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rawTherapee/rtgui/locallab.cc
Pandagrapher 39c53119eb Improve batch mode with Locallab 
Batch mode is now correctly managed by Locallab. It works only if the
pictures have the same control spot number with coherent id

Other improvements:
- If there is no control spot, all Locallab tools are now disabled
2018-12-26 10:31:57 +01:00

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/*
* This file is part of RawTherapee.
*
* Copyright (c) 2004-2010 Gabor Horvath <hgabor@rawtherapee.com>
*
*
* RawTherapee is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* RawTherapee is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with RawTherapee. If not, see <http://www.gnu.org/licenses/>.
* 2017 Jacques Desmis <jdesmis@gmail.com>
* 2018 Pierre Cabrera <pierre.cab@gmail.com>
*/
#include "locallab.h"
#include "rtimage.h"
#include <iomanip>
#include "../rtengine/rt_math.h"
#include "options.h"
#include <cmath>
#include "edit.h"
#include "guiutils.h"
#include <string>
#include <unistd.h>
#include "../rtengine/improcfun.h"
#define MINCHRO 0.
#define MAXCHRO 150
#define MAXCHROCC 100
using namespace rtengine;
extern Options options;
Locallab::Locallab():
FoldableToolPanel(this, "locallab", M("TP_LOCALLAB_LABEL"), false, true),
// Expander widgets
expsettings(new ControlSpotPanel()),
expcolor(new MyExpander(true, M("TP_LOCALLAB_COFR"))),
expexpose(new MyExpander(true, M("TP_LOCALLAB_EXPOSE"))),
expvibrance(new MyExpander(true, M("TP_LOCALLAB_VIBRANCE"))),
expblur(new MyExpander(true, M("TP_LOCALLAB_BLUFR"))),
exptonemap(new MyExpander(true, M("TP_LOCALLAB_TM"))),
expreti(new MyExpander(true, M("TP_LOCALLAB_RETI"))),
expsharp(new MyExpander(true, M("TP_LOCALLAB_SHARP"))),
expcbdl(new MyExpander(true, M("TP_LOCALLAB_CBDL"))),
expdenoi(new MyExpander(true, M("TP_LOCALLAB_DENOIS"))),
// CurveEditorGroup widgets
// Color & Light
llCurveEditorG(new CurveEditorGroup(options.lastlocalCurvesDir, M("TP_LOCALLAB_LUM"))),
// Exposure
curveEditorG(new CurveEditorGroup(options.lastlocalCurvesDir, M("TP_LOCALLAB_CURVEEDITOR_TONES_LABEL"))),
// Vibrance
curveEditorGG(new CurveEditorGroup(options.lastlocalCurvesDir, M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_LABEL"))),
// Retinex
LocalcurveEditorgainT(new CurveEditorGroup(options.lastlocalCurvesDir, M("TP_LOCALLAB_TRANSMISSIONGAIN"))),
// Adjuster widgets
// Color & Light
lightness(Gtk::manage(new Adjuster(M("TP_LOCALLAB_LIGHTNESS"), -100, 100, 1, 0))),
contrast(Gtk::manage(new Adjuster(M("TP_LOCALLAB_CONTRAST"), -100, 100, 1, 0))),
chroma(Gtk::manage(new Adjuster(M("TP_LOCALLAB_CHROMA"), -100, 150, 1, 0))),
sensi(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SENSI"), 0, 100, 1, 19))),
// Exposure
expcomp(Gtk::manage(new Adjuster(M("TP_EXPOSURE_EXPCOMP"), -200, 200, 5, 0))),
hlcompr(Gtk::manage(new Adjuster(M("TP_EXPOSURE_COMPRHIGHLIGHTS"), 0, 500, 1, 20))),
hlcomprthresh(Gtk::manage(new Adjuster(M("TP_EXPOSURE_COMPRHIGHLIGHTSTHRESHOLD"), 0, 100, 1, 33))),
black(Gtk::manage(new Adjuster(M("TP_EXPOSURE_BLACKLEVEL"), -16384, 32768, 50, 0))),
shcompr(Gtk::manage(new Adjuster(M("TP_EXPOSURE_COMPRSHADOWS"), 0, 100, 1, 50))),
warm(Gtk::manage(new Adjuster(M("TP_LOCALLAB_WARM"), -100., 100., 1., 0., Gtk::manage(new RTImage("circle-blue-small.png")), Gtk::manage(new RTImage("circle-orange-small.png"))))),
sensiex(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SENSI"), 0, 100, 1, 19))),
// Vibrance
saturated(Gtk::manage(new Adjuster(M("TP_VIBRANCE_SATURATED"), -100., 100., 1., 0.))),
pastels(Gtk::manage(new Adjuster(M("TP_VIBRANCE_PASTELS"), -100., 100., 1., 0.))),
sensiv(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SENSI"), 0, 100, 1, 19))),
// Blur & Noise
radius(Gtk::manage(new Adjuster(M("TP_LOCALLAB_RADIUS"), 1, 100, 1, 1))),
strength(Gtk::manage(new Adjuster(M("TP_LOCALLAB_STRENGTH"), 0, 100, 1, 0))),
sensibn(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SENSIBN"), 0, 100, 1, 40))),
// Tone Mapping
stren(Gtk::manage(new Adjuster(M("TP_LOCALLAB_STREN"), -50, 100, 1, 0))),
gamma(Gtk::manage(new Adjuster(M("TP_LOCALLAB_GAM"), 80, 150, 1, 100))),
estop(Gtk::manage(new Adjuster(M("TP_LOCALLAB_ESTOP"), 10, 400, 1, 140))),
scaltm(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SCALTM"), 1, 100, 1, 10))),
rewei(Gtk::manage(new Adjuster(M("TP_LOCALLAB_REWEI"), 0, 9, 1, 0))),
sensitm(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SENSI"), 0, 100, 1, 19))),
// Retinex
str(Gtk::manage(new Adjuster(M("TP_LOCALLAB_STR"), 0, 100, 1, 0))),
chrrt(Gtk::manage(new Adjuster(M("TP_LOCALLAB_CHRRT"), 0, 100, 1, 0))),
neigh(Gtk::manage(new Adjuster(M("TP_LOCALLAB_NEIGH"), 14, 150, 1, 50))),
vart(Gtk::manage(new Adjuster(M("TP_LOCALLAB_VART"), 50, 500, 1, 200))),
sensih(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SENSIH"), 0, 100, 1, 19))),
// Sharpening
sharradius(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SHARRADIUS"), 42, 500, 1, 4))),
sharamount(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SHARAMOUNT"), 0, 100, 1, 75))),
shardamping(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SHARDAMPING"), 0, 100, 1, 75))),
shariter(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SHARITER"), 5, 100, 1, 30))),
sensisha(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SENSIS"), 0, 100, 1, 19))),
// Contrast by detail levels
chromacbdl(Gtk::manage(new Adjuster(M("TP_LOCALLAB_CHROMACBDL"), 0, 300, 1, 0))),
threshold(Gtk::manage(new Adjuster(M("TP_DIRPYREQUALIZER_THRESHOLD"), 0, 100, 1, 20))),
sensicb(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SENSICB"), 0, 100, 1, 19))),
// Denoise
noiselumf(Gtk::manage(new Adjuster(M("TP_LOCALLAB_NOISELUMFINE"), MINCHRO, MAXCHRO, 1, 0))),
noiselumc(Gtk::manage(new Adjuster(M("TP_LOCALLAB_NOISELUMCOARSE"), MINCHRO, MAXCHROCC, 1, 0))),
noiselumdetail(Gtk::manage(new Adjuster(M("TP_LOCALLAB_NOISELUMDETAIL"), 0, 100, 1, 0))),
noiselequal(Gtk::manage(new Adjuster(M("TP_LOCALLAB_NOISELEQUAL"), -2, 10, 1, 7, Gtk::manage(new RTImage("circle-white-small.png")), Gtk::manage(new RTImage("circle-black-small.png"))))),
noisechrof(Gtk::manage(new Adjuster(M("TP_LOCALLAB_NOISECHROFINE"), MINCHRO, MAXCHRO, 1, 0))),
noisechroc(Gtk::manage(new Adjuster(M("TP_LOCALLAB_NOISECHROCOARSE"), MINCHRO, MAXCHROCC, 1, 0))),
noisechrodetail(Gtk::manage(new Adjuster(M("TP_LOCALLAB_NOISECHRODETAIL"), 0, 100, 1, 0))),
adjblur(Gtk::manage(new Adjuster(M("TP_LOCALLAB_ADJ"), -100., 100., 1., 0., Gtk::manage(new RTImage("circle-blue-small.png")), Gtk::manage(new RTImage("circle-red-small.png"))))),
bilateral(Gtk::manage(new Adjuster(M("TP_LOCALLAB_BILATERAL"), 0, 100, 1, 0))),
sensiden(Gtk::manage(new Adjuster(M("TP_LOCALLAB_SENSIDEN"), 0, 100, 1, 30))),
// ButtonCheck widgets
// Color & Light
curvactiv(Gtk::manage(new Gtk::CheckButton(M("TP_LOCALLAB_CURV")))),
invers(Gtk::manage(new Gtk::CheckButton(M("TP_LOCALLAB_INVERS")))),
// Vibrance
protectSkins(Gtk::manage(new Gtk::CheckButton(M("TP_VIBRANCE_PROTECTSKINS")))),
avoidColorShift(Gtk::manage(new Gtk::CheckButton(M("TP_VIBRANCE_AVOIDCOLORSHIFT")))),
pastSatTog(Gtk::manage(new Gtk::CheckButton(M("TP_VIBRANCE_PASTSATTOG")))),
// Blur & Noise
activlum(Gtk::manage(new Gtk::CheckButton(M("TP_LOCALLAB_ACTIV")))),
// Retinex
inversret(Gtk::manage(new Gtk::CheckButton(M("TP_LOCALLAB_INVERS")))),
// Sharpening
inverssha(Gtk::manage(new Gtk::CheckButton(M("TP_LOCALLAB_INVERS")))),
// Others
avoid(Gtk::manage(new Gtk::CheckButton(M("TP_LOCALLAB_AVOID")))),
// ComboBox widgets
// Color & Light
qualitycurveMethod(Gtk::manage(new MyComboBoxText())),
// Blur & Noise
blurMethod(Gtk::manage(new MyComboBoxText())),
// Retinex
retinexMethod(Gtk::manage(new MyComboBoxText())),
// ThresholdAdjuster widgets
// Vibrance
psThreshold(Gtk::manage(new ThresholdAdjuster(M("TP_VIBRANCE_PSTHRESHOLD"), -100., 100., 0., M("TP_VIBRANCE_PSTHRESHOLD_WEIGTHING"), 0, 0., 100., 75., M("TP_VIBRANCE_PSTHRESHOLD_SATTHRESH"), 0, this, false))),
// Other widgets
labqualcurv(Gtk::manage(new Gtk::Label(M("TP_LOCALLAB_QUALCURV_METHOD") + ":"))),
lumacontrastMinusButton(Gtk::manage(new Gtk::Button(M("TP_DIRPYREQUALIZER_LUMACONTRAST_MINUS")))),
lumaneutralButton(Gtk::manage(new Gtk::Button(M("TP_DIRPYREQUALIZER_LUMANEUTRAL")))),
lumacontrastPlusButton(Gtk::manage(new Gtk::Button(M("TP_DIRPYREQUALIZER_LUMACONTRAST_PLUS")))),
// Others
defparams(nullptr),
defpedited(nullptr),
pe(nullptr)
{
ToolVBox* const panel = Gtk::manage(new ToolVBox());
CurveListener::setMulti(true);
float R, G, B;
LocallabParams::LocallabSpot defSpot;
// Settings
expsettings->getExpander()->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), expsettings->getExpander()));
expsettings->setLevel(2);
panel->pack_start(*expsettings->getExpander(), false, false);
// Color & Light
expcolor->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), expcolor));
enablecolorConn = expcolor->signal_enabled_toggled().connect(sigc::bind(sigc::mem_fun(this, &Locallab::enableToggled), expcolor));
curvactivConn = curvactiv->signal_toggled().connect(sigc::mem_fun(*this, &Locallab::curvactivChanged));
lightness->setAdjusterListener(this);
contrast->setAdjusterListener(this);
chroma->setAdjusterListener(this);
sensi->set_tooltip_text(M("TP_LOCALLAB_SENSI_TOOLTIP"));
sensi->setAdjusterListener(this);
qualitycurveMethod->append(M("TP_LOCALLAB_CURVNONE"));
qualitycurveMethod->append(M("TP_LOCALLAB_CURVCURR"));
qualitycurveMethod->append(M("TP_LOCALLAB_CURVENH"));
qualitycurveMethod->set_active(0);
qualitycurveMethod->set_tooltip_markup(M("TP_LOCALLAB_CURVEMETHOD_TOOLTIP"));
qualitycurveMethodConn = qualitycurveMethod->signal_changed().connect(sigc::mem_fun(*this, &Locallab::qualitycurveMethodChanged));
llCurveEditorG->setCurveListener(this);
llshape = static_cast<DiagonalCurveEditor*>(llCurveEditorG->addCurve(CT_Diagonal, "L(L)"));
llshape->setResetCurve(DiagonalCurveType(defSpot.llcurve.at(0)), defSpot.llcurve);
llshape->setTooltip(M("TP_LOCALLAB_CURVEEDITOR_LL_TOOLTIP"));
std::vector<GradientMilestone> mllshape;
mllshape.push_back(GradientMilestone(0., 0., 0., 0.));
mllshape.push_back(GradientMilestone(1., 1., 1., 1.));
llshape->setBottomBarBgGradient(mllshape);
llshape->setLeftBarBgGradient(mllshape);
ccshape = static_cast<DiagonalCurveEditor*>(llCurveEditorG->addCurve(CT_Diagonal, "C(C)"));
ccshape->setResetCurve(DiagonalCurveType(defSpot.cccurve.at(0)), defSpot.cccurve);
ccshape->setTooltip(M("TP_LOCALLAB_CURVEEDITOR_LL_TOOLTIP"));
std::vector<GradientMilestone> mccshape;
mccshape.push_back(GradientMilestone(0., 0., 0., 0.));
mccshape.push_back(GradientMilestone(1., 1., 1., 1.));
ccshape->setBottomBarBgGradient(mccshape);
ccshape->setLeftBarBgGradient(mccshape);
llCurveEditorG->newLine();
LHshape = static_cast<FlatCurveEditor*>(llCurveEditorG->addCurve(CT_Flat, "L(H)", nullptr, false, true));
LHshape->setIdentityValue(0.);
LHshape->setResetCurve(FlatCurveType(defSpot.LHcurve.at(0)), defSpot.LHcurve);
LHshape->setTooltip(M("TP_LOCALLAB_CURVEEDITOR_LL_TOOLTIP"));
LHshape->setCurveColorProvider(this, 1);
std::vector<GradientMilestone> mLHshape;
for (int i = 0; i < 7; i++) {
float x = float (i) * (1.0f / 6.0);
Color::hsv2rgb01(x, 0.5f, 0.5f, R, G, B);
mLHshape.push_back(GradientMilestone(double (x), double (R), double (G), double (B)));
}
LHshape->setBottomBarBgGradient(mLHshape);
HHshape = static_cast<FlatCurveEditor*>(llCurveEditorG->addCurve(CT_Flat, "H(H)", nullptr, false, true));
HHshape->setIdentityValue(0.);
HHshape->setResetCurve(FlatCurveType(defSpot.HHcurve.at(0)), defSpot.HHcurve);
HHshape->setTooltip(M("TP_LOCALLAB_CURVEEDITOR_LL_TOOLTIP"));
HHshape->setCurveColorProvider(this, 1);
std::vector<GradientMilestone> mHHshape;
for (int i = 0; i < 7; i++) {
float x = float (i) * (1.0f / 6.0);
Color::hsv2rgb01(x, 0.5f, 0.5f, R, G, B);
mHHshape.push_back(GradientMilestone(double (x), double (R), double (G), double (B)));
}
HHshape->setBottomBarBgGradient(mHHshape);
llCurveEditorG->curveListComplete();
inversConn = invers->signal_toggled().connect(sigc::mem_fun(*this, &Locallab::inversChanged));
ToolParamBlock* const colorBox = Gtk::manage(new ToolParamBlock());
Gtk::Frame* const superFrame = Gtk::manage(new Gtk::Frame());
superFrame->set_label_align(0.025, 0.5);
superFrame->set_label_widget(*curvactiv);
ToolParamBlock* const superBox = Gtk::manage(new ToolParamBlock());
superBox->pack_start(*lightness);
superBox->pack_start(*contrast);
superBox->pack_start(*chroma);
superFrame->add(*superBox);
colorBox->pack_start(*superFrame);
colorBox->pack_start(*sensi);
Gtk::HBox* const qualcurvbox = Gtk::manage(new Gtk::HBox());
qualcurvbox->pack_start(*labqualcurv, Gtk::PACK_SHRINK, 4);
qualcurvbox->pack_start(*qualitycurveMethod);
colorBox->pack_start(*qualcurvbox);
colorBox->pack_start(*llCurveEditorG, Gtk::PACK_SHRINK, 4); // Padding is mandatory to correct behavior of curve editor
colorBox->pack_start(*invers);
expcolor->add(*colorBox);
expcolor->setLevel(2);
panel->pack_start(*expcolor, false, false);
// Exposure
expexpose->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), expexpose));
enableexposeConn = expexpose->signal_enabled_toggled().connect(sigc::bind(sigc::mem_fun(this, &Locallab::enableToggled), expexpose));
expcomp->setAdjusterListener(this);
hlcompr->setAdjusterListener(this);
hlcomprthresh->setAdjusterListener(this);
black->setAdjusterListener(this);
shcompr->setAdjusterListener(this);
warm->set_tooltip_text(M("TP_LOCALLAB_WARM_TOOLTIP"));
warm->setAdjusterListener(this);
sensiex->set_tooltip_text(M("TP_LOCALLAB_SENSI_TOOLTIP"));
sensiex->setAdjusterListener(this);
curveEditorG->setCurveListener(this);
shapeexpos = static_cast<DiagonalCurveEditor*>(curveEditorG->addCurve(CT_Diagonal, ""));
shapeexpos->setResetCurve(DiagonalCurveType(defSpot.excurve.at(0)), defSpot.excurve);
shapeexpos->setTooltip(M("TP_LOCALLAB_CURVEEDITOR_TONES_TOOLTIP"));
std::vector<GradientMilestone> mshapeexpos;
mshapeexpos.push_back(GradientMilestone(0., 0., 0., 0.));
mshapeexpos.push_back(GradientMilestone(1., 1., 1., 1.));
shapeexpos->setBottomBarBgGradient(mshapeexpos);
shapeexpos->setLeftBarBgGradient(mshapeexpos);
curveEditorG->curveListComplete();
ToolParamBlock* const exposeBox = Gtk::manage(new ToolParamBlock());
exposeBox->pack_start(*expcomp);
exposeBox->pack_start(*hlcompr);
exposeBox->pack_start(*hlcomprthresh);
exposeBox->pack_start(*black);
exposeBox->pack_start(*shcompr);
exposeBox->pack_start(*warm);
exposeBox->pack_start(*sensiex);
exposeBox->pack_start(*curveEditorG, Gtk::PACK_SHRINK, 4); // Padding is mandatory to correct behavior of curve editor
expexpose->add(*exposeBox);
expexpose->setLevel(2);
panel->pack_start(*expexpose, false, false);
// Vibrance
expvibrance->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), expvibrance));
enablevibranceConn = expvibrance->signal_enabled_toggled().connect(sigc::bind(sigc::mem_fun(this, &Locallab::enableToggled), expvibrance));
saturated->setAdjusterListener(this);
pastels->setAdjusterListener(this);
psThreshold->set_tooltip_markup(M("TP_VIBRANCE_PSTHRESHOLD_TOOLTIP"));
psThreshold->setAdjusterListener(this);
pskinsconn = protectSkins->signal_toggled().connect(sigc::mem_fun(*this, &Locallab::protectskins_toggled));
ashiftconn = avoidColorShift->signal_toggled().connect(sigc::mem_fun(*this, &Locallab::avoidcolorshift_toggled));
pastsattogconn = pastSatTog->signal_toggled().connect(sigc::mem_fun(*this, &Locallab::pastsattog_toggled));
sensiv->setAdjusterListener(this);
curveEditorGG->setCurveListener(this);
skinTonesCurve = static_cast<DiagonalCurveEditor*>(curveEditorGG->addCurve(CT_Diagonal, M("TP_VIBRANCE_CURVEEDITOR_SKINTONES")));
skinTonesCurve->setTooltip(M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_TOOLTIP"));
std::vector<GradientMilestone> mskinTonesCurve;
// -0.1 rad < Hue < 1.6 rad
Color::hsv2rgb01(0.92f, 0.45f, 0.6f, R, G, B);
mskinTonesCurve.push_back(GradientMilestone(0.0, double (R), double (G), double (B)));
Color::hsv2rgb01(0.14056f, 0.45f, 0.6f, R, G, B);
mskinTonesCurve.push_back(GradientMilestone(1.0, double (R), double (G), double (B)));
skinTonesCurve->setBottomBarBgGradient(mskinTonesCurve);
skinTonesCurve->setLeftBarBgGradient(mskinTonesCurve);
