liz/rawTherapee
liz/rawTherapee
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rawTherapee/rtgui/colortoning.cc
Desmis 8e312d9c02
Local Adjustments - Cam16 - lacam16n2 (new) (#7010) 
* Restore settings and options

* Clean code and windows.yml

* Gui improvment

* Fixed wrong value maxicam

* Change GUI TRC and Log encoding and sigmoid

* Clean code locallabtools2

* Fomat locallabtools2

* New calcualtion gray when using Q

* Improve sigmoid Q with meanQ

* Change labels and tooltip

* Change DR with log

* Change location GUI TRC

* Change GUI sigmoid hide - show

* Fixed bug with trc

* Added whites to TRC & whites

* Small modification whites - comment code

* Change GUI and selection for sigmoid and log encoding Q

* Change yml worksflow

* Added cat to workingtrc rtthumbnail

* Delete entries in defualt languages

* Blacks and whites distribution

* Change tooltips

* Fixed some issues

* Change GUI hide to set_sensitive

* first step white and black log encoding

* GUI Labels - tooltips

* Compress brightness log encoding

* Change compression threshold

* Clean procparams

* Improve GUI and threshold compression

* Improvment GUI and tooltips

* First step primaries cam16

* Primaries loc step 2

* Primaries loc step 3

* jdcmax primaries - format iplab2rgb

* Improve GUI

* Beta RGB primaries and message

* Change tooltips

* Change order prim

* CIExy diagram step 1

* CIExy step 2

* CIExy step 2

* CIExy diagram step 4

* CIExy diagram step 5

* Change improccordinator and locallabtool2s listener

* Forgoten delete in improccordinator

* Disable setListener

* Improve GUI and behavior TRC and Primaries

* TRC primaries - illuminant step 1

* TRC primaries - illuminant step 2

* TRC primaries - illuminant step 3

* TRC primaries - illuminant step 4

* Gamut control - remove old listener and added listener locallabcieLC

* publish pre dev labels windows appimage

* publish pre dev labels windows appimage []

* Move log encoding cie - step 1

* Step 2

* Move Log encoding CIE and improve GUI step 3

* Pre Ciecam midtones step 1

* Mid tones step 2 and tooltips

* Forgoten label and tooltips

* Improve tooltips - and change yml files

* Include repository in appimage and windows.yml - change labels

* Forgotten surroundcie in procparams.cc

* Improve GUI with expander - clean code

* Change tooltip

* Clean locallabtools2 - improve Jpro

* Bypass Ciecam step 1

* step 2

* Step 3

* Change settings - improve GUI

* Clean code

* Improve sigmoid cam16

* Improve sigmoid cam16

* Added illuminant E to illmethod

* Change iccmatrices

* Working profile JDCmax stdA and Abstract Profile

* Pre-ciecam JDCmax stdA

* Abstract profile - cat method step 1

* Step 3

* Step 4 and various changes

* Enable default gamutcontrol - improve GUI

* Refine color pre-ciecam

* Step 2

* step 3

* Step - 4

* Refine colors Abstract profiles

* Expander true Abstract Profile

* Clean and comment code

* Tooltip pre-ciecam

* Change tooltips

* Improve GUI free primaries

* Labgrid dominant color

* Shift dominant color step 1

* Shift xy dominant color

* History msg shift

* Fixed various bad behavior - change scalrefi

* Improve behavior DR vs deltaE - log encoding and pre-ciecam

* Limited reduce deltaE to 1 - comment code

* Improve behavior TIF/JPG

* Forgotten code

* Various small changes to refinement color pre-ciecam

* Foramt iplab2rgb and simpleprocees - small change meanx meany

* Bad behavior with simpleprocess abstract profile and pre-ciecam

* Re-enable code for simpleprocess

* Iprove iplab2rgb

* Improve GUI if selection Jz

* provis with precision

* Chnage GUI log encoding basic - improve shiftxl shiftyl pre-ciecam

* Improve GUI with expanders

* Change location pre-ciecam expander

* Change label tooltip pre-ciecam

* Improve white distribution and equalizer

* Bad behavior Source data adjustments

* Comment code

* Improve Dynamic Range Compression - for some images with very high DR

* Clean code

* Improve TM fattal with saturation control in LA

* saturation control fattal LA

* RE-order paramsedit

* Change local contrast in LA - log encoding and Cam16

* LA settings avoidcolorshift XYZabsolute

* Change GUI precision blackEv WhiteEv BlackEvjz WhiteEvjz

* Check button smoothcie - smooth highlights

* Change order midtones - log encoding - other method smooth

* Change maximum gamma in TRC cam16

* Change maximum slope in TRC cam16

* refine smooth highlights

* Small improvment - comment code

* Bad behavior - black screen - in Cam16

* setLogscale for slopjcie

* Change source data GUI - PQ and other DR functions

* PQ mode advanced - adjustments and tooltip

* Comment and clean code

* Simplified GUI in Basic mode - Source Data Adjustments

* Added primaries to source date adjustements - fix basic problem

* GUI graduaded filter cie cam16

* Graduated filter - LA Color appearance

* More illuminant cam16 - D120 - Tungsten 2000K - Tungsten 1500K

* Abstract profile ICM - shift x - shift y

* Frame color dominant Abstract profile

* Frame color dominant Abstract profile

* Illuminant E - abstract profile

* Abstact profile - midtones

* Abstrcat profile - smooth highlights checkbutton

* Abstract Profile - Smooth highligts rtengine

* Bad behavior LA gamut - re-enabled Munsell in settings

* adapts Abstract profile and auto-match tone curve

* Change chromaticity curve c(h) - ppversion 351 and procparams

* icmpanel fixed bad wmidtcie

* Change in procparams assignfromkeyfile color Management

* Remove message in console

* Missing code procparams.cc wcat

* Clean message in console

* Disable ppversion 351 - surround extremely dark

* Choice surround scene Disable ciecam

* Improve GUI for surround Disable Ciecam

* Small change gamutcontrol - message g0..g5 verbose

* Remove gautcontrol on limits

* Strength log encoding - Source data adjustments

* Fixed genral bug in lacam16n - bad behavior color

* Checkbutton saturation control - Cam16 log encoding

* Change default saturation controle log encoding - false

* GUI LA Log encoding - Strength - saturation control - part 1

* Checkbox saturation control LA Log encoding

* Change repartition GUI brightnees - hue - chroma

* Hide primaries and illuminant in standard mode

* Merge with dev 2

* reduces sigmoid Q contrast

* Provisory disable Sigmoid Q

* Re-enable sigmoid function complexity mode

* Re-enable log encoding Q - with Ciecam

* GUI improvments - small code improvments

* Change tooltip

* Simplify GUI mode Basic - Standard - added tooltip

* Change tooltip - LA settings - Avoid color shift

* hope to fix the bug between Jz and Cam16

* Another change for Jz - format astyle locallabtool2.cc

* Clean code GUI - remove Zcam

* Change label in Recovery based on luminance mask

* Reduces minimum spot size from 2 to 1.5

* Improve behavior GUI with Jzczhz

* Clean code iplocallab.cc

* Small improvement ciecam02.cc

* Fixed bad behvior GUI and code between Cam16 and Jzczhz

* Improve Jz and surround effects

* Improve Jz and Local contrast Cam16 & Jz taking account surround

* Disable local contrast if cam16 and not ciecam surround

* Restore epsil 0.001 loccont

* Improve local contrast when surround low and Jz

* Clean code locallabtool2 - weakened a little Local Contrast in connection with surround

