lowlights is such that the continuity of the stretch is preserved.\n * This parameter must be at least 0 and no greater than the Symmetry point.\n * The adjuster will automatically limit the maximum value based on the Symmetry Point (SP).\n\n * Using Black point - negative values - when possible, allows to change both the value of Symmetry point (SP) and the action of Protect shadows (LP).
!TP_LOCALLAB_GHS_METHOD_TOOLTIP;The Generalized Hyperbolic Stretch (GHS) process allows you to transform the values of pixels in your image to improve the representation of the underlying data for human visualisation.\nThe generalized hyperbolic equations used in the GHS process have five main parameters. This allows significant flexibility in designing the "shape" of the transformation.\n\nTypical uses of pixel intensity transformations include:\n * Initial stretch of pixel data from linear state.\n * Addition of contrast to key areas of the image.\n * Overall brightening or darkening of the image.\n * Adjustment of the image dynamic range.\n * Adjustment of pixel data in RGB Luminance, RGB standard, Luminance - chromaticity (Lab/Lch), Luminance (HSL), Saturation (HSL), or Hue (HSL) channels.\n\n * For a better results, you can proceed in several steps, creating 2 or more RT-spots each superimposed with the GHS tool. For each of the RT-Spots, the Symmetry point (SP) base value will be different. Use the histogram peak to position the SP value.\n * For example, you can start the system in RGB mode (1st Spot), then the 2nd Spot in RGB mode with a different SP, and the 3rd in Saturation or Hue mode.\n * You can mix RT-spots in 'Normal' mode and 'Inverse' mode to restore contrast balance.\n * Full Image allows you to limit the effect to specific colors based on the deltaE.
!TP_LOCALLAB_GHS_MID;Midtones
!TP_LOCALLAB_GHS_MID_TOOLTIP;Adjusts midtone balance after GHS transformation.\nCan be used to rebalance the midtones of the image after stretching.\n\nWhen Stretch factor is 0.002 or less, Stretch Regularization & Midtones is disabled.
!TP_LOCALLAB_GHS_MODECUR;GHS
!TP_LOCALLAB_GHS_MODELIN;Linear
!TP_LOCALLAB_GHS_SIMUL_TOOLTIP;Gives a representation of the GHS function.
!TP_LOCALLAB_GHS_SLOPE;Slope Lab factor (S)
!TP_LOCALLAB_GHS_SLOPE_TOOLTIP;Changes the slope of the Lab transform to improve shadow rendering.
!TP_LOCALLAB_GHS_SMOOTH;Highlight attenuation
!TP_LOCALLAB_GHS_SMOOTH_TOOLTIP;Smooth and soften highlight areas. Amplifies 'Protect highlights (HP)' action.
!TP_LOCALLAB_GHS_SP;Symmetry point (SP)
!TP_LOCALLAB_GHS_SP_TOOLTIP;The default value of 0.015 is suitable for the majority of images.\n * This is the key balance value of the GHS system.\n * Sets the focus point around which the stretch is applied - contrast will be distributed symmetrically about SP.\n * While 'b' provides the degree of focus of the stretch, SP determines where that focus is applied.\n * SP should generally be placed within a histogram peak so that the stretch will widen and lower the peak by adding the most contrast in the stretch at that point. Pixel values will move away from the SP location.
!TP_LOCALLAB_GRADANG;Gradient angle
!TP_LOCALLAB_GRADANG_TOOLTIP;Rotation angle in degrees: -180 0 +180.
!TP_LOCALLAB_GRADFRA;Graduated Filter Mask
!TP_LOCALLAB_GRADGEN_TOOLTIP;Adjusts luminance gradient strength.
!TP_LOCALLAB_GRADLOGFRA;Graduated Filter Luminance
!TP_LOCALLAB_GRADSTR;Gradient strength
!TP_LOCALLAB_GRADSTRAB_TOOLTIP;Adjusts chroma gradient strength.
!TP_LOCALLAB_GRADSTRCHRO;Chroma gradient strength
!TP_LOCALLAB_GRADSTRHUE;Hue gradient strength
!TP_LOCALLAB_GRADSTRHUE2;Hue gradient strength
!TP_LOCALLAB_GRADSTRHUE_TOOLTIP;Adjusts hue gradient strength.
!TP_LOCALLAB_GRADSTRLUM;Luma gradient strength
!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: Full image & Global)
!TP_LOCALLAB_GRIDFRAME_TOOLTIP;You can use this tool as a brush. Use a small spot and adapt the 'Transition value' and 'Transition decay'\nOnly 'Normal' mode and possibly Hue, Saturation, Color, Luminosity are concerned by Merge background (ΔE).
!TP_LOCALLAB_GRIDMETH_TOOLTIP;Color toning: the luminance is taken into account when varying chroma. Equivalent to H=f(H) if the 'white dot' on the grid remains at zero and you only vary the 'black dot'. Equivalent to 'Color toning' if you vary the 2 dots.\n\nDirect: acts directly on the chroma.
!TP_LOCALLAB_GRIDONE;Color Toning
!TP_LOCALLAB_GRIDTWO;Direct
!TP_LOCALLAB_GUIDBL;Soft radius
!TP_LOCALLAB_GUIDBL_TOOLTIP;Applies a guided filter with adjustable radius. Allows you to reduce artifacts or blur the image.
!TP_LOCALLAB_GUIDEPSBL_TOOLTIP;Changes the distribution function of the guided filter. Negative values simulate a Gaussian blur.
!TP_LOCALLAB_GUIDFILTER;Guided filter radius
!TP_LOCALLAB_GUIDFILTER_TOOLTIP;Can reduce or increase artifacts.
!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_HUECIE;Hue
!TP_LOCALLAB_IND;Independent (mouse)
!TP_LOCALLAB_INDSL;Independent (mouse + sliders)
!TP_LOCALLAB_INVBL;Inverse
!TP_LOCALLAB_INVBL_TOOLTIP;Alternative to 'Inverse' mode: use two spots\nFirst Spot:\n Full Image\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\n \nSecond spot: Excluding spot\n\n Inverse will enable this tool for the area outside the spot, while the area within the spot will remain unaffected by the tool.
!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_JZ100_TOOLTIP;Automatically adjusts the reference Jz 100 cd/m2 level (image signal).\nChanges the saturation level and action of 'PU adaptation' (Perceptual Uniform adaptation).
!TP_LOCALLAB_JZADAP;PU adaptation
!TP_LOCALLAB_JZCH;Chroma
!TP_LOCALLAB_JZCHROM;Chroma
!TP_LOCALLAB_JZCLARICRES;Merge chroma Cz
!TP_LOCALLAB_JZCLARILRES;Merge Jz
!TP_LOCALLAB_JZCONT;Contrast
!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_JZFRA;Jz Cz Hz Image Adjustments
!TP_LOCALLAB_JZHFRA;Curves Hz
!TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz)
!TP_LOCALLAB_JZHUECIE;Hue rotation
!TP_LOCALLAB_JZLIGHT;Brightness
!TP_LOCALLAB_JZLOG;Log encoding Jz
!TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation.
!TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including 'Log encoding Jz'.\nAlso calculates the absolute luminance at the time of shooting.
!TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the Log encoding. Lower values of mean luminance will result in increased gain.
!TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function.
!TP_LOCALLAB_JZPQFRA;Jz remapping
!TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf 'PQ - Peak luminance' is set to 10000, 'Jz remappping' behaves in the same way as the original Jzazbz algorithm.
!TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance (cd/m2)
!TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices.
!TP_LOCALLAB_JZQTOJ;Relative luminance
!TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use 'Relative luminance' instead of 'Absolute luminance' - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve.
!TP_LOCALLAB_JZSAT;Saturation
!TP_LOCALLAB_JZSHFRA;Shadows/Highlights Jz
!TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter)
!TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter
!TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%)
!TP_LOCALLAB_JZTHRHCIE;Threshold chroma for Jz(Hz)
!TP_LOCALLAB_JZWAVEXP;Wavelet Jz
!TP_LOCALLAB_LABBLURM;Blur Mask
!TP_LOCALLAB_LABEL;Selective Editing
!TP_LOCALLAB_LABGRID;Color correction grid
!TP_LOCALLAB_LABGRIDMERG;Background
!TP_LOCALLAB_LABGRID_VALUES;High(a)=%1 High(b)=%2\nLow(a)=%3 Low(b)=%4
!TP_LOCALLAB_LABSTRUM;Structure Mask
!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;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_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_LCLABELS;Residual noise levels
!TP_LOCALLAB_LCLABELS_TOOLTIP;Displays the mean and high-end noise values for the area shown in the Preview Panel (at 100% zoom). The noise values are grouped by wavelet levels 0,1,2,3 and 4,5,6.\nThe displayed values are indicative only and are designed to assist with denoise adjustments. They should not be interpreted as absolute noise levels.\n\n 300: Very noisy\n 100-300: Noisy\n 50-100: Moderatly noisy\n < 50: Low noise\n\nThey allow you to see:\n*The impact of Noise Reduction in the main-menu Detail tab.\n*The influence of Non-local Means, Wavelets and DCT on the luminance noise.\n*The influence of Wavelets and DCT on the chroma noise.\n*The influence of Capture Sharpening and Demosaicing.
!TP_LOCALLAB_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
!TP_LOCALLAB_LEVELBLUR;Maximum blur levels
!TP_LOCALLAB_LEVELWAV;Wavelet levels
!TP_LOCALLAB_LEVELWAV_TOOLTIP;The Level is automatically adapted to the size of the spot and the preview.\nFrom level 9 size max 512 to level 1 size max = 4.
!TP_LOCALLAB_LEVFRA;Levels
!TP_LOCALLAB_LIGHTNESS;Lightness
!TP_LOCALLAB_LIGHTN_TOOLTIP;In inverse mode: selection = -100 forces luminance to zero.
!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 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;Pyramid 1:
!TP_LOCALLAB_LOC_CONTRASTPYR2;Pyramid 2:
!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;CAM16 Image Adjustments
!TP_LOCALLAB_LOG2FRA;Viewing Conditions
!TP_LOCALLAB_LOGAUTO;Automatic
!TP_LOCALLAB_LOGAUTOGRAYJZ_TOOLTIP;Automatically calculates the 'Mean luminance' for the scene conditions.
!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_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device.