skinTonesCurve->setRangeLabels(
M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE1"), M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE2"),
M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE3"), M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE4")
);
skinTonesCurve->setRangeDefaultMilestones(0.1, 0.4, 0.85);
curveEditorGG->curveListComplete();
ToolParamBlock* const vibranceBox = Gtk::manage(new ToolParamBlock());
vibranceBox->pack_start(*saturated, Gtk::PACK_SHRINK, 0);
vibranceBox->pack_start(*pastels, Gtk::PACK_SHRINK, 0);
vibranceBox->pack_start(*psThreshold, Gtk::PACK_SHRINK, 0);
vibranceBox->pack_start(*protectSkins, Gtk::PACK_SHRINK, 0);
vibranceBox->pack_start(*avoidColorShift, Gtk::PACK_SHRINK, 0);
vibranceBox->pack_start(*pastSatTog, Gtk::PACK_SHRINK, 0);
vibranceBox->pack_start(*sensiv, Gtk::PACK_SHRINK, 0);
vibranceBox->pack_start(*curveEditorGG, Gtk::PACK_SHRINK, 4); // Padding is mandatory to correct behavior of curve editor
expvibrance->add(*vibranceBox);
expvibrance->setLevel(2);
panel->pack_start(*expvibrance, false, false);
// Blur & Noise
expblur->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), expblur));
enableblurConn = expblur->signal_enabled_toggled().connect(sigc::bind(sigc::mem_fun(this, &Locallab::enableToggled), expblur));
radius->setAdjusterListener(this);
strength->setAdjusterListener(this);
sensibn->set_tooltip_text(M("TP_LOCALLAB_SENSIH_TOOLTIP"));
sensibn->setAdjusterListener(this);
blurMethod->append(M("TP_LOCALLAB_BLNORM"));
blurMethod->append(M("TP_LOCALLAB_BLINV"));
blurMethod->append(M("TP_LOCALLAB_BLSYM"));
blurMethod->set_active(0);
blurMethod->set_tooltip_markup(M("TP_LOCALLAB_BLMETHOD_TOOLTIP"));
blurMethodConn = blurMethod->signal_changed().connect(sigc::mem_fun(*this, &Locallab::blurMethodChanged));
activlumConn = activlum->signal_toggled().connect(sigc::mem_fun(*this, &Locallab::activlumChanged));
ToolParamBlock* const blurrBox = Gtk::manage(new ToolParamBlock());
blurrBox->pack_start(*radius);
blurrBox->pack_start(*strength);
blurrBox->pack_start(*sensibn);
blurrBox->pack_start(*blurMethod);
blurrBox->pack_start(*activlum);
expblur->add(*blurrBox);
expblur->setLevel(2);
panel->pack_start(*expblur, false, false);
// Tone Mapping
exptonemap->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), exptonemap));
enabletonemapConn = exptonemap->signal_enabled_toggled().connect(sigc::bind(sigc::mem_fun(this, &Locallab::enableToggled), exptonemap));
stren->setAdjusterListener(this);
gamma->setAdjusterListener(this);
estop->setAdjusterListener(this);
scaltm->setAdjusterListener(this);
rewei->setAdjusterListener(this);
sensitm->set_tooltip_text(M("TP_LOCALLAB_SENSI_TOOLTIP"));
sensitm->setAdjusterListener(this);
ToolParamBlock* const tmBox = Gtk::manage(new ToolParamBlock());
tmBox->pack_start(*stren);
tmBox->pack_start(*gamma);
tmBox->pack_start(*estop);
tmBox->pack_start(*scaltm);
tmBox->pack_start(*rewei);
tmBox->pack_start(*sensitm);
exptonemap->add(*tmBox);
exptonemap->setLevel(2);
panel->pack_start(*exptonemap, false, false);
// Retinex
expreti->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), expreti));
enableretiConn = expreti->signal_enabled_toggled().connect(sigc::bind(sigc::mem_fun(this, &Locallab::enableToggled), expreti));
retinexMethod->append(M("TP_RETINEX_LOW"));
retinexMethod->append(M("TP_RETINEX_UNIFORM"));
retinexMethod->append(M("TP_RETINEX_HIGH"));
retinexMethod->set_active(0);
retinexMethod->set_tooltip_markup(M("TP_LOCRETI_METHOD_TOOLTIP"));
retinexMethodConn = retinexMethod->signal_changed().connect(sigc::mem_fun(*this, &Locallab::retinexMethodChanged));
str->setAdjusterListener(this);
neigh->setAdjusterListener(this);
vart->setAdjusterListener(this);
chrrt->setAdjusterListener(this);
sensih->set_tooltip_text(M("TP_LOCALLAB_SENSIH_TOOLTIP"));
sensih->setAdjusterListener(this);
LocalcurveEditorgainT->setCurveListener(this);
cTgainshape = static_cast<FlatCurveEditor*>(LocalcurveEditorgainT->addCurve(CT_Flat, "", nullptr, false, false));
cTgainshape->setIdentityValue(0.);
cTgainshape->setResetCurve(FlatCurveType(defSpot.localTgaincurve.at(0)), defSpot.localTgaincurve);
cTgainshape->setTooltip(M("TP_RETINEX_GAINTRANSMISSION_TOOLTIP"));
LocalcurveEditorgainT->curveListComplete();
inversretConn = inversret->signal_toggled().connect(sigc::mem_fun(*this, &Locallab::inversretChanged));
ToolParamBlock* const retiBox = Gtk::manage(new ToolParamBlock());
retiBox->pack_start(*retinexMethod);
retiBox->pack_start(*str);
retiBox->pack_start(*chrrt);
retiBox->pack_start(*neigh);
retiBox->pack_start(*vart);
retiBox->pack_start(*sensih);
retiBox->pack_start(*LocalcurveEditorgainT, Gtk::PACK_SHRINK, 4); // Padding is mandatory to correct behavior of curve editor
retiBox->pack_start(*inversret);
expreti->add(*retiBox);
expreti->setLevel(2);
panel->pack_start(*expreti, false, false);
// Sharpening
expsharp->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), expsharp));
enablesharpConn = expsharp->signal_enabled_toggled().connect(sigc::bind(sigc::mem_fun(this, &Locallab::enableToggled), expsharp));
sharradius->setAdjusterListener(this);
sharamount->setAdjusterListener(this);
shardamping->setAdjusterListener(this);
shariter->setAdjusterListener(this);
sensisha->set_tooltip_text(M("TP_LOCALLAB_SENSIS_TOOLTIP"));
sensisha->setAdjusterListener(this);
inversshaConn = inverssha->signal_toggled().connect(sigc::mem_fun(*this, &Locallab::inversshaChanged));
ToolParamBlock* const sharpBox = Gtk::manage(new ToolParamBlock());
sharpBox->pack_start(*sharradius);
sharpBox->pack_start(*sharamount);
sharpBox->pack_start(*shardamping);
sharpBox->pack_start(*shariter);
sharpBox->pack_start(*sensisha);
sharpBox->pack_start(*inverssha);
expsharp->add(*sharpBox);
expsharp->setLevel(2);
panel->pack_start(*expsharp, false, false);
// Contrast by detail levels
expcbdl->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), expcbdl));
enablecbdlConn = expcbdl->signal_enabled_toggled().connect(sigc::bind(sigc::mem_fun(this, &Locallab::enableToggled), expcbdl));
for (int i = 0; i < 5; i++) {
Glib::ustring ss;
ss = Glib::ustring::format(i);
if (i == 0) {
ss += Glib::ustring::compose(" (%1)", M("TP_DIRPYREQUALIZER_LUMAFINEST"));
} else if (i == 4) {
ss += Glib::ustring::compose(" (%1)", M("TP_DIRPYREQUALIZER_LUMACOARSEST"));
}
multiplier[i] = Gtk::manage(new Adjuster(ss, 0, 400, 1, 100));
multiplier[i]->setAdjusterListener(this);
}
chromacbdl->set_tooltip_text(M("TP_LOCALLAB_CHROMACB_TOOLTIP"));
chromacbdl->setAdjusterListener(this);
threshold->setAdjusterListener(this);
sensicb->set_tooltip_text(M("TP_LOCALLAB_SENSIH_TOOLTIP"));
sensicb->setAdjusterListener(this);
ToolParamBlock* const cbdlBox = Gtk::manage(new ToolParamBlock());
Gtk::HBox* buttonBox = Gtk::manage(new Gtk::HBox(true, 10));
buttonBox->pack_start(*lumacontrastMinusButton);
lumacontrastMinusPressedConn = lumacontrastMinusButton->signal_pressed().connect(sigc::mem_fun(*this, &Locallab::lumacontrastMinusPressed));
buttonBox->pack_start(*lumaneutralButton);
lumaneutralPressedConn = lumaneutralButton->signal_pressed().connect(sigc::mem_fun(*this, &Locallab::lumaneutralPressed));
buttonBox->pack_start(*lumacontrastPlusButton);
lumacontrastPlusPressedConn = lumacontrastPlusButton->signal_pressed().connect(sigc::mem_fun(*this, &Locallab::lumacontrastPlusPressed));
cbdlBox->pack_start(*buttonBox);
for (int i = 0; i < 5; i++) {
cbdlBox->pack_start(*multiplier[i]);
}
Gtk::HSeparator *separator = Gtk::manage(new Gtk::HSeparator());
cbdlBox->pack_start(*separator, Gtk::PACK_SHRINK, 2);
cbdlBox->pack_start(*chromacbdl);
cbdlBox->pack_start(*threshold);
cbdlBox->pack_start(*sensicb);
expcbdl->add(*cbdlBox);
expcbdl->setLevel(2);
panel->pack_start(*expcbdl, false, false);
// Denoise
expdenoi->signal_button_release_event().connect_notify(sigc::bind(sigc::mem_fun(this, &Locallab::foldAllButMe), expdenoi));
enabledenoiConn = expdenoi->signal_enabled_toggled().connect(sigc::bind(sigc::mem_fun(this, &Locallab::enableToggled), expdenoi));
noiselumf->setAdjusterListener(this);
noiselumc->set_tooltip_text(M("TP_LOCALLAB_NOISECHROC_TOOLTIP"));
noiselumc->setAdjusterListener(this);
noiselumdetail->setAdjusterListener(this);
noiselequal->setAdjusterListener(this);
noisechrof->setAdjusterListener(this);
noisechroc->set_tooltip_text(M("TP_LOCALLAB_NOISECHROC_TOOLTIP"));
noisechroc->setAdjusterListener(this);
noisechrodetail->setAdjusterListener(this);
adjblur->setAdjusterListener(this);
bilateral->setAdjusterListener(this);
sensiden->setAdjusterListener(this);
avoidConn = avoid->signal_toggled().connect(sigc::mem_fun(*this, &Locallab::avoidChanged));
ToolParamBlock* const denoisBox = Gtk::manage(new ToolParamBlock());
Gtk::Frame* const wavFrame = Gtk::manage(new Gtk::Frame());
ToolParamBlock* const wavBox = Gtk::manage(new ToolParamBlock());
wavBox->pack_start(*noiselumf);
wavBox->pack_start(*noiselumc);
wavBox->pack_start(*noiselumdetail);
wavBox->pack_start(*noiselequal);
wavBox->pack_start(*noisechrof);
wavBox->pack_start(*noisechroc);
// wavBox->pack_start(*noisechrodetail); // Uncomment this line to use the noisechrodetail adjuster
wavBox->pack_start(*adjblur);
wavFrame->add(*wavBox);
denoisBox->pack_start(*wavFrame);
denoisBox->pack_start(*bilateral);
denoisBox->pack_start(*sensiden);
expdenoi->add(*denoisBox);
expdenoi->setLevel(2);
panel->pack_start(*expdenoi, false, false);
panel->pack_start(*avoid);
pack_start(*panel);
setParamEditable(false);
show_all();
}
Locallab::~Locallab()
{
delete llCurveEditorG;
delete curveEditorG;
delete curveEditorGG;
delete LocalcurveEditorgainT;
}
void Locallab::foldAllButMe(GdkEventButton* event, MyExpander *expander)
{
if (event->button == 3) {
expsettings->setExpanded(expsettings->getExpander() == expander);
expcolor->set_expanded(expcolor == expander);
expexpose->set_expanded(expexpose == expander);
expvibrance->set_expanded(expvibrance == expander);
expblur->set_expanded(expblur == expander);
exptonemap->set_expanded(exptonemap == expander);
expreti->set_expanded(expreti == expander);
expsharp->set_expanded(expsharp == expander);
expcbdl->set_expanded(expcbdl == expander);
expdenoi->set_expanded(expdenoi == expander);
}
}
void Locallab::enableToggled(MyExpander *expander)
{
// TODO Locallab printf
printf("enableToggled\n");
if (getEnabled() && listener) {
rtengine::ProcEvent event = NUMOFEVENTS;
if (expander == expcolor) {
event = EvLocenacolor;
} else if (expander == expexpose) {
event = EvLocenaexpose;
} else if (expander == expvibrance) {
event = EvLocenavibrance;
} else if (expander == expblur) {
event = EvLocenablur;
} else if (expander == exptonemap) {
event = EvLocenatonemap;
} else if (expander == expreti) {
event = EvLocenareti;
} else if (expander == expsharp) {
event = EvLocenasharp;
} else if (expander == expcbdl) {
event = EvLocenacbdl;
} else if (expander == expdenoi) {
event = EvLocenadenoi;
} else {
return;
}
if (expander->get_inconsistent()) {
listener->panelChanged(event, M("GENERAL_UNCHANGED"));
} else if (expander->getEnabled()) {
listener->panelChanged(event, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(event, M("GENERAL_DISABLED"));
}
}
}
void Locallab::writeOptions(std::vector<int> &tpOpen)
{
tpOpen.push_back(expsettings->getExpanded());
tpOpen.push_back(expcolor->get_expanded());
tpOpen.push_back(expexpose->get_expanded());
tpOpen.push_back(expvibrance->get_expanded());
tpOpen.push_back(expblur->get_expanded());
tpOpen.push_back(exptonemap->get_expanded());
tpOpen.push_back(expreti->get_expanded());
tpOpen.push_back(expsharp->get_expanded());
tpOpen.push_back(expcbdl->get_expanded());
tpOpen.push_back(expdenoi->get_expanded());
}
void Locallab::updateToolState(std::vector<int> &tpOpen)
{
if (tpOpen.size() >= 10) {
expsettings->setExpanded(tpOpen.at(0));
expcolor->set_expanded(tpOpen.at(1));
expexpose->set_expanded(tpOpen.at(2));
expvibrance->set_expanded(tpOpen.at(3));
expblur->set_expanded(tpOpen.at(4));
exptonemap->set_expanded(tpOpen.at(5));
expreti->set_expanded(tpOpen.at(6));
expsharp->set_expanded(tpOpen.at(7));
expcbdl->set_expanded(tpOpen.at(8));
expdenoi->set_expanded(tpOpen.at(9));
}
}
void Locallab::lumaneutralPressed()
{
// TODO Locallab printf
printf("lumaneutralPressed\n");
for (int i = 0; i < 5; i++) {
multiplier[i]->setValue(100);
}
// Raise event (only for first multiplier because associated event concerns all multipliers)
adjusterChanged(multiplier[0], multiplier[0]->getValue()); // Value isn't used
}
void Locallab::lumacontrastPlusPressed()
{
// TODO Locallab printf
printf("lumacontrastPlusPressed\n");
for (int i = 0; i < 5; i++) {
float inc = (5 - i);
multiplier[i]->setValue(multiplier[i]->getValue() + inc);
}
// Raise event (only for first multiplier because associated event concerns all multipliers)
adjusterChanged(multiplier[0], multiplier[0]->getValue()); // Value isn't used
}
void Locallab::lumacontrastMinusPressed()
{
// TODO Locallab printf
printf("lumacontrastMinusPressed\n");
for (int i = 0; i < 5; i++) {
float inc = - (5 - i);
multiplier[i]->setValue(multiplier[i]->getValue() + inc);
}
// Raise event (only for first multiplier because associated event concerns all multipliers)
adjusterChanged(multiplier[0], multiplier[0]->getValue()); // Value isn't used
}
void Locallab::read(const ProcParams* pp, const ParamsEdited* pedited)
{
printf("Locallab read\n");
// Disable all listeners
disableListener();
if (pedited) {
set_inconsistent(multiImage && !pedited->locallab.enabled);
if (pp->locallab.selspot < pp->locallab.nbspot && pp->locallab.selspot < (int)pedited->locallab.spots.size()) {
const LocallabParamsEdited::LocallabSpotEdited* spotState = &pedited->locallab.spots.at(pp->locallab.selspot);
// Control spot settings
ControlSpotPanel::SpotEdited* const se = new ControlSpotPanel::SpotEdited();
if (pedited->locallab.nbspot && pedited->locallab.id) {
se->nbspot = true;
} else {
se->nbspot = false;
}
se->selspot = pedited->locallab.selspot;
se->name = spotState->name;
se->isvisible = spotState->isvisible;
se->shape = spotState->shape;
se->spotMethod = spotState->spotMethod;
se->sensiexclu = spotState->sensiexclu;
se->struc = spotState->struc;
se->shapeMethod = spotState->shapeMethod;
se->locX = spotState->locX;
se->locXL = spotState->locXL;
se->locY = spotState->locY;
se->locYT = spotState->locYT;
se->centerX = spotState->centerX;
se->centerY = spotState->centerY;
se->circrad = spotState->circrad;
se->qualityMethod = spotState->qualityMethod;
se->transit = spotState->transit;
se->thresh = spotState->thresh;
se->iter = spotState->iter;
expsettings->setEditedStates(se);
// Color & Light
expcolor->set_inconsistent(!spotState->expcolor);
curvactiv->set_inconsistent(multiImage && !spotState->curvactiv);
lightness->setEditedState(spotState->lightness ? Edited : UnEdited);
contrast->setEditedState(spotState->contrast ? Edited : UnEdited);
chroma->setEditedState(spotState->chroma ? Edited : UnEdited);
sensi->setEditedState(spotState->sensi ? Edited : UnEdited);
if (!spotState->qualitycurveMethod) {
qualitycurveMethod->set_active_text(M("GENERAL_UNCHANGED"));
}
llshape->setUnChanged(!spotState->llcurve);
ccshape->setUnChanged(!spotState->cccurve);
LHshape->setUnChanged(!spotState->LHcurve);
HHshape->setUnChanged(!spotState->HHcurve);
invers->set_inconsistent(multiImage && !spotState->invers);
// Exposure
expexpose->set_inconsistent(!spotState->expexpose);
expcomp->setEditedState(spotState->expcomp ? Edited : UnEdited);
hlcompr->setEditedState(spotState->hlcompr ? Edited : UnEdited);
hlcomprthresh->setEditedState(spotState->hlcomprthresh ? Edited : UnEdited);
black->setEditedState(spotState->black ? Edited : UnEdited);
warm->setEditedState(spotState->warm ? Edited : UnEdited);
shcompr->setEditedState(spotState->shcompr ? Edited : UnEdited);
sensiex->setEditedState(spotState->sensiex ? Edited : UnEdited);
shapeexpos->setUnChanged(!spotState->excurve);
// Vibrance
expvibrance->set_inconsistent(!spotState->expvibrance);
saturated->setEditedState(spotState->saturated ? Edited : UnEdited);
pastels->setEditedState(spotState->pastels ? Edited : UnEdited);
psThreshold->setEditedState(spotState->psthreshold ? Edited : UnEdited);