* Remove Laplacian threshold in Cam16 and JzCzHz mask

* Simplify Mask for JzCzHz

* Enable choice complexity mask in mode advanced

* Solved bad behavior GUI masks

* Optimize GUI mask Jz and cam16

* Change 3 icon .png without png

* Remove wrong message in console without problem

* Remove warning with & in some tooltips and TP_WBALANCE_AUTO_HEADER

* Smoothcie Method GUI

* Replace checkbutton smooth highlight bya combobox

* Improve behavior GUI - CIECAM - advanced - tempout and greenout

* Fixed - I hope - crash when delete spot and cam16

* Clean code with maxcam and dependencies

* Added Smooth highlight rolloff or not

* Improve smooth lights - gamma mode only - standard and advanced - gray balance

* Improve Smoothing lights - take into account the 2 Yb

* Change tooltip

* Chnage wrong lable scope => slope

* Clean and comment code

* Reduces the effect of - Smoothing light -Ev mode - Small change range Slope

* Scale Yb scene white whiteEv

* Hide Scale in some GUI cases

* Clean comment code Smotth and TM function

* Change GUI - Smooth highlights and tone mapping - allows also Basic

* Change labels

* Change tooltip

* Remove arrow.cur in windows.yml as suggested by Lawrence37

* Reverse last changes

* Change limits slope based in SDA

* Clean locallabtools2.cc

* Set minimum slope based to 0.6

* Change label highlight

* Change listener scene parameters to GUI

* Clean code sine changes listener

* Limits Blackev Whiteev values in slope base to avoid crash

* Change a little limits BlackEv WhiteEv

* Small changes in console - remove warnings

* Change XYZ relative - avoid color shift

* Improve gamutmap

* re build gamutmap
2024-04-15 07:47:19 +02:00

1644 lines
67 KiB
C++
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/*
* This file is part of RawTherapee.
*/
#include "colortoning.h"
#include "curveeditor.h"
#include "curveeditorgroup.h"
#include "mycurve.h"
#include "rtimage.h"
#include "eventmapper.h"
#include "labgrid.h"
#include "options.h"
#include "../rtengine/color.h"
using namespace rtengine;
using namespace rtengine::procparams;
const Glib::ustring ColorToning::TOOL_NAME = "colortoning";
namespace {
constexpr int ID_LABREGION_HUE = 5;
inline bool hasMask(const std::vector<double> &dflt, const std::vector<double> &mask)
{
return !(mask.empty() || mask[0] == FCT_Linear || mask == dflt);
}
inline float round_ab(float v)
{
return int(v * 1000) / 1000.f;
}
} // namespace
ColorToning::ColorToning () : FoldableToolPanel(this, TOOL_NAME, M("TP_COLORTONING_LABEL"), false, true)
{
nextbw = 0;
CurveListener::setMulti(true);
//---------------method
method = Gtk::manage (new MyComboBoxText ());
method->append (M("TP_COLORTONING_LAB"));
method->append (M("TP_COLORTONING_RGBSLIDERS"));
method->append (M("TP_COLORTONING_RGBCURVES"));
method->append (M("TP_COLORTONING_SPLITCOCO"));
method->append (M("TP_COLORTONING_SPLITLR"));
method->append(M("TP_COLORTONING_LABGRID"));
method->append(M("TP_COLORTONING_LABREGIONS"));
method->set_active (0);
method->set_tooltip_text (M("TP_COLORTONING_METHOD_TOOLTIP"));
ctbox = Gtk::manage (new Gtk::Box ());
Gtk::Label* lab = Gtk::manage (new Gtk::Label (M("TP_COLORTONING_METHOD")));
ctbox->pack_start (*lab, Gtk::PACK_SHRINK, 4);
ctbox->pack_start (*method);
pack_start (*ctbox);
methodconn = method->signal_changed().connect ( sigc::mem_fun(*this, &ColorToning::methodChanged) );
//----------- Color curve ------------------------------
colorSep = Gtk::manage (new Gtk::Separator(Gtk::ORIENTATION_HORIZONTAL));
pack_start (*colorSep);
colorCurveEditorG = new CurveEditorGroup (options.lastColorToningCurvesDir, M("TP_COLORTONING_COLOR"));
colorCurveEditorG->setCurveListener (this);
colorShape = static_cast<FlatCurveEditor*>(colorCurveEditorG->addCurve(CT_Flat, "", nullptr, false, false));
colorShape->setCurveColorProvider(this, 4);
std::vector<GradientMilestone> milestones;
// whole hue range
for (int i = 0; i < 7; i++) {
float R, G, B;
float x = float(i) * (1.0f / 6.f);
Color::hsv2rgb01(x, 0.5f, 0.5f, R, G, B);
milestones.push_back( GradientMilestone(double(x), double(R), double(G), double(B)) );
}
colorShape->setLeftBarBgGradient(milestones);
const ColorToningParams default_params;
// luminance gradient
milestones.clear();
milestones.push_back( GradientMilestone(0., 0., 0., 0.) );
milestones.push_back( GradientMilestone(1., 1., 1., 1.) );
colorShape->setBottomBarBgGradient(milestones);
colorShape->setResetCurve(FCT_MinMaxCPoints, default_params.colorCurve);
// This will add the reset button at the end of the curveType buttons
colorCurveEditorG->curveListComplete();
colorCurveEditorG->show();
pack_start( *colorCurveEditorG, Gtk::PACK_SHRINK, 2);
//----------------------red green blue yellow colours
twocolor = Gtk::manage (new MyComboBoxText ());
twocolor->append (M("TP_COLORTONING_TWOSTD"));
twocolor->append (M("TP_COLORTONING_TWOALL"));
twocolor->append (M("TP_COLORTONING_TWOBY"));
twocolor->append (M("TP_COLORTONING_TWO2"));
twocolor->set_tooltip_text (M("TP_COLORTONING_TWOCOLOR_TOOLTIP"));
twocolor->set_active (0);
twocconn = twocolor->signal_changed().connect( sigc::mem_fun(*this, &ColorToning::twoColorChangedByGui) );
pack_start (*twocolor, Gtk::PACK_SHRINK, 4);
//----------- Opacity curve ------------------------------
opacityCurveEditorG = new CurveEditorGroup (options.lastColorToningCurvesDir, M("TP_COLORTONING_OPACITY"));
opacityCurveEditorG->setCurveListener (this);
opacityShape = static_cast<FlatCurveEditor*>(opacityCurveEditorG->addCurve(CT_Flat, "", nullptr, false, false));
opacityShape->setIdentityValue(0.);
opacityShape->setResetCurve(FlatCurveType(default_params.opacityCurve.at(0)), default_params.opacityCurve);
opacityShape->setBottomBarBgGradient(milestones);
// This will add the reset button at the end of the curveType buttons
opacityCurveEditorG->curveListComplete();
opacityCurveEditorG->show();
pack_start( *opacityCurveEditorG, Gtk::PACK_SHRINK, 2);
//---------Chroma curve 1 --------------------
iby = Gtk::manage (new RTImage ("circle-yellow-blue-small"));
irg = Gtk::manage (new RTImage ("circle-green-red-small"));
clCurveEditorG = new CurveEditorGroup (options.lastColorToningCurvesDir, M("TP_COLORTONING_CHROMAC"));
clCurveEditorG->setCurveListener (this);
clshape = static_cast<DiagonalCurveEditor*>(clCurveEditorG->addCurve(CT_Diagonal, M("TP_COLORTONING_AB"), irg, false));
clshape->setResetCurve(DiagonalCurveType(default_params.clcurve.at(0)), default_params.clcurve);
clshape->setTooltip(M("TP_COLORTONING_CURVEEDITOR_CL_TOOLTIP"));
clshape->setLeftBarColorProvider(this, 1);
clshape->setRangeDefaultMilestones(0.25, 0.5, 0.75);
milestones.push_back( GradientMilestone(0., 0., 0., 0.) );
milestones.push_back( GradientMilestone(1., 1., 1., 1.) );
clshape->setBottomBarBgGradient(milestones);
clCurveEditorG->curveListComplete();
pack_start( *clCurveEditorG, Gtk::PACK_SHRINK, 2);
//---------Chroma curve 2 --------------------
cl2CurveEditorG = new CurveEditorGroup (options.lastColorToningCurvesDir, M("TP_COLORTONING_CHROMAC"));
cl2CurveEditorG->setCurveListener (this);
cl2shape = static_cast<DiagonalCurveEditor*>(cl2CurveEditorG->addCurve(CT_Diagonal, M("TP_COLORTONING_BY"), iby, false));
cl2shape->setResetCurve(DiagonalCurveType(default_params.cl2curve.at(0)), default_params.cl2curve);
cl2shape->setTooltip(M("TP_COLORTONING_CURVEEDITOR_CL_TOOLTIP"));
cl2shape->setLeftBarColorProvider(this, 1);
cl2shape->setRangeDefaultMilestones(0.25, 0.5, 0.75);
milestones.push_back( GradientMilestone(0., 0., 0., 0.) );
milestones.push_back( GradientMilestone(1., 1., 1., 1.) );
cl2shape->setBottomBarBgGradient(milestones);
cl2CurveEditorG->curveListComplete();
pack_start( *cl2CurveEditorG, Gtk::PACK_SHRINK, 2);
//--------------------- Reset curves -----------------------------
/* Each curve can reset to a different curve, so this button only save one click now... so we remove it.
neutralCurves = Gtk::manage (new Gtk::Button (M("TP_COLORTONING_NEUTRALCUR")));
RTImage *resetImgc = Gtk::manage (new RTImage ("undo-small"));
neutralCurves->set_image(*resetImgc);
neutralCurves->set_tooltip_text (M("TP_COLORTONING_NEUTRALCUR_TIP"));
neutralcurvesconn = neutralCurves->signal_pressed().connect( sigc::mem_fun(*this, &ColorToning::neutralCurves_pressed) );
neutralCurves->show();
pack_start (*neutralCurves);
*/
//----------- Sliders + balance ------------------------------
hlColSat = Gtk::manage (new ThresholdAdjuster (M("TP_COLORTONING_HIGHLIGHT"), 0., 100., 60., M("TP_COLORTONING_STRENGTH"), 1., 0., 360., 80., M("TP_COLORTONING_HUE"), 1., nullptr, false));
hlColSat->setAdjusterListener (this);
hlColSat->setBgColorProvider(this, 2);
hlColSat->setUpdatePolicy(RTUP_DYNAMIC);
pack_start( *hlColSat, Gtk::PACK_SHRINK, 0);