!TP_LOCALLAB_LOGCIE;Log encoding
!TP_LOCALLAB_LOGCIEQ;Log encoding Q with CIECAM (deprecated)
!TP_LOCALLAB_LOGCIEQ_TOOLTIP;Activating the checkbox allows you to switch between Log encoding based on the 3 RGB channels, and Log encoding based solely on CIECAM’s brightness (Q) channel.\nUsing the Q channel instead of the RGB channels helps avoid undesirable edge effects such as hue and saturation shifts.\nHowever, the settings are more difficult to optimise because Q is unbounded and CIECAM alters the data to take into account the surround conditions, simultaneous contrast, etc.\nYou may have to adjust the following:\n   Scene conditions: Mean luminance (Yb), Whites &amp; Blacks distribution, Black Ev, White Ev.\n   Source Data Adjustments : Brightness compression, Strength.\n\nNote: when using Log encoding (Q), be careful not to activate the Disable CIECAM option in the Scene Conditions, Surround menu.
!TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you to use Black Ev, White Ev, White and Black distribution, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using 'Log encoding' with Brightness compression.
!TP_LOCALLAB_LOGCOLORFL;Colorfulness (M)
!TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored.
!TP_LOCALLAB_LOGCONQL;Contrast (Q)
!TP_LOCALLAB_LOGCONTHRES;Contrast threshold (J & Q)
!TP_LOCALLAB_LOGCONTL;Contrast (J)
!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_LOGCONTTHRES_TOOLTIP;Adjusts the mid-tone contrast range (J &amp; Q).\nPositive values progressively reduce the effect of the Contrast sliders (J &amp; 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_LOGEXP;All tools
!TP_LOCALLAB_LOGFRA;Scene Conditions
!TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting.
!TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding CIECAM variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode).
!TP_LOCALLAB_LOGLIGHTL;Lightness (J)
!TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration.
!TP_LOCALLAB_LOGLIGHTQ;Brightness (Q)
!TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear.
!TP_LOCALLAB_LOGLIN;Logarithm mode
!TP_LOCALLAB_LOGPFRA;Relative Exposure Levels
!TP_LOCALLAB_LOGPFRA2;Log Encoding Settings
!TP_LOCALLAB_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 tones and on the highlights.
!TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions.
!TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\n<b>Average</b>: Average light conditions (standard). The image will not change.\n\n<b>Dim</b>: Dim conditions. The image will become slightly brighter.\n\n<b>Dark</b>: Dark conditions. The image will become more bright.
!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_LUM46LABEL;Luma levels 456: Mean=%1 High=%2
!TP_LOCALLAB_LUMADARKEST;Darkest
!TP_LOCALLAB_LUMASK;Background color/luma mask
!TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask And Modifications).
!TP_LOCALLAB_LUMAWHITESEST;Lightest
!TP_LOCALLAB_LUMFRA;L*a*b* standard
!TP_LOCALLAB_LUMLABEL;Luma levels 0123: Mean=%1 High=%2
!TP_LOCALLAB_MASFRAME;Mask and Merge
!TP_LOCALLAB_MASFRAME_TOOLTIP;For all masks.\nTakes into account the ΔE image to avoid modifying the selection area when the following Mask Tools are used: Gamma, Slope, Chroma, Contrast curve, Local contrast (by wavelet level), Blur Mask and Structure Mask (if enabled ).\nDisabled when Inverse mode is used.
!TP_LOCALLAB_MASK;Curves
!TP_LOCALLAB_MASK2;Contrast curve
!TP_LOCALLAB_MASKCOM;Common Color Mask
!TP_LOCALLAB_MASKCOM_TOOLNAME;Common Color Mask
!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_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased.
!TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the Denoise will be applied progressively.\n iIf the mask is above the 'light' threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders 'Gray area luminance denoise' or 'Gray area chrominance denoise'.
!TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the 'dark' threshold, then the GF will be applied progressively.\n If the mask is above the 'light' threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained.
!TP_LOCALLAB_MASKH;Hue curve
!TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\nUse a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable colorpicker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'structure mask', 'Smooth radius', 'Gamma and slope', 'Contrast curve', 'Local contrast wavelet'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLCTHR;Light area luminance threshold
!TP_LOCALLAB_MASKLCTHR2;Light area luma threshold
!TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold
!TP_LOCALLAB_MASKLCTHRLOW2;Dark area luma threshold
!TP_LOCALLAB_MASKLCTHRMID;Gray area luma denoise
!TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise
!TP_LOCALLAB_MASKLC_TOOLTIP;Used by wavelet luminance.\nThis allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask.
!TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas
!TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'blur mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels:'Smooth radius', 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Smooth radius', Gamma and Slope, 'Contrast curve'.\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in 'Mask and Modifications' to change the gray levels: 'Structure mask', 'Smooth radius', Gamma and Slope, 'Contrast curve', 'Local contrast' (wavelets).\n Use a 'lockable color picker' on the mask to see which areas will be affected. Make sure you set 'Background color mask' = 0 in Settings.
!TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied.
!TP_LOCALLAB_MASKRECOTHRES;Recovery threshold
!TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied.
!TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied.
!TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied.
!TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied.
!TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The 'dark' and 'light' areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied.
!TP_LOCALLAB_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_MASKUNUSABLE;Mask disabled (Enable in Mask & Modifications)
!TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & Modifications)
!TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments.
!TP_LOCALLAB_MEDIAN;Median Low
!TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter.
!TP_LOCALLAB_MEDIAN_TOOLTIP;You can choose a median value in the range 3x3 to 9x9 pixels. Higher values increase noise reduction and blur.
!TP_LOCALLAB_MEDNONE;None
!TP_LOCALLAB_MERCOL;Color
!TP_LOCALLAB_MERDCOL;Merge background (ΔE)
!TP_LOCALLAB_MERELE;Lighten only
!TP_LOCALLAB_MERFIV;Addition
!TP_LOCALLAB_MERFOR;Color Dodge
!TP_LOCALLAB_MERFOU;Multiply
!TP_LOCALLAB_MERGE1COLFRA;Merge with Original/Previous/Background
!TP_LOCALLAB_MERGECOLFRA;Mask: LCh & Structure
!TP_LOCALLAB_MERGECOLFRMASK_TOOLTIP;Allows you to create masks based on the 3 LCh curves and/or a structure-detection algorithm.
!TP_LOCALLAB_MERGEMER_TOOLTIP;Takes ΔE into account when merging files (equivalent of scope in this case).
!TP_LOCALLAB_MERGEOPA_TOOLTIP;Opacity = % of current spot to be merged with original or previous Spot.\nContrast threshold : adjusts result as a function of contrast in original image.
!TP_LOCALLAB_MERHEI;Overlay
!TP_LOCALLAB_MERHUE;Hue
!TP_LOCALLAB_MERLUCOL;Luminance
!TP_LOCALLAB_MERLUM;Luminosity
!TP_LOCALLAB_MERNIN;Screen
!TP_LOCALLAB_MERONE;Normal
!TP_LOCALLAB_MERSAT;Saturation
!TP_LOCALLAB_MERSEV;Soft Light (legacy)
!TP_LOCALLAB_MERSEV0;Soft Light Illusion
!TP_LOCALLAB_MERSEV1;Soft Light W3C
!TP_LOCALLAB_MERSEV2;Hard Light
!TP_LOCALLAB_MERSIX;Divide
!TP_LOCALLAB_MERTEN;Darken only
!TP_LOCALLAB_MERTHI;Color Burn
!TP_LOCALLAB_MERTHR;Difference
!TP_LOCALLAB_MERTWE;Exclusion
!TP_LOCALLAB_MERTWO;Subtract
!TP_LOCALLAB_METHOD_TOOLTIP;'Enhanced + chroma denoise' significantly increases processing times.\nBut reduce artifacts.
!TP_LOCALLAB_MIDTCIE;Midtones
!TP_LOCALLAB_MLABEL;Restored data Min=%1 Max=%2
!TP_LOCALLAB_MLABEL_TOOLTIP;The values should be close to Min=0 Max=32768 (log mode) but other values are possible.You can adjust 'Clip restored data (gain)' and 'Offset' to normalize.\nRecovers image data without blending.
!TP_LOCALLAB_MODE_EXPERT;Advanced
!TP_LOCALLAB_MODE_NORMAL;Standard
!TP_LOCALLAB_MODE_SIMPLE;Basic
!TP_LOCALLAB_MRFIV;Background
!TP_LOCALLAB_MRFOU;Previous Spot
!TP_LOCALLAB_MRONE;None
!TP_LOCALLAB_MRTHR;Original Image
!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_NLDENOISENLGAM_TOOLTIP;Lower values preserve details and texture, higher values increase denoise.\nIf gamma = 3.0 Luminance 'linear' is used.
!TP_LOCALLAB_NLDENOISENLITER_TOOLTIP;Run multiple iterations of Nlmeans. Results are often better with multiple iterations and low Strength.
!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_NLDENOISE_TOOLTIP;'Detail recovery' acts on a Laplacian transform to target uniform areas rather than areas with detail.
!TP_LOCALLAB_NLDET;Detail recovery
!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_NLGAM;Gamma
!TP_LOCALLAB_NLITER;Iterations
!TP_LOCALLAB_NLLUM;Strength
!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
!TP_LOCALLAB_NOISECHROFINE;Fine chroma (Wav)
!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
!TP_LOCALLAB_NOISELUMFINE;Luminance fine 1 (Wav)
!TP_LOCALLAB_NOISELUMFINETWO;Luminance fine 2 (Wav)
!TP_LOCALLAB_NOISELUMFINEZERO;Luminance fine 0 (Wav)
!TP_LOCALLAB_NOISEMETH;Denoise
!TP_LOCALLAB_NOISE_TOOLTIP;Adds luminance noise.
!TP_LOCALLAB_NONENOISE;None
!TP_LOCALLAB_NUL_TOOLTIP;.
!TP_LOCALLAB_OFFS;Offset
!TP_LOCALLAB_OFFSETWAV;Offset
!TP_LOCALLAB_OPACOL;Opacity
!TP_LOCALLAB_ORIGLC;Merge only with original image
!TP_LOCALLAB_ORRETILAP_TOOLTIP;Modifies ΔE prior to any changes made by 'Scope'. This allows you to differentiate the action for different parts of the image (with respect to the background for example).
!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_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_PRECAMGAMUT_TOOLTIP;If checked, ensures a gamut control just after primary conversion to XYZ.
!TP_LOCALLAB_PRECAMREFIMAIN_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity. In combination with "Shift x" and "Shift y", allows you to carry out moderate color toning.
!TP_LOCALLAB_PRECAMREFI_TOOLTIP;Allows you to move the white-point in such a way that it approaches the dominant color. This action modifies the purity.