protectSkins->set_inconsistent(multiImage && !spotState->protectskins);
avoidColorShift->set_inconsistent(multiImage && !spotState->avoidcolorshift);
pastSatTog->set_inconsistent(multiImage && !spotState->pastsattog);
sensiv->setEditedState(spotState->sensiv ? Edited : UnEdited);
skinTonesCurve->setUnChanged(!spotState->skintonescurve);
// Blur & Noise
expblur->set_inconsistent(!spotState->expblur);
radius->setEditedState(spotState->radius ? Edited : UnEdited);
strength->setEditedState(spotState->strength ? Edited : UnEdited);
sensibn->setEditedState(spotState->sensibn ? Edited : UnEdited);
if (!spotState->blurMethod) {
blurMethod->set_active_text(M("GENERAL_UNCHANGED"));
}
activlum->set_inconsistent(multiImage && !spotState->activlum);
// Tone Mapping
exptonemap->set_inconsistent(!spotState->exptonemap);
stren->setEditedState(spotState->stren ? Edited : UnEdited);
gamma->setEditedState(spotState->gamma ? Edited : UnEdited);
estop->setEditedState(spotState->estop ? Edited : UnEdited);
scaltm->setEditedState(spotState->scaltm ? Edited : UnEdited);
rewei->setEditedState(spotState->rewei ? Edited : UnEdited);
sensitm->setEditedState(spotState->sensitm ? Edited : UnEdited);
// Retinex
expreti->set_inconsistent(!spotState->expreti);
if (!spotState->retinexMethod) {
retinexMethod->set_active_text(M("GENERAL_UNCHANGED"));
}
str->setEditedState(spotState->str ? Edited : UnEdited);
chrrt->setEditedState(spotState->chrrt ? Edited : UnEdited);
neigh->setEditedState(spotState->neigh ? Edited : UnEdited);
vart->setEditedState(spotState->vart ? Edited : UnEdited);
sensih->setEditedState(spotState->sensih ? Edited : UnEdited);
cTgainshape->setUnChanged(!spotState->localTgaincurve);
inversret->set_inconsistent(multiImage && !spotState->inversret);
// Sharpening
expsharp->set_inconsistent(!spotState->expsharp);
sharradius->setEditedState(spotState->sharradius ? Edited : UnEdited);
sharamount->setEditedState(spotState->sharamount ? Edited : UnEdited);
shardamping->setEditedState(spotState->shardamping ? Edited : UnEdited);
shariter->setEditedState(spotState->shariter ? Edited : UnEdited);
sensisha->setEditedState(spotState->sensisha ? Edited : UnEdited);
inverssha->set_inconsistent(multiImage && !spotState->inverssha);
// Contrast by detail levels
expcbdl->set_inconsistent(!spotState->expcbdl);
for (int i = 0; i < 5; i++) {
multiplier[i]->setEditedState(spotState->mult[i] ? Edited : UnEdited);
}
chromacbdl->setEditedState(spotState->chromacbdl ? Edited : UnEdited);
threshold->setEditedState(spotState->threshold ? Edited : UnEdited);
sensicb->setEditedState(spotState->sensicb ? Edited : UnEdited);
// Denoise
expdenoi->set_inconsistent(!spotState->expdenoi);
noiselumf->setEditedState(spotState->noiselumf ? Edited : UnEdited);
noiselumc->setEditedState(spotState->noiselumc ? Edited : UnEdited);
noiselumdetail->setEditedState(spotState->noiselumdetail ? Edited : UnEdited);
noiselequal->setEditedState(spotState->noiselequal ? Edited : UnEdited);
noisechrof->setEditedState(spotState->noisechrof ? Edited : UnEdited);
noisechroc->setEditedState(spotState->noisechroc ? Edited : UnEdited);
noisechrodetail->setEditedState(spotState->noisechrodetail ? Edited : UnEdited);
adjblur->setEditedState(spotState->adjblur ? Edited : UnEdited);
bilateral->setEditedState(spotState->bilateral ? Edited : UnEdited);
sensiden->setEditedState(spotState->sensiden ? Edited : UnEdited);
// Others
avoid->set_inconsistent(multiImage && !spotState->avoid);
}
}
setEnabled(pp->locallab.enabled);
// Add non existent spots and update existent ones
ControlSpotPanel::SpotRow* const r = new ControlSpotPanel::SpotRow();
for (int i = 0; i < pp->locallab.nbspot && i < (int)pp->locallab.spots.size(); i++) {
r->id = pp->locallab.spots.at(i).id;
r->name = pp->locallab.spots.at(i).name;
r->isvisible = pp->locallab.spots.at(i).isvisible;
if (pp->locallab.spots.at(i).shape == "ELI") {
r->shape = 0;
} else {
r->shape = 1;
}
if (pp->locallab.spots.at(i).spotMethod == "norm") {
r->spotMethod = 0;
} else {
r->spotMethod = 1;
}
r->sensiexclu = pp->locallab.spots.at(i).sensiexclu;
r->struc = pp->locallab.spots.at(i).struc;
if (pp->locallab.spots.at(i).shapeMethod == "IND") {
r->shapeMethod = 0;
} else if (pp->locallab.spots.at(i).shapeMethod == "SYM") {
r->shapeMethod = 1;
} else if (pp->locallab.spots.at(i).shapeMethod == "INDSL") {
r->shapeMethod = 2;
} else {
r->shapeMethod = 3;
}
r->locX = pp->locallab.spots.at(i).locX;
r->locXL = pp->locallab.spots.at(i).locXL;
r->locY = pp->locallab.spots.at(i).locY;
r->locYT = pp->locallab.spots.at(i).locYT;
r->centerX = pp->locallab.spots.at(i).centerX;
r->centerY = pp->locallab.spots.at(i).centerY;
r->circrad = pp->locallab.spots.at(i).circrad;
if (pp->locallab.spots.at(i).qualityMethod == "std") {
r->qualityMethod = 0;
} else if (pp->locallab.spots.at(i).qualityMethod == "enh") {
r->qualityMethod = 1;
} else {
r->qualityMethod = 2;
}
r->transit = pp->locallab.spots.at(i).transit;
r->thresh = pp->locallab.spots.at(i).thresh;
r->iter = pp->locallab.spots.at(i).iter;
if (!expsettings->updateControlSpot(r)) {
expsettings->addControlSpot(r);
}
}
// Delete not anymore existent spots
std::vector<int>* const list = expsettings->getSpotIdList();
bool ispresent;
for (int i = 0; i < (int)list->size(); i++) {
ispresent = false;
for (int j = 0; j < pp->locallab.nbspot && j < (int)pp->locallab.spots.size(); j++) {
if (list->at(i) == pp->locallab.spots.at(j).id) {
ispresent = true;
break;
}
}
if (!ispresent) {
expsettings->deleteControlSpot(list->at(i));
}
}
// Select active spot
if (pp->locallab.nbspot > 0) {
expsettings->setSelectedSpot(pp->locallab.spots.at(pp->locallab.selspot).id);
}
// Update Locallab tools GUI
updateLocallabGUI(pp, nullptr, pp->locallab.selspot);
if (pp->locallab.nbspot > 0) {
setParamEditable(true);
// Locallab params are not editable if nbspot, selspot or id are not coherent (batch mode)
if (pedited) {
if (!pedited->locallab.nbspot || !pedited->locallab.selspot || !pedited->locallab.id) {
setParamEditable(false);
}
}
} else {
setParamEditable(false);
}
// Enable all listeners
enableListener();
// Update default values according to selected spot
if (pp->locallab.nbspot > 0 && pp->locallab.selspot < (int)pp->locallab.spots.size()) {
setDefaults(defparams, defpedited, pp->locallab.spots.at(pp->locallab.selspot).id);
}
}
void Locallab::write(ProcParams* pp, ParamsEdited* pedited)
{
printf("Locallab write\n");
pp->locallab.enabled = getEnabled();
const int spotPanelEvent = expsettings->getEventType();
int spotId;
ControlSpotPanel::SpotRow* r;
LocallabParams::LocallabSpot* newSpot;
switch (spotPanelEvent) {
case (1): // 1 = Spot creation event
// Spot creation (default initialization)
newSpot = new LocallabParams::LocallabSpot();
spotId = expsettings->getNewId();
r = new ControlSpotPanel::SpotRow();
r->id = newSpot->id = spotId;
r->name = newSpot->name = "Control Spot #" + std::to_string(spotId);
r->isvisible = newSpot->isvisible;
if (newSpot->shape == "ELI") {
r->shape = 0;
} else {
r->shape = 1;
}
if (newSpot->spotMethod == "norm") {
r->spotMethod = 0;
} else {
r->spotMethod = 1;
}
r->sensiexclu = newSpot->sensiexclu;
r->struc = newSpot->struc;
if (newSpot->shapeMethod == "IND") {
r->shapeMethod = 0;
} else if (newSpot->shapeMethod == "SYM") {
r->shapeMethod = 1;
} else if (newSpot->shapeMethod == "INDSL") {
r->shapeMethod = 2;
} else {
r->shapeMethod = 3;
}
r->locX = newSpot->locX;
r->locXL = newSpot->locXL;
r->locY = newSpot->locY;
r->locYT = newSpot->locYT;
r->centerX = newSpot->centerX;
r->centerY = newSpot->centerY;
r->circrad = newSpot->circrad;
if (newSpot->qualityMethod == "std") {
r->qualityMethod = 0;
} else if (newSpot->qualityMethod == "enh") {
r->qualityMethod = 1;
} else {
r->qualityMethod = 2;
}
r->transit = newSpot->transit;
r->thresh = newSpot->thresh;
r->iter = newSpot->iter;
expsettings->addControlSpot(r);
// ProcParams update
pp->locallab.nbspot++;
pp->locallab.selspot = pp->locallab.nbspot - 1;
pp->locallab.spots.push_back(*newSpot);
// New created spot selection
expsettings->setSelectedSpot(spotId);
// Update Locallab tools GUI with new created spot
disableListener();
if (pe) {
pe->locallab.spots.push_back(new LocallabParamsEdited::LocallabSpotEdited(true));
}
updateLocallabGUI(pp, pe, pp->locallab.selspot);
enableListener();
if (pp->locallab.nbspot == 1) {
setParamEditable(true);
}
// Update default values according to selected spot
setDefaults(defparams, defpedited, spotId);
// ParamsEdited update
if (pedited) {
pedited->locallab.nbspot = true;
pedited->locallab.selspot = true;
pedited->locallab.id = true;
pedited->locallab.spots.push_back(new LocallabParamsEdited::LocallabSpotEdited(true));
}
break;
case (2): // 2 = Spot deletion event
// Get deleted spot index in ProcParams and update it
spotId = expsettings->getSelectedSpot();
for (int i = 0; i < pp->locallab.nbspot && i < (int)pp->locallab.spots.size(); i++) {
if (pp->locallab.spots.at(i).id == spotId) {
// ProcParams update
pp->locallab.nbspot--;
pp->locallab.selspot = 0;
pp->locallab.spots.erase(pp->locallab.spots.begin() + i);
expsettings->deleteControlSpot(spotId);
// Select one remaining spot
if (pp->locallab.nbspot > 0) {
expsettings->setSelectedSpot(pp->locallab.spots.at(pp->locallab.selspot).id);
}
// Update Locallab tools GUI with new created spot
disableListener();
if (pe) {
if (i < (int)pe->locallab.spots.size()) {
pe->locallab.spots.erase(pe->locallab.spots.begin() + i);
}
}
updateLocallabGUI(pp, pe, pp->locallab.selspot);
enableListener();
if (pp->locallab.nbspot == 0) {
setParamEditable(false);
}
// Update default values according to selected spot
if (pp->locallab.nbspot > 0) {
setDefaults(defparams, defpedited, pp->locallab.spots.at(pp->locallab.selspot).id);
}
// ParamsEdited update
if (pedited) {
pedited->locallab.nbspot = true;
pedited->locallab.selspot = true;
pedited->locallab.id = true;
if (i < (int)pedited->locallab.spots.size()) {
pedited->locallab.spots.erase(pedited->locallab.spots.begin() + i);
}
}
printf("size after deletion %d\n", (int)pp->locallab.spots.size());
break;
}
}
break;
case (3): // 3 = Spot selection event
spotId = expsettings->getSelectedSpot();
for (int i = 0; i < pp->locallab.nbspot && i < (int)pp->locallab.spots.size(); i++) {
if (pp->locallab.spots.at(i).id == spotId) {
pp->locallab.selspot = i;
break;
}
}
// Update control spots and Locallab tools GUI with selected spot
expsettings->setSelectedSpot(spotId);
disableListener();
updateLocallabGUI(pp, pe, pp->locallab.selspot);
enableListener();
// Update default values according to selected spot
setDefaults(defparams, defpedited, spotId);
// ParamsEdited update
if (pedited) {
pedited->locallab.selspot = true;
}
break;
default: // Spot or locallab GUI updated
if (pp->locallab.nbspot > 0) {
r = expsettings->getSpot(expsettings->getSelectedSpot());
// ProcParams update
if (pp->locallab.selspot < (int)pp->locallab.spots.size()) {
// Control spot settings
pp->locallab.spots.at(pp->locallab.selspot).name = r->name;
pp->locallab.spots.at(pp->locallab.selspot).isvisible = r->isvisible;
if (r->shape == 0) {
pp->locallab.spots.at(pp->locallab.selspot).shape = "ELI";
} else {
pp->locallab.spots.at(pp->locallab.selspot).shape = "RECT";
}
if (r->spotMethod == 0) {
pp->locallab.spots.at(pp->locallab.selspot).spotMethod = "norm";
} else {
pp->locallab.spots.at(pp->locallab.selspot).spotMethod = "exc";
}
pp->locallab.spots.at(pp->locallab.selspot).sensiexclu = r->sensiexclu;
pp->locallab.spots.at(pp->locallab.selspot).struc = r->struc;
if (r->shapeMethod == 0) {
pp->locallab.spots.at(pp->locallab.selspot).shapeMethod = "IND";
} else if (r->shapeMethod == 1) {
pp->locallab.spots.at(pp->locallab.selspot).shapeMethod = "SYM";
} else if (r->shapeMethod == 2) {
pp->locallab.spots.at(pp->locallab.selspot).shapeMethod = "INDSL";
} else {
pp->locallab.spots.at(pp->locallab.selspot).shapeMethod = "SYMSL";
}
pp->locallab.spots.at(pp->locallab.selspot).locX = r->locX;
pp->locallab.spots.at(pp->locallab.selspot).locXL = r->locXL;
pp->locallab.spots.at(pp->locallab.selspot).locY = r->locY;
pp->locallab.spots.at(pp->locallab.selspot).locYT = r->locYT;
pp->locallab.spots.at(pp->locallab.selspot).centerX = r->centerX;
pp->locallab.spots.at(pp->locallab.selspot).centerY = r->centerY;
pp->locallab.spots.at(pp->locallab.selspot).circrad = r->circrad;
if (r->qualityMethod == 0) {
pp->locallab.spots.at(pp->locallab.selspot).qualityMethod = "std";
} else if (r->qualityMethod == 1) {
pp->locallab.spots.at(pp->locallab.selspot).qualityMethod = "enh";
} else {
pp->locallab.spots.at(pp->locallab.selspot).qualityMethod = "enhden";
}
pp->locallab.spots.at(pp->locallab.selspot).transit = r->transit;
pp->locallab.spots.at(pp->locallab.selspot).thresh = r->thresh;
pp->locallab.spots.at(pp->locallab.selspot).iter = r->iter;
// Color & Light
pp->locallab.spots.at(pp->locallab.selspot).expcolor = expcolor->getEnabled();
pp->locallab.spots.at(pp->locallab.selspot).curvactiv = curvactiv->get_active();
pp->locallab.spots.at(pp->locallab.selspot).lightness = lightness->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).contrast = contrast->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).chroma = chroma->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).sensi = sensi->getIntValue();
if (qualitycurveMethod->get_active_row_number() == 0) {
pp->locallab.spots.at(pp->locallab.selspot).qualitycurveMethod = "none";
} else if (qualitycurveMethod->get_active_row_number() == 1) {
pp->locallab.spots.at(pp->locallab.selspot).qualitycurveMethod = "std";
} else if (qualitycurveMethod->get_active_row_number() == 2) {
pp->locallab.spots.at(pp->locallab.selspot).qualitycurveMethod = "enh";
}
pp->locallab.spots.at(pp->locallab.selspot).llcurve = llshape->getCurve();
pp->locallab.spots.at(pp->locallab.selspot).cccurve = ccshape->getCurve();
pp->locallab.spots.at(pp->locallab.selspot).LHcurve = LHshape->getCurve();
pp->locallab.spots.at(pp->locallab.selspot).HHcurve = HHshape->getCurve();
pp->locallab.spots.at(pp->locallab.selspot).invers = invers->get_active();
// Exposure
pp->locallab.spots.at(pp->locallab.selspot).expexpose = expexpose->getEnabled();
pp->locallab.spots.at(pp->locallab.selspot).expcomp = expcomp->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).hlcompr = hlcompr->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).hlcomprthresh = hlcomprthresh->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).black = black->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).shcompr = shcompr->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).warm = warm->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).sensiex = sensiex->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).excurve = shapeexpos->getCurve();
// Vibrance
pp->locallab.spots.at(pp->locallab.selspot).expvibrance = expvibrance->getEnabled();
pp->locallab.spots.at(pp->locallab.selspot).saturated = saturated->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).pastels = pastels->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).psthreshold = psThreshold->getValue<int>();
pp->locallab.spots.at(pp->locallab.selspot).protectskins = protectSkins->get_active();
pp->locallab.spots.at(pp->locallab.selspot).avoidcolorshift = avoidColorShift->get_active();
pp->locallab.spots.at(pp->locallab.selspot).pastsattog = pastSatTog->get_active();
pp->locallab.spots.at(pp->locallab.selspot).sensiv = sensiv->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).skintonescurve = skinTonesCurve->getCurve();
// Blur & Noise
pp->locallab.spots.at(pp->locallab.selspot).expblur = expblur->getEnabled();
pp->locallab.spots.at(pp->locallab.selspot).radius = radius->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).strength = strength->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).sensibn = sensibn->getIntValue();
if (blurMethod->get_active_row_number() == 0) {
pp->locallab.spots.at(pp->locallab.selspot).blurMethod = "norm";
} else if (blurMethod->get_active_row_number() == 1) {
pp->locallab.spots.at(pp->locallab.selspot).blurMethod = "inv";
} else if (blurMethod->get_active_row_number() == 2) {