shadowsColSat = Gtk::manage (new ThresholdAdjuster (M("TP_COLORTONING_SHADOWS"), 0., 100., 80., M("TP_COLORTONING_STRENGTH"), 1., 0., 360., 208., M("TP_COLORTONING_HUE"), 1., nullptr, false));
shadowsColSat->setAdjusterListener (this);
shadowsColSat->setBgColorProvider(this, 3);
shadowsColSat->setUpdatePolicy(RTUP_DYNAMIC);
pack_start( *shadowsColSat, Gtk::PACK_SHRINK, 0);
balance = Gtk::manage( new Adjuster(M("TP_COLORTONING_BALANCE"), -100., 100., 1., 0.) );
balance->setAdjusterListener(this);
pack_start (*balance, Gtk::PACK_SHRINK, 2);
//----------- Saturation and strength ------------------------------
// satLimiterSep = Gtk::manage (new Gtk::Separator(Gtk::ORIENTATION_HORIZONTAL));
// pack_start (*satLimiterSep, Gtk::PACK_SHRINK);
// Gtk::Frame *p1Frame;
// Vertical box container for the content of the Process 1 frame
Gtk::Box* p1VBox;
p1Frame = Gtk::manage (new Gtk::Frame(M("TP_COLORTONING_SA")) );
p1Frame->set_label_align(0.025, 0.5);
p1VBox = Gtk::manage ( new Gtk::Box(Gtk::ORIENTATION_VERTICAL));
p1VBox->set_spacing(2);
autosat = Gtk::manage (new Gtk::CheckButton (M("TP_COLORTONING_AUTOSAT")));
autosat->set_active (true);
autosatConn = autosat->signal_toggled().connect( sigc::mem_fun(*this, &ColorToning::autosatChanged) );
//satFrame->set_label_widget(*autosat);
p1VBox->pack_start (*autosat, Gtk::PACK_SHRINK, 2);
satProtectionThreshold = Gtk::manage( new Adjuster(M("TP_COLORTONING_SATURATIONTHRESHOLD"), 0., 100., 1., 80.) );
satProtectionThreshold->setAdjusterListener(this);
satProtectionThreshold->set_sensitive(false);
p1VBox->pack_start( *satProtectionThreshold, Gtk::PACK_SHRINK, 2);
saturatedOpacity = Gtk::manage( new Adjuster(M("TP_COLORTONING_SATURATEDOPACITY"), 0., 100., 1., 30.) );;
saturatedOpacity->setAdjusterListener(this);
saturatedOpacity->set_sensitive(false);
p1VBox->pack_start( *saturatedOpacity, Gtk::PACK_SHRINK, 2); //I have moved after Chanmixer
p1Frame->add(*p1VBox);
pack_start (*p1Frame, Gtk::PACK_EXPAND_WIDGET, 4);
strength = Gtk::manage( new Adjuster(M("TP_COLORTONING_STR"), 0., 100., 1., 50.) );;
strength->setAdjusterListener(this);
// --------------------Sliders BW Colortoning -------------------
chanMixerBox = Gtk::manage (new Gtk::Box(Gtk::ORIENTATION_VERTICAL));
Gtk::Box* chanMixerHLBox = Gtk::manage (new Gtk::Box(Gtk::ORIENTATION_VERTICAL));
Gtk::Box* chanMixerMidBox = Gtk::manage (new Gtk::Box(Gtk::ORIENTATION_VERTICAL));
Gtk::Box* chanMixerShadowsBox = Gtk::manage (new Gtk::Box(Gtk::ORIENTATION_VERTICAL));
Gtk::Image* iblueR = Gtk::manage (new RTImage ("circle-blue-small"));
Gtk::Image* iyelL = Gtk::manage (new RTImage ("circle-yellow-small"));
Gtk::Image* imagL = Gtk::manage (new RTImage ("circle-magenta-small"));
Gtk::Image* igreenR = Gtk::manage (new RTImage ("circle-green-small"));
Gtk::Image* icyanL = Gtk::manage (new RTImage ("circle-blue-small"));
Gtk::Image* iredR = Gtk::manage (new RTImage ("circle-red-small"));
Gtk::Image* iblueRm = Gtk::manage (new RTImage ("circle-blue-small"));
Gtk::Image* iyelLm = Gtk::manage (new RTImage ("circle-yellow-small"));
Gtk::Image* imagLm = Gtk::manage (new RTImage ("circle-magenta-small"));
Gtk::Image* igreenRm = Gtk::manage (new RTImage ("circle-green-small"));
Gtk::Image* icyanLm = Gtk::manage (new RTImage ("circle-blue-small"));
Gtk::Image* iredRm = Gtk::manage (new RTImage ("circle-red-small"));
Gtk::Image* iblueRh = Gtk::manage (new RTImage ("circle-blue-small"));
Gtk::Image* iyelLh = Gtk::manage (new RTImage ("circle-yellow-small"));
Gtk::Image* imagLh = Gtk::manage (new RTImage ("circle-magenta-small"));
Gtk::Image* igreenRh = Gtk::manage (new RTImage ("circle-green-small"));
Gtk::Image* icyanLh = Gtk::manage (new RTImage ("circle-blue-small"));
Gtk::Image* iredRh = Gtk::manage (new RTImage ("circle-red-small"));
redhigh = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., icyanLh, iredRh ));
greenhigh = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., imagLh , igreenRh));
bluehigh = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., iyelLh , iblueRh ));
redmed = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., icyanLm, iredRm ));
greenmed = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., imagLm , igreenRm));
bluemed = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., iyelLm , iblueRm ));
redlow = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., icyanL, iredR ));
greenlow = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., imagL , igreenR));
bluelow = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., iyelL , iblueR ));
chanMixerHLBox->pack_start (*redhigh);
chanMixerHLBox->pack_start (*greenhigh);
chanMixerHLBox->pack_start (*bluehigh);
chanMixerMidBox->pack_start (*redmed);
chanMixerMidBox->pack_start (*greenmed);
chanMixerMidBox->pack_start (*bluemed);
chanMixerShadowsBox->pack_start (*redlow);
chanMixerShadowsBox->pack_start (*greenlow);
chanMixerShadowsBox->pack_start (*bluelow);
Gtk::Frame *chanMixerHLFrame = Gtk::manage (new Gtk::Frame(M("TP_COLORTONING_HIGHLIGHT")));
Gtk::Frame *chanMixerMidFrame = Gtk::manage (new Gtk::Frame(M("TP_COLORTONING_MIDTONES")));
Gtk::Frame *chanMixerShadowsFrame = Gtk::manage (new Gtk::Frame(M("TP_COLORTONING_SHADOWS")));
chanMixerHLFrame->set_label_align (0.025, 0.5);
chanMixerMidFrame->set_label_align (0.025, 0.5);
chanMixerShadowsFrame->set_label_align (0.025, 0.5);
chanMixerHLFrame->add(*chanMixerHLBox);
chanMixerMidFrame->add(*chanMixerMidBox);
chanMixerShadowsFrame->add(*chanMixerShadowsBox);
chanMixerBox->pack_start(*chanMixerHLFrame, Gtk::PACK_SHRINK);
chanMixerBox->pack_start(*chanMixerMidFrame, Gtk::PACK_SHRINK);
chanMixerBox->pack_start(*chanMixerShadowsFrame, Gtk::PACK_SHRINK);
pack_start(*chanMixerBox, Gtk::PACK_SHRINK);
pack_start( *strength, Gtk::PACK_SHRINK, 2); //I have moved after Chanmixer
//--------------------- Reset sliders ---------------------------
neutrHBox = Gtk::manage (new Gtk::Box());
neutral = Gtk::manage (new Gtk::Button (M("TP_COLORTONING_NEUTRAL")));
neutral->set_tooltip_text (M("TP_COLORTONING_NEUTRAL_TOOLTIP"));
neutralconn = neutral->signal_pressed().connect( sigc::mem_fun(*this, &ColorToning::neutral_pressed) );
neutral->show();
neutrHBox->pack_start (*neutral);
pack_start (*neutrHBox);
//--------------------- Keep luminance checkbox -------------------
lumamode = Gtk::manage (new Gtk::CheckButton (M("TP_COLORTONING_LUMAMODE")));
lumamode->set_tooltip_markup (M("TP_COLORTONING_LUMAMODE_TOOLTIP"));
lumamode->set_active (false);
lumamode->show ();
lumamodeConn = lumamode->signal_toggled().connect( sigc::mem_fun(*this, &ColorToning::lumamodeChanged) );
pack_start (*lumamode);
redlow->setAdjusterListener (this);
greenlow->setAdjusterListener (this);
bluelow->setAdjusterListener (this);
balance->setAdjusterListener (this);
redmed->setAdjusterListener (this);
greenmed->setAdjusterListener (this);
bluemed->setAdjusterListener (this);
redhigh->setAdjusterListener (this);
greenhigh->setAdjusterListener (this);
bluehigh->setAdjusterListener (this);
//------------------------------------------------------------------------
// LAB grid
auto m = ProcEventMapper::getInstance();
// EvColorToningLabGridValue = m->newEvent(RGBCURVE, "HISTORY_MSG_COLORTONING_LABGRID_VALUE");
EvColorToningLabGridValue = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABGRID_VALUE");
labgrid = Gtk::manage(new LabGrid(EvColorToningLabGridValue, M("TP_COLORTONING_LABGRID_VALUES")));
pack_start(*labgrid, Gtk::PACK_EXPAND_WIDGET, 4);
//------------------------------------------------------------------------
//------------------------------------------------------------------------
// LAB regions
const auto add_button =
[&](Gtk::Button *btn, Gtk::Box *box) -> void
{
setExpandAlignProperties(btn, false, false, Gtk::ALIGN_CENTER, Gtk::ALIGN_START);
btn->set_relief(Gtk::RELIEF_NONE);
btn->get_style_context()->add_class(GTK_STYLE_CLASS_FLAT);
btn->set_can_focus(false);
btn->set_size_request(-1, 20);
box->pack_start(*btn, false, false);
};
EvLabRegionList = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_LIST");
EvLabRegionAB = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_AB");
EvLabRegionSaturation = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_SATURATION");
EvLabRegionLightness = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_LIGHTNESS");
EvLabRegionSlope = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_SLOPE");
EvLabRegionOffset = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_OFFSET");
EvLabRegionPower = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_POWER");
EvLabRegionHueMask = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_HUEMASK");
EvLabRegionChromaticityMask = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_CHROMATICITYMASK");