!TP_LOCALLAB_PRECAM_TOOLTIP;'Source Data Adjustments' modifies the Dynamic Range using Log encoding, the tones of the image and primaries (simplified Abstract Profile), and midtones, just before the CIECAM process. These values are adjustable:\nGamma: Acts mainly on light tones\nSlope: Acts mainly on dark tones. You can choose any pair of gamma and slope (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nDestination primaries: Allows you to change the destination primaries to restore or change image color (saturation). The color balance is significantly preserved when the 'Working Profile' and the 'Destination primaries' are similar. 'Working Profile' is not modified. You can also finely adapt the primaries and the illuminant (white-point). Moving a primary away from the white point reduces saturation and vice versa. Pay attention to the gamut.
!TP_LOCALLAB_PREVHIDE;Hide additional settings
!TP_LOCALLAB_PREVIEW;Preview ΔE
!TP_LOCALLAB_PREVSHOW;Show additional settings
!TP_LOCALLAB_PRIMILLFRAME;Primaries & Illuminant
!TP_LOCALLAB_PROCESSWAV;Show modified areas with Wavelets
!TP_LOCALLAB_PROCESSWAV_TOOLTIP;Wavelet decomposition:\nShows the changes made by the wavelet settings.\n\nYou see the changes made to the decomposed image, factoring in the deltaE and transitions, when you modify the wavelet settings. Note that this is different from Wavelet levels in the Advanced tab in which you always see the results of the decomposition.
!TP_LOCALLAB_PROXI;ΔE decay
!TP_LOCALLAB_QJMODE;Tone Mapping Operators Q(CAM16) & J(Jz) 
!TP_LOCALLAB_QJMODE_511;5.11 deprecated
!TP_LOCALLAB_QJMODE_512;5.12
!TP_LOCALLAB_QJMODE_TOOLTIP;The tone-mapping operators that use brightness data (Q for CAM16 and J for Jz) have been modified in RawTherapee version 5.12. This allows you to select either the current or the deprecated version.
!TP_LOCALLAB_QUAAGRES;Aggressive
!TP_LOCALLAB_QUACONSER;Conservative
!TP_LOCALLAB_QUALCURV_METHOD;Curve type
!TP_LOCALLAB_QUAL_METHOD;Global quality
!TP_LOCALLAB_QUANONEALL;Off
!TP_LOCALLAB_QUANONEWAV;Non-local means only
!TP_LOCALLAB_RADIUS;Radius
!TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30.
!TP_LOCALLAB_RADMASKCOL;Smooth radius
!TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the 'Recovery threshold' value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, CAM16, etc.)\nIf the value of the 'Recovery threshold' is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the 'Recovery threshold' acts on the masked image as modified by the current tool (Color and Light, Wavelet, CAM16, etc.).
!TP_LOCALLAB_RECT;Rectangle
!TP_LOCALLAB_RECURS;Recursive references
!TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks.
!TP_LOCALLAB_REN_DIALOG_LAB;Enter the new Control Spot name
!TP_LOCALLAB_REN_DIALOG_NAME;Renaming Control Spot
!TP_LOCALLAB_REPARCOL_TOOLTIP;Allows you to adjust the relative strength of the Color and Light image with respect to the original image.
!TP_LOCALLAB_REPARDEN_TOOLTIP;Allows you to adjust the relative strength of the Denoise image with respect to the original image.
!TP_LOCALLAB_REPAREXP_TOOLTIP;Allows you to adjust the relative strength of the Dynamic Range and Exposure image with respect to the original image.
!TP_LOCALLAB_REPARSH_TOOLTIP;Allows you to adjust the relative strength of the Shadows/Highlights and Tone Equalizer image with respect to the original image.
!TP_LOCALLAB_REPARTM_TOOLTIP;Allows you to adjust the relative strength of the Tone mapping image with respect to the original image.
!TP_LOCALLAB_REPARW_TOOLTIP;Allows you to adjust the relative strength of the local contrast and wavelet image with respect to the original image.
!TP_LOCALLAB_RESID;Residual Image
!TP_LOCALLAB_RESIDBLUR;Blur residual image
!TP_LOCALLAB_RESIDCHRO;Residual image Chroma
!TP_LOCALLAB_RESIDCOMP;Compress residual image
!TP_LOCALLAB_RESIDCONT;Residual image Contrast
!TP_LOCALLAB_RESIDHI;Highlights
!TP_LOCALLAB_RESIDHITHR;Highlights threshold
!TP_LOCALLAB_RESIDSHA;Shadows
!TP_LOCALLAB_RESIDSHATHR;Shadows threshold
!TP_LOCALLAB_RETI;Dehaze & Retinex
!TP_LOCALLAB_RETIFRA;Retinex
!TP_LOCALLAB_RETIFRAME_TOOLTIP;Retinex can be useful for processing images: \nthat are blurred, foggy or hazy (in addition to Dehaze).\nthat contain large differences in luminance.\nIt can also be used for special effects (tone mapping).
!TP_LOCALLAB_RETIM;Original Retinex
!TP_LOCALLAB_RETITOOLFRA;Retinex Tools
!TP_LOCALLAB_RETI_LIGHTDARK_TOOLTIP;Has no effect when the value of 'Lightness = 1' or 'Darkness =2'.\nFor other values, the last step of a 'Multiple scale Retinex' algorithm (similar to 'local contrast') is applied. These 2 cursors, associated with 'Strength' allow you to make adjustments upstream of local contrast.
!TP_LOCALLAB_RETI_LIMDOFFS_TOOLTIP;Adjusts the internal parameters to optimize the response.\nPreferable to keep the 'Restored data' values close to Min=0 and Max=32768 (log mode), but other values are possible.
!TP_LOCALLAB_RETI_LOGLIN_TOOLTIP;Logarithm mode introduces more contrast but will also generate more halos.
!TP_LOCALLAB_RETI_NEIGH_VART_TOOLTIP;The radius and variance sliders allow you adjust haze and target either the foreground or the background.
!TP_LOCALLAB_RETI_SCALE_TOOLTIP;If Scale=1, Retinex behaves like local contrast with additional possibilities.\nIncreasing the value of Scale increases the intensity of the recursive action at the expense of processing time.
!TP_LOCALLAB_RET_TOOLNAME;Dehaze & Retinex
!TP_LOCALLAB_REWEI;Reweighting iterates
!TP_LOCALLAB_RGB;RGB Tone Curve
!TP_LOCALLAB_RGBCURVE_TOOLTIP;In RGB mode you have 4 choices : Standard, Weighted standard, Luminance &amp; 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_SATCIE;Saturation control
!TP_LOCALLAB_SATUR;Saturation
!TP_LOCALLAB_SATURV;Saturation (s)
!TP_LOCALLAB_SCALEGR;Scale
!TP_LOCALLAB_SCALERETI;Scale
!TP_LOCALLAB_SCALTM;Scale
!TP_LOCALLAB_SCOPEMASK;Scope (ΔE image mask)
!TP_LOCALLAB_SCOPEMASK_TOOLTIP;Enabled if ΔE Image Mask is enabled.\nLow values avoid retouching selected area.
!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 and hue references from the center of the spot\n\nYou can also adjust the ΔE of the mask itself by using 'Scope (ΔE 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_SH3;Generalized Hyperbolic Stretch (GHS)
!TP_LOCALLAB_SHADEX;Shadows
!TP_LOCALLAB_SHADEXCOMP;Shadow compression
!TP_LOCALLAB_SHADHIGH;Shadows/Highlights, Equalizer & GHS
!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 and highlights either with 'Shadows Highlights' sliders, 'Tone Equalizer', or 'Generalized Hyperbolic Stretch' (GHS).\nCan be used instead of, or in conjunction with the Exposure module, or for GHS as a tone mapper.
!TP_LOCALLAB_SHAMASKCOL;Shadows
!TP_LOCALLAB_SHAPETYPE;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.
!TP_LOCALLAB_SHARAMOUNT;Amount
!TP_LOCALLAB_SHARBLUR;Blur radius
!TP_LOCALLAB_SHARDAMPING;Damping
!TP_LOCALLAB_SHARFRAME;Modifications
!TP_LOCALLAB_SHARITER;Iterations
!TP_LOCALLAB_SHARP;Sharpening
!TP_LOCALLAB_SHARP_TOOLNAME;Sharpening
!TP_LOCALLAB_SHARRADIUS;Radius
!TP_LOCALLAB_SHORTC;Short Curves 'L' Mask
!TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7.
!TP_LOCALLAB_SHOWC;Mask And Modifications
!TP_LOCALLAB_SHOWC1;Merge file
!TP_LOCALLAB_SHOWCB;Mask And Modifications
!TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process
!TP_LOCALLAB_SHOWE;Mask And Modifications
!TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct)
!TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first)
!TP_LOCALLAB_SHOWLC;Mask And Modifications
!TP_LOCALLAB_SHOWMASK;Show mask
!TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays Masks and Modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the 'Spot structure' cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm.
!TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization.
!TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise
!TP_LOCALLAB_SHOWMASKTYP2;Denoise
!TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise
!TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with 'Mask And Modifications'.\nIf 'Blur and noise' is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for 'Blur and noise'.\nIf 'Blur and noise + Denoise' is selected, the mask is shared. Note that in this case, the Scope sliders for both 'Blur and noise' and Denoise will be active so it is advisable to use the option 'Show modifications with mask' when making any adjustments.
!TP_LOCALLAB_SHOWMNONE;Show modified image
!TP_LOCALLAB_SHOWMODIF;Show modified areas without mask
!TP_LOCALLAB_SHOWMODIF2;Show modified areas
!TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask
!TP_LOCALLAB_SHOWNORMAL;No luminance normalization
!TP_LOCALLAB_SHOWPLUS;Mask And Modifications (Blur & Denoise)
!TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ)
!TP_LOCALLAB_SHOWR;Mask And Modifications
!TP_LOCALLAB_SHOWREF;Preview ΔE
!TP_LOCALLAB_SHOWS;Mask And Modifications
!TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced)
!TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced)
!TP_LOCALLAB_SHOWT;Mask And Modifications
!TP_LOCALLAB_SHOWVI;Mask And Modifications
!TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC
!TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default).
!TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights, Equalizer & GHS
!TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
!TP_LOCALLAB_SIGCIE;Sigmoid
!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
!TP_LOCALLAB_SIGFRA11;Sigmoid Q (deprecated)
!TP_LOCALLAB_SIGGAMJCIE;Gamma
!TP_LOCALLAB_SIGJZFRA;Sigmoid Jz
!TP_LOCALLAB_SIGJZFRA11;Sigmoid Jz (deprecated)
!TP_LOCALLAB_SIGMAWAV;Attenuation response
!TP_LOCALLAB_SIGMOID16_TOOLTIP;Allows you to simulate a tone mapping appearance using both 'CIECAM' and 'Sigmoid Q' or 'Slope based Q'. Sigmoid Q has three sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (gray point) distributes the action according to the luminance.\nc) Display White point (cd/m2) - mode advanced. \n\nSlope based has only one slider: Gray balance (slope).\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier. Log encoding inside CIECAM is removed.