pp->locallab.spots.at(pp->locallab.selspot).blurMethod = "sym";
}
pp->locallab.spots.at(pp->locallab.selspot).activlum = activlum->get_active();
// Tone Mapping
pp->locallab.spots.at(pp->locallab.selspot).exptonemap = exptonemap->getEnabled();
pp->locallab.spots.at(pp->locallab.selspot).stren = stren->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).gamma = gamma->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).estop = estop->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).scaltm = scaltm->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).rewei = rewei->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).sensitm = sensitm->getIntValue();
// Retinex
pp->locallab.spots.at(pp->locallab.selspot).expreti = expreti->getEnabled();
if (retinexMethod->get_active_row_number() == 0) {
pp->locallab.spots.at(pp->locallab.selspot).retinexMethod = "low";
} else if (retinexMethod->get_active_row_number() == 1) {
pp->locallab.spots.at(pp->locallab.selspot).retinexMethod = "uni";
} else if (retinexMethod->get_active_row_number() == 2) {
pp->locallab.spots.at(pp->locallab.selspot).retinexMethod = "high";
}
pp->locallab.spots.at(pp->locallab.selspot).str = str->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).chrrt = chrrt->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).neigh = neigh->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).vart = vart->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).sensih = sensih->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).localTgaincurve = cTgainshape->getCurve();
pp->locallab.spots.at(pp->locallab.selspot).inversret = inversret->get_active();
// Sharpening
pp->locallab.spots.at(pp->locallab.selspot).expsharp = expsharp->getEnabled();
pp->locallab.spots.at(pp->locallab.selspot).sharradius = sharradius->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).sharamount = sharamount->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).shardamping = shardamping->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).shariter = shariter->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).sensisha = sensisha->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).inverssha = inverssha->get_active();
// Contrast by detail levels
pp->locallab.spots.at(pp->locallab.selspot).expcbdl = expcbdl->getEnabled();
for (int i = 0; i < 5; i++) {
pp->locallab.spots.at(pp->locallab.selspot).mult[i] = multiplier[i]->getIntValue();
}
pp->locallab.spots.at(pp->locallab.selspot).chromacbdl = chromacbdl->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).threshold = threshold->getValue();
pp->locallab.spots.at(pp->locallab.selspot).sensicb = sensicb->getIntValue();
// Denoise
pp->locallab.spots.at(pp->locallab.selspot).expdenoi = expdenoi->getEnabled();
pp->locallab.spots.at(pp->locallab.selspot).noiselumf = noiselumf->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).noiselumc = noiselumc->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).noiselumdetail = noiselumdetail->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).noiselequal = noiselequal->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).noisechrof = noisechrof->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).noisechroc = noisechroc->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).noisechrodetail = noisechrodetail->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).adjblur = adjblur->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).bilateral = bilateral->getIntValue();
pp->locallab.spots.at(pp->locallab.selspot).sensiden = sensiden->getIntValue();
// Others
pp->locallab.spots.at(pp->locallab.selspot).avoid = avoid->get_active();
}
ControlSpotPanel::SpotEdited* const se = expsettings->getEditedStates();
if (pe) {
if (pp->locallab.selspot < (int)pe->locallab.spots.size()) {
pe->locallab.spots.at(pp->locallab.selspot).name = pe->locallab.spots.at(pp->locallab.selspot).name || se->name;
pe->locallab.spots.at(pp->locallab.selspot).isvisible = pe->locallab.spots.at(pp->locallab.selspot).isvisible || se->isvisible;
pe->locallab.spots.at(pp->locallab.selspot).shape = pe->locallab.spots.at(pp->locallab.selspot).shape || se->shape;
pe->locallab.spots.at(pp->locallab.selspot).spotMethod = pe->locallab.spots.at(pp->locallab.selspot).spotMethod || se->spotMethod;
pe->locallab.spots.at(pp->locallab.selspot).sensiexclu = pe->locallab.spots.at(pp->locallab.selspot).sensiexclu || se->sensiexclu;
pe->locallab.spots.at(pp->locallab.selspot).struc = pe->locallab.spots.at(pp->locallab.selspot).struc || se->struc;
pe->locallab.spots.at(pp->locallab.selspot).shapeMethod = pe->locallab.spots.at(pp->locallab.selspot).shapeMethod || se->shapeMethod;
pe->locallab.spots.at(pp->locallab.selspot).locX = pe->locallab.spots.at(pp->locallab.selspot).locX || se->locX;
pe->locallab.spots.at(pp->locallab.selspot).locXL = pe->locallab.spots.at(pp->locallab.selspot).locXL || se->locXL;
pe->locallab.spots.at(pp->locallab.selspot).locY = pe->locallab.spots.at(pp->locallab.selspot).locY || se->locY;
pe->locallab.spots.at(pp->locallab.selspot).locYT = pe->locallab.spots.at(pp->locallab.selspot).locYT || se->locYT;
pe->locallab.spots.at(pp->locallab.selspot).centerX = pe->locallab.spots.at(pp->locallab.selspot).centerX || se->centerX;
pe->locallab.spots.at(pp->locallab.selspot).centerY = pe->locallab.spots.at(pp->locallab.selspot).centerY || se->centerY;
pe->locallab.spots.at(pp->locallab.selspot).circrad = pe->locallab.spots.at(pp->locallab.selspot).circrad || se->circrad;
pe->locallab.spots.at(pp->locallab.selspot).qualityMethod = pe->locallab.spots.at(pp->locallab.selspot).qualityMethod || se->qualityMethod;
pe->locallab.spots.at(pp->locallab.selspot).transit = pe->locallab.spots.at(pp->locallab.selspot).transit || se->transit;
pe->locallab.spots.at(pp->locallab.selspot).thresh = pe->locallab.spots.at(pp->locallab.selspot).thresh || se->thresh;
pe->locallab.spots.at(pp->locallab.selspot).iter = pe->locallab.spots.at(pp->locallab.selspot).iter || se->iter;
// Color & Light
pe->locallab.spots.at(pp->locallab.selspot).expcolor = pe->locallab.spots.at(pp->locallab.selspot).expcolor || !expcolor->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).curvactiv = pe->locallab.spots.at(pp->locallab.selspot).curvactiv || !curvactiv->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).lightness = pe->locallab.spots.at(pp->locallab.selspot).lightness || lightness->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).contrast = pe->locallab.spots.at(pp->locallab.selspot).contrast || contrast->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).chroma = pe->locallab.spots.at(pp->locallab.selspot).chroma || chroma->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).sensi = pe->locallab.spots.at(pp->locallab.selspot).sensi || sensi->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).qualitycurveMethod = pe->locallab.spots.at(pp->locallab.selspot).qualitycurveMethod || qualitycurveMethod->get_active_text() != M("GENERAL_UNCHANGED");
pe->locallab.spots.at(pp->locallab.selspot).llcurve = pe->locallab.spots.at(pp->locallab.selspot).llcurve || !llshape->isUnChanged();
pe->locallab.spots.at(pp->locallab.selspot).cccurve = pe->locallab.spots.at(pp->locallab.selspot).cccurve || !ccshape->isUnChanged();
pe->locallab.spots.at(pp->locallab.selspot).LHcurve = pe->locallab.spots.at(pp->locallab.selspot).LHcurve || !LHshape->isUnChanged();
pe->locallab.spots.at(pp->locallab.selspot).HHcurve = pe->locallab.spots.at(pp->locallab.selspot).HHcurve || !HHshape->isUnChanged();
pe->locallab.spots.at(pp->locallab.selspot).invers = pe->locallab.spots.at(pp->locallab.selspot).invers || !invers->get_inconsistent();
// Exposure
pe->locallab.spots.at(pp->locallab.selspot).expexpose = pe->locallab.spots.at(pp->locallab.selspot).expexpose || !expexpose->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).expcomp = pe->locallab.spots.at(pp->locallab.selspot).expcomp || expcomp->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).hlcompr = pe->locallab.spots.at(pp->locallab.selspot).hlcompr || hlcompr->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).hlcomprthresh = pe->locallab.spots.at(pp->locallab.selspot).hlcomprthresh || hlcomprthresh->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).black = pe->locallab.spots.at(pp->locallab.selspot).black || black->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).shcompr = pe->locallab.spots.at(pp->locallab.selspot).shcompr || shcompr->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).warm = pe->locallab.spots.at(pp->locallab.selspot).warm || warm->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).sensiex = pe->locallab.spots.at(pp->locallab.selspot).sensiex || sensiex->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).excurve = pe->locallab.spots.at(pp->locallab.selspot).excurve || !shapeexpos->isUnChanged();
// Vibrance
pe->locallab.spots.at(pp->locallab.selspot).expvibrance = pe->locallab.spots.at(pp->locallab.selspot).expvibrance || !expvibrance->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).saturated = pe->locallab.spots.at(pp->locallab.selspot).saturated || saturated->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).pastels = pe->locallab.spots.at(pp->locallab.selspot).pastels || pastels->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).psthreshold = pe->locallab.spots.at(pp->locallab.selspot).psthreshold || psThreshold->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).protectskins = pe->locallab.spots.at(pp->locallab.selspot).protectskins || !protectSkins->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).avoidcolorshift = pe->locallab.spots.at(pp->locallab.selspot).avoidcolorshift || !avoidColorShift->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).pastsattog = pe->locallab.spots.at(pp->locallab.selspot).pastsattog || !pastSatTog->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).sensiv = pe->locallab.spots.at(pp->locallab.selspot).sensiv || sensiv->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).skintonescurve = pe->locallab.spots.at(pp->locallab.selspot).skintonescurve || !skinTonesCurve->isUnChanged();
// Blur & Noise
pe->locallab.spots.at(pp->locallab.selspot).expblur = pe->locallab.spots.at(pp->locallab.selspot).expblur || !expblur->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).radius = pe->locallab.spots.at(pp->locallab.selspot).radius || radius->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).strength = pe->locallab.spots.at(pp->locallab.selspot).strength || strength->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).sensibn = pe->locallab.spots.at(pp->locallab.selspot).sensibn || sensibn->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).blurMethod = pe->locallab.spots.at(pp->locallab.selspot).blurMethod || blurMethod->get_active_text() != M("GENERAL_UNCHANGED");
pe->locallab.spots.at(pp->locallab.selspot).activlum = pe->locallab.spots.at(pp->locallab.selspot).activlum || !activlum->get_inconsistent();
// Tone Mapping
pe->locallab.spots.at(pp->locallab.selspot).exptonemap = pe->locallab.spots.at(pp->locallab.selspot).activlum || !exptonemap->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).stren = pe->locallab.spots.at(pp->locallab.selspot).stren || stren->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).gamma = pe->locallab.spots.at(pp->locallab.selspot).gamma || gamma->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).estop = pe->locallab.spots.at(pp->locallab.selspot).estop || estop->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).scaltm = pe->locallab.spots.at(pp->locallab.selspot).scaltm || scaltm->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).rewei = pe->locallab.spots.at(pp->locallab.selspot).rewei || rewei->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).sensitm = pe->locallab.spots.at(pp->locallab.selspot).sensitm || sensitm->getEditedState();
// Retinex
pe->locallab.spots.at(pp->locallab.selspot).expreti = pe->locallab.spots.at(pp->locallab.selspot).expreti || !expreti->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).retinexMethod = pe->locallab.spots.at(pp->locallab.selspot).retinexMethod || retinexMethod->get_active_text() != M("GENERAL_UNCHANGED");
pe->locallab.spots.at(pp->locallab.selspot).str = pe->locallab.spots.at(pp->locallab.selspot).str || str->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).chrrt = pe->locallab.spots.at(pp->locallab.selspot).chrrt || chrrt->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).neigh = pe->locallab.spots.at(pp->locallab.selspot).neigh || neigh->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).vart = pe->locallab.spots.at(pp->locallab.selspot).vart || vart->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).sensih = pe->locallab.spots.at(pp->locallab.selspot).sensih || sensih->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).localTgaincurve = pe->locallab.spots.at(pp->locallab.selspot).localTgaincurve || !cTgainshape->isUnChanged();
pe->locallab.spots.at(pp->locallab.selspot).inversret = pe->locallab.spots.at(pp->locallab.selspot).inversret || !inversret->get_inconsistent();
// Sharpening
pe->locallab.spots.at(pp->locallab.selspot).expsharp = pe->locallab.spots.at(pp->locallab.selspot).expsharp || !expsharp->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).sharradius = pe->locallab.spots.at(pp->locallab.selspot).sharradius || sharradius->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).sharamount = pe->locallab.spots.at(pp->locallab.selspot).sharamount || sharamount->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).shardamping = pe->locallab.spots.at(pp->locallab.selspot).shardamping || shardamping->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).shariter = pe->locallab.spots.at(pp->locallab.selspot).shariter || shariter->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).sensisha = pe->locallab.spots.at(pp->locallab.selspot).sensisha || sensisha->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).inverssha = pe->locallab.spots.at(pp->locallab.selspot).inverssha || !inverssha->get_inconsistent();
// Contrast by detail levels
pe->locallab.spots.at(pp->locallab.selspot).expcbdl = pe->locallab.spots.at(pp->locallab.selspot).expcbdl || !expcbdl->get_inconsistent();
for (int i = 0; i < 5; i++) {
pe->locallab.spots.at(pp->locallab.selspot).mult[i] = pe->locallab.spots.at(pp->locallab.selspot).mult[i] || multiplier[i]->getEditedState();
}
pe->locallab.spots.at(pp->locallab.selspot).chromacbdl = pe->locallab.spots.at(pp->locallab.selspot).chromacbdl || chromacbdl->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).threshold = pe->locallab.spots.at(pp->locallab.selspot).threshold || threshold->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).sensicb = pe->locallab.spots.at(pp->locallab.selspot).sensicb || sensicb->getEditedState();
// Denoise
pe->locallab.spots.at(pp->locallab.selspot).expdenoi = pe->locallab.spots.at(pp->locallab.selspot).expdenoi || !expdenoi->get_inconsistent();
pe->locallab.spots.at(pp->locallab.selspot).noiselumf = pe->locallab.spots.at(pp->locallab.selspot).noiselumf || noiselumf->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).noiselumc = pe->locallab.spots.at(pp->locallab.selspot).noiselumc || noiselumc->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).noiselumdetail = pe->locallab.spots.at(pp->locallab.selspot).noiselumdetail || noiselumdetail->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).noiselequal = pe->locallab.spots.at(pp->locallab.selspot).noiselequal || noiselequal->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).noisechrof = pe->locallab.spots.at(pp->locallab.selspot).noisechrof || noisechrof->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).noisechroc = pe->locallab.spots.at(pp->locallab.selspot).noisechroc || noisechroc->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).noisechrodetail = pe->locallab.spots.at(pp->locallab.selspot).noisechrodetail || noisechrodetail->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).adjblur = pe->locallab.spots.at(pp->locallab.selspot).adjblur || adjblur->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).bilateral = pe->locallab.spots.at(pp->locallab.selspot).bilateral || bilateral->getEditedState();