EvLabRegionLightnessMask = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_LIGHTNESSMASK");
EvLabRegionMaskBlur = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_MASKBLUR");
EvLabRegionShowMask = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_SHOWMASK");
EvLabRegionChannel = m->newEvent(LUMINANCECURVE, "HISTORY_MSG_COLORTONING_LABREGION_CHANNEL");
labRegionBox = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_VERTICAL));
labRegionList = Gtk::manage(new Gtk::ListViewText(3));
labRegionList->set_size_request(-1, 150);
labRegionList->set_can_focus(false);
labRegionList->set_column_title(0, "#");
labRegionList->set_column_title(1, M("TP_COLORTONING_LABREGION_LIST_TITLE"));
labRegionList->set_column_title(2, M("TP_COLORTONING_LABREGION_MASK"));
labRegionList->set_activate_on_single_click(true);
labRegionSelectionConn = labRegionList->get_selection()->signal_changed().connect(sigc::mem_fun(this, &ColorToning::onLabRegionSelectionChanged));
Gtk::Box *hb = Gtk::manage(new Gtk::Box());
hb->pack_start(*labRegionList, Gtk::PACK_EXPAND_WIDGET);
Gtk::Box* vb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_VERTICAL));
labRegionAdd = Gtk::manage(new Gtk::Button());
labRegionAdd->add(*Gtk::manage(new RTImage("add-small", Gtk::ICON_SIZE_BUTTON)));
labRegionAdd->signal_clicked().connect(sigc::mem_fun(*this, &ColorToning::labRegionAddPressed));
add_button(labRegionAdd, vb);
labRegionRemove = Gtk::manage(new Gtk::Button());
labRegionRemove->add(*Gtk::manage(new RTImage("remove-small", Gtk::ICON_SIZE_BUTTON)));
labRegionRemove->signal_clicked().connect(sigc::mem_fun(*this, &ColorToning::labRegionRemovePressed));
add_button(labRegionRemove, vb);
labRegionUp = Gtk::manage(new Gtk::Button());
labRegionUp->add(*Gtk::manage(new RTImage("arrow-up-small", Gtk::ICON_SIZE_BUTTON)));
labRegionUp->signal_clicked().connect(sigc::mem_fun(*this, &ColorToning::labRegionUpPressed));
add_button(labRegionUp, vb);
labRegionDown = Gtk::manage(new Gtk::Button());
labRegionDown->add(*Gtk::manage(new RTImage("arrow-down-small", Gtk::ICON_SIZE_BUTTON)));
labRegionDown->signal_clicked().connect(sigc::mem_fun(*this, &ColorToning::labRegionDownPressed));
add_button(labRegionDown, vb);
labRegionCopy = Gtk::manage(new Gtk::Button());
labRegionCopy->add(*Gtk::manage(new RTImage("arrow-right-small", Gtk::ICON_SIZE_BUTTON)));
labRegionCopy->signal_clicked().connect(sigc::mem_fun(*this, &ColorToning::labRegionCopyPressed));
add_button(labRegionCopy, vb);
hb->pack_start(*vb, Gtk::PACK_SHRINK);
labRegionBox->pack_start(*hb, true, true);
labRegionAB = Gtk::manage(new LabGrid(EvLabRegionAB, M("TP_COLORTONING_LABREGION_ABVALUES"), false));
labRegionBox->pack_start(*labRegionAB);
labRegionSaturation = Gtk::manage(new Adjuster(M("TP_COLORTONING_LABREGION_SATURATION"), -100, 100, 1, 0));
labRegionSaturation->setAdjusterListener(this);
labRegionBox->pack_start(*labRegionSaturation);
labRegionSlope = Gtk::manage(new Adjuster(M("TP_COLORTONING_LABREGION_SLOPE"), 0.1, 4.0, 0.001, 1));
labRegionSlope->setLogScale(4, 0.1);
labRegionSlope->setAdjusterListener(this);
labRegionBox->pack_start(*labRegionSlope);
labRegionOffset = Gtk::manage(new Adjuster(M("TP_COLORTONING_LABREGION_OFFSET"), -0.1, 0.1, 0.001, 0));
labRegionOffset->setAdjusterListener(this);
labRegionBox->pack_start(*labRegionOffset);
labRegionPower = Gtk::manage(new Adjuster(M("TP_COLORTONING_LABREGION_POWER"), 0.1, 4.0, 0.001, 1));
labRegionPower->setAdjusterListener(this);
labRegionPower->setLogScale(4, 0.1);
labRegionBox->pack_start(*labRegionPower);
hb = Gtk::manage(new Gtk::Box());
labRegionChannel = Gtk::manage(new MyComboBoxText());
labRegionChannel->append(M("TP_COLORTONING_LABREGION_CHANNEL_ALL"));
labRegionChannel->append(M("TP_COLORTONING_LABREGION_CHANNEL_R"));
labRegionChannel->append(M("TP_COLORTONING_LABREGION_CHANNEL_G"));
labRegionChannel->append(M("TP_COLORTONING_LABREGION_CHANNEL_B"));
labRegionChannel->set_active(0);
labRegionChannel->signal_changed().connect(sigc::mem_fun(*this, &ColorToning::labRegionChannelChanged));
hb->pack_start(*Gtk::manage(new Gtk::Label(M("TP_COLORTONING_LABREGION_CHANNEL") + ": ")), Gtk::PACK_SHRINK);
hb->pack_start(*labRegionChannel);
labRegionBox->pack_start(*hb);
labRegionBox->pack_start(*Gtk::manage(new Gtk::Separator(Gtk::ORIENTATION_HORIZONTAL)));
CurveEditorGroup *labRegionEditorG = Gtk::manage(new CurveEditorGroup(options.lastColorToningCurvesDir, M("TP_COLORTONING_LABREGION_MASK")));
labRegionEditorG->setCurveListener(this);
labRegionHueMask = static_cast<FlatCurveEditor *>(labRegionEditorG->addCurve(CT_Flat, M("TP_COLORTONING_LABREGION_HUEMASK"), nullptr, false, true));
labRegionHueMask->setIdentityValue(0.);
labRegionHueMask->setResetCurve(FlatCurveType(default_params.labregions[0].hueMask[0]), default_params.labregions[0].hueMask);
labRegionHueMask->setCurveColorProvider(this, ID_LABREGION_HUE);
labRegionHueMask->setBottomBarColorProvider(this, ID_LABREGION_HUE);
labRegionHueMask->setEditID(EUID_Lab_HHCurve, BT_SINGLEPLANE_FLOAT);
labRegionChromaticityMask = static_cast<FlatCurveEditor *>(labRegionEditorG->addCurve(CT_Flat, M("TP_COLORTONING_LABREGION_CHROMATICITYMASK"), nullptr, false, false));
labRegionChromaticityMask->setIdentityValue(0.);
labRegionChromaticityMask->setResetCurve(FlatCurveType(default_params.labregions[0].chromaticityMask[0]), default_params.labregions[0].chromaticityMask);
labRegionChromaticityMask->setBottomBarColorProvider(this, ID_LABREGION_HUE+1);
labRegionChromaticityMask->setEditID(EUID_Lab_CCurve, BT_SINGLEPLANE_FLOAT);
labRegionLightnessMask = static_cast<FlatCurveEditor *>(labRegionEditorG->addCurve(CT_Flat, M("TP_COLORTONING_LABREGION_LIGHTNESSMASK"), nullptr, false, false));
labRegionLightnessMask->setIdentityValue(0.);
labRegionLightnessMask->setResetCurve(FlatCurveType(default_params.labregions[0].lightnessMask[0]), default_params.labregions[0].lightnessMask);
labRegionLightnessMask->setBottomBarBgGradient(milestones);
labRegionLightnessMask->setEditID(EUID_Lab_LCurve, BT_SINGLEPLANE_FLOAT);
labRegionData = default_params.labregions;
labRegionSelected = 0;
{
auto n = labRegionList->append("1");
labRegionList->set_text(n, 1, "a=0 b=0 s=0 l=0");
}
labRegionEditorG->curveListComplete();
labRegionEditorG->show();
labRegionBox->pack_start(*labRegionEditorG, Gtk::PACK_SHRINK, 2);
labRegionMaskBlur = Gtk::manage(new Adjuster(M("TP_COLORTONING_LABREGION_MASKBLUR"), -10, 100, 0.1, 0));
labRegionMaskBlur->setLogScale(10, 0);
labRegionMaskBlur->setAdjusterListener(this);
labRegionBox->pack_start(*labRegionMaskBlur);
labRegionShowMask = Gtk::manage(new Gtk::CheckButton(M("TP_COLORTONING_LABREGION_SHOWMASK")));
labRegionShowMask->signal_toggled().connect(sigc::mem_fun(*this, &ColorToning::labRegionShowMaskChanged));
labRegionBox->pack_start(*labRegionShowMask, Gtk::PACK_SHRINK, 4);
pack_start(*labRegionBox, Gtk::PACK_EXPAND_WIDGET, 4);
labRegionSaturation->setDelay(std::max(options.adjusterMinDelay, options.adjusterMaxDelay));
labRegionSlope->setDelay(std::max(options.adjusterMinDelay, options.adjusterMaxDelay));
labRegionOffset->setDelay(std::max(options.adjusterMinDelay, options.adjusterMaxDelay));
labRegionPower->setDelay(std::max(options.adjusterMinDelay, options.adjusterMaxDelay));
labRegionMaskBlur->setDelay(std::max(options.adjusterMinDelay, options.adjusterMaxDelay));
//------------------------------------------------------------------------
show_all();
disableListener();
methodChanged();
enableListener();
}
ColorToning::~ColorToning()
{
idle_register.destroy();
delete colorCurveEditorG;
delete opacityCurveEditorG;
delete clCurveEditorG;
delete cl2CurveEditorG;
}
void ColorToning::setListener(ToolPanelListener *tpl)
{
ToolPanel::setListener(tpl);
labgrid->setListener(tpl);
labRegionAB->setListener(tpl);
}
/*
void ColorToning::neutralCurves_pressed () {
disableListener();
bool changed = false;
changed |= colorShape->reset();
changed |= opacityShape->reset();
changed |= clshape->reset();
changed |= cl2shape->reset();
enableListener();
if (listener && enabled->get_active() && changed)
listener->panelChanged (EvColorToningNeutralcur, M("GENERAL_RESET"));
}
*/
// Will only reset the channel mixer
void ColorToning::neutral_pressed ()
{
disableListener();
redlow->resetValue(false);
greenlow->resetValue(false);
bluelow->resetValue(false);
redmed->resetValue(false);
greenmed->resetValue(false);
bluemed->resetValue(false);
redhigh->resetValue(false);
greenhigh->resetValue(false);
bluehigh->resetValue(false);
//balance->resetValue(false);
enableListener();
if (listener && getEnabled()) {
listener->panelChanged (EvColorToningNeutral, M("GENERAL_RESET"));
}
}
void ColorToning::read (const ProcParams* pp, const ParamsEdited* pedited)