!TP_LOCALLAB_SIGMOIDBL;Display White point (cd/m2)
!TP_LOCALLAB_SIGMOIDBL11;Blend
!TP_LOCALLAB_SIGMOIDLAMBDA;Contrast
!TP_LOCALLAB_SIGMOIDLOGAUTO;Auto threshold
!TP_LOCALLAB_SIGMOIDLOGEV_TOOLTIP;If the combo box selection 'Black Ev and White Ev' is 'Sigmoid and Log encoding' instead of 'Sigmoid only', the two algorithms 'Log encoding' and 'Sigmoid' are used together.
!TP_LOCALLAB_SIGMOIDNORMCIE;Scale Yb Scene
!TP_LOCALLAB_SIGMOIDNORMCIE11;Normalize Luminance
!TP_LOCALLAB_SIGMOIDNORMCIEBLEND_TOOLTIP;Blend acts on the final aspect of the image, contrast and luminance. Ratio between original and output image.
!TP_LOCALLAB_SIGMOIDNORMCIEDISP_TOOLTIP;Allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.
!TP_LOCALLAB_SIGMOIDNORMCIE_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image take into account those of the original.\nAll the adjustments acting on J or Q are taken into account, including those which are not relative to Sigmoid Q.
!TP_LOCALLAB_SIGMOIDQJ;Tone mapping Q
!TP_LOCALLAB_SIGMOIDQJ11;Black Ev & White Ev
!TP_LOCALLAB_SIGMOIDQJCOMPRCIE_TOOLTIP;When the combo box selection 'Uses Black Ev and White Ev' is 'Sigmoid and Log encoding Q' or 'Log encoding instead of Sigmoid' checked. This algorithm compress the data above the threshold slider value. The last value stands for brightness (Q) and should be close as possible to the value 'Compression threshold' (calculate when 'Auto threshold" checked, often > 1).
!TP_LOCALLAB_SIGMOIDSENSI;Adaptability
!TP_LOCALLAB_SIGMOIDTH;Skew
!TP_LOCALLAB_SIGMOIDTH11;Threshold (Gray point)
!TP_LOCALLAB_SIGMOIDWHITESCIE_TOOLTIP;Allows you, in Automatic when the dynamic range of the image is high, to change the distribution of lights in whites and deep blacks.\nCan be used with Log encoding or Sigmoid with Black Ev and White Ev enabled.\n\nThe algorithm does not change the basic data, but acts on the components necessary to calculate the Dynamic range, Black Ev, White Ev and the Gray point.
!TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a tone mapping appearance using both the 'Jz' and 'Sigmoid' function. Two sliders:\na) Contrast acts on the shape of the sigmoid curve and consequently on the strength\nb) Skew (Gray point) distributes the action according to the luminance.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
!TP_LOCALLAB_SIGSLOPJCIE;Slope
!TP_LOCALLAB_SIGTRCCIE;Source Data Adjustments
!TP_LOCALLAB_SIGWHITESCIE;Whites distribution
!TP_LOCALLAB_SLOMASKCOL;Slope
!TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying 'L' to avoid any discontinuities.
!TP_LOCALLAB_SLOPESMOOTH;Gray balance (Slope)
!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
!TP_LOCALLAB_SLOPESMOOTHG;Green Slope
!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
!TP_LOCALLAB_SLOPESMOOTRCR;Red balance (TRC)
!TP_LOCALLAB_SLOSH;Slope
!TP_LOCALLAB_SMOOTHCIE;Highlight attenuation
!TP_LOCALLAB_SMOOTHCIETH;Attenuation threshold
!TP_LOCALLAB_SMOOTHCIE_HIGH;Highlight attenuation only
!TP_LOCALLAB_SMOOTHCIE_LNK;Link R, G, & B
!TP_LOCALLAB_SMOOTHCIE_LUM;Luminosity mode
!TP_LOCALLAB_SMOOTHCIE_SCA;Scale Yb Scene
!TP_LOCALLAB_SMOOTHCIE_TOOLTIP;Completes the processing carried out by gamma, slope and midtones by causing a slight lowering of lights. Please note this does not replace Highlight reconstruction.\n\nGamma based and Slope based (Standard and Advanced) allow you to simulate a tone mapping using:\na) Scene conditions: Black-Ev, White-Ev, Mean luminance (Yb%)\nb) Viewing conditions: Mean luminance (Yb%).\n\nScale Yb Scene is function of White-Ev.\n\nSigmoid applies tone mapping with Contrast and Skew and Display White point allows you to adapt the white point to the peak luminance of the display device. Its position in the processing pipeline is not optimal so use with caution.\n\nThis new version of Sigmoid is incompatible with previous versions 5.11 and earlier.
!TP_LOCALLAB_SMOOTHCIE_TRC;Increase gamma-based attenuation
!TP_LOCALLAB_SMOOTHCIE_TRCREL;Relative gamma mode
!TP_LOCALLAB_SMOOTHCIE_YB;Scale Yb Viewing
!TP_LOCALLAB_SMOOTHCONTSIG;Contrast
!TP_LOCALLAB_SMOOTHSKEWSIG;Skew
!TP_LOCALLAB_SMOOTHWHITSIG;Display White point (cd/m2)
!TP_LOCALLAB_SOFT;Soft Light & Original Retinex
!TP_LOCALLAB_SOFTM;Soft Light
!TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm.
!TP_LOCALLAB_SOFTRADIUSCOL;Soft radius
!TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts.
!TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts
!TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex
!TP_LOCALLAB_SOURCE_ABS;Absolute luminance (cd/m2)
!TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%)
!TP_LOCALLAB_SPECCASE;Specific cases
!TP_LOCALLAB_SPECIAL;Special use of RGB curves
!TP_LOCALLAB_SPECIAL_TOOLTIP;The checkbox allows you to remove all other actions i.e. 'Scope', masks, sliders etc., (except for transitions) and use just the effect of the RGB tone-curve.
!TP_LOCALLAB_SPOTNAME;New Spot
!TP_LOCALLAB_STD;Standard
!TP_LOCALLAB_STR;Strength
!TP_LOCALLAB_STRBL;Strength
!TP_LOCALLAB_STREN;Compression strength
!TP_LOCALLAB_STRENG;Strength
!TP_LOCALLAB_STRENGR;Strength
!TP_LOCALLAB_STRENGRID_TOOLTIP;You can adjust the desired effect with 'strength', but you can also use the 'scope' function which allows you to delimit the action (e.g. to isolate a particular color).
!TP_LOCALLAB_STRENGTH;Noise
!TP_LOCALLAB_STRENGTHCIELOG;Strength
!TP_LOCALLAB_STRGRID;Strength
!TP_LOCALLAB_STRUC;Structure
!TP_LOCALLAB_STRUCCOL;Spot structure
!TP_LOCALLAB_STRUCCOL1;Spot structure
!TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate 'Mask And Modifications' > 'Show spot structure' (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and 'Local contrast' (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either 'Show modified image' or 'Show modified areas with mask'.
!TP_LOCALLAB_STRUMASKCOL;Structure mask strength
!TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise') and mask(Color &amp; Light).
!TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended!
!TP_LOCALLAB_STYPE;Shape method
!TP_LOCALLAB_STYPE_TOOLTIP;You can choose between:\nSymmetrical - left handle linked to right, top handle linked to bottom.\nIndependent - all handles are independent.
!TP_LOCALLAB_SYM;Symmetrical (mouse)
!TP_LOCALLAB_SYMSL;Symmetrical (mouse + sliders)
!TP_LOCALLAB_TARGET_GRAY;Mean luminance (Yb%)
!TP_LOCALLAB_TE_PIVOT;Pivot (Ev)
!TP_LOCALLAB_THRES;Threshold structure
!TP_LOCALLAB_THRESDELTAE;Range
!TP_LOCALLAB_THRESRETI;Threshold
!TP_LOCALLAB_THRESWAV;Balance threshold
!TP_LOCALLAB_TLABEL;TM Min=%1 Max=%2 Mean=%3 Sig=%4
!TP_LOCALLAB_TLABEL_TOOLTIP;Transmission map result.\nMin and Max are used by Variance.\nTm=Min TM=Max of Transmission Map.\nYou can normalize the results with the threshold slider.
!TP_LOCALLAB_TM;Tone Mapping
!TP_LOCALLAB_TM_MASK;Use transmission map
!TP_LOCALLAB_TONEMAPESTOP_TOOLTIP;This slider affects edge sensitivity.\n The greater the value, the more likely a change in contrast will be interpreted as an 'edge'.\n If set to zero the tone mapping will have an effect similar to unsharp masking.
!TP_LOCALLAB_TONEMAPGAM_TOOLTIP;The Gamma slider shifts the tone-mapping effect towards either the shadows or the highlights.
!TP_LOCALLAB_TONEMAPREWEI_TOOLTIP;In some cases tone mapping may result in a cartoonish appearance, and in some rare cases soft but wide halos may appear.\n Increasing the number of reweighting iterates will help fight some of these problems.
!TP_LOCALLAB_TONEMAP_TOOLTIP;Same as the tone mapping tool in the main menu.\nThe main-menu tool must be deactivated if this tool is used.
!TP_LOCALLAB_TONEMASCALE_TOOLTIP;This slider allows you to adjust the transition between 'local' and 'global' contrast.\nThe greater the value, the larger a detail needs to be for it to be boosted.
!TP_LOCALLAB_TONE_TOOLNAME;Tone Mapping
!TP_LOCALLAB_TOOLCOL;Structure mask as tool
!TP_LOCALLAB_TOOLCOLFRMASK_TOOLTIP;Allows you to modify the mask, if one exists.
!TP_LOCALLAB_TOOLMASK;Mask Tools
!TP_LOCALLAB_TOOLMASK_2;Wavelets
!TP_LOCALLAB_TOOLMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' checked: in this case a mask showing the structure will be generated after one or more of the 2 curves L(L) or LC(H) has been modified.\n Here, the 'Structure mask' behaves like the other Mask tools : Gamma, Slope, etc.\n It allows you to vary the action on the mask according to the structure of the image.