pe->locallab.spots.at(pp->locallab.selspot).sensiden = pe->locallab.spots.at(pp->locallab.selspot).sensiden || sensiden->getEditedState();
// Others
pe->locallab.spots.at(pp->locallab.selspot).avoid = pe->locallab.spots.at(pp->locallab.selspot).avoid || !avoid->get_inconsistent();
}
}
// ParamsEdited update
if (pedited) {
pedited->locallab.enabled = pedited->locallab.enabled || !get_inconsistent();
if (pp->locallab.selspot < (int)pedited->locallab.spots.size()) {
// Control spot settings
/*
pedited->locallab.nbspot = se->nbspot;
pedited->locallab.selspot = se->selspot;
pedited->locallab.id = se->nbspot;
*/
pedited->locallab.spots.at(pp->locallab.selspot).name = pedited->locallab.spots.at(pp->locallab.selspot).name || se->name;
pedited->locallab.spots.at(pp->locallab.selspot).isvisible = pedited->locallab.spots.at(pp->locallab.selspot).isvisible || se->isvisible;
pedited->locallab.spots.at(pp->locallab.selspot).shape = pedited->locallab.spots.at(pp->locallab.selspot).shape || se->shape;
pedited->locallab.spots.at(pp->locallab.selspot).spotMethod = pedited->locallab.spots.at(pp->locallab.selspot).spotMethod || se->spotMethod;
pedited->locallab.spots.at(pp->locallab.selspot).sensiexclu = pedited->locallab.spots.at(pp->locallab.selspot).sensiexclu || se->sensiexclu;
pedited->locallab.spots.at(pp->locallab.selspot).struc = pedited->locallab.spots.at(pp->locallab.selspot).struc || se->struc;
pedited->locallab.spots.at(pp->locallab.selspot).shapeMethod = pedited->locallab.spots.at(pp->locallab.selspot).shapeMethod || se->shapeMethod;
pedited->locallab.spots.at(pp->locallab.selspot).locX = pedited->locallab.spots.at(pp->locallab.selspot).locX || se->locX;
pedited->locallab.spots.at(pp->locallab.selspot).locXL = pedited->locallab.spots.at(pp->locallab.selspot).locXL || se->locXL;
pedited->locallab.spots.at(pp->locallab.selspot).locY = pedited->locallab.spots.at(pp->locallab.selspot).locY || se->locY;
pedited->locallab.spots.at(pp->locallab.selspot).locYT = pedited->locallab.spots.at(pp->locallab.selspot).locYT || se->locYT;
pedited->locallab.spots.at(pp->locallab.selspot).centerX = pedited->locallab.spots.at(pp->locallab.selspot).centerX || se->centerX;
pedited->locallab.spots.at(pp->locallab.selspot).centerY = pedited->locallab.spots.at(pp->locallab.selspot).centerY || se->centerY;
pedited->locallab.spots.at(pp->locallab.selspot).circrad = pedited->locallab.spots.at(pp->locallab.selspot).circrad || se->circrad;
pedited->locallab.spots.at(pp->locallab.selspot).qualityMethod = pedited->locallab.spots.at(pp->locallab.selspot).qualityMethod || se->qualityMethod;
pedited->locallab.spots.at(pp->locallab.selspot).transit = pedited->locallab.spots.at(pp->locallab.selspot).transit || se->transit;
pedited->locallab.spots.at(pp->locallab.selspot).thresh = pedited->locallab.spots.at(pp->locallab.selspot).thresh || se->thresh;
pedited->locallab.spots.at(pp->locallab.selspot).iter = pedited->locallab.spots.at(pp->locallab.selspot).iter || se->iter;
// Color & Light
pedited->locallab.spots.at(pp->locallab.selspot).expcolor = pedited->locallab.spots.at(pp->locallab.selspot).expcolor || !expcolor->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).curvactiv = pedited->locallab.spots.at(pp->locallab.selspot).curvactiv || !curvactiv->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).lightness = pedited->locallab.spots.at(pp->locallab.selspot).lightness || lightness->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).contrast = pedited->locallab.spots.at(pp->locallab.selspot).contrast || contrast->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).chroma = pedited->locallab.spots.at(pp->locallab.selspot).chroma || chroma->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).sensi = pedited->locallab.spots.at(pp->locallab.selspot).sensi || sensi->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).qualitycurveMethod = pedited->locallab.spots.at(pp->locallab.selspot).qualitycurveMethod || qualitycurveMethod->get_active_text() != M("GENERAL_UNCHANGED");
pedited->locallab.spots.at(pp->locallab.selspot).llcurve = pedited->locallab.spots.at(pp->locallab.selspot).llcurve || !llshape->isUnChanged();
pedited->locallab.spots.at(pp->locallab.selspot).cccurve = pedited->locallab.spots.at(pp->locallab.selspot).cccurve || !ccshape->isUnChanged();
pedited->locallab.spots.at(pp->locallab.selspot).LHcurve = pedited->locallab.spots.at(pp->locallab.selspot).LHcurve || !LHshape->isUnChanged();
pedited->locallab.spots.at(pp->locallab.selspot).HHcurve = pedited->locallab.spots.at(pp->locallab.selspot).HHcurve || !HHshape->isUnChanged();
pedited->locallab.spots.at(pp->locallab.selspot).invers = pedited->locallab.spots.at(pp->locallab.selspot).invers || !invers->get_inconsistent();
// Exposure
pedited->locallab.spots.at(pp->locallab.selspot).expexpose = pedited->locallab.spots.at(pp->locallab.selspot).expexpose || !expexpose->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).expcomp = pedited->locallab.spots.at(pp->locallab.selspot).expcomp || expcomp->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).hlcompr = pedited->locallab.spots.at(pp->locallab.selspot).hlcompr || hlcompr->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).hlcomprthresh = pedited->locallab.spots.at(pp->locallab.selspot).hlcomprthresh || hlcomprthresh->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).black = pedited->locallab.spots.at(pp->locallab.selspot).black || black->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).shcompr = pedited->locallab.spots.at(pp->locallab.selspot).shcompr || shcompr->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).warm = pedited->locallab.spots.at(pp->locallab.selspot).warm || warm->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).sensiex = pedited->locallab.spots.at(pp->locallab.selspot).sensiex || sensiex->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).excurve = pedited->locallab.spots.at(pp->locallab.selspot).excurve || !shapeexpos->isUnChanged();
// Vibrance
pedited->locallab.spots.at(pp->locallab.selspot).expvibrance = pedited->locallab.spots.at(pp->locallab.selspot).expvibrance || !expvibrance->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).saturated = pedited->locallab.spots.at(pp->locallab.selspot).saturated || saturated->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).pastels = pedited->locallab.spots.at(pp->locallab.selspot).pastels || pastels->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).psthreshold = pedited->locallab.spots.at(pp->locallab.selspot).psthreshold || psThreshold->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).protectskins = pedited->locallab.spots.at(pp->locallab.selspot).protectskins || !protectSkins->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).avoidcolorshift = pedited->locallab.spots.at(pp->locallab.selspot).avoidcolorshift || !avoidColorShift->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).pastsattog = pedited->locallab.spots.at(pp->locallab.selspot).pastsattog || !pastSatTog->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).sensiv = pedited->locallab.spots.at(pp->locallab.selspot).sensiv || sensiv->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).skintonescurve = pedited->locallab.spots.at(pp->locallab.selspot).skintonescurve || !skinTonesCurve->isUnChanged();
// Blur & Noise
pedited->locallab.spots.at(pp->locallab.selspot).expblur = pedited->locallab.spots.at(pp->locallab.selspot).expblur || !expblur->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).radius = pedited->locallab.spots.at(pp->locallab.selspot).radius || radius->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).strength = pedited->locallab.spots.at(pp->locallab.selspot).strength || strength->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).sensibn = pedited->locallab.spots.at(pp->locallab.selspot).sensibn || sensibn->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).blurMethod = pedited->locallab.spots.at(pp->locallab.selspot).blurMethod || blurMethod->get_active_text() != M("GENERAL_UNCHANGED");
pedited->locallab.spots.at(pp->locallab.selspot).activlum = pedited->locallab.spots.at(pp->locallab.selspot).activlum || !activlum->get_inconsistent();
// Tone Mapping
pedited->locallab.spots.at(pp->locallab.selspot).exptonemap = pedited->locallab.spots.at(pp->locallab.selspot).exptonemap || !exptonemap->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).stren = pedited->locallab.spots.at(pp->locallab.selspot).stren || stren->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).gamma = pedited->locallab.spots.at(pp->locallab.selspot).gamma || gamma->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).estop = pedited->locallab.spots.at(pp->locallab.selspot).estop || estop->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).scaltm = pedited->locallab.spots.at(pp->locallab.selspot).scaltm || scaltm->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).rewei = pedited->locallab.spots.at(pp->locallab.selspot).rewei || rewei->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).sensitm = pedited->locallab.spots.at(pp->locallab.selspot).sensitm || sensitm->getEditedState();
// Retinex
pedited->locallab.spots.at(pp->locallab.selspot).expreti = pedited->locallab.spots.at(pp->locallab.selspot).expreti || !expreti->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).retinexMethod = pedited->locallab.spots.at(pp->locallab.selspot).retinexMethod || retinexMethod->get_active_text() != M("GENERAL_UNCHANGED");
pedited->locallab.spots.at(pp->locallab.selspot).str = pedited->locallab.spots.at(pp->locallab.selspot).str || str->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).chrrt = pedited->locallab.spots.at(pp->locallab.selspot).chrrt || chrrt->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).neigh = pedited->locallab.spots.at(pp->locallab.selspot).neigh || neigh->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).vart = pedited->locallab.spots.at(pp->locallab.selspot).vart || vart->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).sensih = pedited->locallab.spots.at(pp->locallab.selspot).sensih || sensih->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).localTgaincurve = pedited->locallab.spots.at(pp->locallab.selspot).localTgaincurve || !cTgainshape->isUnChanged();
pedited->locallab.spots.at(pp->locallab.selspot).inversret = pedited->locallab.spots.at(pp->locallab.selspot).inversret || !inversret->get_inconsistent();
// Sharpening
pedited->locallab.spots.at(pp->locallab.selspot).expsharp = pedited->locallab.spots.at(pp->locallab.selspot).expsharp || !expsharp->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).sharradius = pedited->locallab.spots.at(pp->locallab.selspot).sharradius || sharradius->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).sharamount = pedited->locallab.spots.at(pp->locallab.selspot).sharamount || sharamount->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).shardamping = pedited->locallab.spots.at(pp->locallab.selspot).shardamping || shardamping->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).shariter = pedited->locallab.spots.at(pp->locallab.selspot).shariter || shariter->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).sensisha = pedited->locallab.spots.at(pp->locallab.selspot).sensisha || sensisha->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).inverssha = pedited->locallab.spots.at(pp->locallab.selspot).inverssha || !inverssha->get_inconsistent();
// Contrast by detail levels
pedited->locallab.spots.at(pp->locallab.selspot).expcbdl = pedited->locallab.spots.at(pp->locallab.selspot).expcbdl || !expcbdl->get_inconsistent();
for (int i = 0; i < 5; i++) {
pedited->locallab.spots.at(pp->locallab.selspot).mult[i] = pedited->locallab.spots.at(pp->locallab.selspot).mult[i] || multiplier[i]->getEditedState();
}
pedited->locallab.spots.at(pp->locallab.selspot).chromacbdl = pedited->locallab.spots.at(pp->locallab.selspot).chromacbdl || chromacbdl->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).threshold = pedited->locallab.spots.at(pp->locallab.selspot).threshold || threshold->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).sensicb = pedited->locallab.spots.at(pp->locallab.selspot).sensicb || sensicb->getEditedState();
// Denoise
pedited->locallab.spots.at(pp->locallab.selspot).expdenoi = pedited->locallab.spots.at(pp->locallab.selspot).expdenoi || !expdenoi->get_inconsistent();
pedited->locallab.spots.at(pp->locallab.selspot).noiselumf = pedited->locallab.spots.at(pp->locallab.selspot).noiselumf || noiselumf->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).noiselumc = pedited->locallab.spots.at(pp->locallab.selspot).noiselumc || noiselumc->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).noiselumdetail = pedited->locallab.spots.at(pp->locallab.selspot).noiselumdetail || noiselumdetail->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).noiselequal = pedited->locallab.spots.at(pp->locallab.selspot).noiselequal || noiselequal->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).noisechrof = pedited->locallab.spots.at(pp->locallab.selspot).noisechrof || noisechrof->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).noisechroc = pedited->locallab.spots.at(pp->locallab.selspot).noisechroc || noisechroc->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).noisechrodetail = pedited->locallab.spots.at(pp->locallab.selspot).noisechrodetail || noisechrodetail->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).adjblur = pedited->locallab.spots.at(pp->locallab.selspot).adjblur || adjblur->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).bilateral = pedited->locallab.spots.at(pp->locallab.selspot).bilateral || bilateral->getEditedState();
pedited->locallab.spots.at(pp->locallab.selspot).sensiden = pedited->locallab.spots.at(pp->locallab.selspot).sensiden || sensiden->getEditedState();
// Others
pedited->locallab.spots.at(pp->locallab.selspot).avoid = pedited->locallab.spots.at(pp->locallab.selspot).avoid || !avoid->get_inconsistent();
}
}
}
// Update Locallab tools GUI
disableListener();
updateSpecificGUIState();
enableListener();
}
}
void Locallab::protectskins_toggled()
{
printf("protectskins_toggled\n");
if (batchMode) {
/*
if (protectSkins->get_inconsistent()) {
protectSkins->set_inconsistent(false);
pskinsconn.block(true);
protectSkins->set_active(false);
pskinsconn.block(false);
} else if (lastProtectSkins) {
protectSkins->set_inconsistent(true);
}
lastProtectSkins = protectSkins->get_active();
*/
}
if (getEnabled() && expvibrance->getEnabled()) {
if (listener) {
if (protectSkins->get_active()) {
listener->panelChanged(EvlocallabProtectSkins, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(EvlocallabProtectSkins, M("GENERAL_DISABLED"));
}
}
}
}
void Locallab::avoidcolorshift_toggled()
{
printf("avoidcolorshift_toggled\n");
if (batchMode) {
/*
if (avoidColorShift->get_inconsistent()) {
avoidColorShift->set_inconsistent(false);
ashiftconn.block(true);
avoidColorShift->set_active(false);
ashiftconn.block(false);
} else if (lastAvoidColorShift) {
avoidColorShift->set_inconsistent(true);
}
lastAvoidColorShift = avoidColorShift->get_active();
*/
}
if (getEnabled() && expvibrance->getEnabled()) {
if (listener) {
if (avoidColorShift->get_active()) {
listener->panelChanged(EvlocallabAvoidColorShift, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(EvlocallabAvoidColorShift, M("GENERAL_DISABLED"));
}
}
}
}
void Locallab::pastsattog_toggled()
{
printf("pastsattog_toggled\n");
if (batchMode) {
/*
if (pastSatTog->get_inconsistent()) {
pastSatTog->set_inconsistent(false);
pastsattogconn.block(true);
pastSatTog->set_active(false);
pastsattogconn.block(false);
} else if (lastPastSatTog) {
pastSatTog->set_inconsistent(true);
}
lastPastSatTog = pastSatTog->get_active();
*/
}
// Update Vibrance GUI according to pastsattog button state (to be compliant with updateSpecificGUIState function)
if (pastSatTog->get_active()) {
// Link both slider, so we set saturated and psThresholds unsensitive