{
disableListener ();
methodconn.block(true);
twocconn.block(true);
colorShape->setCurve (pp->colorToning.colorCurve);
opacityShape->setCurve (pp->colorToning.opacityCurve);
clshape->setCurve (pp->colorToning.clcurve);
cl2shape->setCurve (pp->colorToning.cl2curve);
labRegionData = pp->colorToning.labregions;
if (labRegionData.empty()) {
labRegionData.emplace_back(rtengine::procparams::ColorToningParams::LabCorrectionRegion());
}
if (pp->colorToning.labregionsShowMask >= 0) {
labRegionSelected = pp->colorToning.labregionsShowMask;
labRegionShowMask->set_active(true);
} else {
labRegionSelected = 0;
labRegionShowMask->set_active(false);
}
labRegionPopulateList();
labRegionShow(labRegionSelected);
if (pedited) {
redlow->setEditedState (pedited->colorToning.redlow ? Edited : UnEdited);
greenlow->setEditedState (pedited->colorToning.greenlow ? Edited : UnEdited);
bluelow->setEditedState (pedited->colorToning.bluelow ? Edited : UnEdited);
balance->setEditedState (pedited->colorToning.balance ? Edited : UnEdited);
redmed->setEditedState (pedited->colorToning.redmed ? Edited : UnEdited);
greenmed->setEditedState (pedited->colorToning.greenmed ? Edited : UnEdited);
bluemed->setEditedState (pedited->colorToning.bluemed ? Edited : UnEdited);
redhigh->setEditedState (pedited->colorToning.redhigh ? Edited : UnEdited);
greenhigh->setEditedState (pedited->colorToning.greenhigh ? Edited : UnEdited);
bluehigh->setEditedState (pedited->colorToning.bluehigh ? Edited : UnEdited);
hlColSat->setEditedState (pedited->colorToning.hlColSat ? Edited : UnEdited);
shadowsColSat->setEditedState (pedited->colorToning.shadowsColSat ? Edited : UnEdited);
set_inconsistent (multiImage && !pedited->colorToning.enabled);
colorShape->setUnChanged (!pedited->colorToning.colorCurve);
opacityShape->setUnChanged (!pedited->colorToning.opacityCurve);
autosat->set_inconsistent (!pedited->colorToning.autosat);
clshape->setUnChanged (!pedited->colorToning.clcurve);
cl2shape->setUnChanged (!pedited->colorToning.cl2curve);
lumamode->set_inconsistent (!pedited->colorToning.lumamode);
labgrid->setEdited(pedited->colorToning.labgridALow || pedited->colorToning.labgridBLow || pedited->colorToning.labgridAHigh || pedited->colorToning.labgridBHigh);
labRegionAB->setEdited(pedited->colorToning.labregions);
labRegionShowMask->set_inconsistent(!pedited->colorToning.labregionsShowMask);
}
redlow->setValue (pp->colorToning.redlow);
greenlow->setValue (pp->colorToning.greenlow);
bluelow->setValue (pp->colorToning.bluelow);
balance->setValue (pp->colorToning.balance);
redmed->setValue (pp->colorToning.redmed);
greenmed->setValue (pp->colorToning.greenmed);
bluemed->setValue (pp->colorToning.bluemed);
redhigh->setValue (pp->colorToning.redhigh);
greenhigh->setValue (pp->colorToning.greenhigh);
bluehigh->setValue (pp->colorToning.bluehigh);
setEnabled (pp->colorToning.enabled);
autosatConn.block (true);
autosat->set_active (pp->colorToning.autosat);
autosatConn.block (false);
lastautosat = pp->colorToning.autosat;
satProtectionThreshold->setValue (pp->colorToning.satProtectionThreshold);
saturatedOpacity->setValue (pp->colorToning.saturatedOpacity);
hlColSat->setValue<int> (pp->colorToning.hlColSat);
shadowsColSat->setValue<int> (pp->colorToning.shadowsColSat);
strength->setValue (pp->colorToning.strength);
lumamodeConn.block (true);
lumamode->set_active (pp->colorToning.lumamode);
lumamodeConn.block (false);
lastLumamode = pp->colorToning.lumamode;
labgrid->setParams(pp->colorToning.labgridALow / ColorToningParams::LABGRID_CORR_MAX, pp->colorToning.labgridBLow / ColorToningParams::LABGRID_CORR_MAX, pp->colorToning.labgridAHigh / ColorToningParams::LABGRID_CORR_MAX, pp->colorToning.labgridBHigh / ColorToningParams::LABGRID_CORR_MAX, 0, 0, 0, 0, 0, 0,false);
if (pedited && !pedited->colorToning.method) {
method->set_active (7);
} else if (pp->colorToning.method == "Lab") {
method->set_active (0);
} else if (pp->colorToning.method == "RGBSliders") {
method->set_active (1);
} else if (pp->colorToning.method == "RGBCurves") {
method->set_active (2);
} else if (pp->colorToning.method == "Splitco") {
method->set_active (3);
} else if (pp->colorToning.method == "Splitlr") {
method->set_active (4);
} else if (pp->colorToning.method == "LabGrid") {
method->set_active(5);
} else if (pp->colorToning.method == "LabRegions") {
method->set_active(6);
}
methodChanged();
methodconn.block(false);
if (pedited && !pedited->colorToning.twocolor) {
twocolor->set_active (4);
} else if (pp->colorToning.twocolor == "Std") {
twocolor->set_active (0);
} else if (pp->colorToning.twocolor == "All") {
twocolor->set_active (1);
} else if (pp->colorToning.twocolor == "Separ") {
twocolor->set_active (2);
} else if (pp->colorToning.twocolor == "Two") {
twocolor->set_active (3);
}
twocolorChanged(true);
twocconn.block(false);
enableListener ();
}
void ColorToning::write (ProcParams* pp, ParamsEdited* pedited)
{
pp->colorToning.redlow = redlow->getValue ();
pp->colorToning.greenlow = greenlow->getValue ();
pp->colorToning.bluelow = bluelow->getValue ();
pp->colorToning.balance = balance->getIntValue ();
pp->colorToning.redmed = redmed->getValue ();
pp->colorToning.greenmed = greenmed->getValue ();
pp->colorToning.bluemed = bluemed->getValue ();
pp->colorToning.redhigh = redhigh->getValue ();
pp->colorToning.greenhigh = greenhigh->getValue ();
pp->colorToning.bluehigh = bluehigh->getValue ();
pp->colorToning.enabled = getEnabled();
pp->colorToning.colorCurve = colorShape->getCurve ();
pp->colorToning.opacityCurve = opacityShape->getCurve ();
pp->colorToning.clcurve = clshape->getCurve ();
pp->colorToning.cl2curve = cl2shape->getCurve ();
pp->colorToning.lumamode = lumamode->get_active();
pp->colorToning.hlColSat = hlColSat->getValue<int> ();
pp->colorToning.shadowsColSat = shadowsColSat->getValue<int> ();
pp->colorToning.autosat = autosat->get_active();
pp->colorToning.satProtectionThreshold = satProtectionThreshold->getIntValue();
pp->colorToning.saturatedOpacity = saturatedOpacity->getIntValue();
pp->colorToning.strength = strength->getIntValue();
double zerox = 0.;
double zeroy = 0.;
labgrid->getParams(pp->colorToning.labgridALow, pp->colorToning.labgridBLow, pp->colorToning.labgridAHigh, pp->colorToning.labgridBHigh, zerox, zeroy, zerox, zeroy, zerox, zeroy);
pp->colorToning.labgridALow *= ColorToningParams::LABGRID_CORR_MAX;
pp->colorToning.labgridAHigh *= ColorToningParams::LABGRID_CORR_MAX;
pp->colorToning.labgridBLow *= ColorToningParams::LABGRID_CORR_MAX;
pp->colorToning.labgridBHigh *= ColorToningParams::LABGRID_CORR_MAX;
labRegionGet(labRegionSelected);
labRegionShow(labRegionSelected, true);
pp->colorToning.labregions = labRegionData;
if (labRegionShowMask->get_active()) {
pp->colorToning.labregionsShowMask = labRegionSelected;
} else {
pp->colorToning.labregionsShowMask = -1;
}
if (pedited) {
pedited->colorToning.redlow = redlow->getEditedState ();
pedited->colorToning.greenlow = greenlow->getEditedState ();
pedited->colorToning.bluelow = bluelow->getEditedState ();
pedited->colorToning.balance = balance->getEditedState ();
pedited->colorToning.redmed = redmed->getEditedState ();
pedited->colorToning.greenmed = greenmed->getEditedState ();
pedited->colorToning.bluemed = bluemed->getEditedState ();
pedited->colorToning.redhigh = redhigh->getEditedState ();
pedited->colorToning.greenhigh = greenhigh->getEditedState ();
pedited->colorToning.bluehigh = bluehigh->getEditedState ();
pedited->colorToning.method = method->get_active_text() != M("GENERAL_UNCHANGED");
pedited->colorToning.twocolor = twocolor->get_active_text() != M("GENERAL_UNCHANGED");
pedited->colorToning.enabled = !get_inconsistent();
pedited->colorToning.autosat = !autosat->get_inconsistent();
pedited->colorToning.colorCurve = !colorShape->isUnChanged ();
pedited->colorToning.opacityCurve = !opacityShape->isUnChanged ();
pedited->colorToning.clcurve = !clshape->isUnChanged ();
pedited->colorToning.cl2curve = !cl2shape->isUnChanged ();
pedited->colorToning.lumamode = !lumamode->get_inconsistent();
pedited->colorToning.hlColSat = hlColSat->getEditedState ();
pedited->colorToning.shadowsColSat = shadowsColSat->getEditedState ();
pedited->colorToning.labgridALow = pedited->colorToning.labgridBLow = pedited->colorToning.labgridAHigh = pedited->colorToning.labgridBHigh = labgrid->getEdited();
pedited->colorToning.labregions = labRegionAB->getEdited();
pedited->colorToning.labregionsShowMask = !labRegionShowMask->get_inconsistent();
}
if (method->get_active_row_number() == 0) {
pp->colorToning.method = "Lab";
} else if (method->get_active_row_number() == 1) {
pp->colorToning.method = "RGBSliders";
} else if (method->get_active_row_number() == 2) {