!TP_LOCALLAB_TRANSIT;Transition Gradient
!TP_LOCALLAB_TRANSITGRAD;Symmetry X & Y
!TP_LOCALLAB_TRANSITGRAD_TOOLTIP;Allows you to vary the y-axis transition.
!TP_LOCALLAB_TRANSITVALUE;Value
!TP_LOCALLAB_TRANSITWEAK;Decay (linear-log)
!TP_LOCALLAB_TRANSITWEAK_TOOLTIP;Adjust transition decay function: 1 linear , 2 parabolic, 3 cubic up to ^25.\nCan be used in conjunction with very low transition values to reduce defects (CBDL, Wavelets, Color &amp; Light).
!TP_LOCALLAB_TRANSIT_TOOLTIP;Adjust smoothness of transition between affected and unaffected areas as a percentage of the 'radius'.
!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_TRCFRAME;Tone Response Curve & Midtones
!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.
!TP_LOCALLAB_VIB_TOOLNAME;Vibrance & Warm/Cool
!TP_LOCALLAB_VIS_TOOLTIP;<b>Click</b> to show/hide selected Control Spot.\n<b>Ctrl</b>+<b>click</b> to show/hide all Control Spot.
!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 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.
!TP_LOCALLAB_WAT_CLARIL_TOOLTIP;'Merge luma' is used to select the intensity of the desired effect on luminance.
!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.\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_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_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.
!TP_LOCALLAB_WAT_WAVESHOW_TOOLTIP;Shows all of the 'Edge sharpness' tools. It is advisable to read the Wavelet Levels documentation.
!TP_LOCALLAB_WAT_WAVLEVELBLUR_TOOLTIP;Allows you to adjust the maximum effect of blurring on the levels.
!TP_LOCALLAB_WAT_WAVSHAPE_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_WAVTM_TOOLTIP;The lower (negative) part compresses each level of decomposition creating a tone mapping effect.\nThe upper (positive) part attenuates the contrast by level.\nThe finest to coarsest levels of decomposition are from left to right on the x-axis.
!TP_LOCALLAB_WAV;Local contrast
!TP_LOCALLAB_WAVBLUR_TOOLTIP;Allows you to blur each level of the decomposition, as well as the residual image.
!TP_LOCALLAB_WAVCOMP;Compression by level
!TP_LOCALLAB_WAVCOMPRE;Compression by level
!TP_LOCALLAB_WAVCOMPRE_TOOLTIP;Allows you to apply tone mapping or reduce local contrast on individual levels.\nFine to coarse detail levels from left to right on the x-axis.
!TP_LOCALLAB_WAVCOMP_TOOLTIP;Allows you to apply local contrast based on the direction of the wavelet decomposition : horizontal, vertical, diagonal.
!TP_LOCALLAB_WAVCON;Contrast by level
!TP_LOCALLAB_WAVCONTF_TOOLTIP;Similar to Contrast By Detail Levels. Fine to coarse detail levels from left to right on the x-axis.
!TP_LOCALLAB_WAVDEN;Luminance denoise
!TP_LOCALLAB_WAVE;Wavelets
!TP_LOCALLAB_WAVEDG;Local contrast
!TP_LOCALLAB_WAVEEDG_TOOLTIP;Improves sharpness by targeting the action of local contrast on the edges. It has the same functions as the corresponding module in Wavelet Levels and uses the same settings.
!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_WAVHUE_TOOLTIP;Allows you to reduce or increase the denoise based on hue.
!TP_LOCALLAB_WAVLEV;Blur by level
!TP_LOCALLAB_WAVMASK;Local contrast
!TP_LOCALLAB_WAVMASK_TOOLTIP;Uses wavelets to modify the local contrast of the mask and reinforce or reduce the structure (skin, buildings, etc.).
!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
!TP_LOCAL_WIDTH_L;Left
!TP_LOCRETI_METHOD_TOOLTIP;Low = Reinforce low light.\nUniform = Evenly distributed.\nHigh = Reinforce strong light.
!TP_METADATA_EDIT;Apply modifications
!TP_METADATA_MODE;Metadata copy mode
!TP_METADATA_STRIP;Strip all metadata
!TP_METADATA_TUNNEL;Copy unchanged
!TP_PDSHARPENING_LABEL;Capture Sharpening
!TP_PERSPECTIVE_CAMERA_CROP_FACTOR;Crop factor
!TP_PERSPECTIVE_CAMERA_FOCAL_LENGTH;Focal length
!TP_PERSPECTIVE_CAMERA_FRAME;Correction
!TP_PERSPECTIVE_CAMERA_PITCH;Vertical
!TP_PERSPECTIVE_CAMERA_ROLL;Rotation
!TP_PERSPECTIVE_CAMERA_SHIFT_HORIZONTAL;Horizontal shift
!TP_PERSPECTIVE_CAMERA_SHIFT_VERTICAL;Vertical shift
!TP_PERSPECTIVE_CAMERA_YAW;Horizontal
!TP_PERSPECTIVE_CONTROL_LINES;Control lines
!TP_PERSPECTIVE_CONTROL_LINES_TOOLTIP;<b>Ctrl</b>+<b>drag</b>: Draw new line\n<b>Right-click</b>: Delete line
!TP_PERSPECTIVE_CONTROL_LINE_APPLY_INVALID_TOOLTIP;At least two horizontal or two vertical control lines required.
!TP_PERSPECTIVE_METHOD;Method
!TP_PERSPECTIVE_METHOD_CAMERA_BASED;Camera-based
!TP_PERSPECTIVE_METHOD_SIMPLE;Simple
!TP_PERSPECTIVE_POST_CORRECTION_ADJUSTMENT_FRAME;Post-correction adjustment
!TP_PERSPECTIVE_PROJECTION_PITCH;Vertical
!TP_PERSPECTIVE_PROJECTION_ROTATE;Rotation
!TP_PERSPECTIVE_PROJECTION_SHIFT_HORIZONTAL;Horizontal shift
!TP_PERSPECTIVE_PROJECTION_SHIFT_VERTICAL;Vertical shift
!TP_PERSPECTIVE_PROJECTION_YAW;Horizontal
!TP_PERSPECTIVE_RECOVERY_FRAME;Recovery
!TP_PREPROCESS_LINEDENOISE_DIRECTION;Direction
!TP_PREPROCESS_LINEDENOISE_DIRECTION_BOTH;Both
!TP_PREPROCESS_LINEDENOISE_DIRECTION_HORIZONTAL;Horizontal
!TP_PREPROCESS_LINEDENOISE_DIRECTION_PDAF_LINES;Horizontal only on PDAF rows
!TP_PREPROCESS_LINEDENOISE_DIRECTION_VERTICAL;Vertical
!TP_PREPROCESS_PDAFLINESFILTER;PDAF lines filter
!TP_PREPROCWB_LABEL;Preprocess White Balance
!TP_PREPROCWB_MODE;Mode
!TP_PREPROCWB_MODE_AUTO;Auto
!TP_PREPROCWB_MODE_CAMERA;Camera
!TP_RAWCACORR_AUTOIT;Iterations
!TP_RAWCACORR_AUTOIT_TOOLTIP;This setting is available if 'Auto-correction' is checked.\nAuto-correction is conservative, meaning that it often does not correct all chromatic aberration.\nTo correct the remaining chromatic aberration, you can use up to five iterations of automatic chromatic aberration correction.\nEach iteration will reduce the remaining chromatic aberration from the last iteration at the cost of additional processing time.
!TP_RAWCACORR_AVOIDCOLORSHIFT;Avoid color shift
!TP_RAWEXPOS_DEHA;Dehaze
!TP_RAW_1PASSMEDIUM;1-pass (Markesteijn)
!TP_RAW_2PASS;1-pass+fast
!TP_RAW_3PASSBEST;3-pass (Markesteijn)
!TP_RAW_4PASS;3-pass+fast
!TP_RAW_AHD;AHD
!TP_RAW_AMAZE;AMaZE
!TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear
!TP_RAW_AMAZEVNG4;AMaZE+VNG4
!TP_RAW_BORDER;Border
!TP_RAW_DCB;DCB
!TP_RAW_DCBBILINEAR;DCB+Bilinear
!TP_RAW_DCBVNG4;DCB+VNG4
!TP_RAW_DUALDEMOSAICAUTOCONTRAST;Auto threshold
!TP_RAW_DUALDEMOSAICAUTOCONTRAST_TOOLTIP;If the checkbox is checked (recommended), RawTherapee calculates an optimum value based on flat regions in the image.\nIf there is no flat region in the image or the image is too noisy, the value will be set to 0.\nTo set the value manually, uncheck the checkbox first (reasonable values depend on the image).
!TP_RAW_DUALDEMOSAICCONTRAST;Contrast threshold
!TP_RAW_EAHD;EAHD
!TP_RAW_FAST;Fast
!TP_RAW_HPHD;HPHD
!TP_RAW_IGV;IGV
!TP_RAW_IMAGENUM;Sub-image
!TP_RAW_IMAGENUM_SN;SN mode
!TP_RAW_IMAGENUM_TOOLTIP;Some raw files consist of several sub-images (Pentax/Sony Pixel Shift, Pentax 3-in-1 HDR, Canon Dual Pixel, Fuji EXR).\n\nWhen using any demosaicing method other than Pixel Shift, this selects which sub-image is used.\n\nWhen using the Pixel Shift demosaicing method on a Pixel Shift raw, all sub-images are used, and this selects which sub-image should be used for moving parts.
!TP_RAW_LMMSE;LMMSE
!TP_RAW_MONO;Mono
!TP_RAW_NONE;None (Shows sensor pattern)
!TP_RAW_PIXELSHIFT;Pixel Shift
!TP_RAW_PIXELSHIFTAVERAGE;Use average for moving parts
!TP_RAW_PIXELSHIFTAVERAGE_TOOLTIP;Use average of all frames instead of selected frame for regions with motion.\nGives motion effect on slow moving (overlapping) objects.
!TP_RAW_PIXELSHIFTBLUR;Blur motion mask
!TP_RAW_PIXELSHIFTDMETHOD;Demosaic method for motion
!TP_RAW_PIXELSHIFTEPERISO;Sensitivity
!TP_RAW_PIXELSHIFTEPERISO_TOOLTIP;The default value of 0 should work fine for base ISO.\nHigher values increase sensitivity of motion detection.\nChange in small steps and watch the motion mask while changing.\nIncrease sensitivity for underexposed or high ISO images.
!TP_RAW_PIXELSHIFTEQUALBRIGHT;Equalize brightness of frames
!TP_RAW_PIXELSHIFTEQUALBRIGHTCHANNEL;Equalize per channel
!TP_RAW_PIXELSHIFTEQUALBRIGHTCHANNEL_TOOLTIP;Enabled: Equalize the RGB channels individually.\nDisabled: Use same equalization factor for all channels.