psThreshold->set_sensitive(false);
saturated->set_sensitive(false);
saturated->setValue(pastels->getValue()); // Pastels and Saturated are linked
} else {
// Separate sliders, so we set saturated and psThresholds sensitive again
psThreshold->set_sensitive(true);
saturated->set_sensitive(true);
}
if (getEnabled() && expvibrance->getEnabled()) {
if (listener) {
if (pastSatTog->get_active()) {
listener->panelChanged(EvlocallabPastSatTog, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(EvlocallabPastSatTog, M("GENERAL_DISABLED"));
}
}
}
}
void Locallab::curveChanged(CurveEditor* ce)
{
// Color & Light
if (getEnabled() && expcolor->getEnabled()) {
if (ce == llshape) {
if (listener) {
listener->panelChanged(Evlocallabllshape, M("HISTORY_CUSTOMCURVE"));
}
}
if (ce == ccshape) {
if (listener) {
listener->panelChanged(Evlocallabccshape, M("HISTORY_CUSTOMCURVE"));
}
}
if (ce == LHshape) {
if (listener) {
listener->panelChanged(EvlocallabLHshape, M("HISTORY_CUSTOMCURVE"));
}
}
if (ce == HHshape) {
if (listener) {
listener->panelChanged(EvlocallabHHshape, M("HISTORY_CUSTOMCURVE"));
}
}
}
// Exposure
if (getEnabled() && expexpose->getEnabled()) {
if (ce == shapeexpos) {
if (listener) {
listener->panelChanged(Evlocallabshapeexpos, M("HISTORY_CUSTOMCURVE"));
}
}
}
// Vibrance
if (getEnabled() && expvibrance->getEnabled()) {
if (ce == skinTonesCurve) {
if (listener) {
listener->panelChanged(EvlocallabSkinTonesCurve, M("HISTORY_CUSTOMCURVE"));
}
}
}
// Retinex
if (getEnabled() && expreti->getEnabled()) {
if (ce == cTgainshape) {
if (listener) {
listener->panelChanged(EvlocallabCTgainCurve, M("HISTORY_CUSTOMCURVE"));
}
}
}
/*
if (ce == skinTonesCurve) {
listener->panelChanged(EvlocallabSkinTonesCurve, M("HISTORY_CUSTOMCURVE"));
int strval = retrab->getValue();
//update MIP
retrab->setValue(strval + 1);
adjusterChanged(retrab, strval + 1);
usleep(10000); //to test
retrab->setValue(strval);
adjusterChanged(retrab, strval);
}
*/
}
void Locallab::retinexMethodChanged()
{
printf("retinexMethodChanged\n");
if (!batchMode) {
/*
retrab->hide();
LocalcurveEditorgainTrab->hide();
*/
}
if (getEnabled() && expreti->getEnabled()) {
if (listener) {
listener->panelChanged(EvlocallabretinexMethod, retinexMethod->get_active_text());
}
}
}
void Locallab::blurMethodChanged()
{
printf("blurMethodChanged\n");
// Update Blur & Noise GUI according to blurMethod combobox (to be compliant with updateSpecificGUIState function)
if (blurMethod->get_active_row_number() == 0 || blurMethod->get_active_row_number() == 2) {
sensibn->show();
} else {
sensibn->hide();
}
if (getEnabled() && expblur->getEnabled()) {
if (listener) {
listener->panelChanged(EvlocallabblurMethod, blurMethod->get_active_text());
}
}
}
void Locallab::qualitycurveMethodChanged()
{
printf("qualitycurveMethodChanged\n");
if (getEnabled() && expcolor->getEnabled()) {
if (listener) {
listener->panelChanged(EvlocallabqualitycurveMethod, qualitycurveMethod->get_active_text());
}
}
}
void Locallab::inversChanged()
{
printf("inversChanged\n");
/*
if (batchMode) {
if (invers->get_inconsistent()) {
invers->set_inconsistent(false);
inversConn.block(true);
invers->set_active(false);
inversConn.block(false);
} else if (lastinvers) {
invers->set_inconsistent(true);
}
lastinvers = invers->get_active();
}
*/
if (getEnabled() && expcolor->getEnabled()) {
if (listener) {
if (invers->get_active()) {
listener->panelChanged(Evlocallabinvers, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(Evlocallabinvers, M("GENERAL_DISABLED"));
}
}
}
}
void Locallab::curvactivChanged()
{
printf("curvactivChanged\n");
// TODO Batch mode
/*
if (batchMode) {
if (curvactiv->get_inconsistent()) {
curvactiv->set_inconsistent(false);
curvactivConn.block(true);
curvactiv->set_active(false);
curvactivConn.block(false);
} else if (lastcurvactiv) {
curvactiv->set_inconsistent(true);
}
lastcurvactiv = curvactiv->get_active();
}
*/
if (getEnabled() && expcolor->getEnabled()) {
if (listener) {
if (curvactiv->get_active()) {
listener->panelChanged(Evlocallabcurvactiv, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(Evlocallabcurvactiv, M("GENERAL_DISABLED"));
}
}
}
}
void Locallab::activlumChanged()
{
printf("activlumChanged\n");
if (batchMode) {
/*
if (activlum->get_inconsistent()) {
activlum->set_inconsistent(false);
activlumConn.block(true);
activlum->set_active(false);
activlumConn.block(false);
} else if (lastactivlum) {
activlum->set_inconsistent(true);
}
lastactivlum = activlum->get_active();
*/
}
if (getEnabled() && expblur->getEnabled()) {
if (listener) {
if (activlum->get_active()) {
listener->panelChanged(Evlocallabactivlum, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(Evlocallabactivlum, M("GENERAL_DISABLED"));
}
}
}
}
void Locallab::inversshaChanged()
{
printf("inversshaChanged\n");
if (batchMode) {
/*
if (inverssha->get_inconsistent()) {
inverssha->set_inconsistent(false);
inversshaConn.block(true);
inverssha->set_active(false);
inversshaConn.block(false);
} else if (lastinverssha) {
inverssha->set_inconsistent(true);
}
lastinverssha = inverssha->get_active();
*/
}
// Update Sharpening GUI according to inverssha button state (to be compliant with updateSpecificGUIState function)
if (inverssha->get_active()) {
sensisha->hide();
} else {
sensisha->show();
}
if (getEnabled() && expsharp->getEnabled()) {
if (listener) {
if (inverssha->get_active()) {
listener->panelChanged(Evlocallabinverssha, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(Evlocallabinverssha, M("GENERAL_DISABLED"));
}
}
}
}
void Locallab::inversretChanged()
{
printf("inversretChanged\n");
if (batchMode) {
/*
if (inversret->get_inconsistent()) {
inversret->set_inconsistent(false);
inversretConn.block(true);
inversret->set_active(false);
inversretConn.block(false);
} else if (lastinversret) {
inversret->set_inconsistent(true);
}
lastinversret = inversret->get_active();
*/
}
// Update Retinex GUI according to inversret button state (to be compliant with updateSpecificGUIState function)
if (inversret->get_active()) {
sensih->hide();
} else {
sensih->show();
}
if (getEnabled() && expsharp->getEnabled()) {
if (listener) {
if (inversret->get_active()) {
listener->panelChanged(Evlocallabinversret, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(Evlocallabinversret, M("GENERAL_DISABLED"));
}
}
}
}
/*
void Locallab::updateDefaultsValues(const rtengine::procparams::ProcParams* defParams, int id)
{
const LocallabParams::LocallabSpot* defSpot = new LocallabParams::LocallabSpot();
for (int i = 0; i < (int)defParams->locallab.spots.size(); i++) {
if (defParams->locallab.spots.at(i).id == id) {
defSpot = &defParams->locallab.spots.at(i);
break;
}
}
// Set default values for adjusters and threshold adjusters
// Color & Light
lightness->setDefault((double)defSpot->lightness);
contrast->setDefault((double)defSpot->contrast);
chroma->setDefault((double)defSpot->chroma);
sensi->setDefault((double)defSpot->sensi);
// Exposure
expcomp->setDefault((double)defSpot->expcomp);
hlcompr->setDefault((double)defSpot->hlcompr);
hlcomprthresh->setDefault((double)defSpot->hlcomprthresh);
black->setDefault((double)defSpot->black);
shcompr->setDefault((double)defSpot->shcompr);
warm->setDefault((double)defSpot->warm);
sensiex->setDefault((double)defSpot->sensiex);
// Vibrance
saturated->setDefault((double)defSpot->saturated);
pastels->setDefault((double)defSpot->pastels);
psThreshold->setDefault<int>(defSpot->psthreshold);
sensiv->setDefault((double)defSpot->sensiv);
// Blur & Noise
radius->setDefault((double)defSpot->radius);
strength->setDefault((double)defSpot->strength);
sensibn->setDefault((double)defSpot->sensibn);
// Tone Mapping
stren->setDefault((double)defSpot->stren);
gamma->setDefault((double)defSpot->gamma);
estop->setDefault((double)defSpot->estop);
scaltm->setDefault((double)defSpot->scaltm);
rewei->setDefault((double)defSpot->rewei);
sensitm->setDefault((double)defSpot->sensitm);
// Retinex
str->setDefault((double)defSpot->str);
chrrt->setDefault((double)defSpot->chrrt);
neigh->setDefault((double)defSpot->neigh);
vart->setDefault((double)defSpot->vart);
sensih->setDefault((double)defSpot->sensih);
// Sharpening
sharradius->setDefault((double)defSpot->sharradius);
sharamount->setDefault((double)defSpot->sharamount);
shardamping->setDefault((double)defSpot->shardamping);
shariter->setDefault((double)defSpot->shariter);
sensisha->setDefault((double)defSpot->sensisha);
// Contrast by detail levels
for (int i = 0; i < 5; i++) {
multiplier[i]->setDefault(defSpot->mult[i]);
}
chromacbdl->setDefault((double)defSpot->chromacbdl);
threshold->setDefault(defSpot->threshold);
sensicb->setDefault((double)defSpot->sensicb);
// Denoise
noiselumf->setDefault((double)defSpot->noiselumf);
noiselumc->setDefault((double)defSpot->noiselumc);
noiselumdetail->setDefault((double)defSpot->noiselumdetail);
noiselequal->setDefault((double)defSpot->noiselequal);
noisechrof->setDefault((double)defSpot->noisechrof);
noisechroc->setDefault((double)defSpot->noisechroc);
noisechrodetail->setDefault((double)defSpot->noisechrodetail);
adjblur->setDefault((double)defSpot->adjblur);
bilateral->setDefault((double)defSpot->bilateral);
sensiden->setDefault((double)defSpot->sensiden);
}
*/
void Locallab::setParamEditable(bool cond)
{
printf("setParamEditable: %d\n", cond);
// Update params editable state for controlspotpanel
expsettings->setParamEditable(cond);
// Color & Light
expcolor->set_sensitive(cond);
// Exposure
expexpose->set_sensitive(cond);
// Vibrance
expvibrance->set_sensitive(cond);
// Blur & Noise
expblur->set_sensitive(cond);
// Tone Mapping
exptonemap->set_sensitive(cond);
// Retinex
expreti->set_sensitive(cond);
// Sharpening
expsharp->set_sensitive(cond);
// Contrast by detail levels
expcbdl->set_sensitive(cond);
// Denoise
expdenoi->set_sensitive(cond);
// Others
avoid->set_sensitive(cond);
}
void Locallab::setDefaults(const rtengine::procparams::ProcParams* defParams, const ParamsEdited* pedited)
{
defparams = defParams;
defpedited = pedited;
if (pedited) {
pe = new ParamsEdited(*pedited);
} else {
pe = nullptr;
}
}
void Locallab::setDefaults(const ProcParams * defParams, const ParamsEdited * pedited, int id)
{
printf("setDefaults\n");
printf("defparams: %p\n", defparams);
// Set default values and edited states for controlspotpanel
expsettings->setDefaults(defParams, pedited, id);
// Find vector index of given spot id (index = -1 if not found)
int index = -1;
for (int i = 0; i < (int)defParams->locallab.spots.size(); i++) {
if (defParams->locallab.spots.at(i).id == id) {
index = i;
break;
}
}
// Set default values for adjusters
const LocallabParams::LocallabSpot* defSpot = new LocallabParams::LocallabSpot();
if (index != -1 && index < (int)defParams->locallab.spots.size()) {
defSpot = &defParams->locallab.spots.at(index);
}
// Color & Light
lightness->setDefault((double)defSpot->lightness);
contrast->setDefault((double)defSpot->contrast);
chroma->setDefault((double)defSpot->chroma);
sensi->setDefault((double)defSpot->sensi);
// Exposure
expcomp->setDefault((double)defSpot->expcomp);
hlcompr->setDefault((double)defSpot->hlcompr);
hlcomprthresh->setDefault((double)defSpot->hlcomprthresh);
black->setDefault((double)defSpot->black);
shcompr->setDefault((double)defSpot->shcompr);
warm->setDefault((double)defSpot->warm);
sensiex->setDefault((double)defSpot->sensiex);
// Vibrance
saturated->setDefault((double)defSpot->saturated);
pastels->setDefault((double)defSpot->pastels);
psThreshold->setDefault<int>(defSpot->psthreshold);
sensiv->setDefault((double)defSpot->sensiv);
// Blur & Noise
radius->setDefault((double)defSpot->radius);
strength->setDefault((double)defSpot->strength);
sensibn->setDefault((double)defSpot->sensibn);
// Tone Mapping
stren->setDefault((double)defSpot->stren);
gamma->setDefault((double)defSpot->gamma);
estop->setDefault((double)defSpot->estop);
scaltm->setDefault((double)defSpot->scaltm);
rewei->setDefault((double)defSpot->rewei);
sensitm->setDefault((double)defSpot->sensitm);
// Retinex
str->setDefault((double)defSpot->str);
chrrt->setDefault((double)defSpot->chrrt);
neigh->setDefault((double)defSpot->neigh);
vart->setDefault((double)defSpot->vart);
sensih->setDefault((double)defSpot->sensih);
// Sharpening
sharradius->setDefault((double)defSpot->sharradius);
sharamount->setDefault((double)defSpot->sharamount);
shardamping->setDefault((double)defSpot->shardamping);
shariter->setDefault((double)defSpot->shariter);
sensisha->setDefault((double)defSpot->sensisha);
// Contrast by detail levels
for (int i = 0; i < 5; i++) {
multiplier[i]->setDefault(defSpot->mult[i]);
}
chromacbdl->setDefault((double)defSpot->chromacbdl);
threshold->setDefault(defSpot->threshold);
sensicb->setDefault((double)defSpot->sensicb);
// Denoise
noiselumf->setDefault((double)defSpot->noiselumf);
noiselumc->setDefault((double)defSpot->noiselumc);
noiselumdetail->setDefault((double)defSpot->noiselumdetail);
noiselequal->setDefault((double)defSpot->noiselequal);
noisechrof->setDefault((double)defSpot->noisechrof);
noisechroc->setDefault((double)defSpot->noisechroc);
noisechrodetail->setDefault((double)defSpot->noisechrodetail);
adjblur->setDefault((double)defSpot->adjblur);
bilateral->setDefault((double)defSpot->bilateral);
sensiden->setDefault((double)defSpot->sensiden);
// Set default edited states for adjusters and threshold adjusters
if (!pedited) {
// Color & Light
lightness->setDefaultEditedState(Irrelevant);
contrast->setDefaultEditedState(Irrelevant);
chroma->setDefaultEditedState(Irrelevant);
sensi->setDefaultEditedState(Irrelevant);
// Exposure
expcomp->setDefaultEditedState(Irrelevant);
hlcompr->setDefaultEditedState(Irrelevant);
hlcomprthresh->setDefaultEditedState(Irrelevant);
black->setDefaultEditedState(Irrelevant);
shcompr->setDefaultEditedState(Irrelevant);
warm->setDefaultEditedState(Irrelevant);
sensiex->setDefaultEditedState(Irrelevant);
// Vibrance
saturated->setDefaultEditedState(Irrelevant);
pastels->setDefaultEditedState(Irrelevant);
psThreshold->setDefaultEditedState(Irrelevant);
sensiv->setDefaultEditedState(Irrelevant);
// Blur & Noise
radius->setDefaultEditedState(Irrelevant);
strength->setDefaultEditedState(Irrelevant);
sensibn->setDefaultEditedState(Irrelevant);
// Tone Mapping
stren->setDefaultEditedState(Irrelevant);
gamma->setDefaultEditedState(Irrelevant);
estop->setDefaultEditedState(Irrelevant);
scaltm->setDefaultEditedState(Irrelevant);
rewei->setDefaultEditedState(Irrelevant);
sensitm->setDefaultEditedState(Irrelevant);
// Retinex
str->setDefaultEditedState(Irrelevant);
chrrt->setDefaultEditedState(Irrelevant);
neigh->setDefaultEditedState(Irrelevant);
vart->setDefaultEditedState(Irrelevant);
sensih->setDefaultEditedState(Irrelevant);
// Sharpening
sharradius->setDefaultEditedState(Irrelevant);
sharamount->setDefaultEditedState(Irrelevant);
shardamping->setDefaultEditedState(Irrelevant);
shariter->setDefaultEditedState(Irrelevant);
sensisha->setDefaultEditedState(Irrelevant);
// Contrast by detail levels
for (int i = 0; i < 5; i++) {
multiplier[i]->setDefaultEditedState(Irrelevant);
}
chromacbdl->setDefaultEditedState(Irrelevant);
threshold->setDefaultEditedState(Irrelevant);
sensicb->setDefaultEditedState(Irrelevant);
// Denoise
noiselumf->setDefaultEditedState(Irrelevant);
noiselumc->setDefaultEditedState(Irrelevant);
noiselumdetail->setDefaultEditedState(Irrelevant);
noiselequal->setDefaultEditedState(Irrelevant);
noisechrof->setDefaultEditedState(Irrelevant);
noisechroc->setDefaultEditedState(Irrelevant);
noisechrodetail->setDefaultEditedState(Irrelevant);
adjblur->setDefaultEditedState(Irrelevant);
bilateral->setDefaultEditedState(Irrelevant);
sensiden->setDefaultEditedState(Irrelevant);
} else {
const LocallabParamsEdited::LocallabSpotEdited* defSpotState = new LocallabParamsEdited::LocallabSpotEdited(true);
if (index != 1 && index < (int)pedited->locallab.spots.size()) {
defSpotState = &pedited->locallab.spots.at(index);
}
// Color & Light
lightness->setDefaultEditedState(defSpotState->lightness ? Edited : UnEdited);
contrast->setDefaultEditedState(defSpotState->contrast ? Edited : UnEdited);
chroma->setDefaultEditedState(defSpotState->chroma ? Edited : UnEdited);