pp->colorToning.method = "RGBCurves";
} else if (method->get_active_row_number() == 3) {
pp->colorToning.method = "Splitco";
} else if (method->get_active_row_number() == 4) {
pp->colorToning.method = "Splitlr";
} else if (method->get_active_row_number() == 5) {
pp->colorToning.method = "LabGrid";
} else if (method->get_active_row_number() == 6) {
pp->colorToning.method = "LabRegions";
}
if (twocolor->get_active_row_number() == 0) {
pp->colorToning.twocolor = "Std";
} else if (twocolor->get_active_row_number() == 1) {
pp->colorToning.twocolor = "All";
} else if (twocolor->get_active_row_number() == 2) {
pp->colorToning.twocolor = "Separ";
} else if (twocolor->get_active_row_number() == 3) {
pp->colorToning.twocolor = "Two";
}
}
void ColorToning::lumamodeChanged ()
{
if (batchMode) {
if (lumamode->get_inconsistent()) {
lumamode->set_inconsistent (false);
lumamodeConn.block (true);
lumamode->set_active (false);
lumamodeConn.block (false);
} else if (lastLumamode) {
lumamode->set_inconsistent (true);
}
lastLumamode = lumamode->get_active ();
}
if (listener && getEnabled()) {
if (lumamode->get_active ()) {
listener->panelChanged (EvColorToningLumamode, M("GENERAL_ENABLED"));
} else {
listener->panelChanged (EvColorToningLumamode, M("GENERAL_DISABLED"));
}
}
}
void ColorToning::setDefaults (const ProcParams* defParams, const ParamsEdited* pedited)
{
redlow->setDefault (defParams->colorToning.redlow);
greenlow->setDefault (defParams->colorToning.greenlow);
bluelow->setDefault (defParams->colorToning.bluelow);
balance->setDefault (defParams->colorToning.balance);
redmed->setDefault (defParams->colorToning.redmed);
greenmed->setDefault (defParams->colorToning.greenmed);
bluemed->setDefault (defParams->colorToning.bluemed);
redhigh->setDefault (defParams->colorToning.redhigh);
greenhigh->setDefault (defParams->colorToning.greenhigh);
bluehigh->setDefault (defParams->colorToning.bluehigh);
satProtectionThreshold->setDefault (defParams->colorToning.satProtectionThreshold);
saturatedOpacity->setDefault (defParams->colorToning.saturatedOpacity);
hlColSat->setDefault<int> (defParams->colorToning.hlColSat);
shadowsColSat->setDefault<int> (defParams->colorToning.shadowsColSat);
strength->setDefault (defParams->colorToning.strength);
labgrid->setDefault(defParams->colorToning.labgridALow / ColorToningParams::LABGRID_CORR_MAX, defParams->colorToning.labgridBLow / ColorToningParams::LABGRID_CORR_MAX, defParams->colorToning.labgridAHigh / ColorToningParams::LABGRID_CORR_MAX, defParams->colorToning.labgridBHigh / ColorToningParams::LABGRID_CORR_MAX, 0, 0, 0, 0, 0, 0);
if (pedited) {
redlow->setDefaultEditedState (pedited->colorToning.redlow ? Edited : UnEdited);
greenlow->setDefaultEditedState (pedited->colorToning.greenlow ? Edited : UnEdited);
bluelow->setDefaultEditedState (pedited->colorToning.bluelow ? Edited : UnEdited);
balance->setDefaultEditedState (pedited->colorToning.balance ? Edited : UnEdited);
redmed->setDefaultEditedState (pedited->colorToning.redmed ? Edited : UnEdited);
greenmed->setDefaultEditedState (pedited->colorToning.greenmed ? Edited : UnEdited);
bluemed->setDefaultEditedState (pedited->colorToning.bluemed ? Edited : UnEdited);
redhigh->setDefaultEditedState (pedited->colorToning.redhigh ? Edited : UnEdited);
greenhigh->setDefaultEditedState (pedited->colorToning.greenhigh ? Edited : UnEdited);
bluehigh->setDefaultEditedState (pedited->colorToning.bluehigh ? Edited : UnEdited);
satProtectionThreshold->setDefaultEditedState (pedited->colorToning.satprotectionthreshold ? Edited : UnEdited);
saturatedOpacity->setDefaultEditedState (pedited->colorToning.saturatedopacity ? Edited : UnEdited);
hlColSat->setDefaultEditedState (pedited->colorToning.hlColSat ? Edited : UnEdited);
shadowsColSat->setDefaultEditedState (pedited->colorToning.shadowsColSat ? Edited : UnEdited);
strength->setDefaultEditedState (pedited->colorToning.strength ? Edited : UnEdited);
labgrid->setEdited((pedited->colorToning.labgridALow || pedited->colorToning.labgridBLow || pedited->colorToning.labgridAHigh || pedited->colorToning.labgridBHigh) ? Edited : UnEdited);
labRegionAB->setEdited(pedited->colorToning.labregions ? Edited : UnEdited);
} else {
redlow->setDefaultEditedState (Irrelevant);
greenlow->setDefaultEditedState (Irrelevant);
bluelow->setDefaultEditedState (Irrelevant);
balance->setDefaultEditedState (Irrelevant);
redmed->setDefaultEditedState (Irrelevant);
greenmed->setDefaultEditedState (Irrelevant);
bluemed->setDefaultEditedState (Irrelevant);
redhigh->setDefaultEditedState (Irrelevant);
greenhigh->setDefaultEditedState (Irrelevant);
bluehigh->setDefaultEditedState (Irrelevant);
satProtectionThreshold->setDefaultEditedState (Irrelevant);
saturatedOpacity->setDefaultEditedState (Irrelevant);
hlColSat->setDefaultEditedState (Irrelevant);
shadowsColSat->setDefaultEditedState (Irrelevant);
strength->setDefaultEditedState (Irrelevant);
labgrid->setEdited(Edited);
labRegionAB->setEdited(Edited);
}
}
void ColorToning::setAdjusterBehavior (bool splitAdd, bool satThresholdAdd, bool satOpacityAdd, bool strprotectAdd, bool balanceAdd)
{
redlow->setAddMode(splitAdd);
greenlow->setAddMode(splitAdd);
bluelow->setAddMode(splitAdd);
balance->setAddMode(splitAdd);
redmed->setAddMode(splitAdd);
greenmed->setAddMode(splitAdd);
bluemed->setAddMode(splitAdd);
redhigh->setAddMode(splitAdd);
greenhigh->setAddMode(splitAdd);
bluehigh->setAddMode(splitAdd);
satProtectionThreshold->setAddMode(satThresholdAdd);
saturatedOpacity->setAddMode(satOpacityAdd);
balance->setAddMode(balanceAdd);
strength->setAddMode(strprotectAdd);
}
void ColorToning::autoColorTonChanged(int bwct, int satthres, int satprot)
{
nextbw = bwct;
nextsatth = satthres;
nextsatpr = satprot;
idle_register.add(
[this]() -> bool
{
disableListener();
saturatedOpacity->setValue(nextsatpr);
satProtectionThreshold->setValue(nextsatth);
enableListener();
return false;
}
);
}
void ColorToning::adjusterChanged (ThresholdAdjuster* a, double newBottom, double newTop)
{
if (listener && getEnabled()) {
listener->panelChanged(
a == hlColSat
? EvColorToningHighights
: EvColorToningShadows,
Glib::ustring::compose(Glib::ustring(M("TP_COLORTONING_HUE") + ": %1" + "\n" + M("TP_COLORTONING_STRENGTH") + ": %2"), int(newTop), int(newBottom))
);
}
}
void ColorToning::adjusterChanged(ThresholdAdjuster* a, double newBottomLeft, double newTopLeft, double newBottomRight, double newTopRight)
{
}
void ColorToning::adjusterChanged(ThresholdAdjuster* a, int newBottom, int newTop)
{
}
void ColorToning::adjusterChanged(ThresholdAdjuster* a, int newBottomLeft, int newTopLeft, int newBottomRight, int newTopRight)
{
}
void ColorToning::adjusterChanged2(ThresholdAdjuster* a, int newBottomL, int newTopL, int newBottomR, int newTopR)
{
}
//Two Color changed
void ColorToning::twocolorChanged (bool changedbymethod)
{
if (!batchMode) {
if(method->get_active_row_number() == 0) { // Lab
if(twocolor->get_active_row_number() == 0) {
colorCurveEditorG->show(); // visible
opacityCurveEditorG->show(); // visible
clCurveEditorG->hide();
cl2CurveEditorG->hide();
} else if(twocolor->get_active_row_number() == 1 || twocolor->get_active_row_number() == 3) {
colorCurveEditorG->show(); // visible
opacityCurveEditorG->hide();
clCurveEditorG->show(); // visible
cl2CurveEditorG->hide();
irg->hide();
} else if(twocolor->get_active_row_number() == 2) {
colorCurveEditorG->show(); // visible
opacityCurveEditorG->hide();
clCurveEditorG->show(); // visible
cl2CurveEditorG->show(); // visible
irg->show();
}
} else if(method->get_active_row_number() == 1) { // RGB Sliders
colorCurveEditorG->hide();
opacityCurveEditorG->hide();
clCurveEditorG->hide();
cl2CurveEditorG->hide();
} else if(method->get_active_row_number() == 2) { // RGB Curves
colorCurveEditorG->show(); // visible
opacityCurveEditorG->show(); // visible
clCurveEditorG->hide();
cl2CurveEditorG->hide();
} else if(method->get_active_row_number() == 3) { // Split LR
colorCurveEditorG->hide();
opacityCurveEditorG->hide();
clCurveEditorG->hide();
cl2CurveEditorG->hide();
} else if(method->get_active_row_number() == 4) { // Split color
colorCurveEditorG->hide();
opacityCurveEditorG->hide();
clCurveEditorG->hide();
cl2CurveEditorG->hide();
}
}
if (listener && getEnabled() && !changedbymethod) {
listener->panelChanged (EvColorToningTwocolor, twocolor->get_active_text ());
}
}
void ColorToning::twoColorChangedByGui()
{
twocolorChanged(false);
}
void ColorToning::methodChanged ()
{
if (!batchMode) {
labgrid->hide();
labRegionBox->hide();
if (method->get_active_row_number() == 0) { // Lab
colorSep->show();
colorCurveEditorG->show();
twocolor->show();
opacityCurveEditorG->hide();
clCurveEditorG->hide();
cl2CurveEditorG->hide();