!TP_RAW_PIXELSHIFTEQUALBRIGHT_TOOLTIP;Equalize the brightness of the frames to the brightness of the selected frame.\nIf there are overexposed areas in the frames select the brightest frame to avoid magenta color cast in overexposed areas or enable motion correction.
!TP_RAW_PIXELSHIFTGREEN;Check green channel for motion
!TP_RAW_PIXELSHIFTHOLEFILL;Fill holes in motion mask
!TP_RAW_PIXELSHIFTHOLEFILL_TOOLTIP;Fill holes in motion mask.
!TP_RAW_PIXELSHIFTMEDIAN;Use median for moving parts
!TP_RAW_PIXELSHIFTMEDIAN_TOOLTIP;Use median of all frames instead of selected frame for regions with motion.\nRemoves objects which are at different places in all frames.\nGives motion effect on slow moving (overlapping) objects.
!TP_RAW_PIXELSHIFTMM_AUTO;Automatic
!TP_RAW_PIXELSHIFTMM_CUSTOM;Custom
!TP_RAW_PIXELSHIFTMM_OFF;Off
!TP_RAW_PIXELSHIFTMOTIONMETHOD;Motion Correction
!TP_RAW_PIXELSHIFTNONGREENCROSS;Check red/blue channels for motion
!TP_RAW_PIXELSHIFTSHOWMOTION;Show motion mask
!TP_RAW_PIXELSHIFTSHOWMOTIONMASKONLY;Show only motion mask
!TP_RAW_PIXELSHIFTSHOWMOTIONMASKONLY_TOOLTIP;Shows the motion mask without the image.
!TP_RAW_PIXELSHIFTSHOWMOTION_TOOLTIP;Overlays the image with a green mask showing the regions with motion.
!TP_RAW_PIXELSHIFTSIGMA;Blur radius
!TP_RAW_PIXELSHIFTSIGMA_TOOLTIP;The default radius of 1.0 usually fits well for base ISO.\nIncrease the value for high ISO shots, 5.0 is a good starting point.\nWatch the motion mask while changing the value.
!TP_RAW_PIXELSHIFTSMOOTH;Smooth transitions
!TP_RAW_PIXELSHIFTSMOOTH_TOOLTIP;Smooth transitions between areas with motion and areas without.\nSet to 0 to disable transition smoothing.\nSet to 1 to either get the AMaZE/LMMSE result of the selected frame (depending on whether 'Use LMMSE' is selected), or the median of all four frames if 'Use median' is selected.
!TP_RAW_RCD;RCD
!TP_RAW_RCDBILINEAR;RCD+Bilinear
!TP_RAW_RCDVNG4;RCD+VNG4
!TP_RAW_VNG4;VNG4
!TP_RAW_XTRANS;X-Trans
!TP_RAW_XTRANSFAST;Fast X-Trans
!TP_RESIZE_ALLOW_UPSCALING;Allow Upscaling
!TP_RESIZE_LE;Long Edge:
!TP_RESIZE_LONG;Long Edge
!TP_RESIZE_SE;Short Edge:
!TP_RESIZE_SHORT;Short Edge
!TP_RETINEX_CONTEDIT_MAP;Equalizer
!TP_RETINEX_CURVEEDITOR_CD_TOOLTIP;Luminance according to luminance L=f(L)\nCorrect raw data to reduce halos and artifacts.
!TP_RETINEX_CURVEEDITOR_MAP_TOOLTIP;This curve can be applied alone or with a Gaussian mask or wavelet mask.\nBeware of artifacts!
!TP_RETINEX_GAINTRANSMISSION_TOOLTIP;Increase or reduce the transmission map to achieve the desired luminance. The x-axis is the transmission. The y-axis is the gain.
!TP_RETINEX_GAMMA_TOOLTIP;Restore tones by applying gamma before and after Retinex. Different from Retinex curves or others curves (Lab, Exposure, etc.).
!TP_RETINEX_HIGHLIGHT_TOOLTIP;Increase action of High algorithm.\nMay require you to re-adjust 'Neighboring pixels' and to increase the 'White-point correction' in the Raw tab -> Raw White Points tool.
!TP_RETINEX_LABEL_MASK;Mask
!TP_RETINEX_MAP;Method
!TP_RETINEX_MAP_GAUS;Gaussian mask
!TP_RETINEX_MAP_MAPP;Sharp mask (wavelet partial)
!TP_RETINEX_MAP_MAPT;Sharp mask (wavelet total)
!TP_RETINEX_MAP_METHOD_TOOLTIP;Use the mask generated by the Gaussian function above (Radius, Method) to reduce halos and artifacts.\n\nCurve only: apply a diagonal contrast curve on the mask.\nBeware of artifacts!\n\nGaussian mask: generate and use a Gaussian blur of the original mask.\nQuick.\n\nSharp mask: generate and use a wavelet on the original mask.\nSlow.
!TP_RETINEX_MEDIAN;Transmission median filter
!TP_RETINEX_METHOD_TOOLTIP;Low = Reinforce low light.\nUniform = Equalize action.\nHigh = Reinforce high light.\nHighlights = Remove magenta in highlights.
!TP_RETINEX_MLABEL;Restored data Min=%1 Max=%2
!TP_RETINEX_MLABEL_TOOLTIP;The values should be close to Min=0 Max=32768 (log mode) but other values are possible.You can adjust 'Clip restored data (gain)' and 'Offset' to normalize.\nRecovers image data without blending.
!TP_RETINEX_THRESHOLD_TOOLTIP;Limits in/out.\nIn = image source,\nOut = image gauss.
!TP_RETINEX_TLABEL_TOOLTIP;ransmission map result.\nMin and Max are used by Variance.\nTm=Min TM=Max of Transmission Map.\nYou can normalize the results with the threshold slider.
!TP_RETINEX_TRANSMISSION;Transmission map
!TP_RETINEX_TRANSMISSION_TOOLTIP;Transmission according to transmission.\nAbscissa: transmission from negative values (min), mean, and positives values (max).\nOrdinate: amplification or reduction.
!TP_RETINEX_VIEW_MASK;Mask
!TP_RETINEX_VIEW_METHOD_TOOLTIP;Standard - Normal display.\nMask - Displays the mask.\nUnsharp mask - Displays the image with a high radius unsharp mask.\nTransmission - Auto/Fixed - Displays the file transmission-map, before any action on contrast and brightness.\n\nAttention: the mask does not correspond to reality, but is amplified to make it more visible.
!TP_SHARPENING_BLUR;Blur radius
!TP_SHARPENING_CONTRAST;Contrast threshold
!TP_SHARPENING_ITERCHECK;Auto limit iterations
!TP_SHARPENING_RADIUS_BOOST;Corner radius boost
!TP_SHARPENMICRO_CONTRAST;Contrast threshold
!TP_SOFTLIGHT_LABEL;Soft Light
!TP_SOFTLIGHT_STRENGTH;Strength
!TP_SPOT_COUNTLABEL;%1 point(s)
!TP_SPOT_DEFAULT_SIZE;Default spot size
!TP_SPOT_ENTRYCHANGED;Point changed
!TP_SPOT_HINT;Click on this button to be able to operate on the preview area.\n\nTo edit a spot, hover the white mark locating an edited area, making the editing geometry appear.\n\nTo add a spot, press Ctrl and left mouse button, drag the circle (Ctrl key can be released) to a source location, then release the mouse button.\n\nTo move the source or destination spot, hover its center then drag it.\n\nThe inner circle (maximum effect area) and the 'feather' circle can be resized by hovering them (the circle becomes orange) and dragging it (the circle becomes red).\n\nWhen the changes are done, right click outside any spot to end the Spot editing mode, or click on this button again.
!TP_SPOT_LABEL;Spot Removal
!TP_TM_FATTAL_AMOUNT;Amount
!TP_TM_FATTAL_ANCHOR;Anchor
!TP_TM_FATTAL_LABEL;Dynamic Range Compression
!TP_TM_FATTAL_THRESHOLD;Detail
!TP_TONE_EQUALIZER_BANDS;Bands
!TP_TONE_EQUALIZER_BAND_0;Blacks
!TP_TONE_EQUALIZER_BAND_1;Shadows
!TP_TONE_EQUALIZER_BAND_2;Midtones
!TP_TONE_EQUALIZER_BAND_3;Highlights
!TP_TONE_EQUALIZER_BAND_4;Whites
!TP_TONE_EQUALIZER_DETAIL;Regularization
!TP_TONE_EQUALIZER_LABEL;Tone Equalizer
!TP_TONE_EQUALIZER_PIVOT;Pivot (Ev)
!TP_TONE_EQUALIZER_SHOW_COLOR_MAP;Show tonal map
!TP_WAVELET_BALCHROM;Equalizer Color
!TP_WAVELET_BALLUM;Denoise equalizer White-Black
!TP_WAVELET_BL;Blur levels
!TP_WAVELET_BLCURVE;Blur by levels
!TP_WAVELET_BLURFRAME;Blur
!TP_WAVELET_BLUWAV;Attenuation response
!TP_WAVELET_CBENAB;Toning and Color balance
!TP_WAVELET_CB_TOOLTIP;With high values you can create special effects, similar to those achieved with the Chroma Module, but focused on the residual image\nWith moderate values you can manually correct the white balance.
!TP_WAVELET_CHROFRAME;Denoise chrominance
!TP_WAVELET_CHROMAFRAME;Chroma
!TP_WAVELET_CHROMCO;Chrominance Coarse
!TP_WAVELET_CHROMFI;Chrominance Fine
!TP_WAVELET_CHRO_TOOLTIP;Sets the wavelet level which will be the threshold between saturated and pastel colors.\n1-x: saturated\nx-9: pastel\n\nIf the value exceeds the amount of wavelet levels you are using then it will be ignored.
!TP_WAVELET_CHRWAV;Blur chroma
!TP_WAVELET_CHR_TOOLTIP;Adjusts chroma as a function of 'contrast levels' and 'chroma-contrast link strength'.
!TP_WAVELET_CLA;Clarity
!TP_WAVELET_CLARI;Sharp-mask and Clarity
!TP_WAVELET_COMPEXPERT;Advanced
!TP_WAVELET_COMPLEXLAB;Complexity
!TP_WAVELET_COMPLEX_TOOLTIP;Standard: shows a reduced set of tools suitable for most processing operations.\nAdvanced: shows the complete set of tools for advanced processing operations.