sensi->setDefaultEditedState(defSpotState->sensi ? Edited : UnEdited);
// Exposure
expcomp->setDefaultEditedState(defSpotState->expcomp ? Edited : UnEdited);
hlcompr->setDefaultEditedState(defSpotState->hlcompr ? Edited : UnEdited);
hlcomprthresh->setDefaultEditedState(defSpotState->hlcomprthresh ? Edited : UnEdited);
black->setDefaultEditedState(defSpotState->black ? Edited : UnEdited);
shcompr->setDefaultEditedState(defSpotState->shcompr ? Edited : UnEdited);
warm->setDefaultEditedState(defSpotState->warm ? Edited : UnEdited);
sensiex->setDefaultEditedState(defSpotState->sensiex ? Edited : UnEdited);
// Vibrance
saturated->setDefaultEditedState(defSpotState->saturated ? Edited : UnEdited);
pastels->setDefaultEditedState(defSpotState->pastels ? Edited : UnEdited);
psThreshold->setDefaultEditedState(defSpotState->psthreshold ? Edited : UnEdited);
sensiv->setDefaultEditedState(defSpotState->sensiv ? Edited : UnEdited);
// Blur & Noise
radius->setDefaultEditedState(defSpotState->radius ? Edited : UnEdited);
strength->setDefaultEditedState(defSpotState->strength ? Edited : UnEdited);
sensibn->setDefaultEditedState(defSpotState->sensibn ? Edited : UnEdited);
// Tone Mapping
stren->setDefaultEditedState(defSpotState->stren ? Edited : UnEdited);
gamma->setDefaultEditedState(defSpotState->gamma ? Edited : UnEdited);
estop->setDefaultEditedState(defSpotState->estop ? Edited : UnEdited);
scaltm->setDefaultEditedState(defSpotState->scaltm ? Edited : UnEdited);
rewei->setDefaultEditedState(defSpotState->rewei ? Edited : UnEdited);
sensitm->setDefaultEditedState(defSpotState->sensitm ? Edited : UnEdited);
// Retinex
str->setDefaultEditedState(defSpotState->str ? Edited : UnEdited);
chrrt->setDefaultEditedState(defSpotState->chrrt ? Edited : UnEdited);
neigh->setDefaultEditedState(defSpotState->neigh ? Edited : UnEdited);
vart->setDefaultEditedState(defSpotState->vart ? Edited : UnEdited);
sensih->setDefaultEditedState(defSpotState->sensih ? Edited : UnEdited);
// Sharpening
sharradius->setDefaultEditedState(defSpotState->sharradius ? Edited : UnEdited);
sharamount->setDefaultEditedState(defSpotState->sharamount ? Edited : UnEdited);
shardamping->setDefaultEditedState(defSpotState->shardamping ? Edited : UnEdited);
shariter->setDefaultEditedState(defSpotState->shariter ? Edited : UnEdited);
sensisha->setDefaultEditedState(defSpotState->sensisha ? Edited : UnEdited);
// Contrast by detail levels
for (int i = 0; i < 5; i++) {
multiplier[i]->setDefaultEditedState(defSpotState->mult[i] ? Edited : UnEdited);
}
chromacbdl->setDefaultEditedState(defSpotState->chromacbdl ? Edited : UnEdited);
threshold->setDefaultEditedState(defSpotState->threshold ? Edited : UnEdited);
sensicb->setDefaultEditedState(defSpotState->sensicb ? Edited : UnEdited);
// Denoise
noiselumf->setDefaultEditedState(defSpotState->noiselumf ? Edited : UnEdited);
noiselumc->setDefaultEditedState(defSpotState->noiselumc ? Edited : UnEdited);
noiselumdetail->setDefaultEditedState(defSpotState->noiselumdetail ? Edited : UnEdited);
noiselequal->setDefaultEditedState(defSpotState->noiselequal ? Edited : UnEdited);
noisechrof->setDefaultEditedState(defSpotState->noisechrof ? Edited : UnEdited);
noisechroc->setDefaultEditedState(defSpotState->noisechroc ? Edited : UnEdited);
noisechrodetail->setDefaultEditedState(defSpotState->noisechrodetail ? Edited : UnEdited);
adjblur->setDefaultEditedState(defSpotState->adjblur ? Edited : UnEdited);
bilateral->setDefaultEditedState(defSpotState->bilateral ? Edited : UnEdited);
sensiden->setDefaultEditedState(defSpotState->sensiden ? Edited : UnEdited);
}
}
void Locallab::adjusterChanged(ThresholdAdjuster* a, int newBottom, int newTop)
{
printf("adjusterChangedTS\n");
if (getEnabled() && expvibrance->getEnabled()) {
if (listener) {
listener->panelChanged(EvlocallabPastSatThreshold, psThreshold->getHistoryString());
}
}
}
void Locallab::adjusterChanged(Adjuster * a, double newval)
{
printf("adjusterChanged\n");
// Color & Light
if (getEnabled() && expcolor->getEnabled()) {
if (a == lightness) {
if (listener) {
listener->panelChanged(Evlocallablightness, lightness->getTextValue());
}
}
if (a == contrast) {
if (listener) {
listener->panelChanged(Evlocallabcontrast, contrast->getTextValue());
}
}
if (a == chroma) {
if (listener) {
listener->panelChanged(Evlocallabchroma, chroma->getTextValue());
}
}
if (a == sensi) {
if (listener) {
listener->panelChanged(Evlocallabsensi, sensi->getTextValue());
}
}
}
// Exposure
if (a == black) {
// Update Exposure GUI according to black adjuster state (to be compliant with updateSpecificGUIState function)
shcompr->set_sensitive(!((int)black->getValue() == 0)); // At black = 0, shcompr value has no effect
}
if (getEnabled() && expexpose->getEnabled()) {
if (a == expcomp) {
if (listener) {
listener->panelChanged(Evlocallabexpcomp, expcomp->getTextValue());
}
}
if (a == hlcompr) {
if (listener) {
listener->panelChanged(Evlocallabhlcompr, hlcompr->getTextValue());
}
}
if (a == hlcomprthresh) {
if (listener) {
listener->panelChanged(Evlocallabhlcomprthresh, hlcomprthresh->getTextValue());
}
}
if (a == black) {
if (listener) {
listener->panelChanged(Evlocallabblack, black->getTextValue());
}
}
if (a == shcompr) {
if (listener) {
listener->panelChanged(Evlocallabshcompr, shcompr->getTextValue());
}
}
if (a == warm) {
if (listener) {
listener->panelChanged(Evlocallabwarm, warm->getTextValue());
}
}
if (a == sensiex) {
if (listener) {
listener->panelChanged(Evlocallabsensiex, sensiex->getTextValue());
}
}
}
// Vibrance
if (a == pastels && pastSatTog->get_active()) {
saturated->setValue(newval);
}
if (getEnabled() && expvibrance->getEnabled()) {
if (a == saturated && !pastSatTog->get_active()) {
if (listener) {
listener->panelChanged(EvlocallabSaturated, saturated->getTextValue());
}
}
if (a == pastels) {
if (listener) {
listener->panelChanged(EvlocallabPastels, pastels->getTextValue());
}
}
if (a == sensiv) {
if (listener) {
listener->panelChanged(Evlocallabsensiv, sensiv->getTextValue());
}
}
}
// Blur & Noise
if (getEnabled() && expblur->getEnabled()) {
if (a == radius) {
if (listener) {
listener->panelChanged(Evlocallabradius, radius->getTextValue());
}
}
if (a == strength) {
if (listener) {
listener->panelChanged(Evlocallabstrength, strength->getTextValue());
}
}
if (a == sensibn) {
if (listener) {
listener->panelChanged(Evlocallabsensibn, sensibn->getTextValue());
}
}
}
// Tone Mapping
if (getEnabled() && exptonemap->getEnabled()) {
if (a == stren) {
if (listener) {
listener->panelChanged(Evlocallabstren, stren->getTextValue());
}
}
if (a == gamma) {
if (listener) {
listener->panelChanged(Evlocallabgamma, gamma->getTextValue());
}
}
if (a == estop) {
if (listener) {
listener->panelChanged(Evlocallabestop, estop->getTextValue());
}
}
if (a == scaltm) {
if (listener) {
listener->panelChanged(Evlocallabscaltm, scaltm->getTextValue());
}
}
if (a == rewei) {
if (listener) {
listener->panelChanged(Evlocallabrewei, rewei->getTextValue());
}
}
if (a == sensitm) {
if (listener) {
listener->panelChanged(Evlocallabsensitm, sensitm->getTextValue());
}
}
}
// Retinex
if (getEnabled() && expreti->getEnabled()) {
if (a == str) {
if (listener) {
listener->panelChanged(Evlocallabstr, str->getTextValue());
}
}
if (a == chrrt) {
if (listener) {
listener->panelChanged(Evlocallabchrrt, chrrt->getTextValue());
}
}
if (a == neigh) {
if (listener) {
listener->panelChanged(Evlocallabneigh, neigh->getTextValue());
}
}
if (a == vart) {
if (listener) {
listener->panelChanged(Evlocallabvart, vart->getTextValue());
}
}
if (a == sensih) {
if (listener) {
listener->panelChanged(Evlocallabsensih, sensih->getTextValue());
}
}
}
// Sharpening
if (getEnabled() && expsharp->getEnabled()) {
if (a == sharradius) {
if (listener) {
listener->panelChanged(Evlocallabsharradius, sharradius->getTextValue());
}
}
if (a == sharamount) {
if (listener) {
listener->panelChanged(Evlocallabsharamount, sharamount->getTextValue());
}
}
if (a == shardamping) {
if (listener) {
listener->panelChanged(Evlocallabshardamping, shardamping->getTextValue());
}
}
if (a == shariter) {
if (listener) {
listener->panelChanged(Evlocallabshariter, shariter->getTextValue());
}
}
if (a == sensisha) {
if (listener) {
listener->panelChanged(Evlocallabsensis, sensisha->getTextValue());
}
}
}
// Contrast by detail levels
if (getEnabled() && expcbdl->getEnabled()) {
if (a == multiplier[0] || a == multiplier[1] || a == multiplier[2] || a == multiplier[3] || a == multiplier[4]) {
if (listener) {
listener->panelChanged(EvlocallabEqualizer,
Glib::ustring::compose("%1, %2, %3, %4, %5",
Glib::ustring::format(std::fixed, std::setprecision(0), multiplier[0]->getValue()),
Glib::ustring::format(std::fixed, std::setprecision(0), multiplier[1]->getValue()),
Glib::ustring::format(std::fixed, std::setprecision(0), multiplier[2]->getValue()),
Glib::ustring::format(std::fixed, std::setprecision(0), multiplier[3]->getValue()),
Glib::ustring::format(std::fixed, std::setprecision(0), multiplier[4]->getValue())));
}
}
if (a == chromacbdl) {
if (listener) {
listener->panelChanged(Evlocallabchromacbdl, chromacbdl->getTextValue());
}
}
if (a == threshold) {
if (listener) {
listener->panelChanged(EvlocallabThresho, threshold->getTextValue());
}
}
if (a == sensicb) {
if (listener) {
listener->panelChanged(Evlocallabsensicb, sensicb->getTextValue());
}
}
}
// Denoise
if (getEnabled() && expdenoi->getEnabled()) {
if (a == noiselumf) {
if (listener) {
listener->panelChanged(Evlocallabnoiselumf, noiselumf->getTextValue());
}
}
if (a == noiselumc) {
if (listener) {
listener->panelChanged(Evlocallabnoiselumc, noiselumc->getTextValue());
}
}
if (a == noiselumdetail) {
if (listener) {
listener->panelChanged(Evlocallabnoiselumdetail, noiselumdetail->getTextValue());
}
}
if (a == noiselequal) {
if (listener) {
listener->panelChanged(Evlocallabnoiselequal, noiselequal->getTextValue());
}
}
if (a == noisechrof) {
if (listener) {
listener->panelChanged(Evlocallabnoisechrof, noisechrof->getTextValue());
}
}
if (a == noisechroc) {
if (listener) {
listener->panelChanged(Evlocallabnoisechroc, noisechroc->getTextValue());
}
}
if (a == noisechrodetail) {
if (listener) {
listener->panelChanged(Evlocallabnoisechrodetail, noisechrodetail->getTextValue());
}
}
if (a == adjblur) {
if (listener) {
listener->panelChanged(Evlocallabadjblur, adjblur->getTextValue());
}
}
if (a == bilateral) {
if (listener) {
listener->panelChanged(Evlocallabbilateral, bilateral->getTextValue());
}
}
if (a == sensiden) {
if (listener) {
listener->panelChanged(Evlocallabsensiden, sensiden->getTextValue());
}
}
}
}
void Locallab::enabledChanged()
{
if (listener) {
if (get_inconsistent()) {
listener->panelChanged(EvlocallabEnabled, M("GENERAL_UNCHANGED"));
} else if (getEnabled()) {
listener->panelChanged(EvlocallabEnabled, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(EvlocallabEnabled, M("GENERAL_DISABLED"));
}
}
}
void Locallab::avoidChanged()
{
printf("avoidChanged\n");
if (batchMode) {
/*
if (avoid->get_inconsistent()) {
avoid->set_inconsistent(false);
avoidConn.block(true);
avoid->set_active(false);
avoidConn.block(false);
} else if (lastavoid) {
avoid->set_inconsistent(true);
}
lastavoid = avoid->get_active();
*/
}
if (getEnabled()) {
if (listener) {
if (avoid->get_active()) {
listener->panelChanged(Evlocallabavoid, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(Evlocallabavoid, M("GENERAL_DISABLED"));
}
}
}
}
// TODO
void Locallab::trimValues(rtengine::procparams::ProcParams * pp)
{
/*
degree->trimValue(pp->locallab.degree);
locY->trimValue(pp->locallab.locY);
locX->trimValue(pp->locallab.locX);
locYT->trimValue(pp->locallab.locYT);
locXL->trimValue(pp->locallab.locXL);
centerX->trimValue(pp->locallab.centerX);
centerY->trimValue(pp->locallab.centerY);
circrad->trimValue(pp->locallab.circrad);
adjblur->trimValue(pp->locallab.adjblur);
thres->trimValue(pp->locallab.thres);
proxi->trimValue(pp->locallab.proxi);
lightness->trimValue(pp->locallab.lightness);
contrast->trimValue(pp->locallab.contrast);
chroma->trimValue(pp->locallab.chroma);
warm->trimValue(pp->locallab.warm);
expcomp->trimValue(pp->locallab.expcomp);
hlcompr->trimValue(pp->locallab.hlcompr);
hlcomprthresh->trimValue(pp->locallab.hlcomprthresh);
black->trimValue(pp->locallab.black);
shcompr->trimValue(pp->locallab.shcompr);
noiselumf->trimValue(pp->locallab.noiselumf);
noiselumc->trimValue(pp->locallab.noiselumc);
noiselumdetail->trimValue(pp->locallab.noiselumdetail);
noiselequal->trimValue(pp->locallab.noiselequal);
noisechrodetail->trimValue(pp->locallab.noisechrodetail);
bilateral->trimValue(pp->locallab.bilateral);
sensiden->trimValue(pp->locallab.sensiden);
noisechrof->trimValue(pp->locallab.noisechrof);
noisechroc->trimValue(pp->locallab.noisechroc);
sharradius->trimValue(pp->locallab.sharradius);
sharamount->trimValue(pp->locallab.sharamount);
shardamping->trimValue(pp->locallab.shardamping);
shariter->trimValue(pp->locallab.shariter);
sensisha->trimValue(pp->locallab.sensisha);
sensi->trimValue(pp->locallab.sensi);
sensiex->trimValue(pp->locallab.sensiex);
sensih->trimValue(pp->locallab.sensih);
sensiexclu->trimValue(pp->locallab.sensiexclu);
struc->trimValue(pp->locallab.struc);
sensicb->trimValue(pp->locallab.sensicb);
sensibn->trimValue(pp->locallab.sensibn);
sensitm->trimValue(pp->locallab.sensitm);
radius->trimValue(pp->locallab.radius);
strength->trimValue(pp->locallab.strength);
stren->trimValue(pp->locallab.stren);
gamma->trimValue(pp->locallab.gamma);
estop->trimValue(pp->locallab.estop);
scaltm->trimValue(pp->locallab.scaltm);
rewei->trimValue(pp->locallab.rewei);
transit->trimValue(pp->locallab.transit);
str->trimValue(pp->locallab.str);
neigh->trimValue(pp->locallab.neigh);
vart->trimValue(pp->locallab.vart);
chrrt->trimValue(pp->locallab.chrrt);
for (int i = 0; i < 5; i++) {
multiplier[i]->trimValue(pp->locallab.mult[i]);
}
chromacbdl->trimValue(pp->locallab.chromacbdl);
threshold->trimValue(pp->locallab.threshold);
pastels->trimValue(pp->locallab.pastels);
saturated->trimValue(pp->locallab.saturated);
sensiv->trimValue(pp->locallab.sensiv);
*/
}
void Locallab::setBatchMode(bool batchMode)
{
printf("BatchMode : %d\n", batchMode);
ToolPanel::setBatchMode(batchMode);
// Set batch mode for controlspotpanel
expsettings->setBatchMode(batchMode);
// Set batch mode for adjusters and threshold adjusters
// Color & Light
lightness->showEditedCB();
contrast->showEditedCB();
chroma->showEditedCB();
sensi->showEditedCB();
// Exposure
expcomp->showEditedCB();
hlcompr->showEditedCB();
hlcomprthresh->showEditedCB();
black->showEditedCB();
shcompr->showEditedCB();
warm->showEditedCB();
sensiex->showEditedCB();
// Vibrance
saturated->showEditedCB();
pastels->showEditedCB();
psThreshold->showEditedCB();
sensiv->showEditedCB();
// Blur & Noise
radius->showEditedCB();
strength->showEditedCB();
sensibn->showEditedCB();
// Tone Mapping
stren->showEditedCB();
gamma->showEditedCB();
estop->showEditedCB();
scaltm->showEditedCB();
rewei->showEditedCB();
sensitm->showEditedCB();
// Retinex
str->showEditedCB();
chrrt->showEditedCB();
neigh->showEditedCB();
vart->showEditedCB();
sensih->showEditedCB();
// Sharpening
sharradius->showEditedCB();
sharamount->showEditedCB();
shardamping->showEditedCB();
shariter->showEditedCB();
sensisha->showEditedCB();
// Contrast by detail levels
for (int i = 0; i < 5; i++) {
multiplier[i]->showEditedCB();
}
chromacbdl->showEditedCB();
threshold->showEditedCB();
sensicb->showEditedCB();
// Denoise
noiselumf->showEditedCB();
noiselumc->showEditedCB();
noiselumdetail->showEditedCB();
noiselequal->showEditedCB();
noiselumf->showEditedCB();
noisechroc->showEditedCB();
noisechrodetail->showEditedCB();
adjblur->showEditedCB();
bilateral->showEditedCB();
sensiden->showEditedCB();
}
std::vector<double> Locallab::getCurvePoints(ThresholdSelector* tAdjuster) const
{
std::vector<double> points;
double threshold, transitionWeighting;
tAdjuster->getPositions<double> (transitionWeighting, threshold); // ( range -100;+100, range 0;+100 )
transitionWeighting /= 100.; // range -1., +1.
threshold /= 100.; // range 0., +1.