//neutralCurves->show();
hlColSat->hide();
shadowsColSat->hide();
balance->hide();
// satLimiterSep->show();
if(autosat->get_active()) {
saturatedOpacity->set_sensitive(false);
satProtectionThreshold->set_sensitive(false);
satProtectionThreshold->show();
saturatedOpacity->show();
} else {
satProtectionThreshold->show();
saturatedOpacity->show();
saturatedOpacity->set_sensitive(true);
satProtectionThreshold->set_sensitive(true);
}
autosat->show();
p1Frame->show();
strength->hide();
chanMixerBox->hide();
neutrHBox->hide();
lumamode->hide();
//splitSep->hide();
//satlow->hide();
//sathigh->hide();
twocolorChanged(true);
} else if (method->get_active_row_number() == 1) { // RGB Sliders
colorSep->hide();
colorCurveEditorG->hide();
twocolor->hide();
twocolor->set_active (false);
opacityCurveEditorG->hide();
clCurveEditorG->hide();
cl2CurveEditorG->hide();
//neutralCurves->hide();
hlColSat->show();
shadowsColSat->show();
balance->show();
// satLimiterSep->show();
autosat->show();
p1Frame->show();
if(autosat->get_active()) {
saturatedOpacity->set_sensitive(false);
satProtectionThreshold->set_sensitive(false);
satProtectionThreshold->show();
saturatedOpacity->show();
} else {
satProtectionThreshold->show();
saturatedOpacity->show();
saturatedOpacity->set_sensitive(true);
satProtectionThreshold->set_sensitive(true);
}
strength->hide();
chanMixerBox->hide();
neutrHBox->hide();
lumamode->hide();
} else if (method->get_active_row_number() == 2) { // RGB Curves
colorSep->hide();
colorCurveEditorG->show();
twocolor->hide();
twocolor->set_active (false);
opacityCurveEditorG->show();
clCurveEditorG->hide();
cl2CurveEditorG->hide();
//neutralCurves->show();
hlColSat->hide();
shadowsColSat->hide();
balance->hide();
// satLimiterSep->show();
p1Frame->show();
autosat->show();
if(autosat->get_active()) {
saturatedOpacity->set_sensitive(false);
satProtectionThreshold->set_sensitive(false);
satProtectionThreshold->show();
saturatedOpacity->show();
} else {
satProtectionThreshold->show();
saturatedOpacity->show();
saturatedOpacity->set_sensitive(true);
satProtectionThreshold->set_sensitive(true);
}
strength->hide();
chanMixerBox->hide();
neutrHBox->hide();
lumamode->hide();
} else if (method->get_active_row_number() == 3) { // Split LR
colorSep->hide();
colorCurveEditorG->hide();
twocolor->hide();
twocolor->set_active (false);
opacityCurveEditorG->hide();
clCurveEditorG->hide();
cl2CurveEditorG->hide();
//neutralCurves->hide();
hlColSat->hide();
shadowsColSat->hide();
balance->hide();
p1Frame->hide();
// satLimiterSep->hide();
autosat->hide();
satProtectionThreshold->hide();
saturatedOpacity->hide();
strength->show();
chanMixerBox->show();
neutrHBox->show();
lumamode->show();
} else if (method->get_active_row_number() == 4) { // Split Color
colorSep->show();
colorCurveEditorG->hide();
twocolor->hide();
opacityCurveEditorG->hide();
clCurveEditorG->hide();
cl2CurveEditorG->hide();
//neutralCurves->hide();
hlColSat->show();
shadowsColSat->show();
balance->show();
// satLimiterSep->hide();
p1Frame->hide();
autosat->hide();
satProtectionThreshold->hide();
saturatedOpacity->hide();
strength->show();
chanMixerBox->hide();
neutrHBox->hide();
lumamode->show();
} else if (method->get_active_row_number() == 5 || method->get_active_row_number() == 6) { // Lab Grid or Lab Regions
colorSep->hide();
colorCurveEditorG->hide();
twocolor->hide();
opacityCurveEditorG->hide();
clCurveEditorG->hide();
cl2CurveEditorG->hide();
hlColSat->hide();
shadowsColSat->hide();
balance->hide();
p1Frame->hide();
autosat->hide();
satProtectionThreshold->hide();
saturatedOpacity->hide();
strength->hide();
chanMixerBox->hide();
neutrHBox->hide();
lumamode->hide();
if (method->get_active_row_number() == 5) {
labgrid->show();
} else {
labRegionBox->show();
}
}
}
if (listener && getEnabled()) {
listener->panelChanged (EvColorToningMethod, method->get_active_text ());
}
}
void ColorToning::autoOpenCurve ()
{
colorShape->openIfNonlinear();
opacityShape->openIfNonlinear();
clshape->openIfNonlinear();
cl2shape->openIfNonlinear();
}
void ColorToning::colorForValue (double valX, double valY, enum ColorCaller::ElemType elemType, int callerId, ColorCaller *caller)
{
float R = 0.f, G = 0.f, B = 0.f;
if (callerId == 1) { // opacity curve left bar(s)
Color::hsv2rgb01(float(valY*0.8), 1.0f, 0.5f, R, G, B);
} else if (callerId == 2) { // Slider 1 background
if (valY <= 0.5)
// the hue range
{
Color::hsv2rgb01(float(valX), 1.0f, 0.5f, R, G, B);
} else {
// the strength applied to the current hue
double strength, hue;
hlColSat->getValue(strength, hue);
Color::hsv2rgb01(hue / 360.0, 1.f, 1.f, R, G, B);
const double gray = 0.46;
R = (gray * (1.0 - valX)) + static_cast<double>(R) * valX;
G = (gray * (1.0 - valX)) + static_cast<double>(G) * valX;
B = (gray * (1.0 - valX)) + static_cast<double>(B) * valX;
}
} else if (callerId == 3) { // Slider 2 background
if (valY <= 0.5)
// the hue range
{
Color::hsv2rgb01(float(valX), 1.0f, 0.5f, R, G, B);
} else {
// the strength applied to the current hue
double strength, hue;
shadowsColSat->getValue(strength, hue);
Color::hsv2rgb01(hue / 360.0, 1.f, 1.f, R, G, B);
const double gray = 0.46;
R = (gray * (1.0 - valX)) + static_cast<double>(R) * valX;
G = (gray * (1.0 - valX)) + static_cast<double>(G) * valX;
B = (gray * (1.0 - valX)) + static_cast<double>(B) * valX;
}
} else if (callerId == 4) { // color curve vertical and horizontal crosshair
Color::hsv2rgb01(float(valY), 1.0f, 0.5f, R, G, B);
} else if (callerId == ID_LABREGION_HUE) {
// TODO
float x = valX - 1.0/6.0;
if (x < 0.f) {
x += 1.f;
}
x = log2lin(x, 3.f);
// float x = valX;
Color::hsv2rgb01(x, 0.5f, 0.5f, R, G, B);
} else if (callerId == ID_LABREGION_HUE+1) {
Color::hsv2rgb01(float(valY), float(valX), 0.5f, R, G, B);
}
caller->ccRed = double(R);
caller->ccGreen = double(G);
caller->ccBlue = double(B);
}
void ColorToning::curveChanged (CurveEditor* ce)
{
if (listener && getEnabled()) {
if (ce == colorShape) {
listener->panelChanged (EvColorToningColor, M("HISTORY_CUSTOMCURVE"));
} else if (ce == opacityShape) {
listener->panelChanged (EvColorToningOpacity, M("HISTORY_CUSTOMCURVE"));
} else if (ce == clshape) {
listener->panelChanged (EvColorToningCLCurve, M("HISTORY_CUSTOMCURVE"));
} else if (ce == cl2shape) {
listener->panelChanged (EvColorToningLLCurve, M("HISTORY_CUSTOMCURVE"));
} else if (ce == labRegionHueMask) {
listener->panelChanged(EvLabRegionHueMask, M("HISTORY_CUSTOMCURVE"));
} else if (ce == labRegionChromaticityMask) {
listener->panelChanged(EvLabRegionChromaticityMask, M("HISTORY_CUSTOMCURVE"));
} else if (ce == labRegionLightnessMask) {
listener->panelChanged(EvLabRegionLightnessMask, M("HISTORY_CUSTOMCURVE"));
}
}
}
void ColorToning::enabledChanged ()
{
if (listener) {
if (get_inconsistent()) {
listener->panelChanged (EvColorToningEnabled, M("GENERAL_UNCHANGED"));
} else if (getEnabled()) {
listener->panelChanged (EvColorToningEnabled, M("GENERAL_ENABLED"));
} else {
listener->panelChanged (EvColorToningEnabled, M("GENERAL_DISABLED"));
}
}
}
void ColorToning::autosatChanged ()
{
if (batchMode) {
if (autosat->get_inconsistent()) {
autosat->set_inconsistent (false);
autosatConn.block (true);
autosat->set_active (false);
autosatConn.block (false);
} else if (lastautosat) {
autosat->set_inconsistent (true);
}
lastautosat = autosat->get_active ();
}
if (listener) {
if (autosat->get_active()) {
if (getEnabled()) {
listener->panelChanged (EvColorToningautosat, M("GENERAL_ENABLED"));
}
saturatedOpacity->set_sensitive(false);
satProtectionThreshold->set_sensitive(false);
} else {
if (getEnabled()) {
listener->panelChanged (EvColorToningautosat, M("GENERAL_DISABLED"));
}
saturatedOpacity->set_sensitive(true);
satProtectionThreshold->set_sensitive(true);
}
}
}
void ColorToning::trimValues (rtengine::procparams::ProcParams* pp)
{
redlow->trimValue(pp->colorToning.redlow);
greenlow->trimValue(pp->colorToning.greenlow);
bluelow->trimValue(pp->colorToning.bluelow);
balance->trimValue(pp->colorToning.balance);
redmed->trimValue(pp->colorToning.redmed);
greenmed->trimValue(pp->colorToning.greenmed);
bluemed->trimValue(pp->colorToning.bluemed);
redhigh->trimValue(pp->colorToning.redhigh);
greenhigh->trimValue(pp->colorToning.greenhigh);
bluehigh->trimValue(pp->colorToning.bluehigh);
}
void ColorToning::adjusterChanged(Adjuster* a, double newval)
{
if (!listener || !getEnabled()) {
return;
}
if (a == redlow) {
listener->panelChanged (EvColorToningredlow, redlow->getTextValue());
} else if (a == greenlow) {
listener->panelChanged (EvColorToninggreenlow, greenlow->getTextValue());
} else if (a == bluelow) {
listener->panelChanged (EvColorToningbluelow, bluelow->getTextValue());
} else if (a == redmed) {