!TP_WAVELET_COMPNORMAL;Standard
!TP_WAVELET_CONTFRAME;Contrast - Compression
!TP_WAVELET_CURVEEDITOR_BL_TOOLTIP;Disabled if zoom > about 300%.
!TP_WAVELET_CURVEEDITOR_CC_TOOLTIP;Modifies local contrast as a function of the original local contrast (abscissa).\nLow abscissa values represent small local contrast (real values about 10..20).\n50% abscissa represents average local contrast (real value about 100..300).\n66% abscissa represents standard deviation of local contrast (real value about 300..800).\n100% abscissa represents maximum local contrast (real value about 3000..8000).
!TP_WAVELET_CURVEEDITOR_CH_TOOLTIP;Modifies each level's contrast as a function of hue.\nTake care not to overwrite changes made with the Gamut sub-tool's hue controls.\nThe curve will only have an effect when wavelet contrast level sliders are non-zero.
!TP_WAVELET_DAUB20;D20 - high plus
!TP_WAVELET_DAUBLOCAL;Wavelet Edge performance
!TP_WAVELET_DAUB_TOOLTIP;Changes Daubechies coefficients:\nD4 = Standard,\nD14 D20 = Often best performance, 15% more time-intensive.\n\nAffects edge detection as well as the general quality of the first levels. However the quality is not strictly related to this coefficient and can vary depending on image and use.
!TP_WAVELET_DEN5THR;Guided threshold
!TP_WAVELET_DENCURV;Curve
!TP_WAVELET_DENL;Correction structure
!TP_WAVELET_DENLH;Guided threshold levels 1-4
!TP_WAVELET_DENLOCAL_TOOLTIP;Use a curve in order to guide the denoising according to the local contrast.\nThe areas are denoised, the structures are maintained.
!TP_WAVELET_DENMIX_TOOLTIP;The local-contrast reference value used by the guided filter.\nDepending on the image, results can vary depending on whether the noise is measured before or after the noise reduction. These four choices allow you to take into account various combinations of the original and modified (denoised) images to find the best compromise.
!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 hue equalizer
!TP_WAVELET_DENQUA;Mode
!TP_WAVELET_DENSIGMA_TOOLTIP;Adapts the shape of the guide.
!TP_WAVELET_DENSLI;Slider
!TP_WAVELET_DENSLILAB;Method
!TP_WAVELET_DENWAVGUID_TOOLTIP;Uses hue to reduce or increase the action of the guided filter.
!TP_WAVELET_DENWAVHUE_TOOLTIP;Amplify or reduce denoising depending on the color.
!TP_WAVELET_DETEND;Details
!TP_WAVELET_DIRFRAME;Directional contrast
!TP_WAVELET_EDEFFECT;Attenuation response
!TP_WAVELET_EDEFFECT_TOOLTIP;This slider selects the range of contrast values that will receive the full effect of any adjustment.
!TP_WAVELET_EDGCONT_TOOLTIP;Adjusting the points to the left decreases contrast, and to the right increases it.\nBottom-left, top-left, top-right and bottom-right represent respectively local contrast for low values, mean, mean+std. dev. and maxima.
!TP_WAVELET_EDGEDETECTTHR;Threshold low (noise)
!TP_WAVELET_EDGEDETECTTHR2;Edge enhancement
!TP_WAVELET_EDGREINF_TOOLTIP;Reinforce or reduce the action of the first level, do the opposite to the second level, and leave the rest unchanged.
!TP_WAVELET_EDGTHRESH_TOOLTIP;Change the repartition between the first levels and the others. The higher the threshold the more the action is centered on the first levels. Be careful with negative values, they increase the action of high levels and can introduce artifacts.
!TP_WAVELET_EDRAD_TOOLTIP;This adjustment controls the local enhancement. A value of zero still has an effect.
!TP_WAVELET_FINCFRAME;Final local contrast
!TP_WAVELET_FINTHR_TOOLTIP;Uses local contrast to reduce or increase the action of the guided filter.
!TP_WAVELET_GUIDFRAME;Final smoothing (guided filter)
!TP_WAVELET_HIGHLIGHT;Finer levels luminance range
!TP_WAVELET_HS1;Whole luminance range
!TP_WAVELET_HUESKIN_TOOLTIP;The bottom points set the beginning of the transition zone, and the upper points the end of it, where the effect is at its maximum.\n\nIf you need to move the area significantly, or if there are artifacts, then the <b>white balance is incorrect</b>.
!TP_WAVELET_HUESKY_TOOLTIP;The bottom points set the beginning of the transition zone, and the upper points the end of it, where the effect is at its maximum.\n\nIf you need to move the area significantly, or if there are artifacts, then the <b>white balance is incorrect</b>.
!TP_WAVELET_ITER;Delta balance levels
!TP_WAVELET_ITER_TOOLTIP;Left: increase low levels and reduce high levels,\nRight: reduce low levels and increase high levels.
!TP_WAVELET_LABGRID_VALUES;High(a)=%1 High(b)=%2\nLow(a)=%3 Low(b)=%4
!TP_WAVELET_LEVDEN;Level 5-6 denoise
!TP_WAVELET_LEVELHIGH;Radius 5-6
!TP_WAVELET_LEVELLOW;Radius 1-4
!TP_WAVELET_LEVELSIGM;Radius
!TP_WAVELET_LEVELS_TOOLTIP;Choose the number of wavelet decomposition levels for the image.\nMore levels require more RAM and require a longer processing time.
!TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold
!TP_WAVELET_LEVLABEL;Preview maximum possible levels = %1
!TP_WAVELET_LEVLOCLABEL;Increase the preview window size
!TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4
!TP_WAVELET_LINKEDG;Link to Edge Sharpness Strength
!TP_WAVELET_LOWLIGHT;Coarser levels luminance range
!TP_WAVELET_LOWTHR_TOOLTIP;Prevents amplification of fine textures and noise.
!TP_WAVELET_MEDILEV_TOOLTIP;When you enable Edge Detection, it is recommanded:\n- to disabled low contrast levels to avoid artifacts,\n- to use high values of gradient sensitivity.\n\nYou can modulate the strength with 'refine' from Denoise and Refine.
!TP_WAVELET_MERGEC;Merge chroma
!TP_WAVELET_MERGEL;Merge luma
!TP_WAVELET_MIXCONTRAST;Reference
!TP_WAVELET_MIXDENOISE;Denoise
!TP_WAVELET_MIXMIX;Mixed 50% noise - 50% denoise
!TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise
!TP_WAVELET_MIXNOISE;Noise
!TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced.
!TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced.
!TP_WAVELET_OFFSFIN;Offset
!TP_WAVELET_OLDSH;Algorithm using negatives values
!TP_WAVELET_OPACITY;Opacity blue-yellow
!TP_WAVELET_OPACITYW;Contrast balance d/v-h curve
!TP_WAVELET_OPACITYWL_TOOLTIP;Modify the final local contrast at the end of the wavelet treatment.\n\nThe left side represents the smallest local contrast, progressing to the largest local contrast on the right.
!TP_WAVELET_PASTEL;Pastel chroma
!TP_WAVELET_PROTAB;Protection
!TP_WAVELET_PYRWAVTRC;Contrast profile
!TP_WAVELET_PYRWAVTRC_CURVE_TOOLTIP;The left end of the horizontal axis corresponds to close to zero contrast, while the right end corresponds to the strongest contrast in the image. The midpoint of the horizontal axis corresponds to the predominant contrast strength across all detail levels.\n\nThe effect of this curve is reduced for higher Contrast profile presets.\n\nTo avoid harsh contrast and halos, refrain from increasing the right half of the curve.
!TP_WAVELET_PYRWAVTRC_RESID_TOOLTIP;Adjusts the contrast for all detail levels larger than those covered by the selected Contrast profile.
!TP_WAVELET_PYRWAVTRC_SIGMA_TOOLTIP;Stretches the width of the "Variable contrast" curve. A value of 1 means no stretching.
!TP_WAVELET_PYRWAVTRC_TOOLTIP;A series of presets defining the strength of the contrast adjustment at different detail levels. Lower presets only affect fine details while higher presets affect both fine and coarse details.\n\nNote: The effect on coarse details may not be visible in the preview if the preview is too small.
!TP_WAVELET_QUAAGRES;Aggressive
!TP_WAVELET_QUACONSER;Conservative
!TP_WAVELET_RADIUS;Radius shadows - highlight
!TP_WAVELET_RANGEAB;Range a and b %
!TP_WAVELET_RESBLUR;Blur luminance
!TP_WAVELET_RESBLURC;Blur chroma
!TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500%.
!TP_WAVELET_RESIDTRC;Residual contrast
!TP_WAVELET_SHA;Sharp mask
!TP_WAVELET_SHFRAME;Shadows/Highlights
!TP_WAVELET_SHOWMASK;Show wavelet 'mask'
!TP_WAVELET_SIGM;Radius
!TP_WAVELET_SIGMA;Attenuation response
!TP_WAVELET_SIGMAFIN;Attenuation response
!TP_WAVELET_SIGMA_TOOLTIP;The effect of the contrast sliders is stronger in medium contrast details, and weaker in high and low contrast details.\n With this slider you can control how quickly the effect dampens towards the extreme contrasts.\n The higher the slider is set, the wider the range of contrasts which will get a strong change, and the higher the risk to generate artifacts.\n .The lower it is, the more the effect will be pinpointed towards a narrow range of contrast values.
!TP_WAVELET_SKIN;Skin targetting/protection
!TP_WAVELET_SKIN_TOOLTIP;At -100 skin-tones are targetted.\nAt 0 all tones are treated equally.\nAt +100 skin-tones are protected while all other tones are affected.
!TP_WAVELET_SKY;Hue targetting/protection
!TP_WAVELET_SKY_TOOLTIP;Allows you to target or protect a range of hues.\nAt -100 selected hues are targetted.\nAt 0 all hues are treated equally.\nAt +100 selected hues are protected while all other hues are targetted.
!TP_WAVELET_SOFTRAD;Soft radius
!TP_WAVELET_STREND;Strength
!TP_WAVELET_THRDEN_TOOLTIP;Generates a stepped curve used to guide the noise reduction as a function of local contrast. The denoise will be applied to uniform low local-contrast areas. Areas with detail (higher local contrast) will be preserved.
!TP_WAVELET_THREND;Local contrast threshold
!TP_WAVELET_THRESHOLD2_TOOLTIP;Only levels from the chosen value to the selected number of 'wavelet levels' will be affected by the Shadow luminance range.
!TP_WAVELET_THRESHOLD_TOOLTIP;Only levels below and including the chosen value will be affected by the Highlight luminance range.