// Initial point
points.push_back(0.);
points.push_back(0.);
double p2 = 3.0 * threshold / 4.0; // same one than in ipvibrance.cc
double s0 = threshold + (1.0 - threshold) / 4.0; // same one than in ipvibrance.cc
// point at the beginning of the first linear transition
points.push_back(p2);
points.push_back(0.);
// Y value of the chroma mean point, calculated to get a straight line between p2 and s0
double chromaMean = (threshold / 4.0) / (s0 - p2);
// move chromaMean up or down depending on transitionWeighting
if (transitionWeighting > 0.0) {
// positive values -> give more weight to Saturated
chromaMean = (1.0 - chromaMean) * transitionWeighting + chromaMean;
} else if (transitionWeighting < 0.0) {
// negative values -> give more weight to Pastels
chromaMean = chromaMean * transitionWeighting + chromaMean;
}
// point at the location of the Top cursor, at the end of the first linear transition and the beginning of the second one
points.push_back(threshold);
points.push_back(chromaMean);
if (threshold < 1.0) {
// point at the end of the second linear transition
points.push_back(s0);
points.push_back(1.0);
// end point
points.push_back(1.0);
points.push_back(1.0);
}
return points;
}
void Locallab::setEditProvider(EditDataProvider * provider)
{
expsettings->setEditProvider(provider);
}
void Locallab::subscribe()
{
expsettings->subscribe();
}
void Locallab::unsubscribe()
{
expsettings->unsubscribe();
}
void Locallab::colorForValue(double valX, double valY, enum ColorCaller::ElemType elemType, int callerId, ColorCaller *caller)
{
float R, G, B;
if (elemType == ColorCaller::CCET_VERTICAL_BAR) {
valY = 0.5;
}
if (callerId == 1) { // ch - main curve
Color::hsv2rgb01(float (valX), float (valY), 0.5f, R, G, B);
} else if (callerId == 2) { // cc - bottom bar
float value = (1.f - 0.7f) * float (valX) + 0.7f;
// whole hue range
// Y axis / from 0.15 up to 0.75 (arbitrary values; was 0.45 before)
Color::hsv2rgb01(float (valY), float (valX), value, R, G, B);
} else if (callerId == 3) { // lc - bottom bar
float value = (1.f - 0.7f) * float (valX) + 0.7f;
// Y axis / from 0.15 up to 0.75 (arbitrary values; was 0.45 before)
Color::hsv2rgb01(float (valY), float (valX), value, R, G, B);
} else if (callerId == 4) { // LH - bottom bar
Color::hsv2rgb01(float (valX), 0.5f, float (valY), R, G, B);
} else if (callerId == 5) { // HH - bottom bar
float h = float ((valY - 0.5) * 0.3 + valX);
if (h > 1.0f) {
h -= 1.0f;
} else if (h < 0.0f) {
h += 1.0f;
}
Color::hsv2rgb01(h, 0.5f, 0.5f, R, G, B);
}
caller->ccRed = double (R);
caller->ccGreen = double (G);
caller->ccBlue = double (B);
}
void Locallab::setListener(ToolPanelListener* tpl)
{
this->listener = tpl;
expsettings->setListener(tpl);
}
void Locallab::enableListener()
{
printf("enableListener\n");
FoldableToolPanel::enableListener();
// Color & Light
enablecolorConn.block(false);
curvactivConn.block(false);
qualitycurveMethodConn.block(false);
inversConn.block(false);
// Exposure
enableexposeConn.block(false);
// Vibrance
enablevibranceConn.block(false);
pskinsconn.block(false);
ashiftconn.block(false);
pastsattogconn.block(false);
// Blur & Noise
enableblurConn.block(false);
blurMethodConn.block(false);
activlumConn.block(false);
// Tone Mapping
enabletonemapConn.block(false);
// Retinex
enableretiConn.block(false);
retinexMethodConn.block(false);
inversretConn.block(false);
// Sharpening
enablesharpConn.block(false);
inversshaConn.block(false);
// Contrast by detail levels
enablecbdlConn.block(false);
// Denoise
enabledenoiConn.block(false);
avoidConn.block(false);
}
void Locallab::disableListener()
{
printf("disableListener\n");
FoldableToolPanel::disableListener();
// Color & Light
enablecolorConn.block(true);
curvactivConn.block(true);
qualitycurveMethodConn.block(true);
inversConn.block(true);
// Exposure
enableexposeConn.block(true);
// Vibrance
enablevibranceConn.block(true);
pskinsconn.block(true);
ashiftconn.block(true);
pastsattogconn.block(true);
// Blur & Noise
enableblurConn.block(true);
blurMethodConn.block(true);
activlumConn.block(true);
// Tone Mapping
enabletonemapConn.block(true);
// Retinex
enableretiConn.block(true);
retinexMethodConn.block(true);
inversretConn.block(true);
// Sharpening
enablesharpConn.block(true);
inversshaConn.block(true);
// Contrast by detail levels
enablecbdlConn.block(true);
// Denoise
enabledenoiConn.block(true);
avoidConn.block(true);
}
void Locallab::updateLocallabGUI(const rtengine::procparams::ProcParams* pp, const ParamsEdited* pedited, int index)
{
printf("updateLocallabGUI\n");
// Update GUI values
if (index < pp->locallab.nbspot && index < (int)pp->locallab.spots.size()) {
// Color & Light
expcolor->setEnabled(pp->locallab.spots.at(index).expcolor);
curvactiv->set_active(pp->locallab.spots.at(index).curvactiv);
lightness->setValue(pp->locallab.spots.at(index).lightness);
contrast->setValue(pp->locallab.spots.at(index).contrast);
chroma->setValue(pp->locallab.spots.at(index).chroma);
sensi->setValue(pp->locallab.spots.at(index).sensi);
if (pp->locallab.spots.at(index).qualitycurveMethod == "none") {
qualitycurveMethod->set_active(0);
} else if (pp->locallab.spots.at(index).qualitycurveMethod == "std") {
qualitycurveMethod->set_active(1);
} else {
qualitycurveMethod->set_active(2);
}
llshape->setCurve(pp->locallab.spots.at(index).llcurve);
ccshape->setCurve(pp->locallab.spots.at(index).cccurve);
LHshape->setCurve(pp->locallab.spots.at(index).LHcurve);
HHshape->setCurve(pp->locallab.spots.at(index).HHcurve);
invers->set_active(pp->locallab.spots.at(index).invers);
// Exposure
expexpose->setEnabled(pp->locallab.spots.at(index).expexpose);
expcomp->setValue(pp->locallab.spots.at(index).expcomp);
hlcompr->setValue(pp->locallab.spots.at(index).hlcompr);
hlcomprthresh->setValue(pp->locallab.spots.at(index).hlcomprthresh);
black->setValue(pp->locallab.spots.at(index).black);
shcompr->setValue(pp->locallab.spots.at(index).shcompr);
warm->setValue(pp->locallab.spots.at(index).warm);
sensiex->setValue(pp->locallab.spots.at(index).sensiex);
shapeexpos->setCurve(pp->locallab.spots.at(index).excurve);
// Vibrance
expvibrance->setEnabled(pp->locallab.spots.at(index).expvibrance);
saturated->setValue(pp->locallab.spots.at(index).saturated);
pastels->setValue(pp->locallab.spots.at(index).pastels);
psThreshold->setValue<int>(pp->locallab.spots.at(index).psthreshold);
protectSkins->set_active(pp->locallab.spots.at(index).protectskins);
avoidColorShift->set_active(pp->locallab.spots.at(index).avoidcolorshift);
pastSatTog->set_active(pp->locallab.spots.at(index).pastsattog);
sensiv->setValue(pp->locallab.spots.at(index).sensiv);
skinTonesCurve->setCurve(pp->locallab.spots.at(index).skintonescurve);
// Blur & Noise
expblur->setEnabled(pp->locallab.spots.at(index).expblur);
radius->setValue(pp->locallab.spots.at(index).radius);
strength->setValue(pp->locallab.spots.at(index).strength);
sensibn->setValue(pp->locallab.spots.at(index).sensibn);
if (pp->locallab.spots.at(index).blurMethod == "norm") {
blurMethod->set_active(0);
} else if (pp->locallab.spots.at(index).blurMethod == "inv") {
blurMethod->set_active(1);
} else {
blurMethod->set_active(2);
}
activlum->set_active(pp->locallab.spots.at(index).activlum);
// Tone Mapping
exptonemap->setEnabled(pp->locallab.spots.at(index).exptonemap);
stren->setValue(pp->locallab.spots.at(index).stren);
gamma->setValue(pp->locallab.spots.at(index).gamma);
estop->setValue(pp->locallab.spots.at(index).estop);
scaltm->setValue(pp->locallab.spots.at(index).scaltm);
rewei->setValue(pp->locallab.spots.at(index).rewei);
sensitm->setValue(pp->locallab.spots.at(index).sensitm);
// Retinex
expreti->setEnabled(pp->locallab.spots.at(index).expreti);
if (pp->locallab.spots.at(index).retinexMethod == "low") {
retinexMethod->set_active(0);
} else if (pp->locallab.spots.at(index).retinexMethod == "uni") {
retinexMethod->set_active(1);
} else {
retinexMethod->set_active(2);
}
str->setValue(pp->locallab.spots.at(index).str);
chrrt->setValue(pp->locallab.spots.at(index).chrrt);
neigh->setValue(pp->locallab.spots.at(index).neigh);
vart->setValue(pp->locallab.spots.at(index).vart);
sensih->setValue(pp->locallab.spots.at(index).sensih);
cTgainshape->setCurve(pp->locallab.spots.at(index).localTgaincurve);
inversret->set_active(pp->locallab.spots.at(index).inversret);
// Sharpening
expsharp->setEnabled(pp->locallab.spots.at(index).expsharp);
sharradius->setValue(pp->locallab.spots.at(index).sharradius);
sharamount->setValue(pp->locallab.spots.at(index).sharamount);
shardamping->setValue(pp->locallab.spots.at(index).shardamping);
shariter->setValue(pp->locallab.spots.at(index).shariter);
sensisha->setValue(pp->locallab.spots.at(index).sensisha);
inverssha->set_active(pp->locallab.spots.at(index).inverssha);
// Contrast by detail levels
expcbdl->setEnabled(pp->locallab.spots.at(index).expcbdl);
for (int i = 0; i < 5; i++) {
multiplier[i]->setValue(pp->locallab.spots.at(index).mult[i]);
}
chromacbdl->setValue(pp->locallab.spots.at(index).chromacbdl);
threshold->setValue(pp->locallab.spots.at(index).threshold);
sensicb->setValue(pp->locallab.spots.at(index).sensicb);
// Denoise
expdenoi->setEnabled(pp->locallab.spots.at(index).expdenoi);
noiselumf->setValue(pp->locallab.spots.at(index).noiselumf);
noiselumc->setValue(pp->locallab.spots.at(index).noiselumc);
noiselumdetail->setValue(pp->locallab.spots.at(index).noiselumdetail);
noiselequal->setValue(pp->locallab.spots.at(index).noiselequal);
noisechrof->setValue(pp->locallab.spots.at(index).noisechrof);
noisechroc->setValue(pp->locallab.spots.at(index).noisechroc);
noisechrodetail->setValue(pp->locallab.spots.at(index).noisechrodetail);
adjblur->setValue(pp->locallab.spots.at(index).adjblur);
bilateral->setValue(pp->locallab.spots.at(index).bilateral);
sensiden->setValue(pp->locallab.spots.at(index).sensiden);
// Others
avoid->set_active(pp->locallab.spots.at(index).avoid);
if (pedited) {
if (index < (int)pedited->locallab.spots.size()) {
const LocallabParamsEdited::LocallabSpotEdited* spotState = &pedited->locallab.spots.at(index);
// Control spot settings
ControlSpotPanel::SpotEdited* const se = new ControlSpotPanel::SpotEdited();
if (pedited->locallab.nbspot && pedited->locallab.id) {
se->nbspot = true;
} else {
se->nbspot = false;
}
se->selspot = pedited->locallab.selspot;
se->name = spotState->name;
se->isvisible = spotState->isvisible;
se->shape = spotState->shape;
se->spotMethod = spotState->spotMethod;
se->sensiexclu = spotState->sensiexclu;
se->struc = spotState->struc;
se->shapeMethod = spotState->shapeMethod;
se->locX = spotState->locX;
se->locXL = spotState->locXL;
se->locY = spotState->locY;
se->locYT = spotState->locYT;
se->centerX = spotState->centerX;
se->centerY = spotState->centerY;
se->circrad = spotState->circrad;
se->qualityMethod = spotState->qualityMethod;
se->transit = spotState->transit;
se->thresh = spotState->thresh;
se->iter = spotState->iter;
expsettings->setEditedStates(se);
// Color & Light
expcolor->set_inconsistent(!spotState->expcolor);
curvactiv->set_inconsistent(multiImage && !spotState->curvactiv);
lightness->setEditedState(spotState->lightness ? Edited : UnEdited);
contrast->setEditedState(spotState->contrast ? Edited : UnEdited);
chroma->setEditedState(spotState->chroma ? Edited : UnEdited);
sensi->setEditedState(spotState->sensi ? Edited : UnEdited);
if (!spotState->qualitycurveMethod) {
qualitycurveMethod->set_active_text(M("GENERAL_UNCHANGED"));
}
llshape->setUnChanged(!spotState->llcurve);
ccshape->setUnChanged(!spotState->cccurve);
LHshape->setUnChanged(!spotState->LHcurve);
HHshape->setUnChanged(!spotState->HHcurve);
invers->set_inconsistent(multiImage && !spotState->invers);
// Exposure
expexpose->set_inconsistent(!spotState->expexpose);
expcomp->setEditedState(spotState->expcomp ? Edited : UnEdited);
hlcompr->setEditedState(spotState->hlcompr ? Edited : UnEdited);
hlcomprthresh->setEditedState(spotState->hlcomprthresh ? Edited : UnEdited);
black->setEditedState(spotState->black ? Edited : UnEdited);
warm->setEditedState(spotState->warm ? Edited : UnEdited);
shcompr->setEditedState(spotState->shcompr ? Edited : UnEdited);
sensiex->setEditedState(spotState->sensiex ? Edited : UnEdited);
shapeexpos->setUnChanged(!spotState->excurve);
// Vibrance
expvibrance->set_inconsistent(!spotState->expvibrance);
saturated->setEditedState(spotState->saturated ? Edited : UnEdited);
pastels->setEditedState(spotState->pastels ? Edited : UnEdited);
psThreshold->setEditedState(spotState->psthreshold ? Edited : UnEdited);
protectSkins->set_inconsistent(multiImage && !spotState->protectskins);
avoidColorShift->set_inconsistent(multiImage && !spotState->avoidcolorshift);
pastSatTog->set_inconsistent(multiImage && !spotState->pastsattog);
sensiv->setEditedState(spotState->sensiv ? Edited : UnEdited);
skinTonesCurve->setUnChanged(!spotState->skintonescurve);
// Blur & Noise
expblur->set_inconsistent(!spotState->expblur);
radius->setEditedState(spotState->radius ? Edited : UnEdited);
strength->setEditedState(spotState->strength ? Edited : UnEdited);
sensibn->setEditedState(spotState->sensibn ? Edited : UnEdited);
if (!spotState->blurMethod) {
blurMethod->set_active_text(M("GENERAL_UNCHANGED"));
}
activlum->set_inconsistent(multiImage && !spotState->activlum);
// Tone Mapping
exptonemap->set_inconsistent(!spotState->exptonemap);
stren->setEditedState(spotState->stren ? Edited : UnEdited);
gamma->setEditedState(spotState->gamma ? Edited : UnEdited);
estop->setEditedState(spotState->estop ? Edited : UnEdited);
scaltm->setEditedState(spotState->scaltm ? Edited : UnEdited);
rewei->setEditedState(spotState->rewei ? Edited : UnEdited);
sensitm->setEditedState(spotState->sensitm ? Edited : UnEdited);
// Retinex
expreti->set_inconsistent(!spotState->expreti);
if (!spotState->retinexMethod) {
retinexMethod->set_active_text(M("GENERAL_UNCHANGED"));
}
str->setEditedState(spotState->str ? Edited : UnEdited);
chrrt->setEditedState(spotState->chrrt ? Edited : UnEdited);
neigh->setEditedState(spotState->neigh ? Edited : UnEdited);
vart->setEditedState(spotState->vart ? Edited : UnEdited);
sensih->setEditedState(spotState->sensih ? Edited : UnEdited);
cTgainshape->setUnChanged(!spotState->localTgaincurve);
inversret->set_inconsistent(multiImage && !spotState->inversret);
// Sharpening
expsharp->set_inconsistent(!spotState->expsharp);
sharradius->setEditedState(spotState->sharradius ? Edited : UnEdited);
sharamount->setEditedState(spotState->sharamount ? Edited : UnEdited);
shardamping->setEditedState(spotState->shardamping ? Edited : UnEdited);
shariter->setEditedState(spotState->shariter ? Edited : UnEdited);
sensisha->setEditedState(spotState->sensisha ? Edited : UnEdited);
inverssha->set_inconsistent(multiImage && !spotState->inverssha);
// Contrast by detail levels
expcbdl->set_inconsistent(!spotState->expcbdl);
for (int i = 0; i < 5; i++) {
multiplier[i]->setEditedState(spotState->mult[i] ? Edited : UnEdited);
}
chromacbdl->setEditedState(spotState->chromacbdl ? Edited : UnEdited);
threshold->setEditedState(spotState->threshold ? Edited : UnEdited);
sensicb->setEditedState(spotState->sensicb ? Edited : UnEdited);
// Denoise
expdenoi->set_inconsistent(!spotState->expdenoi);
noiselumf->setEditedState(spotState->noiselumf ? Edited : UnEdited);
noiselumc->setEditedState(spotState->noiselumc ? Edited : UnEdited);
noiselumdetail->setEditedState(spotState->noiselumdetail ? Edited : UnEdited);
noiselequal->setEditedState(spotState->noiselequal ? Edited : UnEdited);
noisechrof->setEditedState(spotState->noisechrof ? Edited : UnEdited);
noisechroc->setEditedState(spotState->noisechroc ? Edited : UnEdited);
noisechrodetail->setEditedState(spotState->noisechrodetail ? Edited : UnEdited);
adjblur->setEditedState(spotState->adjblur ? Edited : UnEdited);
bilateral->setEditedState(spotState->bilateral ? Edited : UnEdited);
sensiden->setEditedState(spotState->sensiden ? Edited : UnEdited);
// Others
avoid->set_inconsistent(multiImage && !spotState->avoid);
}
}
}
}
void Locallab::updateSpecificGUIState()
{
// Update Color & Light GUI according to invers button state
if (invers->get_active()) {
sensi->show();
llCurveEditorG->hide();
curvactiv->hide();
qualitycurveMethod->hide();
labqualcurv->hide();
} else {
sensi->show();
llCurveEditorG->show();
curvactiv->show();
qualitycurveMethod->show();
labqualcurv->show();
}
// Update Exposure GUI according to black adjuster state (to be compliant with adjusterChanged function)
shcompr->set_sensitive(!((int)black->getValue() == 0)); // At black = 0, shcompr value has no effect
// Update Vibrance GUI according to pastsattog button state (to be compliant with pastsattog_toggled function)
if (pastSatTog->get_active()) {
// Link both slider, so we set saturated and psThresholds unsensitive
psThreshold->set_sensitive(false);
saturated->set_sensitive(false);
saturated->setValue(pastels->getValue()); // Pastels and Saturated are linked
} else {
// Separate sliders, so we set saturated and psThresholds sensitive again
psThreshold->set_sensitive(true);
saturated->set_sensitive(true);
}
// Update Blur & Noise GUI according to blurMethod combobox (to be compliant with blurMethodChanged function)
if (blurMethod->get_active_row_number() == 0 || blurMethod->get_active_row_number() == 2) {
sensibn->show();
} else {
sensibn->hide();
}
// Update Retinex GUI according to inversret button state (to be compliant with inversretChanged function)
if (inversret->get_active()) {
sensih->hide();
} else {
sensih->show();
}
// Update Sharpening GUI according to inverssha button state (to be compliant with inversshaChanged function)
if (inverssha->get_active()) {
sensisha->hide();
} else {
sensisha->show();
}
}
void Locallab::autoOpenCurve()
{
printf("autoOpenCurve\n");
// TODO autoOpenCurve only considers linearity state of selected spot curve
llshape->openIfNonlinear();
ccshape->openIfNonlinear();
LHshape->openIfNonlinear();
HHshape->openIfNonlinear();
}
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