listener->panelChanged (EvColorToningredmed, redmed->getTextValue());
} else if (a == greenmed) {
listener->panelChanged (EvColorToninggreenmed, greenmed->getTextValue());
} else if (a == bluemed) {
listener->panelChanged (EvColorToningbluemed, bluemed->getTextValue());
} else if (a == redhigh) {
listener->panelChanged (EvColorToningredhigh, redhigh->getTextValue());
} else if (a == greenhigh) {
listener->panelChanged (EvColorToninggreenhigh, greenhigh->getTextValue());
} else if (a == bluehigh) {
listener->panelChanged (EvColorToningbluehigh, bluehigh->getTextValue());
} else if (a == balance) {
listener->panelChanged (EvColorToningbalance, balance->getTextValue());
} else if (a == satProtectionThreshold) {
listener->panelChanged (EvColorToningSatThreshold, a->getTextValue());
} else if (a == saturatedOpacity) {
listener->panelChanged (EvColorToningSatProtection, a->getTextValue());
} else if (a == strength) {
listener->panelChanged (EvColorToningStrength, a->getTextValue());
} else if (a == labRegionSaturation) {
listener->panelChanged(EvLabRegionSaturation, a->getTextValue());
} else if (a == labRegionSlope) {
listener->panelChanged(EvLabRegionSlope, a->getTextValue());
} else if (a == labRegionOffset) {
listener->panelChanged(EvLabRegionOffset, a->getTextValue());
} else if (a == labRegionPower) {
listener->panelChanged(EvLabRegionPower, a->getTextValue());
} else if (a == labRegionMaskBlur) {
listener->panelChanged(EvLabRegionMaskBlur, a->getTextValue());
}
}
void ColorToning::setBatchMode (bool batchMode)
{
ToolPanel::setBatchMode (batchMode);
method->append (M("GENERAL_UNCHANGED"));
twocolor->append (M("GENERAL_UNCHANGED"));
hlColSat->showEditedCB ();
shadowsColSat->showEditedCB ();
redlow->showEditedCB ();
greenlow->showEditedCB ();
bluelow->showEditedCB ();
balance->showEditedCB ();
redmed->showEditedCB ();
greenmed->showEditedCB ();
bluemed->showEditedCB ();
redhigh->showEditedCB ();
greenhigh->showEditedCB ();
bluehigh->showEditedCB ();
colorCurveEditorG->setBatchMode (batchMode);
opacityCurveEditorG->setBatchMode (batchMode);
clCurveEditorG->setBatchMode (batchMode);
cl2CurveEditorG->setBatchMode (batchMode);
}
void ColorToning::onLabRegionSelectionChanged()
{
auto s = labRegionList->get_selected();
if (!s.empty()) {
// update the selected values
labRegionGet(labRegionSelected);
labRegionSelected = s[0];
labRegionShow(labRegionSelected);
if (labRegionShowMask->get_active()) {
labRegionShowMaskChanged();
}
}
}
void ColorToning::labRegionGet(int idx)
{
if (idx < 0 || size_t(idx) >= labRegionData.size()) {
return;
}
auto &r = labRegionData[idx];
double la, lb;
double zerox = 0.;
double zeroy = 0.;
labRegionAB->getParams(la, lb, r.a, r.b, zerox, zeroy, zerox, zeroy, zerox, zeroy);
r.saturation = labRegionSaturation->getValue();
r.slope = labRegionSlope->getValue();
r.offset = labRegionOffset->getValue();
r.power = labRegionPower->getValue();
r.hueMask = labRegionHueMask->getCurve();
r.chromaticityMask = labRegionChromaticityMask->getCurve();
r.lightnessMask = labRegionLightnessMask->getCurve();
r.maskBlur = labRegionMaskBlur->getValue();
r.channel = labRegionChannel->get_active_row_number() - 1;
}
void ColorToning::labRegionAddPressed()
{
labRegionSelected = labRegionData.size();
labRegionData.push_back(rtengine::procparams::ColorToningParams::LabCorrectionRegion());
labRegionPopulateList();
labRegionShow(labRegionSelected);
if (listener) {
listener->panelChanged(EvLabRegionList, M("HISTORY_CHANGED"));
}
}
void ColorToning::labRegionRemovePressed()
{
if (labRegionList->size() > 1) {
labRegionData.erase(labRegionData.begin() + labRegionSelected);
labRegionSelected = LIM(labRegionSelected-1, 0, int(labRegionData.size()-1));
labRegionPopulateList();
labRegionShow(labRegionSelected);
if (listener) {
listener->panelChanged(EvLabRegionList, M("HISTORY_CHANGED"));
}
}
}
void ColorToning::labRegionUpPressed()
{
if (labRegionSelected > 0) {
auto r = labRegionData[labRegionSelected];
labRegionData.erase(labRegionData.begin() + labRegionSelected);
--labRegionSelected;
labRegionData.insert(labRegionData.begin() + labRegionSelected, r);
labRegionPopulateList();
if (listener) {
listener->panelChanged(EvLabRegionList, M("HISTORY_CHANGED"));
}
}
}
void ColorToning::labRegionDownPressed()
{
if (labRegionSelected < int(labRegionData.size()-1)) {
auto r = labRegionData[labRegionSelected];
labRegionData.erase(labRegionData.begin() + labRegionSelected);
++labRegionSelected;
labRegionData.insert(labRegionData.begin() + labRegionSelected, r);
labRegionPopulateList();
if (listener) {
listener->panelChanged(EvLabRegionList, M("HISTORY_CHANGED"));
}
}
}
void ColorToning::labRegionCopyPressed()
{
if (labRegionSelected < int(labRegionData.size())) {
auto r = labRegionData[labRegionSelected];
labRegionData.push_back(r);
labRegionSelected = labRegionData.size()-1;
labRegionPopulateList();
if (listener) {
listener->panelChanged(EvLabRegionList, M("HISTORY_CHANGED"));
}
}
}
void ColorToning::labRegionShowMaskChanged()
{
if (listener) {
listener->panelChanged(EvLabRegionShowMask, labRegionShowMask->get_active() ? M("GENERAL_ENABLED") : M("GENERAL_DISABLED"));
}
}
void ColorToning::labRegionPopulateList()
{
ConnectionBlocker b(labRegionSelectionConn);
labRegionList->clear_items();
rtengine::procparams::ColorToningParams::LabCorrectionRegion dflt;
for (size_t i = 0; i < labRegionData.size(); ++i) {
auto &r = labRegionData[i];
auto j = labRegionList->append(std::to_string(i+1));
labRegionList->set_text(j, 1, Glib::ustring::compose("a=%1 b=%2 S=%3\ns=%4 o=%5 p=%6", round_ab(r.a), round_ab(r.b), r.saturation, r.slope, r.offset, r.power));
const char *ch = "";
switch (r.channel) {
case rtengine::procparams::ColorToningParams::LabCorrectionRegion::CHAN_R:
ch = "\n[Red]"; break;
case rtengine::procparams::ColorToningParams::LabCorrectionRegion::CHAN_G:
ch = "\n[Green]"; break;
case rtengine::procparams::ColorToningParams::LabCorrectionRegion::CHAN_B:
ch = "\n[Blue]"; break;
default:
ch = "";
}
labRegionList->set_text(
j, 2, Glib::ustring::compose(
"%1%2%3%4%5",
hasMask(dflt.hueMask, r.hueMask) ? "H" : "",
hasMask(dflt.chromaticityMask, r.chromaticityMask) ? "C" : "",
hasMask(dflt.lightnessMask, r.lightnessMask) ? "L" : "",
r.maskBlur ? Glib::ustring::compose(" b=%1", r.maskBlur) : "",
ch));
}
}
void ColorToning::labRegionShow(int idx, bool list_only)
{
const bool disable = listener;
if (disable) {
disableListener();
}
rtengine::procparams::ColorToningParams::LabCorrectionRegion dflt;
auto &r = labRegionData[idx];
if (!list_only) {
labRegionAB->setParams(0, 0, r.a, r.b,0, 0, 0, 0, 0, 0, false);
labRegionSaturation->setValue(r.saturation);
labRegionSlope->setValue(r.slope);
labRegionOffset->setValue(r.offset);
labRegionPower->setValue(r.power);
labRegionHueMask->setCurve(r.hueMask);
labRegionChromaticityMask->setCurve(r.chromaticityMask);
labRegionLightnessMask->setCurve(r.lightnessMask);
labRegionMaskBlur->setValue(r.maskBlur);
labRegionChannel->set_active(r.channel+1);
}
labRegionList->set_text(idx, 1, Glib::ustring::compose("a=%1 b=%2 S=%3\ns=%4 o=%5 p=%6", round_ab(r.a), round_ab(r.b), r.saturation, r.slope, r.offset, r.power));
const char *ch = "";
switch (r.channel) {
case rtengine::procparams::ColorToningParams::LabCorrectionRegion::CHAN_R:
ch = "\n[Red]"; break;
case rtengine::procparams::ColorToningParams::LabCorrectionRegion::CHAN_G:
ch = "\n[Green]"; break;
case rtengine::procparams::ColorToningParams::LabCorrectionRegion::CHAN_B:
ch = "\n[Blue]"; break;
default:
ch = "";
}
labRegionList->set_text(
idx, 2, Glib::ustring::compose(
"%1%2%3%4%5",
hasMask(dflt.hueMask, r.hueMask) ? "H" : "",
hasMask(dflt.chromaticityMask, r.chromaticityMask) ? "C" : "",
hasMask(dflt.lightnessMask, r.lightnessMask) ? "L" : "",
r.maskBlur ? Glib::ustring::compose(" b=%1", r.maskBlur) : "", ch));
Gtk::TreePath pth;
pth.push_back(idx);
labRegionList->get_selection()->select(pth);
if (disable) {
enableListener();
}
}
void ColorToning::labRegionChannelChanged()
{
if (listener) {
listener->panelChanged(EvLabRegionChannel, labRegionChannel->get_active_text());
}
}
void ColorToning::setEditProvider(EditDataProvider *provider)
{
labRegionHueMask->setEditProvider(provider);
labRegionChromaticityMask->setEditProvider(provider);
labRegionLightnessMask->setEditProvider(provider);
}
float ColorToning::blendPipetteValues(CurveEditor *ce, float chan1, float chan2, float chan3)
{
if (ce == labRegionChromaticityMask && chan1 > 0.f) {
return lin2log(chan1, 10.f);
} else if (ce == labRegionHueMask && chan1 > 0.f) {
float x = chan1 + 1.f/6.f;
if (x > 1.f) {
x -= 1.f;
}
return lin2log(x, 3.f);
}
return CurveListener::blendPipetteValues(ce, chan1, chan2, chan3);
}
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