!TP_WAVELET_TILES_TOOLTIP;Processing the full image leads to better quality and is the recommended option, while using tiles is a fall-back solution for users with little RAM. Refer to RawPedia for memory requirements.
!TP_WAVELET_TMEDGS;Edge stopping
!TP_WAVELET_TMSCALE;Scale
!TP_WAVELET_TMSTRENGTH_TOOLTIP;Control the strength of tone mapping or contrast compression of the residual image.
!TP_WAVELET_TON;Toning
!TP_WAVELET_TONFRAME;Excluded colors
!TP_WAVELET_USH;None
!TP_WAVELET_USHARP;Clarity method
!TP_WAVELET_USH_TOOLTIP;If you select Sharp-mask, you can choose any level (in Settings) from 1 to 4 for processing.\nIf you select Clarity, you can choose any level (in Settings) between 5 and Extra.
!TP_WAVELET_WAVLOWTHR;Low contrast threshold
!TP_WAVELET_WAVOFFSET;Offset
!TP_WBALANCE_AUTOITCGREEN;Temperature correlation
!TP_WBALANCE_AUTOOLD;RGB grey
!TP_WBALANCE_AUTO_HEADER;Automatic &amp; Refinement
!TP_WBALANCE_ITCWALG_TOOLTIP;Allows you to switch to the other Alternative temperature (Alt_temp), when possible.\nInactive in the "single choice" case.
!TP_WBALANCE_ITCWBDELTA_TOOLTIP;Fixed for each "green" iteration tried, the temperature difference to be taken into account.
!TP_WBALANCE_ITCWBFGREEN_TOOLTIP;Find the best compromise between Student and green.
!TP_WBALANCE_ITCWBMINSIZEPATCH_TOOLTIP;Allows you to set the minimum patch value. values that are too low can lead to a lack of correlation.
!TP_WBALANCE_ITCWBNOPURPLE_TOOLTIP;Allows you to filter magenta/purple data from the image. If the box is checked a filter limiting the value of Y is applied. By default this value is 0.4. You can change it in 'options' Itcwb_Ypurple (Maximum 1)
!TP_WBALANCE_ITCWBPRECIS_TOOLTIP;The lower the value, the more relevant the data, but increases the processing time. Since the processing time is low, this parameter should generally be able to remain at the default value
!TP_WBALANCE_ITCWBRGREEN_TOOLTIP;Sets the green value review amplitude in iterations, from low amplitude 0.82 to 1.25 to maximum amplitude 0.4 to 4.
!TP_WBALANCE_ITCWBSIZEPATCH_TOOLTIP;This setting sets the size of color datas used by algorithm.
!TP_WBALANCE_ITCWBSIZE_TOOLTIP;This setting sets the number of iterations to find the best correspondence between the reference spectral colors and those in xyY value of the image. A value of 3 seams a good compromise.
!TP_WBALANCE_ITCWBTHRES_TOOLTIP;Limits comparison sampling between spectral data and image data.
!TP_WBALANCE_ITCWB_ALG;Remove 2 pass algorithm
!TP_WBALANCE_ITCWB_CUSTOM;Use Custom temperature & tint
!TP_WBALANCE_ITCWB_DELTA;Delta temperature in green loop
!TP_WBALANCE_ITCWB_FGREEN;Find green student
!TP_WBALANCE_ITCWB_FORCED;Close to full CIE diagram
!TP_WBALANCE_ITCWB_FRA;Auto temperature correlation settings
!TP_WBALANCE_ITCWB_FRA_TOOLTIP;These settings allow, depending on the images (type of raw, colorimetry, etc.), an adaptation of the 'Temperature correlation' algorithm. There is no absolute rule linking these parameters to the results obtained.
!TP_WBALANCE_ITCWB_MINSIZEPATCH;Patch minimum size
!TP_WBALANCE_ITCWB_NOPURPLE;Filter on purple color
!TP_WBALANCE_ITCWB_PRECIS;Precision algorithm - scale used
!TP_WBALANCE_ITCWB_PRIM_ACE;Forces use of the entire CIE diagram
!TP_WBALANCE_ITCWB_PRIM_ADOB;Medium sampling
!TP_WBALANCE_ITCWB_PRIM_BETA;Medium sampling - near Pointer's gamut
!TP_WBALANCE_ITCWB_PRIM_JDCMAX;Close to full CIE diagram
!TP_WBALANCE_ITCWB_PRIM_REC;High sampling
!TP_WBALANCE_ITCWB_PRIM_SRGB;Low sampling & Ignore Camera settings
!TP_WBALANCE_ITCWB_PRIM_XYZCAM;Camera XYZ matrix
!TP_WBALANCE_ITCWB_PRIM_XYZCAM2;JDCmax after Camera XYZ matrix
!TP_WBALANCE_ITCWB_RGREEN;Green range
!TP_WBALANCE_ITCWB_SAMPLING;Low sampling 5.9
!TP_WBALANCE_ITCWB_SIZE;Size of ref. color compare to histogram
!TP_WBALANCE_ITCWB_SIZEPATCH;Size of color patch
!TP_WBALANCE_ITCWB_THRES;Colors used in picture (preset)
!TP_WBALANCE_ITCWCUSTOM_TOOLTIP;Allows you to use Custom settings Temperature and Green (tint).\n\nUsage tips:\n1) start Itcwb , enable 'Use Custom temperature and tint'.\n2) Set 'Temperature and tint' to your liking :free, Pick,...(Custom)\n3) go back to 'Temperature correlation'.\n\nYou cannot use : 2 passes, AWB temperature bias, Green refinement.
!TP_WBALANCE_ITCWFORCED_TOOLTIP;By default (box not checked) the data scanned during sampling is brought back to the sRGB profile, which is the most widespread, both for calibrating DCP or ICC profiles with the Colorchecker24, or used on the web.\n If you have very high gamut images (some flowers, artificial colors), then it may be necessary to use the entire CIExy diagram, the profile used will be ACESP0. In this second case, the number of colors that can be used in internal to the algorithm will be more important.
!TP_WBALANCE_ITCWGREEN;Green refinement
!TP_WBALANCE_ITCWGREEN_TOOLTIP;Allows you to change the "tint" (green) which will serve as a reference when starting the algorithm. It has substantially the same role for greens as "AWB temperature bias" for temperature.\nThe whole algorithm is recalculated.
!TP_WBALANCE_ITCWPRIM_TOOLTIP;Allows you to select the image sampling.\n'Close to full CIE diagram' almost uses the data present on the sensor, possibly including the imaginary colors.\n'Camera XYZ matrix' - uses the matrix directly derived from Color Matrix.\n'Medium sampling' (default) - near Pointer's gamut: corresponds substantially to the most common cases of human vision.\nThe other choice 'Low sampling and Ignore camera settings' allow you to isolate high gamut parts of the image and forces the algorithm in some cases (tint > 0.8,...) to ignore camera settings. This will obviously have an impact on the result.\n\nThis sampling only has an influence on the channel multipliers, it has nothing to do with the "working profile" and does not modify the gamut of the image.
!TP_WBALANCE_ITCWSAMPLING_TOOLTIP;Allows you to use the old sampling algorithm to ensure better compatibility with 5.9. You must enable Observer 10° (default).
!TP_WBALANCE_MULLABEL;Multipliers: r=%1 g=%2 b=%3
!TP_WBALANCE_MULLABEL_TOOLTIP;Values given for information purposes. You cannot change them.
!TP_WBALANCE_OBSERVER10;Observer 10° instead of Observer 2°
!TP_WBALANCE_OBSERVER10_TOOLTIP;The color management in RawTherapee (White balance, channel multipliers, highlight recovery,...) uses the spectral data of the illuminants and colors. Observer is an important parameter of this management which takes into account the angle of perception of the eye. In 1931 it was fixed at 2° (privileges the use of the cones). In 1964 it was fixed at 10° (privileges the use of the cones, but partially takes into account the rods).\nIn the rare case of a color drift with "Observer 2°" (probably due to the conversion matrix) "Observer 10°" must be selected.
!TP_WBALANCE_PATCHLABEL;Read colors:%1 Patch: Chroma:%2 Size=%3
!TP_WBALANCE_PATCHLABEL_TOOLTIP;Display number of read colors (max=237).\nDisplay calculated Patch Chroma.\nAWB temperature bias, lets try to reduce this value, a minimum may seem to optimize the algorithm.\n\nPatch size matching chroma optimization.
!TP_WBALANCE_PATCHLEVELLABEL;Patch: ΔE=%1 - datas x 9 Min:%2 Max=%3
!TP_WBALANCE_PATCHLEVELLABEL_TOOLTIP;Display ΔE patch (this assumes there is enough spectral data), between image and spectral datas.\n Display read datas found. The 2 values correspond to the minimum and maximum data values taken into account. The coefficient x9 must be taken into account to obtain the number of pixels concerned in the image.
!TP_WBALANCE_PICKER;Pick
!TP_WBALANCE_STUDLABEL;Correlation factor: %1 Passes:%2 Worst_alt=%3
!TP_WBALANCE_STUDLABEL0;Correlation factor: %1 Passes:%2 Alt=%3
!TP_WBALANCE_STUDLABEL1;Correlation factor: %1 Passes:%2 Best_alt=%3
!TP_WBALANCE_STUDLABEL_TOOLTIP;Display calculated Student correlation.\nLower values are better, where <0.005 is excellent,\n<0.01 is good, and >0.5 is poor.\nLow values do not mean that the white balance is good:\nif the illuminant is non-standard the results can be erratic.\nA value of 1000 means previous calculations are used and\nthe resultsare probably good.\n\nPasses : number of passes made.\nAlt_temp : Alternative temperature.
!TP_WBALANCE_TEMPBIAS;AWB temperature bias
!TP_WBALANCE_TEMPBIAS_TOOLTIP;Allows to alter the computation of the 'auto white balance'\nby biasing it towards warmer or cooler temperatures. The bias\nis expressed as a percentage of the computed temperature,\nso that the result is given by 'computedTemp + computedTemp * bias'.\n\nYou can use "Awb temperature bias" to adjust the "Temperature correlation" results. Each movement of this command brings a new calculation of temperature, tint and correlation.
!//TP_WBALANCE_ITCWBNOPURPLE_TOOLTIP;By default when "Inpaint opposed" is activated, purple colors are not taken into account. However, if the image does not need highlight reconstruction, or if this image naturally contains purple tints (flowers, etc.), it may be necessary to deactivate, to take into account all the colors.
!//TP_WBALANCE_ITCWB_FORCED;Forces use of the entire CIE diagram