/* * This file is part of RawTherapee. * * 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 . * * 2014 Jacques Desmis */ #include "wavelet.h" #include #include "curveeditor.h" #include "curveeditorgroup.h" #include "editcallbacks.h" #include "guiutils.h" #include "rtimage.h" #include "options.h" #include "../rtengine/color.h" using namespace rtengine; using namespace rtengine::procparams; namespace { GradientMilestone makeHsvGm(double position, float h, float s, float v) { float r; float g; float b; Color::hsv2rgb01(h, s, v, r, g, b); return GradientMilestone(position, r, g, b); } std::vector makeWholeHueRange() { std::vector res; res.reserve(7); for (int i = 0; i < 7; ++i) { const float x = static_cast(i) / 6.0f; res.push_back(makeHsvGm(x, x, 0.5f, 0.5f)); } return res; } } Wavelet::Wavelet() : FoldableToolPanel(this, "wavelet", M("TP_WAVELET_LABEL"), true, true), curveEditorG(new CurveEditorGroup(options.lastWaveletCurvesDir, M("TP_WAVELET_CONTEDIT"))), CCWcurveEditorG(new CurveEditorGroup(options.lastWaveletCurvesDir, M("TP_WAVELET_CCURVE"))), curveEditorRES(new CurveEditorGroup(options.lastWaveletCurvesDir)), curveEditorGAM(new CurveEditorGroup(options.lastWaveletCurvesDir)), separatorNeutral(Gtk::manage(new Gtk::HSeparator())), separatoredge(Gtk::manage(new Gtk::HSeparator())), opaCurveEditorG(new CurveEditorGroup(options.lastWaveletCurvesDir, M("TP_WAVELET_COLORT"))), opacityCurveEditorG(new CurveEditorGroup(options.lastWaveletCurvesDir, M("TP_WAVELET_OPACITY"))), opacityCurveEditorW(new CurveEditorGroup(options.lastWaveletCurvesDir, M("TP_WAVELET_OPACITYW"))), opacityCurveEditorWL(new CurveEditorGroup(options.lastWaveletCurvesDir, M("TP_WAVELET_OPACITYWL"))), median(Gtk::manage(new Gtk::CheckButton(M("TP_WAVELET_MEDI")))), medianlev(Gtk::manage(new Gtk::CheckButton(M("TP_WAVELET_MEDILEV")))), linkedg(Gtk::manage(new Gtk::CheckButton(M("TP_WAVELET_LINKEDG")))), cbenab(Gtk::manage(new Gtk::CheckButton(M("TP_WAVELET_CBENAB")))), lipst(Gtk::manage(new Gtk::CheckButton(M("TP_WAVELET_LIPST")))), avoid(Gtk::manage(new Gtk::CheckButton(M("TP_WAVELET_AVOID")))), tmr(Gtk::manage(new Gtk::CheckButton(M("TP_WAVELET_BALCHRO")))), neutralchButton(Gtk::manage(new Gtk::Button(M("TP_WAVELET_NEUTRAL")))), rescon(Gtk::manage(new Adjuster(M("TP_WAVELET_RESCON"), -100, 100, 1, 0))), resconH(Gtk::manage(new Adjuster(M("TP_WAVELET_RESCONH"), -100, 100, 1, 0))), reschro(Gtk::manage(new Adjuster(M("TP_WAVELET_RESCHRO"), -100, 100, 1, 0))), tmrs(Gtk::manage(new Adjuster(M("TP_WAVELET_TMSTRENGTH"), -1.0, 2.0, 0.01, 0.0))), gamma(Gtk::manage(new Adjuster(M("TP_WAVELET_COMPGAMMA"), 0.4, 2.0, 0.01, 1.0))), sup(Gtk::manage(new Adjuster(M("TP_WAVELET_SUPE"), -100, 350, 1, 0))), sky(Gtk::manage(new Adjuster(M("TP_WAVELET_SKY"), -100., 100.0, 1., 0.))), thres(Gtk::manage(new Adjuster(M("TP_WAVELET_LEVELS"), 4, 9, 1, 7))),//3 chroma(Gtk::manage(new Adjuster(M("TP_WAVELET_CHRO"), 1, 9, 1, 5))), chro(Gtk::manage(new Adjuster(M("TP_WAVELET_CHR"), 0., 100., 1., 0.))), contrast(Gtk::manage(new Adjuster(M("TP_WAVELET_CONTRA"), -100, 100, 1, 0))), thr(Gtk::manage(new Adjuster(M("TP_WAVELET_THR"), 0, 100, 1, 35))), thrH(Gtk::manage(new Adjuster(M("TP_WAVELET_THRH"), 0, 100, 1, 65))), skinprotect(Gtk::manage( new Adjuster(M("TP_WAVELET_SKIN"), -100, 100, 1, 0.) )), edgrad(Gtk::manage( new Adjuster(M("TP_WAVELET_EDRAD"), 0, 100, 1, 15) )), edgval(Gtk::manage( new Adjuster(M("TP_WAVELET_EDVAL"), 0, 100, 1, 0) )), edgthresh(Gtk::manage(new Adjuster(M("TP_WAVELET_EDGTHRESH"), -50, 100, 1, 10 ))), strength(Gtk::manage(new Adjuster(M("TP_WAVELET_STRENGTH"), 0, 100, 1, 100))), balance(Gtk::manage(new Adjuster(M("TP_WAVELET_BALANCE"), -30, 100, 1, 0))), iter(Gtk::manage(new Adjuster(M("TP_WAVELET_ITER"), -3, 3, 1, 0))), hueskin(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_HUESKIN"), -314., 314., -5., 25., 170., 120., 0, false))), hueskin2(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_HUESKY"), -314., 314., -260., -250, -130., -140., 0, false))), hllev(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_HIGHLIGHT"), 0., 100., 50., 75., 100., 98., 0, false))), bllev(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_LOWLIGHT"), 0., 100., 0., 2., 50., 25., 0, false))), pastlev(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_PASTEL"), 0., 70., 0., 2., 30., 20., 0, false))), satlev(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_SAT"), 0., 130., 30., 45., 130., 100., 0, false))), edgcont(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_EDGCONT"), 0., 100., 0, 10, 75, 40, 0., false))), level0noise(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_LEVZERO"), -30., 100., 0., M("TP_WAVELET_STREN"), 1., 0., 100., 0., M("TP_WAVELET_NOIS"), 1., nullptr, false))), level1noise(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_LEVONE"), -30., 100., 0., M("TP_WAVELET_STREN"), 1., 0., 100., 0., M("TP_WAVELET_NOIS"), 1., nullptr, false))), level2noise(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_LEVTWO"), -30., 100., 0., M("TP_WAVELET_STREN"), 1., 0., 100., 0., M("TP_WAVELET_NOIS"), 1., nullptr, false))), level3noise(Gtk::manage(new ThresholdAdjuster(M("TP_WAVELET_LEVTHRE"), -30., 100., 0., M("TP_WAVELET_STREN"), 1., 0., 100., 0., M("TP_WAVELET_NOIS"), 1., nullptr, false))), threshold(Gtk::manage(new Adjuster(M("TP_WAVELET_THRESHOLD"), 1, 9, 1, 5))), threshold2(Gtk::manage(new Adjuster(M("TP_WAVELET_THRESHOLD2"), 1, 9, 1, 4))), edgedetect(Gtk::manage(new Adjuster(M("TP_WAVELET_EDGEDETECT"), 0, 100, 1, 90))), edgedetectthr(Gtk::manage(new Adjuster(M("TP_WAVELET_EDGEDETECTTHR"), 0, 100, 1, 20))), edgedetectthr2(Gtk::manage(new Adjuster(M("TP_WAVELET_EDGEDETECTTHR2"), -10, 100, 1, 0))), edgesensi(Gtk::manage(new Adjuster(M("TP_WAVELET_EDGESENSI"), 0, 100, 1, 60))), edgeampli(Gtk::manage(new Adjuster(M("TP_WAVELET_EDGEAMPLI"), 0, 100, 1, 10))), Lmethod(Gtk::manage(new MyComboBoxText())), CHmethod(Gtk::manage(new MyComboBoxText())), CHSLmethod(Gtk::manage(new MyComboBoxText())), EDmethod(Gtk::manage(new MyComboBoxText())), BAmethod(Gtk::manage(new MyComboBoxText())), NPmethod(Gtk::manage(new MyComboBoxText())), TMmethod(Gtk::manage(new MyComboBoxText())), HSmethod(Gtk::manage(new MyComboBoxText())), CLmethod(Gtk::manage(new MyComboBoxText())), Backmethod(Gtk::manage(new MyComboBoxText())), Tilesmethod(Gtk::manage(new MyComboBoxText())), daubcoeffmethod(Gtk::manage(new MyComboBoxText())), Dirmethod(Gtk::manage(new MyComboBoxText())), Medgreinf(Gtk::manage(new MyComboBoxText())), chanMixerHLFrame(Gtk::manage(new Gtk::Frame(M("TP_COLORTONING_HIGHLIGHT")))), chanMixerMidFrame(Gtk::manage(new Gtk::Frame(M("TP_COLORTONING_MIDTONES")))), chanMixerShadowsFrame(Gtk::manage(new Gtk::Frame(M("TP_COLORTONING_SHADOWS")))), wavLabels(Gtk::manage(new Gtk::Label("---", Gtk::ALIGN_CENTER))), labmC(Gtk::manage(new Gtk::Label(M("TP_WAVELET_CTYPE") + ":"))), labmNP(Gtk::manage(new Gtk::Label(M("TP_WAVELET_NPTYPE") + ":"))), expchroma(Gtk::manage(new MyExpander(true, M("TP_WAVELET_LEVCH")))), expcontrast(Gtk::manage(new MyExpander(true, M("TP_WAVELET_LEVF")))), expedge(Gtk::manage(new MyExpander(true, M("TP_WAVELET_EDGE")))), expfinal(Gtk::manage(new MyExpander(true, M("TP_WAVELET_FINAL")))), expgamut(Gtk::manage(new MyExpander(false, M("TP_WAVELET_CONTR")))), expnoise(Gtk::manage(new MyExpander(true, M("TP_WAVELET_NOISE")))), expresid(Gtk::manage(new MyExpander(true, M("TP_WAVELET_RESID")))), expsettings(Gtk::manage(new MyExpander(false, M("TP_WAVELET_SETTINGS")))), exptoning(Gtk::manage(new MyExpander(true, M("TP_WAVELET_TON")))), neutrHBox(Gtk::manage(new Gtk::HBox())) { CurveListener::setMulti(true); expsettings->signal_button_release_event().connect_notify( sigc::bind( sigc::mem_fun(this, &Wavelet::foldAllButMe), expsettings) ); expcontrast->signal_button_release_event().connect_notify( sigc::bind( sigc::mem_fun(this, &Wavelet::foldAllButMe), expcontrast) ); enableContrastConn = expcontrast->signal_enabled_toggled().connect ( sigc::bind( sigc::mem_fun(this, &Wavelet::enableToggled), expcontrast) ); expchroma->signal_button_release_event().connect_notify( sigc::bind ( sigc::mem_fun(this, &Wavelet::foldAllButMe), expchroma) ); enableChromaConn = expchroma->signal_enabled_toggled().connect ( sigc::bind( sigc::mem_fun(this, &Wavelet::enableToggled), expchroma) ); exptoning->signal_button_release_event().connect_notify( sigc::bind ( sigc::mem_fun(this, &Wavelet::foldAllButMe), exptoning) ); enableToningConn = exptoning->signal_enabled_toggled().connect ( sigc::bind( sigc::mem_fun(this, &Wavelet::enableToggled), exptoning) ); expnoise->signal_button_release_event().connect_notify( sigc::bind ( sigc::mem_fun(this, &Wavelet::foldAllButMe), expnoise) ); enableNoiseConn = expnoise->signal_enabled_toggled().connect ( sigc::bind( sigc::mem_fun(this, &Wavelet::enableToggled), expnoise) ); expedge->signal_button_release_event().connect_notify( sigc::bind ( sigc::mem_fun(this, &Wavelet::foldAllButMe), expedge) ); enableEdgeConn = expedge->signal_enabled_toggled().connect ( sigc::bind( sigc::mem_fun(this, &Wavelet::enableToggled), expedge) ); expgamut->signal_button_release_event().connect_notify( sigc::bind ( sigc::mem_fun(this, &Wavelet::foldAllButMe), expgamut) ); expresid->signal_button_release_event().connect_notify( sigc::bind ( sigc::mem_fun(this, &Wavelet::foldAllButMe), expresid) ); enableResidConn = expresid->signal_enabled_toggled().connect ( sigc::bind( sigc::mem_fun(this, &Wavelet::enableToggled), expresid) ); expfinal->signal_button_release_event().connect_notify( sigc::bind ( sigc::mem_fun(this, &Wavelet::foldAllButMe), expfinal) ); enableFinalConn = expfinal->signal_enabled_toggled().connect ( sigc::bind( sigc::mem_fun(this, &Wavelet::enableToggled), expfinal) ); // Wavelet Settings ToolParamBlock* const settingsBox = Gtk::manage (new ToolParamBlock()); strength->setAdjusterListener (this); thres->set_tooltip_text (M("TP_WAVELET_LEVELS_TOOLTIP")); thres->setAdjusterListener (this); Tilesmethod->append (M("TP_WAVELET_TILESFULL")); Tilesmethod->append (M("TP_WAVELET_TILESBIG")); Tilesmethod->append (M("TP_WAVELET_TILESLIT")); Tilesmethodconn = Tilesmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::TilesmethodChanged) ); Tilesmethod->set_tooltip_text (M("TP_WAVELET_TILES_TOOLTIP")); Gtk::HBox* const tilesizeHBox = Gtk::manage(new Gtk::HBox()); Gtk::Label* const tilesizeLabel = Gtk::manage(new Gtk::Label(M("TP_WAVELET_TILESIZE") + ":")); tilesizeHBox->pack_start(*tilesizeLabel, Gtk::PACK_SHRINK, 4); tilesizeHBox->pack_start(*Tilesmethod); daubcoeffmethod->set_sensitive(true); daubcoeffmethod->append (M("TP_WAVELET_DAUB2")); daubcoeffmethod->append (M("TP_WAVELET_DAUB4")); daubcoeffmethod->append (M("TP_WAVELET_DAUB6")); daubcoeffmethod->append (M("TP_WAVELET_DAUB10")); daubcoeffmethod->append (M("TP_WAVELET_DAUB14")); daubcoeffmethodconn = daubcoeffmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::daubcoeffmethodChanged) ); daubcoeffmethod->set_tooltip_text (M("TP_WAVELET_DAUB_TOOLTIP")); Gtk::Label* const daubcoeffLabel = Gtk::manage(new Gtk::Label(M("TP_WAVELET_DAUB") + ":")); Gtk::HBox* const daubcoeffHBox = Gtk::manage(new Gtk::HBox()); daubcoeffHBox->pack_start(*daubcoeffLabel, Gtk::PACK_SHRINK, 4); daubcoeffHBox->pack_start(*daubcoeffmethod); Backmethod->append (M("TP_WAVELET_B0")); Backmethod->append (M("TP_WAVELET_B1")); Backmethod->append (M("TP_WAVELET_B2")); Backmethodconn = Backmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::BackmethodChanged) ); Gtk::HBox* const backgroundHBox = Gtk::manage(new Gtk::HBox()); Gtk::Label* const backgroundLabel = Gtk::manage(new Gtk::Label(M("TP_WAVELET_BACKGROUND") + ":")); backgroundHBox->pack_start(*backgroundLabel, Gtk::PACK_SHRINK, 4); backgroundHBox->pack_start(*Backmethod); CLmethod->append (M("TP_WAVELET_LEVDIR_ONE")); CLmethod->append (M("TP_WAVELET_LEVDIR_INF")); CLmethod->append (M("TP_WAVELET_LEVDIR_SUP")); CLmethod->append (M("TP_WAVELET_LEVDIR_ALL")); CLmethodconn = CLmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::CLmethodChanged) ); Gtk::HBox* const levdirMainHBox = Gtk::manage(new Gtk::HBox()); Gtk::Label* const levdirMainLabel = Gtk::manage(new Gtk::Label(M("TP_WAVELET_PROC") + ":")); levdirMainHBox->pack_start(*levdirMainLabel, Gtk::PACK_SHRINK, 4); levdirMainHBox->pack_start(*CLmethod); //same Lmethod->set_sensitive(false); Lmethod->set_sensitive(false); Lmethod->append (M("TP_WAVELET_1")); Lmethod->append (M("TP_WAVELET_2")); Lmethod->append (M("TP_WAVELET_3")); Lmethod->append (M("TP_WAVELET_4")); Lmethod->append (M("TP_WAVELET_5")); Lmethod->append (M("TP_WAVELET_6")); Lmethod->append (M("TP_WAVELET_7")); Lmethod->append (M("TP_WAVELET_8")); Lmethod->append (M("TP_WAVELET_9")); Lmethod->append (M("TP_WAVELET_SUPE")); Lmethod->append (M("TP_WAVELET_RESID")); Lmethod->set_active(0); Dirmethod->set_sensitive(false); Dirmethod->append (M("TP_WAVELET_DONE")); Dirmethod->append (M("TP_WAVELET_DTWO")); Dirmethod->append (M("TP_WAVELET_DTHR")); Dirmethod->append (M("TP_WAVELET_DALL")); Lmethodconn = Lmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::LmethodChanged) ); Dirmethodconn = Dirmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::DirmethodChanged) ); Gtk::HBox* const levdirSubHBox = Gtk::manage(new Gtk::HBox()); levdirSubHBox->pack_start(*Lmethod); levdirSubHBox->pack_start(*Dirmethod, Gtk::PACK_EXPAND_WIDGET, 2); // same, but 2 not 4? settingsBox->pack_start(*strength); settingsBox->pack_start(*thres); settingsBox->pack_start(*tilesizeHBox); settingsBox->pack_start(*daubcoeffHBox); settingsBox->pack_start(*backgroundHBox); settingsBox->pack_start(*levdirMainHBox); settingsBox->pack_start(*levdirSubHBox); // Contrast ToolParamBlock* const levBox = Gtk::manage (new ToolParamBlock()); Gtk::HBox* const buttonBox = Gtk::manage (new Gtk::HBox(true, 10)); levBox->pack_start(*buttonBox, Gtk::PACK_SHRINK, 2); Gtk::Button* const contrastMinusButton = Gtk::manage (new Gtk::Button(M("TP_WAVELET_CONTRAST_MINUS"))); buttonBox->pack_start(*contrastMinusButton); contrastMinusPressedConn = contrastMinusButton->signal_pressed().connect( sigc::mem_fun(*this, &Wavelet::contrastMinusPressed)); Gtk::Button* const neutralButton = Gtk::manage (new Gtk::Button(M("TP_WAVELET_NEUTRAL"))); buttonBox->pack_start(*neutralButton); neutralPressedConn = neutralButton->signal_pressed().connect( sigc::mem_fun(*this, &Wavelet::neutralPressed)); Gtk::Button* const contrastPlusButton = Gtk::manage (new Gtk::Button(M("TP_WAVELET_CONTRAST_PLUS"))); buttonBox->pack_start(*contrastPlusButton); contrastPlusPressedConn = contrastPlusButton->signal_pressed().connect( sigc::mem_fun(*this, &Wavelet::contrastPlusPressed)); buttonBox->show_all_children(); for(int i = 0; i < 9; i++) { Glib::ustring ss; switch( i ) { case 0: ss = Glib::ustring::compose( "%1 (%2)", (i + 1), M("TP_WAVELET_FINEST")); break; case 8: ss = Glib::ustring::compose( "%1 (%2)", (i + 1), M("TP_WAVELET_LARGEST")); break; default: ss = Glib::ustring::compose( "%1", (i + 1)); } correction[i] = Gtk::manage(new Adjuster(std::move(ss), -100, 350, 1, 0)); correction[i]->setAdjusterListener(this); levBox->pack_start(*correction[i]); } levBox->pack_start(*sup); sup->setAdjusterListener (this); wavLabels->show(); levBox->pack_start (*wavLabels); Gtk::VBox* const contrastSHVBox = Gtk::manage(new Gtk::VBox); contrastSHVBox->set_spacing(2); HSmethod->append (M("TP_WAVELET_HS1")); HSmethod->append (M("TP_WAVELET_HS2")); HSmethodconn = HSmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::HSmethodChanged) ); const std::vector milestones2 = { GradientMilestone(0.0, 0.0, 0.0, 0.0), GradientMilestone(1.0, 1.0, 1.0, 1.0) }; hllev->setAdjusterListener (this); hllev->setBgGradient(milestones2); threshold->setAdjusterListener (this); threshold->set_tooltip_text (M("TP_WAVELET_THRESHOLD_TOOLTIP")); bllev->setAdjusterListener (this); bllev->setBgGradient(milestones2); threshold2->setAdjusterListener (this); threshold2->set_tooltip_text (M("TP_WAVELET_THRESHOLD2_TOOLTIP")); contrastSHVBox->pack_start(*HSmethod); contrastSHVBox->pack_start(*hllev); contrastSHVBox->pack_start(*threshold); contrastSHVBox->pack_start(*bllev); contrastSHVBox->pack_start(*threshold2); Gtk::Frame* const contrastSHFrame = Gtk::manage(new Gtk::Frame(M("TP_WAVELET_APPLYTO"))); contrastSHFrame->add(*contrastSHVBox); levBox->pack_start(*contrastSHFrame); // Chromaticity ToolParamBlock* const chBox = Gtk::manage (new ToolParamBlock()); Gtk::Label* const labmch = Gtk::manage(new Gtk::Label(M("TP_WAVELET_CHTYPE") + ":")); Gtk::HBox* const ctboxch = Gtk::manage(new Gtk::HBox()); ctboxch->pack_start (*labmch, Gtk::PACK_SHRINK, 1); CHmethod->append (M("TP_WAVELET_CH1")); CHmethod->append (M("TP_WAVELET_CH2")); CHmethod->append (M("TP_WAVELET_CH3")); CHmethodconn = CHmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::CHmethodChanged) ); ctboxch->pack_start(*CHmethod); chBox->pack_start(*ctboxch); Gtk::HBox* const ctboxCH = Gtk::manage(new Gtk::HBox()); ctboxCH->pack_start (*labmC, Gtk::PACK_SHRINK, 1); CHSLmethod->append (M("TP_WAVELET_CHSL")); CHSLmethod->append (M("TP_WAVELET_CHCU")); CHSLmethodconn = CHSLmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::CHSLmethodChanged) ); ctboxCH->pack_start(*CHSLmethod); Gtk::HSeparator* const separatorChromaMethod = Gtk::manage (new Gtk::HSeparator()); chBox->pack_start(*separatorChromaMethod, Gtk::PACK_SHRINK, 2); chroma->set_tooltip_text (M("TP_WAVELET_CHRO_TOOLTIP")); chBox->pack_start(*chroma); chroma->setAdjusterListener (this); satlev->setAdjusterListener (this); satlev->setBgGradient(milestones2); pastlev->setAdjusterListener (this); pastlev->setBgGradient(milestones2); chBox->pack_start(*pastlev); chBox->pack_start(*satlev); chro->set_tooltip_text (M("TP_WAVELET_CHR_TOOLTIP")); chBox->pack_start(*chro); chro->setAdjusterListener (this); Gtk::HBox* const buttonchBox = Gtk::manage (new Gtk::HBox(true, 10)); neutralchPressedConn = neutralchButton->signal_pressed().connect( sigc::mem_fun(*this, &Wavelet::neutralchPressed)); chBox->pack_start(*separatorNeutral, Gtk::PACK_SHRINK, 2); buttonchBox->pack_start(*neutralchButton); buttonchBox->show_all_children(); chBox->pack_start(*buttonchBox, Gtk::PACK_SHRINK, 2); for(int i = 0; i < 9; i++) { Glib::ustring ss; switch( i ) { case 0: ss = Glib::ustring::compose( "%1 (%2)", (i + 1), M("TP_WAVELET_FINEST")); break; case 8: ss = Glib::ustring::compose( "%1 (%2)", (i + 1), M("TP_WAVELET_LARGEST")); break; default: ss = Glib::ustring::compose( "%1", (i + 1)); } correctionch[i] = Gtk::manage(new Adjuster(std::move(ss), -100, 100, 1, 0)); correctionch[i]->setAdjusterListener(this); chBox->pack_start(*correctionch[i]); } // Toning ToolParamBlock* const tonBox = Gtk::manage (new ToolParamBlock()); opaCurveEditorG->setCurveListener (this); const WaveletParams default_params; opacityShapeRG = static_cast(opaCurveEditorG->addCurve(CT_Flat, "", nullptr, false, false)); opacityShapeRG->setIdentityValue(0.); opacityShapeRG->setResetCurve(FlatCurveType(default_params.opacityCurveRG.at(0)), default_params.opacityCurveRG); opaCurveEditorG->curveListComplete(); opaCurveEditorG->show(); tonBox->pack_start( *opaCurveEditorG, Gtk::PACK_SHRINK, 2); opacityCurveEditorG->setCurveListener (this); opacityShapeBY = static_cast(opacityCurveEditorG->addCurve(CT_Flat, "", nullptr, false, false)); opacityShapeBY->setIdentityValue(0.); opacityShapeBY->setResetCurve(FlatCurveType(default_params.opacityCurveBY.at(0)), default_params.opacityCurveBY); opacityCurveEditorG->curveListComplete(); opacityCurveEditorG->show(); tonBox->pack_start( *opacityCurveEditorG, Gtk::PACK_SHRINK, 2); // Denoise and Refine ToolParamBlock* const noiseBox = Gtk::manage (new ToolParamBlock()); linkedg->set_active (true); linkedgConn = linkedg->signal_toggled().connect( sigc::mem_fun(*this, &Wavelet::linkedgToggled) ); noiseBox->pack_start(*linkedg); level0noise->setAdjusterListener (this); level0noise->setUpdatePolicy(RTUP_DYNAMIC); level1noise->setAdjusterListener (this); level1noise->setUpdatePolicy(RTUP_DYNAMIC); level2noise->setAdjusterListener (this); level2noise->setUpdatePolicy(RTUP_DYNAMIC); level3noise->setAdjusterListener (this); level3noise->setUpdatePolicy(RTUP_DYNAMIC); noiseBox->pack_start( *level0noise, Gtk::PACK_SHRINK, 0); noiseBox->pack_start( *level1noise, Gtk::PACK_SHRINK, 0); noiseBox->pack_start( *level2noise, Gtk::PACK_SHRINK, 0); noiseBox->pack_start( *level3noise, Gtk::PACK_SHRINK, 0); // Edge Sharpness ToolParamBlock* const edgBox = Gtk::manage (new ToolParamBlock()); edgval->setAdjusterListener(this); edgBox->pack_start(*edgval); edgrad->setAdjusterListener(this); edgBox->pack_start(*edgrad); edgrad->set_tooltip_markup (M("TP_WAVELET_EDRAD_TOOLTIP")); edgthresh->setAdjusterListener (this); edgthresh->set_tooltip_markup (M("TP_WAVELET_EDGTHRESH_TOOLTIP")); edgBox->pack_start (*edgthresh); Gtk::Label* const labmedgr = Gtk::manage(new Gtk::Label(M("TP_WAVELET_MEDGREINF") + ":")); Gtk::HBox* const edbox = Gtk::manage(new Gtk::HBox()); edbox->pack_start (*labmedgr, Gtk::PACK_SHRINK, 1); Medgreinf->append (M("TP_WAVELET_RE1")); Medgreinf->append (M("TP_WAVELET_RE2")); Medgreinf->append (M("TP_WAVELET_RE3")); MedgreinfConn = Medgreinf->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::MedgreinfChanged) ); Medgreinf->set_tooltip_markup (M("TP_WAVELET_EDGREINF_TOOLTIP")); edbox->pack_start(*Medgreinf); edgBox->pack_start(*edbox); Gtk::HSeparator* const separatorlc = Gtk::manage (new Gtk::HSeparator()); edgBox->pack_start(*separatorlc, Gtk::PACK_SHRINK, 2); Gtk::Label* const labmED = Gtk::manage(new Gtk::Label(M("TP_WAVELET_EDTYPE") + ":")); Gtk::HBox* const ctboxED = Gtk::manage(new Gtk::HBox()); ctboxED->pack_start (*labmED, Gtk::PACK_SHRINK, 1); EDmethod->append (M("TP_WAVELET_EDSL")); EDmethod->append (M("TP_WAVELET_EDCU")); EDmethodconn = EDmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::EDmethodChanged) ); ctboxED->pack_start(*EDmethod); edgBox->pack_start (*ctboxED); edgcont->setAdjusterListener (this); edgcont->setBgGradient(milestones2); edgcont->set_tooltip_markup (M("TP_WAVELET_EDGCONT_TOOLTIP")); // <-- Edge Sharpness Local Contrast curve CCWcurveEditorG->setCurveListener (this); ccshape = static_cast(CCWcurveEditorG->addCurve(CT_Flat, "", nullptr, false, false)); ccshape->setIdentityValue(0.); ccshape->setResetCurve(FlatCurveType(default_params.ccwcurve.at(0)), default_params.ccwcurve); ccshape->setTooltip(M("TP_WAVELET_CURVEEDITOR_CC_TOOLTIP")); CCWcurveEditorG->curveListComplete(); CCWcurveEditorG->show(); // --> edgBox->pack_start (*edgcont); edgBox->pack_start(*CCWcurveEditorG, Gtk::PACK_SHRINK, 4); medianlev->set_active (true); medianlevConn = medianlev->signal_toggled().connect( sigc::mem_fun(*this, &Wavelet::medianlevToggled) ); medianlev->set_tooltip_text (M("TP_WAVELET_MEDILEV_TOOLTIP")); Gtk::HSeparator* const separatored1 = Gtk::manage (new Gtk::HSeparator()); edgBox->pack_start(*separatored1, Gtk::PACK_SHRINK, 2); Gtk::HBox* const eddebox = Gtk::manage(new Gtk::HBox()); edgBox->pack_start (*eddebox); edgBox->pack_start(*medianlev); edgedetect->setAdjusterListener (this); edgedetect->set_tooltip_text (M("TP_WAVELET_EDGEDETECT_TOOLTIP")); edgBox->pack_start(*edgedetect); edgedetectthr->setAdjusterListener (this); edgedetectthr->set_tooltip_text (M("TP_WAVELET_EDGEDETECTTHR_TOOLTIP")); edgBox->pack_start(*edgedetectthr); edgedetectthr2->setAdjusterListener (this); edgBox->pack_start(*edgedetectthr2); edgBox->pack_start(*separatoredge, Gtk::PACK_SHRINK, 2); lipst->set_active (true); lipstConn = lipst->signal_toggled().connect( sigc::mem_fun(*this, &Wavelet::lipstToggled) ); // lipst->set_tooltip_text (M("TP_WAVELET_LIPST_TOOLTIP")); edgBox->pack_start(*lipst); edgesensi->setAdjusterListener (this); edgBox->pack_start(*edgesensi); edgeampli->setAdjusterListener (this); edgBox->pack_start(*edgeampli); Gtk::VBox* const ctboxES = Gtk::manage (new Gtk::VBox()); ctboxES->set_spacing(2); Gtk::HBox* const ctboxNP = Gtk::manage(new Gtk::HBox()); ctboxNP->pack_start (*labmNP, Gtk::PACK_SHRINK, 1); NPmethod->append (M("TP_WAVELET_NPNONE")); NPmethod->append (M("TP_WAVELET_NPLOW")); NPmethod->append (M("TP_WAVELET_NPHIGH")); NPmethodconn = NPmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::NPmethodChanged) ); NPmethod->set_tooltip_text (M("TP_WAVELET_NPTYPE_TOOLTIP")); ctboxNP->pack_start(*NPmethod); ctboxES->pack_start(*ctboxNP); edgBox->pack_start(*ctboxES); // Gamut ToolParamBlock* const conBox = Gtk::manage (new ToolParamBlock()); median->set_active (true); medianConn = median->signal_toggled().connect( sigc::mem_fun(*this, &Wavelet::medianToggled) ); conBox->pack_start(*median); hueskin->set_tooltip_markup (M("TP_WAVELET_HUESKIN_TOOLTIP")); //from -PI to +PI (radians) convert to hsv and draw bottombar const std::vector milestones = { makeHsvGm(0.0000, 0.4199f, 0.5f, 0.5f), // hsv: 0.4199 rad: -3.14 makeHsvGm(0.0540, 0.5000f, 0.5f, 0.5f), // hsv: 0.5 rad: -2.8 makeHsvGm(0.1336, 0.6000f, 0.5f, 0.5f), // hsv: 0.60 rad: -2.3 makeHsvGm(0.3567, 0.7500f, 0.5f, 0.5f), // hsv: 0.75 rad: -0.9 makeHsvGm(0.4363, 0.8560f, 0.5f, 0.5f), // hsv: 0.856 rad: -0.4 makeHsvGm(0.4841, 0.9200f, 0.5f, 0.5f), // hsv: 0.92 rad: -0.1 makeHsvGm(0.5000, 0.9300f, 0.5f, 0.5f), // hsv: 0.93 rad: 0 makeHsvGm(0.5366, 0.9600f, 0.5f, 0.5f), // hsv: 0.96 rad: 0.25 makeHsvGm(0.5955, 1.0000f, 0.5f, 0.5f), // hsv: 1. rad: 0.6 makeHsvGm(0.6911, 0.0675f, 0.5f, 0.5f), // hsv: 0.0675 rad: 1.2 makeHsvGm(0.7229, 0.0900f, 0.5f, 0.5f), // hsv: 0.09 rad: 1.4 makeHsvGm(0.7707, 0.1700f, 0.5f, 0.5f), // hsv: 0.17 rad: 1.7 makeHsvGm(0.8503, 0.2650f, 0.5f, 0.5f), // hsv: 0.265 rad: 2.1 makeHsvGm(0.8981, 0.3240f, 0.5f, 0.5f), // hsv: 0.324 rad: 2.5 makeHsvGm(1.0000, 0.4197f, 0.5f, 0.5f) // hsv: 0.419 rad: 3.14 }; hueskin->setBgGradient(milestones); conBox->pack_start(*hueskin); hueskin->setAdjusterListener (this); skinprotect->setAdjusterListener(this); conBox->pack_start(*skinprotect); skinprotect->set_tooltip_markup (M("TP_WAVELET_SKIN_TOOLTIP")); curveEditorGAM->setCurveListener (this); Chshape = static_cast(curveEditorGAM->addCurve(CT_Flat, M("TP_WAVELET_CURVEEDITOR_CH"))); Chshape->setTooltip(M("TP_WAVELET_CURVEEDITOR_CH_TOOLTIP")); Chshape->setCurveColorProvider(this, 5); curveEditorGAM->curveListComplete(); Chshape->setBottomBarBgGradient(milestones); conBox->pack_start (*curveEditorGAM, Gtk::PACK_SHRINK, 4); avoid->set_active (true); avoidConn = avoid->signal_toggled().connect( sigc::mem_fun(*this, &Wavelet::avoidToggled) ); conBox->pack_start(*avoid); // Residual Image ToolParamBlock* const resBox = Gtk::manage (new ToolParamBlock()); rescon->setAdjusterListener (this); resBox->pack_start(*rescon, Gtk::PACK_SHRINK); resBox->pack_start(*thr); thr->setAdjusterListener (this); resconH->setAdjusterListener (this); resBox->pack_start(*resconH, Gtk::PACK_SHRINK); thrH->setAdjusterListener (this); resBox->pack_start(*thrH, Gtk::PACK_SHRINK); contrast->set_tooltip_text (M("TP_WAVELET_CONTRA_TOOLTIP")); contrast->setAdjusterListener (this); resBox->pack_start(*contrast); //keep the possibility to reinstall reschro->setAdjusterListener (this); resBox->pack_start(*reschro); Gtk::Label* const labmTM = Gtk::manage(new Gtk::Label(M("TP_WAVELET_TMTYPE") + ":")); Gtk::HBox* const ctboxTM = Gtk::manage(new Gtk::HBox()); ctboxTM->pack_start (*labmTM, Gtk::PACK_SHRINK, 1); Gtk::HSeparator* const separatorR0 = Gtk::manage (new Gtk::HSeparator()); resBox->pack_start(*separatorR0, Gtk::PACK_SHRINK, 2); TMmethod->append (M("TP_WAVELET_COMPCONT")); TMmethod->append (M("TP_WAVELET_COMPTM")); TMmethodconn = TMmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::TMmethodChanged) ); ctboxTM->pack_start(*TMmethod); resBox->pack_start (*ctboxTM); tmrs->set_tooltip_text (M("TP_WAVELET_TMSTRENGTH_TOOLTIP")); resBox->pack_start(*tmrs); tmrs->setAdjusterListener (this); gamma->set_tooltip_text (M("TP_WAVELET_COMPGAMMA_TOOLTIP")); resBox->pack_start(*gamma); gamma->setAdjusterListener (this); Gtk::HSeparator* const separatorR1 = Gtk::manage (new Gtk::HSeparator()); resBox->pack_start(*separatorR1, Gtk::PACK_SHRINK, 2); hueskin2->set_tooltip_markup (M("TP_WAVELET_HUESKY_TOOLTIP")); hueskin2->setBgGradient(milestones); resBox->pack_start(*hueskin2); hueskin2->setAdjusterListener (this); sky->set_tooltip_text (M("TP_WAVELET_SKY_TOOLTIP")); sky->setAdjusterListener (this); resBox->pack_start(*sky); // whole hue range const std::vector milestones3 = makeWholeHueRange(); curveEditorRES->setCurveListener (this); hhshape = static_cast(curveEditorRES->addCurve(CT_Flat, M("TP_WAVELET_CURVEEDITOR_HH"))); hhshape->setTooltip(M("TP_WAVELET_CURVEEDITOR_HH_TOOLTIP")); hhshape->setCurveColorProvider(this, 5); curveEditorRES->curveListComplete(); hhshape->setBottomBarBgGradient(milestones3); resBox->pack_start (*curveEditorRES, Gtk::PACK_SHRINK, 4); // Toning and Color Balance Gtk::HSeparator* const separatorCB = Gtk::manage (new Gtk::HSeparator()); Gtk::VBox* const chanMixerHLBox = Gtk::manage (new Gtk::VBox()); Gtk::VBox* const chanMixerMidBox = Gtk::manage (new Gtk::VBox()); Gtk::VBox* const chanMixerShadowsBox = Gtk::manage (new Gtk::VBox()); cbenab->set_active (true); cbenabConn = cbenab->signal_toggled().connect( sigc::mem_fun(*this, &Wavelet::cbenabToggled) ); cbenab->set_tooltip_text (M("TP_WAVELET_CB_TOOLTIP")); Gtk::Image* const iblueR = Gtk::manage (new RTImage ("circle-blue-small.png")); Gtk::Image* const iyelL = Gtk::manage (new RTImage ("circle-yellow-small.png")); Gtk::Image* const imagL = Gtk::manage (new RTImage ("circle-magenta-small.png")); Gtk::Image* const igreenR = Gtk::manage (new RTImage ("circle-green-small.png")); Gtk::Image* const iblueRm = Gtk::manage (new RTImage ("circle-blue-small.png")); Gtk::Image* const iyelLm = Gtk::manage (new RTImage ("circle-yellow-small.png")); Gtk::Image* const imagLm = Gtk::manage (new RTImage ("circle-magenta-small.png")); Gtk::Image* const igreenRm = Gtk::manage (new RTImage ("circle-green-small.png")); Gtk::Image* const iblueRh = Gtk::manage (new RTImage ("circle-blue-small.png")); Gtk::Image* const iyelLh = Gtk::manage (new RTImage ("circle-yellow-small.png")); Gtk::Image* const imagLh = Gtk::manage (new RTImage ("circle-magenta-small.png")); Gtk::Image* const igreenRh = Gtk::manage (new RTImage ("circle-green-small.png")); greenhigh = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., igreenRh, imagLh)); bluehigh = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., iblueRh, iyelLh)); greenmed = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., igreenRm, imagLm)); bluemed = Gtk::manage (new Adjuster ("", -100., 100., 1., 0. , iblueRm , iyelLm)); greenlow = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., igreenR, imagL)); bluelow = Gtk::manage (new Adjuster ("", -100., 100., 1., 0., iblueR , iyelL)); chanMixerHLBox->pack_start (*greenhigh); chanMixerHLBox->pack_start (*bluehigh); chanMixerMidBox->pack_start (*greenmed); chanMixerMidBox->pack_start (*bluemed); chanMixerShadowsBox->pack_start (*greenlow); chanMixerShadowsBox->pack_start (*bluelow); greenlow->setAdjusterListener (this); bluelow->setAdjusterListener (this); greenmed->setAdjusterListener (this); bluemed->setAdjusterListener (this); greenhigh->setAdjusterListener (this); bluehigh->setAdjusterListener (this); resBox->pack_start(*separatorCB, Gtk::PACK_SHRINK); chanMixerHLFrame->add(*chanMixerHLBox); chanMixerMidFrame->add(*chanMixerMidBox); chanMixerShadowsFrame->add(*chanMixerShadowsBox); resBox->pack_start(*cbenab); resBox->pack_start(*chanMixerHLFrame, Gtk::PACK_SHRINK); resBox->pack_start(*chanMixerMidFrame, Gtk::PACK_SHRINK); resBox->pack_start(*chanMixerShadowsFrame, Gtk::PACK_SHRINK); //RTImage *resetImg = Gtk::manage (new RTImage ("undo-small.png", "redo-small.png")); //neutral->set_image(*resetImg); Gtk::Button* const neutral = Gtk::manage(new Gtk::Button(M("TP_COLORTONING_NEUTRAL"))); neutral->set_tooltip_text (M("TP_COLORTONING_NEUTRAL_TIP")); neutralconn = neutral->signal_pressed().connect( sigc::mem_fun(*this, &Wavelet::neutral_pressed) ); neutral->show(); neutrHBox->pack_start (*neutral, Gtk::PACK_EXPAND_WIDGET); resBox->pack_start (*neutrHBox); // Final Touchup Gtk::VBox* const ctboxBA = Gtk::manage (new Gtk::VBox()); ctboxBA->set_spacing(2); //Gtk::HSeparator *separatorfin = Gtk::manage (new Gtk::HSeparator()); //ctboxBA->pack_start(*separatorfin, Gtk::PACK_SHRINK, 2); Gtk::Label* const labmBA = Gtk::manage(new Gtk::Label(M("TP_WAVELET_BATYPE") + ":")); Gtk::HBox* const ctboxFI = Gtk::manage(new Gtk::HBox()); ctboxFI->pack_start (*labmBA, Gtk::PACK_SHRINK, 1); BAmethod->append (M("TP_WAVELET_BANONE")); BAmethod->append (M("TP_WAVELET_BASLI")); BAmethod->append (M("TP_WAVELET_BACUR")); BAmethodconn = BAmethod->signal_changed().connect ( sigc::mem_fun(*this, &Wavelet::BAmethodChanged) ); ctboxFI->pack_start(*BAmethod); ctboxBA->pack_start(*ctboxFI); balance->setAdjusterListener (this); balance->set_tooltip_text (M("TP_WAVELET_BALANCE_TOOLTIP")); opacityCurveEditorW->setCurveListener (this); opacityShape = static_cast(opacityCurveEditorW->addCurve(CT_Flat, "", nullptr, false, false)); opacityShape->setIdentityValue(0.); opacityShape->setResetCurve(FlatCurveType(default_params.opacityCurveW.at(0)), default_params.opacityCurveW); opacityShape->setBottomBarBgGradient(milestones2); // This will add the reset button at the end of the curveType buttons opacityCurveEditorW->curveListComplete(); opacityCurveEditorW->show(); iter->setAdjusterListener (this); iter->set_tooltip_text (M("TP_WAVELET_ITER_TOOLTIP")); Gtk::HSeparator* const separatorbalend = Gtk::manage (new Gtk::HSeparator()); opacityCurveEditorWL->setCurveListener (this); opacityShapeWL = static_cast(opacityCurveEditorWL->addCurve(CT_Flat, "", nullptr, false, false)); opacityShapeWL->setIdentityValue(0.); opacityShapeWL->setResetCurve(FlatCurveType(default_params.opacityCurveWL.at(0)), default_params.opacityCurveWL); opacityShapeWL->setTooltip(M("TP_WAVELET_OPACITYWL_TOOLTIP")); // This will add the reset button at the end of the curveType buttons opacityCurveEditorWL->curveListComplete(); opacityCurveEditorWL->show(); curveEditorG->setCurveListener (this); clshape = static_cast(curveEditorG->addCurve(CT_Diagonal, M("TP_WAVELET_CURVEEDITOR_CL"))); clshape->setTooltip(M("TP_WAVELET_CURVEEDITOR_CL_TOOLTIP")); clshape->setBottomBarBgGradient(milestones2); clshape->setLeftBarBgGradient(milestones2); curveEditorG->curveListComplete(); tmr->set_active (true); tmr->set_tooltip_text (M("TP_WAVELET_BALCHRO_TOOLTIP")); tmrConn = tmr->signal_toggled().connect( sigc::mem_fun(*this, &Wavelet::tmrToggled) ); ToolParamBlock* const finalBox = Gtk::manage (new ToolParamBlock()); finalBox->pack_start (*ctboxBA); finalBox->pack_start(*balance); finalBox->pack_start( *opacityCurveEditorW, Gtk::PACK_SHRINK, 2); finalBox->pack_start(*iter); finalBox->pack_start(*tmr); finalBox->pack_start(*separatorbalend, Gtk::PACK_SHRINK, 2); finalBox->pack_start( *opacityCurveEditorWL, Gtk::PACK_SHRINK, 2); finalBox->pack_start (*curveEditorG, Gtk::PACK_SHRINK, 4); //----------------------------- expsettings->add(*settingsBox, false); expsettings->setLevel(2); pack_start (*expsettings); expcontrast->add(*levBox, false); expcontrast->setLevel(2); pack_start (*expcontrast); expchroma->add(*chBox, false); expchroma->setLevel(2); pack_start (*expchroma); exptoning->add(*tonBox, false); exptoning->setLevel(2); pack_start (*exptoning); expnoise->add(*noiseBox, false); expnoise->setLevel(2); pack_start (*expnoise); expedge->add(*edgBox, false); expedge->setLevel(2); pack_start (*expedge); expgamut->add(*conBox, false); expgamut->setLevel(2); pack_start (*expgamut); expresid->add(*resBox, false); expresid->setLevel(2); pack_start(*expresid); expfinal->add(*finalBox, false); expfinal->setLevel(2); pack_start(*expfinal); } Wavelet::~Wavelet () { idle_register.destroy(); delete opaCurveEditorG; delete opacityCurveEditorG; delete CCWcurveEditorG; delete curveEditorRES; delete curveEditorGAM; delete curveEditorG; delete opacityCurveEditorW; delete opacityCurveEditorWL; } void Wavelet::wavChanged (double nlevel) { if (!batchMode) { idle_register.add( [this, nlevel]() -> bool { wavLabels->set_text( Glib::ustring::compose( M("TP_WAVELET_LEVLABEL"), Glib::ustring::format(std::fixed, std::setprecision(0), nlevel) ) ); return false; } ); } } // Will only reset the channel mixer // WARNING! In mutiImage mode, and for sliders in ADD mode, this will reset the slider to 0, but not to the default value as in SET mode. void Wavelet::neutral_pressed () { disableListener(); greenlow->resetValue(false); bluelow->resetValue(false); greenmed->resetValue(false); bluemed->resetValue(false); greenhigh->resetValue(false); bluehigh->resetValue(false); enableListener(); if (listener && getEnabled()) { listener->panelChanged (EvWavNeutral, M("GENERAL_RESET")); } } void Wavelet::read (const ProcParams* pp, const ParamsEdited* pedited) { /***************************************************************************************************** * * Disable listeners and signals * *****************************************************************************************************/ disableListener (); Lmethodconn.block(true); CLmethodconn.block(true); Backmethodconn.block(true); Tilesmethodconn.block(true); daubcoeffmethodconn.block(true); Dirmethodconn.block(true); CHmethodconn.block(true); CHSLmethodconn.block(true); EDmethodconn.block(true); NPmethodconn.block(true); BAmethodconn.block(true); TMmethodconn.block(true); HSmethodconn.block(true); MedgreinfConn.block(true); cbenabConn.block(true); enableChromaConn.block(true); enableContrastConn.block(true); enableEdgeConn.block(true); enableFinalConn.block(true); enableNoiseConn.block(true); enableResidConn.block(true); enableToningConn.block(true); /***************************************************************************************************** * * Set the GUI reflecting the given ProcParams * *****************************************************************************************************/ //HSmethod->set_active (1); // Note: default values are controlled in rtengine::ProcParams::SetDefaults if (pp->wavelet.HSmethod == "without") { HSmethod->set_active (0); } else if (pp->wavelet.HSmethod == "with") { HSmethod->set_active (1); } //CHmethod->set_active (1); if (pp->wavelet.CHmethod == "without") { CHmethod->set_active (0); } else if (pp->wavelet.CHmethod == "with") { CHmethod->set_active (1); } else if (pp->wavelet.CHmethod == "link") { CHmethod->set_active (2); } //Medgreinf->set_active (1); if (pp->wavelet.Medgreinf == "more") { Medgreinf->set_active (0); } else if (pp->wavelet.Medgreinf == "none") { Medgreinf->set_active (1); } else if (pp->wavelet.Medgreinf == "less") { Medgreinf->set_active (2); } //CHSLmethod->set_active (1); if (pp->wavelet.CHSLmethod == "SL") { CHSLmethod->set_active (0); } else if (pp->wavelet.CHSLmethod == "CU") { CHSLmethod->set_active (1); } //EDmethod->set_active (1); if (pp->wavelet.EDmethod == "SL") { EDmethod->set_active (0); } else if (pp->wavelet.EDmethod == "CU") { EDmethod->set_active (1); } if (pp->wavelet.NPmethod == "none") { NPmethod->set_active (0); } else if (pp->wavelet.NPmethod == "low") { NPmethod->set_active (1); } else if (pp->wavelet.NPmethod == "high") { NPmethod->set_active (2); } //BAmethod->set_active (0); if (pp->wavelet.BAmethod == "none") { BAmethod->set_active (0); } else if (pp->wavelet.BAmethod == "sli") { BAmethod->set_active (1); } else if (pp->wavelet.BAmethod == "cur") { BAmethod->set_active (2); } //TMmethod->set_active (1); if (pp->wavelet.TMmethod == "cont") { TMmethod->set_active (0); } else if (pp->wavelet.TMmethod == "tm") { TMmethod->set_active (1); } // else if (pp->wavelet.TMmethod=="both") // TMmethod->set_active (2); //Backmethod->set_active (3); if (pp->wavelet.Backmethod == "black") { Backmethod->set_active (0); } else if (pp->wavelet.Backmethod == "grey") { Backmethod->set_active (1); } else if (pp->wavelet.Backmethod == "resid") { Backmethod->set_active (2); } //CLmethod->set_active (3); if (pp->wavelet.CLmethod == "one") { CLmethod->set_active (0); } else if (pp->wavelet.CLmethod == "inf") { CLmethod->set_active (1); } else if (pp->wavelet.CLmethod == "sup") { CLmethod->set_active (2); } else if (pp->wavelet.CLmethod == "all") { CLmethod->set_active (3); } //Tilesmethod->set_active (2); if (pp->wavelet.Tilesmethod == "full") { Tilesmethod->set_active (0); } else if (pp->wavelet.Tilesmethod == "big") { Tilesmethod->set_active (1); } else if (pp->wavelet.Tilesmethod == "lit") { Tilesmethod->set_active (2); } //daubcoeffmethod->set_active (4); if (pp->wavelet.daubcoeffmethod == "2_") { daubcoeffmethod->set_active (0); } else if (pp->wavelet.daubcoeffmethod == "4_") { daubcoeffmethod->set_active (1); } else if (pp->wavelet.daubcoeffmethod == "6_") { daubcoeffmethod->set_active (2); } else if (pp->wavelet.daubcoeffmethod == "10_") { daubcoeffmethod->set_active (3); } else if (pp->wavelet.daubcoeffmethod == "14_") { daubcoeffmethod->set_active (4); } //Dirmethod->set_active (3); if (pp->wavelet.Dirmethod == "one") { Dirmethod->set_active (0); } else if (pp->wavelet.Dirmethod == "two") { Dirmethod->set_active (1); } else if (pp->wavelet.Dirmethod == "thr") { Dirmethod->set_active (2); } else if (pp->wavelet.Dirmethod == "all") { Dirmethod->set_active (3); } int selectedLevel = pp->wavelet.Lmethod - 1; Lmethod->set_active (selectedLevel == -1 ? 4 : selectedLevel); ccshape->setCurve (pp->wavelet.ccwcurve); opacityShapeRG->setCurve (pp->wavelet.opacityCurveRG); opacityShapeBY->setCurve (pp->wavelet.opacityCurveBY); opacityShape->setCurve (pp->wavelet.opacityCurveW); opacityShapeWL->setCurve (pp->wavelet.opacityCurveWL); hhshape->setCurve (pp->wavelet.hhcurve); Chshape->setCurve (pp->wavelet.Chcurve); clshape->setCurve (pp->wavelet.wavclCurve); expcontrast->setEnabled (pp->wavelet.expcontrast); expchroma->setEnabled (pp->wavelet.expchroma); expedge->setEnabled (pp->wavelet.expedge); expresid->setEnabled (pp->wavelet.expresid); expfinal->setEnabled (pp->wavelet.expfinal); exptoning->setEnabled (pp->wavelet.exptoning); expnoise->setEnabled (pp->wavelet.expnoise); setEnabled(pp->wavelet.enabled); avoidConn.block (true); avoid->set_active (pp->wavelet.avoid); avoidConn.block (false); tmrConn.block (true); tmr->set_active (pp->wavelet.tmr); tmrConn.block (false); medianConn.block (true); median->set_active (pp->wavelet.median); medianConn.block (false); medianlevConn.block (true); medianlev->set_active (pp->wavelet.medianlev); medianlevConn.block (false); linkedgConn.block (true); linkedg->set_active (pp->wavelet.linkedg); linkedgConn.block (false); cbenabConn.block (true); cbenab->set_active (pp->wavelet.cbenab); cbenabConn.block (false); lipstConn.block (true); lipst->set_active (pp->wavelet.lipst); lipstConn.block (false); //edgreinfConn.block (true); //edgreinf->set_active (pp->wavelet.edgreinf); //edgreinfConn.block (false); //lastedgreinf = pp->wavelet.edgreinf; lastmedian = pp->wavelet.median; lastmedianlev = pp->wavelet.medianlev; lastlinkedg = pp->wavelet.linkedg; lastcbenab = pp->wavelet.cbenab; lastlipst = pp->wavelet.lipst; lastavoid = pp->wavelet.avoid; lasttmr = pp->wavelet.tmr; rescon->setValue (pp->wavelet.rescon); resconH->setValue (pp->wavelet.resconH); reschro->setValue (pp->wavelet.reschro); tmrs->setValue (pp->wavelet.tmrs); gamma->setValue (pp->wavelet.gamma); sup->setValue (pp->wavelet.sup); sky->setValue (pp->wavelet.sky); thres->setValue (pp->wavelet.thres); chroma->setValue (pp->wavelet.chroma); chro->setValue (pp->wavelet.chro); contrast->setValue (pp->wavelet.contrast); edgrad->setValue (pp->wavelet.edgrad); edgval->setValue (pp->wavelet.edgval); edgthresh->setValue (pp->wavelet.edgthresh); thr->setValue (pp->wavelet.thr); thrH->setValue (pp->wavelet.thrH); skinprotect->setValue(pp->wavelet.skinprotect); hueskin->setValue(pp->wavelet.hueskin); hueskin2->setValue(pp->wavelet.hueskin2); threshold->setValue(pp->wavelet.threshold); threshold2->setValue(pp->wavelet.threshold2); edgedetect->setValue(pp->wavelet.edgedetect); edgedetectthr->setValue(pp->wavelet.edgedetectthr); edgedetectthr2->setValue(pp->wavelet.edgedetectthr2); edgesensi->setValue(pp->wavelet.edgesensi); edgeampli->setValue(pp->wavelet.edgeampli); hllev->setValue(pp->wavelet.hllev); bllev->setValue(pp->wavelet.bllev); pastlev->setValue(pp->wavelet.pastlev); satlev->setValue(pp->wavelet.satlev); edgcont->setValue(pp->wavelet.edgcont); greenlow->setValue (pp->wavelet.greenlow); bluelow->setValue (pp->wavelet.bluelow); greenmed->setValue (pp->wavelet.greenmed); bluemed->setValue (pp->wavelet.bluemed); greenhigh->setValue (pp->wavelet.greenhigh); bluehigh->setValue (pp->wavelet.bluehigh); level0noise->setValue(pp->wavelet.level0noise); level1noise->setValue(pp->wavelet.level1noise); level2noise->setValue(pp->wavelet.level2noise); level3noise->setValue(pp->wavelet.level3noise); strength->setValue(pp->wavelet.strength); balance->setValue(pp->wavelet.balance); iter->setValue(pp->wavelet.iter); for (int i = 0; i < 9; i++) { correction[i]->setValue(pp->wavelet.c[i]); } for (int i = 0; i < 9; i++) { correctionch[i]->setValue(pp->wavelet.ch[i]); } /***************************************************************************************************** * * Set the inconsistent state (for combobox, select the "GENERAL_UNCHANGED" entry) * *****************************************************************************************************/ if (pedited) { if (!pedited->wavelet.Lmethod) { Lmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.CLmethod) { CLmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.Backmethod) { Backmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.Tilesmethod) { Tilesmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.daubcoeffmethod) { daubcoeffmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.Dirmethod) { Dirmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.CHmethod) { CHmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.CHSLmethod) { CHSLmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.EDmethod) { EDmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.NPmethod) { NPmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.BAmethod) { BAmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.TMmethod) { TMmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.HSmethod) { HSmethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->wavelet.Medgreinf) { Medgreinf->set_active_text(M("GENERAL_UNCHANGED")); } set_inconsistent (multiImage && !pedited->wavelet.enabled); ccshape->setUnChanged (!pedited->wavelet.ccwcurve); expcontrast->set_inconsistent (!pedited->wavelet.expcontrast); expchroma->set_inconsistent (!pedited->wavelet.expchroma); expedge->set_inconsistent (!pedited->wavelet.expedge); expresid->set_inconsistent (!pedited->wavelet.expresid); expfinal->set_inconsistent (!pedited->wavelet.expfinal); exptoning->set_inconsistent (!pedited->wavelet.exptoning); expnoise->set_inconsistent (!pedited->wavelet.expnoise); opacityShapeRG->setCurve (pp->wavelet.opacityCurveRG); opacityShapeBY->setCurve (pp->wavelet.opacityCurveBY); opacityShape->setCurve (pp->wavelet.opacityCurveW); opacityShapeWL->setCurve (pp->wavelet.opacityCurveWL); hhshape->setUnChanged (!pedited->wavelet.hhcurve); Chshape->setUnChanged (!pedited->wavelet.Chcurve); clshape->setUnChanged (!pedited->wavelet.wavclCurve); avoid->set_inconsistent (!pedited->wavelet.avoid); tmr->set_inconsistent (!pedited->wavelet.tmr); edgthresh->setEditedState (pedited->wavelet.edgthresh ? Edited : UnEdited); rescon->setEditedState (pedited->wavelet.rescon ? Edited : UnEdited); resconH->setEditedState (pedited->wavelet.resconH ? Edited : UnEdited); reschro->setEditedState (pedited->wavelet.reschro ? Edited : UnEdited); tmrs->setEditedState (pedited->wavelet.tmrs ? Edited : UnEdited); gamma->setEditedState (pedited->wavelet.gamma ? Edited : UnEdited); sup->setEditedState (pedited->wavelet.sup ? Edited : UnEdited); sky->setEditedState (pedited->wavelet.sky ? Edited : UnEdited); thres->setEditedState (pedited->wavelet.thres ? Edited : UnEdited); balance->setEditedState (pedited->wavelet.balance ? Edited : UnEdited); iter->setEditedState (pedited->wavelet.iter ? Edited : UnEdited); threshold->setEditedState (pedited->wavelet.threshold ? Edited : UnEdited); threshold2->setEditedState (pedited->wavelet.threshold2 ? Edited : UnEdited); edgedetect->setEditedState (pedited->wavelet.edgedetect ? Edited : UnEdited); edgedetectthr->setEditedState (pedited->wavelet.edgedetectthr ? Edited : UnEdited); edgedetectthr2->setEditedState (pedited->wavelet.edgedetectthr2 ? Edited : UnEdited); edgesensi->setEditedState (pedited->wavelet.edgesensi ? Edited : UnEdited); edgeampli->setEditedState (pedited->wavelet.edgeampli ? Edited : UnEdited); chroma->setEditedState (pedited->wavelet.chroma ? Edited : UnEdited); chro->setEditedState (pedited->wavelet.chro ? Edited : UnEdited); greenlow->setEditedState (pedited->wavelet.greenlow ? Edited : UnEdited); bluelow->setEditedState (pedited->wavelet.bluelow ? Edited : UnEdited); greenmed->setEditedState (pedited->wavelet.greenmed ? Edited : UnEdited); bluemed->setEditedState (pedited->wavelet.bluemed ? Edited : UnEdited); greenhigh->setEditedState (pedited->wavelet.greenhigh ? Edited : UnEdited); bluehigh->setEditedState (pedited->wavelet.bluehigh ? Edited : UnEdited); median->set_inconsistent (!pedited->wavelet.median); medianlev->set_inconsistent (!pedited->wavelet.medianlev); linkedg->set_inconsistent (!pedited->wavelet.linkedg); // edgreinf->set_inconsistent (!pedited->wavelet.edgreinf); cbenab->set_inconsistent (!pedited->wavelet.cbenab); lipst->set_inconsistent (!pedited->wavelet.lipst); contrast->setEditedState (pedited->wavelet.contrast ? Edited : UnEdited); edgrad->setEditedState (pedited->wavelet.edgrad ? Edited : UnEdited); edgval->setEditedState (pedited->wavelet.edgval ? Edited : UnEdited); thr->setEditedState (pedited->wavelet.thr ? Edited : UnEdited); thrH->setEditedState (pedited->wavelet.thrH ? Edited : UnEdited); skinprotect->setEditedState (pedited->wavelet.skinprotect ? Edited : UnEdited); hueskin->setEditedState (pedited->wavelet.hueskin ? Edited : UnEdited); hueskin2->setEditedState (pedited->wavelet.hueskin2 ? Edited : UnEdited); hllev->setEditedState (pedited->wavelet.hllev ? Edited : UnEdited); bllev->setEditedState (pedited->wavelet.bllev ? Edited : UnEdited); pastlev->setEditedState (pedited->wavelet.pastlev ? Edited : UnEdited); satlev->setEditedState (pedited->wavelet.satlev ? Edited : UnEdited); strength->setEditedState(pedited->wavelet.strength ? Edited : UnEdited); edgcont->setEditedState (pedited->wavelet.edgcont ? Edited : UnEdited); level0noise->setEditedState (pedited->wavelet.level0noise ? Edited : UnEdited); level1noise->setEditedState (pedited->wavelet.level1noise ? Edited : UnEdited); level2noise->setEditedState (pedited->wavelet.level2noise ? Edited : UnEdited); level3noise->setEditedState (pedited->wavelet.level3noise ? Edited : UnEdited); for(int i = 0; i < 9; i++) { correction[i]->setEditedState (pedited->wavelet.c[i] ? Edited : UnEdited); } for(int i = 0; i < 9; i++) { correctionch[i]->setEditedState (pedited->wavelet.ch[i] ? Edited : UnEdited); } } /***************************************************************************************************** * * Update the GUI, all at once if not in Batch editing (in this case, display EVERYTHING) * *****************************************************************************************************/ if (!batchMode) { int y; y = thres->getValue(); int z; for(z = y; z < 9; z++) { correction[z]->hide(); } for(z = 0; z < y; z++) { correction[z]->show(); } if (pp->wavelet.CHSLmethod == "SL") { for(z = y; z < 9; z++) { correctionch[z]->hide(); } for(z = 0; z < y; z++) { correctionch[z]->show(); } } //adjusterUpdateUI(tmrs); HSmethodUpdateUI(); CHmethodUpdateUI(); //MedgreinfUpdateUI(); //CHSLmethodUpdateUI(); EDmethodUpdateUI(); NPmethodUpdateUI(); BAmethodUpdateUI(); TMmethodUpdateUI(); //BackmethodUpdateUI(); CLmethodUpdateUI(); lipstUpdateUI (); //TilesmethodUpdateUI(); //daubcoeffmethodUpdateUI(); //DirmethodUpdateUI(); //LmethodUpdateUI(); enabledUpdateUI (); medianlevUpdateUI (); cbenabUpdateUI (); if(z == 9) { sup->show(); } else { sup->hide(); } } /***************************************************************************************************** * * Enable listeners and signals * *****************************************************************************************************/ Lmethodconn.block(false); CLmethodconn.block(false); Backmethodconn.block(false); Tilesmethodconn.block(false); daubcoeffmethodconn.block(false); CHmethodconn.block(false); CHSLmethodconn.block(false); EDmethodconn.block(false); NPmethodconn.block(false); BAmethodconn.block(false); TMmethodconn.block(false); HSmethodconn.block(false); Dirmethodconn.block(false); MedgreinfConn.block(false); enableChromaConn.block(false); enableContrastConn.block(false); enableEdgeConn.block(false); enableFinalConn.block(false); enableNoiseConn.block(false); enableResidConn.block(false); enableToningConn.block(false); enableListener (); } void Wavelet::setEditProvider (EditDataProvider *provider) { ccshape->setEditProvider(provider); opacityShapeRG->setEditProvider(provider); opacityShapeBY->setEditProvider(provider); opacityShape->setEditProvider(provider); opacityShapeWL->setEditProvider(provider); hhshape->setEditProvider(provider); Chshape->setEditProvider(provider); clshape->setEditProvider(provider); } void Wavelet::autoOpenCurve () { ccshape->openIfNonlinear(); //opacityShapeRG->openIfNonlinear(); //opacityShapeBY->openIfNonlinear(); } void Wavelet::write (ProcParams* pp, ParamsEdited* pedited) { pp->wavelet.enabled = getEnabled(); pp->wavelet.avoid = avoid->get_active (); pp->wavelet.tmr = tmr->get_active (); pp->wavelet.rescon = rescon->getValue(); pp->wavelet.resconH = resconH->getValue(); pp->wavelet.reschro = reschro->getValue(); pp->wavelet.tmrs = tmrs->getValue(); pp->wavelet.gamma = gamma->getValue(); pp->wavelet.sup = sup->getValue(); pp->wavelet.sky = sky->getValue(); pp->wavelet.thres = thres->getValue(); pp->wavelet.chroma = chroma->getValue(); pp->wavelet.chro = chro->getValue(); pp->wavelet.median = median->get_active (); pp->wavelet.medianlev = medianlev->get_active (); pp->wavelet.linkedg = linkedg->get_active (); // pp->wavelet.edgreinf = edgreinf->get_active (); pp->wavelet.cbenab = cbenab->get_active (); pp->wavelet.lipst = lipst->get_active (); pp->wavelet.contrast = contrast->getValue(); pp->wavelet.edgrad = edgrad->getValue(); pp->wavelet.edgval = edgval->getValue(); pp->wavelet.edgthresh = edgthresh->getValue(); pp->wavelet.thr = thr->getValue(); pp->wavelet.thrH = thrH->getValue(); pp->wavelet.hueskin = hueskin->getValue (); pp->wavelet.hueskin2 = hueskin2->getValue (); pp->wavelet.skinprotect = skinprotect->getValue(); pp->wavelet.threshold = threshold->getValue(); pp->wavelet.threshold2 = threshold2->getValue(); pp->wavelet.edgedetect = edgedetect->getValue(); pp->wavelet.edgedetectthr = edgedetectthr->getValue(); pp->wavelet.edgedetectthr2 = edgedetectthr2->getValue(); pp->wavelet.edgesensi = edgesensi->getValue(); pp->wavelet.edgeampli = edgeampli->getValue(); pp->wavelet.hllev = hllev->getValue (); pp->wavelet.bllev = bllev->getValue (); pp->wavelet.edgcont = edgcont->getValue (); pp->wavelet.level0noise = level0noise->getValue (); pp->wavelet.level1noise = level1noise->getValue (); pp->wavelet.level2noise = level2noise->getValue (); pp->wavelet.level3noise = level3noise->getValue (); pp->wavelet.ccwcurve = ccshape->getCurve (); pp->wavelet.opacityCurveRG = opacityShapeRG->getCurve (); pp->wavelet.opacityCurveBY = opacityShapeBY->getCurve (); pp->wavelet.opacityCurveW = opacityShape->getCurve (); pp->wavelet.opacityCurveWL = opacityShapeWL->getCurve (); pp->wavelet.hhcurve = hhshape->getCurve (); pp->wavelet.Chcurve = Chshape->getCurve (); pp->wavelet.pastlev = pastlev->getValue (); pp->wavelet.satlev = satlev->getValue (); pp->wavelet.strength = (int) strength->getValue(); pp->wavelet.balance = (int) balance->getValue(); pp->wavelet.greenlow = greenlow->getValue (); pp->wavelet.bluelow = bluelow->getValue (); pp->wavelet.greenmed = greenmed->getValue (); pp->wavelet.bluemed = bluemed->getValue (); pp->wavelet.greenhigh = greenhigh->getValue (); pp->wavelet.bluehigh = bluehigh->getValue (); pp->wavelet.expcontrast = expcontrast->getEnabled(); pp->wavelet.expchroma = expchroma->getEnabled(); pp->wavelet.expedge = expedge->getEnabled(); pp->wavelet.expresid = expresid->getEnabled(); pp->wavelet.expfinal = expfinal->getEnabled(); pp->wavelet.exptoning = exptoning->getEnabled(); pp->wavelet.expnoise = expnoise->getEnabled(); pp->wavelet.iter = (int) iter->getValue(); pp->wavelet.wavclCurve = clshape->getCurve (); for (int i = 0; i < 9; i++) { pp->wavelet.c[i] = (int) correction[i]->getValue(); } for (int i = 0; i < 9; i++) { pp->wavelet.ch[i] = (int) correctionch[i]->getValue(); } if (pedited) { pedited->wavelet.enabled = !get_inconsistent(); pedited->wavelet.avoid = !avoid->get_inconsistent(); pedited->wavelet.tmr = !tmr->get_inconsistent(); pedited->wavelet.median = !median->get_inconsistent(); pedited->wavelet.medianlev = !medianlev->get_inconsistent(); pedited->wavelet.linkedg = !linkedg->get_inconsistent(); pedited->wavelet.cbenab = !cbenab->get_inconsistent(); pedited->wavelet.lipst = !lipst->get_inconsistent(); pedited->wavelet.Medgreinf = Medgreinf->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.Lmethod = Lmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.CLmethod = CLmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.Backmethod = Backmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.Tilesmethod = Tilesmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.daubcoeffmethod = daubcoeffmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.CHmethod = CHmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.CHSLmethod = CHSLmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.EDmethod = EDmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.NPmethod = NPmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.BAmethod = BAmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.TMmethod = TMmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.HSmethod = HSmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.Dirmethod = Dirmethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->wavelet.edgthresh = edgthresh->getEditedState(); pedited->wavelet.rescon = rescon->getEditedState(); pedited->wavelet.resconH = resconH->getEditedState(); pedited->wavelet.reschro = reschro->getEditedState(); pedited->wavelet.tmrs = tmrs->getEditedState(); pedited->wavelet.gamma = gamma->getEditedState(); pedited->wavelet.sup = sup->getEditedState(); pedited->wavelet.sky = sky->getEditedState(); pedited->wavelet.thres = thres->getEditedState(); pedited->wavelet.threshold = threshold->getEditedState(); pedited->wavelet.threshold2 = threshold2->getEditedState(); pedited->wavelet.edgedetect = edgedetect->getEditedState(); pedited->wavelet.edgedetectthr = edgedetectthr->getEditedState(); pedited->wavelet.edgedetectthr2 = edgedetectthr2->getEditedState(); pedited->wavelet.edgesensi = edgesensi->getEditedState(); pedited->wavelet.edgeampli = edgeampli->getEditedState(); pedited->wavelet.chroma = chroma->getEditedState(); pedited->wavelet.chro = chro->getEditedState(); pedited->wavelet.contrast = contrast->getEditedState(); pedited->wavelet.edgrad = edgrad->getEditedState(); pedited->wavelet.edgval = edgval->getEditedState(); pedited->wavelet.thr = thr->getEditedState(); pedited->wavelet.thrH = thrH->getEditedState(); pedited->wavelet.hueskin = hueskin->getEditedState (); pedited->wavelet.hueskin2 = hueskin2->getEditedState (); pedited->wavelet.skinprotect = skinprotect->getEditedState(); pedited->wavelet.hllev = hllev->getEditedState (); pedited->wavelet.ccwcurve = !ccshape->isUnChanged (); pedited->wavelet.edgcont = edgcont->getEditedState (); pedited->wavelet.level0noise = level0noise->getEditedState (); pedited->wavelet.level1noise = level1noise->getEditedState (); pedited->wavelet.level2noise = level2noise->getEditedState (); pedited->wavelet.level3noise = level3noise->getEditedState (); pedited->wavelet.opacityCurveRG = !opacityShapeRG->isUnChanged (); pedited->wavelet.opacityCurveBY = !opacityShapeBY->isUnChanged (); pedited->wavelet.opacityCurveW = !opacityShape->isUnChanged (); pedited->wavelet.opacityCurveWL = !opacityShapeWL->isUnChanged (); pedited->wavelet.hhcurve = !hhshape->isUnChanged (); pedited->wavelet.Chcurve = !Chshape->isUnChanged (); pedited->wavelet.bllev = bllev->getEditedState (); pedited->wavelet.pastlev = pastlev->getEditedState (); pedited->wavelet.satlev = satlev->getEditedState (); pedited->wavelet.strength = strength->getEditedState (); pedited->wavelet.greenlow = greenlow->getEditedState (); pedited->wavelet.bluelow = bluelow->getEditedState (); pedited->wavelet.greenmed = greenmed->getEditedState (); pedited->wavelet.bluemed = bluemed->getEditedState (); pedited->wavelet.greenhigh = greenhigh->getEditedState (); pedited->wavelet.bluehigh = bluehigh->getEditedState (); pedited->wavelet.balance = balance->getEditedState (); pedited->wavelet.iter = iter->getEditedState (); pedited->wavelet.wavclCurve = !clshape->isUnChanged (); pedited->wavelet.expcontrast = !expcontrast->get_inconsistent(); pedited->wavelet.expchroma = !expchroma->get_inconsistent(); pedited->wavelet.expedge = !expedge->get_inconsistent(); pedited->wavelet.expresid = !expresid->get_inconsistent(); pedited->wavelet.expfinal = !expfinal->get_inconsistent(); pedited->wavelet.exptoning = !exptoning->get_inconsistent(); pedited->wavelet.expnoise = !expnoise->get_inconsistent(); for(int i = 0; i < 9; i++) { pedited->wavelet.c[i] = correction[i]->getEditedState(); } for(int i = 0; i < 9; i++) { pedited->wavelet.ch[i] = correctionch[i]->getEditedState(); } } if (CHmethod->get_active_row_number() == 0) { pp->wavelet.CHmethod = "without"; } else if (CHmethod->get_active_row_number() == 1) { pp->wavelet.CHmethod = "with"; } else if (CHmethod->get_active_row_number() == 2) { pp->wavelet.CHmethod = "link"; } if (Medgreinf->get_active_row_number() == 0) { pp->wavelet.Medgreinf = "more"; } else if (Medgreinf->get_active_row_number() == 1) { pp->wavelet.Medgreinf = "none"; } else if (Medgreinf->get_active_row_number() == 2) { pp->wavelet.Medgreinf = "less"; } if (CHSLmethod->get_active_row_number() == 0) { pp->wavelet.CHSLmethod = "SL"; } else if (CHSLmethod->get_active_row_number() == 1) { pp->wavelet.CHSLmethod = "CU"; } if (EDmethod->get_active_row_number() == 0) { pp->wavelet.EDmethod = "SL"; } else if (EDmethod->get_active_row_number() == 1) { pp->wavelet.EDmethod = "CU"; } if (NPmethod->get_active_row_number() == 0) { pp->wavelet.NPmethod = "none"; } else if (NPmethod->get_active_row_number() == 1) { pp->wavelet.NPmethod = "low"; } else if (NPmethod->get_active_row_number() == 2) { pp->wavelet.NPmethod = "high"; } if (BAmethod->get_active_row_number() == 0) { pp->wavelet.BAmethod = "none"; } else if (BAmethod->get_active_row_number() == 1) { pp->wavelet.BAmethod = "sli"; } else if (BAmethod->get_active_row_number() == 2) { pp->wavelet.BAmethod = "cur"; } if (TMmethod->get_active_row_number() == 0) { pp->wavelet.TMmethod = "cont"; } else if (TMmethod->get_active_row_number() == 1) { pp->wavelet.TMmethod = "tm"; } // else if (TMmethod->get_active_row_number()==2) // pp->wavelet.TMmethod = "both"; if (HSmethod->get_active_row_number() == 0) { pp->wavelet.HSmethod = "without"; } else if (HSmethod->get_active_row_number() == 1) { pp->wavelet.HSmethod = "with"; } if (CLmethod->get_active_row_number() == 0) { pp->wavelet.CLmethod = "one"; } else if (CLmethod->get_active_row_number() == 1) { pp->wavelet.CLmethod = "inf"; } else if (CLmethod->get_active_row_number() == 2) { pp->wavelet.CLmethod = "sup"; } else if (CLmethod->get_active_row_number() == 3) { pp->wavelet.CLmethod = "all"; } if (Backmethod->get_active_row_number() == 0) { pp->wavelet.Backmethod = "black"; } else if (Backmethod->get_active_row_number() == 1) { pp->wavelet.Backmethod = "grey"; } else if (Backmethod->get_active_row_number() == 2) { pp->wavelet.Backmethod = "resid"; } if (Tilesmethod->get_active_row_number() == 0) { pp->wavelet.Tilesmethod = "full"; } else if (Tilesmethod->get_active_row_number() == 1) { pp->wavelet.Tilesmethod = "big"; } else if (Tilesmethod->get_active_row_number() == 2) { pp->wavelet.Tilesmethod = "lit"; } if (daubcoeffmethod->get_active_row_number() == 0) { pp->wavelet.daubcoeffmethod = "2_"; } else if (daubcoeffmethod->get_active_row_number() == 1) { pp->wavelet.daubcoeffmethod = "4_"; } else if (daubcoeffmethod->get_active_row_number() == 2) { pp->wavelet.daubcoeffmethod = "6_"; } else if (daubcoeffmethod->get_active_row_number() == 3) { pp->wavelet.daubcoeffmethod = "10_"; } else if (daubcoeffmethod->get_active_row_number() == 4) { pp->wavelet.daubcoeffmethod = "14_"; } if (Dirmethod->get_active_row_number() == 0) { pp->wavelet.Dirmethod = "one"; } else if (Dirmethod->get_active_row_number() == 1) { pp->wavelet.Dirmethod = "two"; } else if (Dirmethod->get_active_row_number() == 2) { pp->wavelet.Dirmethod = "thr"; } else if (Dirmethod->get_active_row_number() == 3) { pp->wavelet.Dirmethod = "all"; } pp->wavelet.Lmethod = Lmethod->get_active_row_number() + 1; } void Wavelet::curveChanged (CurveEditor* ce) { if (listener && getEnabled()) { if (ce == ccshape) { listener->panelChanged (EvWavCCCurve, M("HISTORY_CUSTOMCURVE")); } else if (ce == opacityShapeRG) { listener->panelChanged (EvWavColor, M("HISTORY_CUSTOMCURVE")); } else if (ce == opacityShapeBY) { listener->panelChanged (EvWavOpac, M("HISTORY_CUSTOMCURVE")); } else if (ce == opacityShape) { listener->panelChanged (EvWavopacity, M("HISTORY_CUSTOMCURVE")); } else if (ce == opacityShapeWL) { listener->panelChanged (EvWavopacityWL, M("HISTORY_CUSTOMCURVE")); } else if (ce == hhshape) { listener->panelChanged (EvWavHHCurve, M("HISTORY_CUSTOMCURVE")); } else if (ce == Chshape) { listener->panelChanged (EvWavCHCurve, M("HISTORY_CUSTOMCURVE")); } else if (ce == clshape) { listener->panelChanged (EvWavCLCurve, M("HISTORY_CUSTOMCURVE")); } } } void Wavelet::setDefaults (const ProcParams* defParams, const ParamsEdited* pedited) { for (int i = 0; i < 9; i++) { correction[i]->setDefault(defParams->wavelet.c[i]); } for (int i = 0; i < 9; i++) { correctionch[i]->setDefault(defParams->wavelet.ch[i]); } strength->setDefault(defParams->wavelet.strength ); balance->setDefault(defParams->wavelet.balance ); iter->setDefault(defParams->wavelet.iter ); rescon->setDefault (defParams->wavelet.rescon); resconH->setDefault (defParams->wavelet.resconH); reschro->setDefault (defParams->wavelet.reschro); tmrs->setDefault (defParams->wavelet.tmrs); gamma->setDefault (defParams->wavelet.gamma); sup->setDefault (defParams->wavelet.sup); sky->setDefault (defParams->wavelet.sky); thres->setDefault (defParams->wavelet.thres); threshold->setDefault (defParams->wavelet.threshold); threshold2->setDefault (defParams->wavelet.threshold2); edgedetect->setDefault (defParams->wavelet.edgedetect); edgedetectthr->setDefault (defParams->wavelet.edgedetectthr); edgedetectthr2->setDefault (defParams->wavelet.edgedetectthr2); edgesensi->setDefault (defParams->wavelet.edgesensi); edgeampli->setDefault (defParams->wavelet.edgeampli); chroma->setDefault (defParams->wavelet.chroma); chro->setDefault (defParams->wavelet.chro); contrast->setDefault (defParams->wavelet.contrast); edgrad->setDefault (defParams->wavelet.edgrad); edgval->setDefault (defParams->wavelet.edgval); edgthresh->setDefault (defParams->wavelet.edgthresh); thr->setDefault (defParams->wavelet.thr); thrH->setDefault (defParams->wavelet.thrH); hueskin->setDefault (defParams->wavelet.hueskin); hueskin2->setDefault (defParams->wavelet.hueskin2); hllev->setDefault (defParams->wavelet.hllev); bllev->setDefault (defParams->wavelet.bllev); pastlev->setDefault (defParams->wavelet.pastlev); satlev->setDefault (defParams->wavelet.satlev); edgcont->setDefault (defParams->wavelet.edgcont); level0noise->setDefault (defParams->wavelet.level0noise); level1noise->setDefault (defParams->wavelet.level1noise); level2noise->setDefault (defParams->wavelet.level2noise); level3noise->setDefault (defParams->wavelet.level3noise); greenlow->setDefault (defParams->wavelet.greenlow); bluelow->setDefault (defParams->wavelet.bluelow); greenmed->setDefault (defParams->wavelet.greenmed); bluemed->setDefault (defParams->wavelet.bluemed); greenhigh->setDefault (defParams->wavelet.greenhigh); bluehigh->setDefault (defParams->wavelet.bluehigh); if (pedited) { greenlow->setDefaultEditedState (pedited->wavelet.greenlow ? Edited : UnEdited); bluelow->setDefaultEditedState (pedited->wavelet.bluelow ? Edited : UnEdited); greenmed->setDefaultEditedState (pedited->wavelet.greenmed ? Edited : UnEdited); bluemed->setDefaultEditedState (pedited->wavelet.bluemed ? Edited : UnEdited); greenhigh->setDefaultEditedState (pedited->wavelet.greenhigh ? Edited : UnEdited); bluehigh->setDefaultEditedState (pedited->wavelet.bluehigh ? Edited : UnEdited); rescon->setDefault (defParams->wavelet.rescon); resconH->setDefault (defParams->wavelet.resconH); reschro->setDefault (defParams->wavelet.reschro); tmrs->setDefault (defParams->wavelet.tmrs); gamma->setDefault (defParams->wavelet.gamma); sup->setDefault (defParams->wavelet.sup); sky->setDefaultEditedState(pedited->wavelet.sky ? Edited : UnEdited); thres->setDefaultEditedState(pedited->wavelet.thres ? Edited : UnEdited); threshold->setDefaultEditedState(pedited->wavelet.threshold ? Edited : UnEdited); threshold2->setDefaultEditedState(pedited->wavelet.threshold2 ? Edited : UnEdited); edgedetect->setDefaultEditedState(pedited->wavelet.edgedetect ? Edited : UnEdited); edgedetectthr->setDefaultEditedState(pedited->wavelet.edgedetectthr ? Edited : UnEdited); edgedetectthr2->setDefaultEditedState(pedited->wavelet.edgedetectthr2 ? Edited : UnEdited); edgesensi->setDefaultEditedState(pedited->wavelet.edgesensi ? Edited : UnEdited); edgeampli->setDefaultEditedState(pedited->wavelet.edgeampli ? Edited : UnEdited); chroma->setDefaultEditedState(pedited->wavelet.chroma ? Edited : UnEdited); chro->setDefaultEditedState(pedited->wavelet.chro ? Edited : UnEdited); contrast->setDefaultEditedState(pedited->wavelet.contrast ? Edited : UnEdited); edgrad->setDefaultEditedState(pedited->wavelet.edgrad ? Edited : UnEdited); edgval->setDefaultEditedState(pedited->wavelet.edgval ? Edited : UnEdited); edgthresh->setDefault (defParams->wavelet.edgthresh); thr->setDefaultEditedState(pedited->wavelet.thr ? Edited : UnEdited); thrH->setDefaultEditedState(pedited->wavelet.thrH ? Edited : UnEdited); skinprotect->setDefaultEditedState(pedited->wavelet.skinprotect ? Edited : UnEdited); hueskin->setDefaultEditedState(pedited->wavelet.hueskin ? Edited : UnEdited); hueskin2->setDefaultEditedState(pedited->wavelet.hueskin2 ? Edited : UnEdited); hllev->setDefaultEditedState(pedited->wavelet.hllev ? Edited : UnEdited); bllev->setDefaultEditedState(pedited->wavelet.bllev ? Edited : UnEdited); pastlev->setDefaultEditedState(pedited->wavelet.pastlev ? Edited : UnEdited); satlev->setDefaultEditedState(pedited->wavelet.satlev ? Edited : UnEdited); edgcont->setDefaultEditedState(pedited->wavelet.edgcont ? Edited : UnEdited); strength->setDefaultEditedState(pedited->wavelet.strength ? Edited : UnEdited); balance->setDefaultEditedState(pedited->wavelet.balance ? Edited : UnEdited); iter->setDefaultEditedState(pedited->wavelet.iter ? Edited : UnEdited); level0noise->setDefaultEditedState(pedited->wavelet.level0noise ? Edited : UnEdited); level1noise->setDefaultEditedState(pedited->wavelet.level1noise ? Edited : UnEdited); level2noise->setDefaultEditedState(pedited->wavelet.level2noise ? Edited : UnEdited); level3noise->setDefaultEditedState(pedited->wavelet.level3noise ? Edited : UnEdited); for (int i = 0; i < 9; i++) { correction[i]->setDefaultEditedState(pedited->wavelet.c[i] ? Edited : UnEdited); } for (int i = 0; i < 9; i++) { correctionch[i]->setDefaultEditedState(pedited->wavelet.ch[i] ? Edited : UnEdited); } } else { rescon->setDefaultEditedState(Irrelevant); resconH->setDefaultEditedState(Irrelevant); reschro->setDefaultEditedState(Irrelevant); tmrs->setDefaultEditedState(Irrelevant); gamma->setDefaultEditedState(Irrelevant); sup->setDefaultEditedState(Irrelevant); sky->setDefaultEditedState(Irrelevant); thres->setDefaultEditedState(Irrelevant); threshold->setDefaultEditedState(Irrelevant); threshold2->setDefaultEditedState(Irrelevant); edgedetect->setDefaultEditedState(Irrelevant); edgedetectthr->setDefaultEditedState(Irrelevant); edgedetectthr2->setDefaultEditedState(Irrelevant); edgesensi->setDefaultEditedState(Irrelevant); edgeampli->setDefaultEditedState(Irrelevant); chroma->setDefaultEditedState(Irrelevant); chro->setDefaultEditedState(Irrelevant); contrast->setDefaultEditedState(Irrelevant); edgrad->setDefaultEditedState(Irrelevant); edgval->setDefaultEditedState(Irrelevant); edgthresh->setDefaultEditedState(Irrelevant); thr->setDefaultEditedState(Irrelevant); thrH->setDefaultEditedState(Irrelevant); skinprotect->setDefaultEditedState(Irrelevant); hueskin->setDefaultEditedState (Irrelevant); hueskin2->setDefaultEditedState (Irrelevant); hllev->setDefaultEditedState (Irrelevant); bllev->setDefaultEditedState (Irrelevant); edgcont->setDefaultEditedState (Irrelevant); level0noise->setDefaultEditedState (Irrelevant); level1noise->setDefaultEditedState (Irrelevant); level2noise->setDefaultEditedState (Irrelevant); level3noise->setDefaultEditedState (Irrelevant); pastlev->setDefaultEditedState (Irrelevant); satlev->setDefaultEditedState (Irrelevant); strength->setDefaultEditedState (Irrelevant); balance->setDefaultEditedState (Irrelevant); iter->setDefaultEditedState (Irrelevant); for (int i = 0; i < 9; i++) { correction[i]->setDefaultEditedState(Irrelevant); } for (int i = 0; i < 9; i++) { correctionch[i]->setDefaultEditedState(Irrelevant); } } } void Wavelet::adjusterChanged(ThresholdAdjuster* a, double newBottom, double newTop) { if (listener && (multiImage || getEnabled()) ) { if(a == level0noise) { listener->panelChanged (EvWavlev0nois, Glib::ustring::compose(Glib::ustring(M("TP_WAVELET_NOIS") + ": %1" + "\n" + M("TP_WAVELET_STREN") + ": %2"), int(newTop), int(newBottom))); } else if(a == level1noise) { listener->panelChanged (EvWavlev1nois, Glib::ustring::compose(Glib::ustring(M("TP_WAVELET_NOIS") + ": %1" + "\n" + M("TP_WAVELET_STREN") + ": %2"), int(newTop), int(newBottom))); } else if(a == level2noise) { listener->panelChanged (EvWavlev2nois, Glib::ustring::compose(Glib::ustring(M("TP_WAVELET_NOIS") + ": %1" + "\n" + M("TP_WAVELET_STREN") + ": %2"), int(newTop), int(newBottom))); } else if(a == level3noise) { listener->panelChanged (EvWavlev3nois, Glib::ustring::compose(Glib::ustring(M("TP_WAVELET_NOIS") + ": %1" + "\n" + M("TP_WAVELET_STREN") + ": %2"), int(newTop), int(newBottom))); } } } void Wavelet::adjusterChanged(ThresholdAdjuster* a, double newBottomLeft, double newTopLeft, double newBottomRight, double newTopRight) { } void Wavelet::adjusterChanged(ThresholdAdjuster* a, int newBottom, int newTop) { } void Wavelet::adjusterChanged(ThresholdAdjuster* a, int newBottomLeft, int newTopLeft, int newBottomRight, int newTopRight) { } void Wavelet::adjusterChanged2(ThresholdAdjuster* a, int newBottomL, int newTopL, int newBottomR, int newTopR) { if (listener && (multiImage || getEnabled()) ) { if(a == hueskin) { listener->panelChanged (EvWavHueskin, hueskin->getHistoryString()); } else if(a == hueskin2) { listener->panelChanged (EvWavHueskin2, hueskin2->getHistoryString()); } else if(a == hllev) { listener->panelChanged (EvWavlhl, hllev->getHistoryString()); } else if(a == bllev) { listener->panelChanged (EvWavlbl, bllev->getHistoryString()); } else if(a == pastlev) { listener->panelChanged (EvWavpast, pastlev->getHistoryString()); } else if(a == satlev) { listener->panelChanged (EvWavsat, satlev->getHistoryString()); } else if(a == edgcont) { listener->panelChanged (EvWavedgcont, edgcont->getHistoryString()); } } } void Wavelet::HSmethodUpdateUI() { if (!batchMode) { if(HSmethod->get_active_row_number() == 0) { //without hllev->hide(); bllev->hide(); threshold->hide(); threshold2->hide(); } else { //with hllev->show(); bllev->show(); threshold->show(); threshold2->show(); } } } void Wavelet::HSmethodChanged() { HSmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavHSmet, HSmethod->get_active_text ()); } } void Wavelet::CHmethodUpdateUI() { if (!batchMode) { if(CHmethod->get_active_row_number() == 0) { CHSLmethod->show(); pastlev->hide(); satlev->hide(); chroma->hide(); chro->hide(); labmC->show(); separatorNeutral->hide(); neutralchButton->show(); int y = thres->getValue(); int z; for(z = y; z < 9; z++) { correctionch[z]->hide(); } for(z = 0; z < y; z++) { correctionch[z]->show(); } } else if(CHmethod->get_active_row_number() == 1) { CHSLmethod->show(); pastlev->show(); satlev->show(); chroma->show(); chro->hide(); labmC->show(); separatorNeutral->show(); neutralchButton->show(); int y = thres->getValue(); int z; for(z = y; z < 9; z++) { correctionch[z]->hide(); } for(z = 0; z < y; z++) { correctionch[z]->show(); } } else { chro->show(); pastlev->hide(); satlev->hide(); chroma->hide(); CHSLmethod->hide(); labmC->hide(); separatorNeutral->hide(); neutralchButton->hide(); for (int i = 0; i < 9; i++) { correctionch[i]->hide(); } } } } void Wavelet::CHmethodChanged() { CHmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavCHmet, CHmethod->get_active_text ()); } } /* void Wavelet::CHSLmethodChangedUI() { if (!batchMode) { if(CHSLmethod->get_active_row_number()==0 && CHmethod->get_active_row_number() != 2) {//SL //CLVcurveEditorG->hide(); neutralchButton->show(); int y=thres->getValue(); int z; for(z=y;z<9;z++) correctionch[z]->hide(); for(z=0;zshow(); } else if(CHSLmethod->get_active_row_number()==1) {//CU //CLVcurveEditorG->show(); neutralchButton->hide(); for (int i = 0; i < 9; i++) { correctionch[i]->hide(); } } } } */ void Wavelet::CHSLmethodChanged() { /* CHSLmethodChangedUI(); if (listener && (multiImage||enabled->get_active()) ) { listener->panelChanged (EvWavCHSLmet, CHSLmethod->get_active_text ()); } */ } void Wavelet::EDmethodUpdateUI() { if (!batchMode) { if(EDmethod->get_active_row_number() == 0 ) { //SL CCWcurveEditorG->hide(); edgcont->show(); } else if(EDmethod->get_active_row_number() == 1) { //CU CCWcurveEditorG->show(); edgcont->hide(); } } } void Wavelet::EDmethodChanged() { EDmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavEDmet, EDmethod->get_active_text ()); } } void Wavelet::NPmethodUpdateUI() { if (!batchMode) { } } void Wavelet::NPmethodChanged() { NPmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavNPmet, NPmethod->get_active_text ()); } } void Wavelet::BAmethodUpdateUI() { if (!batchMode) { if(BAmethod->get_active_row_number() == 0 ) { //none balance->hide(); opacityCurveEditorW->hide(); iter->hide(); } else if(BAmethod->get_active_row_number() == 1) { //sli opacityCurveEditorW->hide(); balance->show(); iter->show(); } else if(BAmethod->get_active_row_number() == 2) { //CU opacityCurveEditorW->show(); balance->hide(); iter->show(); } } } void Wavelet::BAmethodChanged() { BAmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavBAmet, BAmethod->get_active_text ()); } } void Wavelet::TMmethodUpdateUI() { /* if (!batchMode) { if(TMmethod->get_active_row_number()==0 ) {// tmr->hide(); } else { tmr->show(); } } */ } void Wavelet::TMmethodChanged() { TMmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavTMmet, TMmethod->get_active_text ()); } } /* void Wavelet::BackmethodUpdateUI() { if (!batchMode) { } } */ void Wavelet::BackmethodChanged() { //BackmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavBackmet, Backmethod->get_active_text ()); } } void Wavelet::CLmethodUpdateUI() { if (!batchMode) { if (CLmethod->get_active_row_number() == 0) { CLmethod->set_active (0); Lmethod->set_sensitive(true); Dirmethod->set_sensitive(true); } else if (CLmethod->get_active_row_number() == 1) { CLmethod->set_active (1); Lmethod->set_sensitive(true); Dirmethod->set_sensitive(true); } else if (CLmethod->get_active_row_number() == 2) { CLmethod->set_active (2); Lmethod->set_sensitive(true); Dirmethod->set_sensitive(true); } else if (CLmethod->get_active_row_number() == 3) { CLmethod->set_active (3); Lmethod->set_sensitive(false); Dirmethod->set_sensitive(false); } } } void Wavelet::CLmethodChanged() { CLmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavCLmet, CLmethod->get_active_text ()); } } /* void Wavelet::TilesmethodUpdateUI() { if (!batchMode) { } } */ void Wavelet::TilesmethodChanged() { //TilesmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavTilesmet, Tilesmethod->get_active_text ()); } } /* void Wavelet::daubcoeffmethodUpdateUI() { if (!batchMode) { }} */ void Wavelet::daubcoeffmethodChanged() { //daubcoeffmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavdaubcoeffmet, daubcoeffmethod->get_active_text ()); } } /* void Wavelet::MedgreinfUpdateUI() { if (!batchMode) { } } */ void Wavelet::MedgreinfChanged() { //MedgreinfUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavedgreinf, Medgreinf->get_active_text ()); } } /* void Wavelet::DirmethodUpdateUI() { if (!batchMode) { } } */ void Wavelet::DirmethodChanged() { //DirmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavDirmeto, Dirmethod->get_active_text ()); } } /* void Wavelet::LmethodUpdateUI() { if (!batchMode) { } } */ void Wavelet::LmethodChanged() { //LmethodUpdateUI(); if (listener && (multiImage || getEnabled()) ) { listener->panelChanged (EvWavLmet, Lmethod->get_active_text ()); } } void Wavelet::setBatchMode (bool batchMode) { Lmethod->append (M("GENERAL_UNCHANGED")); CLmethod->append (M("GENERAL_UNCHANGED")); Backmethod->append (M("GENERAL_UNCHANGED")); Tilesmethod->append (M("GENERAL_UNCHANGED")); daubcoeffmethod->append (M("GENERAL_UNCHANGED")); CHmethod->append (M("GENERAL_UNCHANGED")); Medgreinf->append (M("GENERAL_UNCHANGED")); CHSLmethod->append (M("GENERAL_UNCHANGED")); EDmethod->append (M("GENERAL_UNCHANGED")); NPmethod->append (M("GENERAL_UNCHANGED")); BAmethod->append (M("GENERAL_UNCHANGED")); TMmethod->append (M("GENERAL_UNCHANGED")); HSmethod->append (M("GENERAL_UNCHANGED")); Dirmethod->append (M("GENERAL_UNCHANGED")); CCWcurveEditorG->setBatchMode (batchMode); opaCurveEditorG->setBatchMode (batchMode); opacityCurveEditorG->setBatchMode (batchMode); opacityCurveEditorW->setBatchMode (batchMode); opacityCurveEditorWL->setBatchMode (batchMode); curveEditorRES->setBatchMode (batchMode); curveEditorGAM->setBatchMode (batchMode); rescon->showEditedCB (); resconH->showEditedCB (); reschro->showEditedCB (); tmrs->showEditedCB (); gamma->showEditedCB (); sup->showEditedCB (); sky->showEditedCB (); thres->showEditedCB (); threshold->showEditedCB (); threshold2->showEditedCB (); edgedetect->showEditedCB (); edgedetectthr->showEditedCB (); edgedetectthr2->showEditedCB (); edgesensi->showEditedCB (); edgeampli->showEditedCB (); chroma->showEditedCB (); chro->showEditedCB (); contrast->showEditedCB (); edgrad->showEditedCB (); edgval->showEditedCB (); edgthresh->showEditedCB (); thr->showEditedCB (); thrH->showEditedCB (); skinprotect->showEditedCB(); hueskin->showEditedCB (); hueskin2->showEditedCB (); hllev->showEditedCB (); bllev->showEditedCB (); pastlev->showEditedCB (); satlev->showEditedCB (); edgcont->showEditedCB (); strength->showEditedCB (); balance->showEditedCB (); iter->showEditedCB (); level0noise->showEditedCB (); level1noise->showEditedCB (); level2noise->showEditedCB (); level3noise->showEditedCB (); ToolPanel::setBatchMode (batchMode); for (int i = 0; i < 9; i++) { correction[i]->showEditedCB(); } for (int i = 0; i < 9; i++) { correctionch[i]->showEditedCB(); } } void Wavelet::adjusterUpdateUI (Adjuster* a) { /* if (!batchMode) { if (a == tmrs ) { float tm; tm=tmrs->getValue(); if(tm==0.f) tmr->hide(); else tmr->show(); } else if (a == gamma ) { float tm; tm=tmrs->getValue(); if(tm==0.f) tmr->hide(); else tmr->show(); ); } } */ } void Wavelet::adjusterChanged(Adjuster* a, double newval) { if (listener && (multiImage || getEnabled()) ) { if (a == edgthresh) { listener->panelChanged (EvWavtiles, edgthresh->getTextValue()); } else if (a == rescon ) { listener->panelChanged (EvWavrescon, rescon->getTextValue()); } else if (a == resconH ) { listener->panelChanged (EvWavresconH, resconH->getTextValue()); } else if (a == reschro ) { listener->panelChanged (EvWavreschro, reschro->getTextValue()); } else if (a == tmrs ) { adjusterUpdateUI(a); listener->panelChanged (EvWavtmrs, tmrs->getTextValue()); } else if (a == gamma ) { adjusterUpdateUI(a); listener->panelChanged (EvWavgamma, gamma->getTextValue()); } else if (a == sky ) { listener->panelChanged (EvWavsky, sky->getTextValue()); } else if (a == sup ) { listener->panelChanged (EvWavsup, sup->getTextValue()); } else if (a == chroma ) { listener->panelChanged (EvWavchroma, chroma->getTextValue()); } else if (a == chro ) { listener->panelChanged (EvWavchro, chro->getTextValue()); } else if (a == contrast ) { listener->panelChanged (EvWavunif, contrast->getTextValue()); } else if (a == thr ) { listener->panelChanged (EvWavthr, thr->getTextValue()); } else if (a == thrH ) { listener->panelChanged (EvWavthrH, thrH->getTextValue()); } else if (a == threshold ) { listener->panelChanged (EvWavThreshold, threshold->getTextValue()); } else if (a == threshold2 ) { listener->panelChanged (EvWavThreshold2, threshold2->getTextValue()); } else if (a == edgedetect ) { listener->panelChanged (EvWavedgedetect, edgedetect->getTextValue()); } else if (a == edgedetectthr ) { listener->panelChanged (EvWavedgedetectthr, edgedetectthr->getTextValue()); } else if (a == edgedetectthr2 ) { listener->panelChanged (EvWavedgedetectthr2, edgedetectthr2->getTextValue()); } else if (a == edgesensi ) { listener->panelChanged (EvWavedgesensi, edgesensi->getTextValue()); } else if (a == edgeampli ) { listener->panelChanged (EvWavedgeampli, edgeampli->getTextValue()); } else if (a == edgrad ) { listener->panelChanged (EvWavedgrad, edgrad->getTextValue()); } else if (a == edgval ) { listener->panelChanged (EvWavedgval, edgval->getTextValue()); } else if (a == thres ) { int y = thres->getValue(); int z; for(z = y; z < 9; z++) { correction[z]->hide(); } for(z = 0; z < y; z++) { correction[z]->show(); } for(z = y; z < 9; z++) { correctionch[z]->hide(); } for(z = 0; z < y; z++) { correctionch[z]->show(); } if(z == 9) { sup->show(); } else { sup->hide(); } listener->panelChanged (EvWavthres, thres->getTextValue()); } else if (a == skinprotect) { listener->panelChanged (EvWavSkin, skinprotect->getTextValue()); } else if (a == strength) { listener->panelChanged (EvWavStrength, strength->getTextValue()); } else if (a == balance) { listener->panelChanged (EvWavbalance, balance->getTextValue()); } else if (a == iter) { listener->panelChanged (EvWaviter, iter->getTextValue()); } else if (a == greenhigh ) { listener->panelChanged (EvWavgreenhigh, greenhigh->getTextValue()); } else if (a == bluehigh ) { listener->panelChanged (EvWavbluehigh, bluehigh->getTextValue()); } else if (a == greenmed ) { listener->panelChanged (EvWavgreenmed, greenmed->getTextValue()); } else if (a == bluemed ) { listener->panelChanged (EvWavbluemed, bluemed->getTextValue()); } else if (a == greenlow ) { listener->panelChanged (EvWavgreenlow, greenlow->getTextValue()); } else if (a == bluelow ) { listener->panelChanged (EvWavbluelow, bluelow->getTextValue()); } if ((a == correction[0] || a == correction[1] || a == correction[2] || a == correction[3] || a == correction[4] || a == correction[5] || a == correction[6] || a == correction[7] || a == correction[8])) { listener->panelChanged (EvWavelet, Glib::ustring::compose("%1, %2, %3, %4, %5, %6, %7, %8, %9", Glib::ustring::format(std::fixed, std::setprecision(0), correction[0]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correction[1]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correction[2]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correction[3]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correction[4]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correction[5]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correction[6]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correction[7]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correction[8]->getValue())) ); } else if (a == correctionch[0] || a == correctionch[1] || a == correctionch[2] || a == correctionch[3] || a == correctionch[4] || a == correctionch[5] || a == correctionch[6] || a == correctionch[7] || a == correctionch[8] ) { listener->panelChanged (EvWaveletch, Glib::ustring::compose("%1, %2, %3, %4, %5, %6, %7, %8, %9", Glib::ustring::format(std::fixed, std::setprecision(0), correctionch[0]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correctionch[1]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correctionch[2]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correctionch[3]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correctionch[4]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correctionch[5]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correctionch[6]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correctionch[7]->getValue()), Glib::ustring::format(std::fixed, std::setprecision(0), correctionch[8]->getValue())) ); } } } void Wavelet::enabledUpdateUI () { if (!batchMode) { int y = thres->getValue(); int z; for(z = y; z < 9; z++) { correction[z]->hide(); } for(z = 0; z < y; z++) { correction[z]->show(); } if(z == 9) { sup->show(); } else { sup->hide(); } // adjusterUpdateUI(tmrs); } } void Wavelet::enabledChanged () { enabledUpdateUI(); if (listener) { if (get_inconsistent()) { listener->panelChanged (EvWavEnabled, M("GENERAL_UNCHANGED")); } else if (getEnabled()) { listener->panelChanged (EvWavEnabled, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvWavEnabled, M("GENERAL_DISABLED")); } } } void Wavelet::medianToggled () { if (multiImage) { if (median->get_inconsistent()) { median->set_inconsistent (false); medianConn.block (true); median->set_active (false); medianConn.block (false); } else if (lastmedian) { median->set_inconsistent (true); } lastmedian = median->get_active (); } if (listener && (multiImage || getEnabled ())) { if (median->get_inconsistent()) { listener->panelChanged (EvWavmedian, M("GENERAL_UNCHANGED")); } else if (median->get_active ()) { listener->panelChanged (EvWavmedian, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvWavmedian, M("GENERAL_DISABLED")); } } } void Wavelet::medianlevUpdateUI () { if (!batchMode) { if (medianlev->get_active ()) { edgedetect->show(); lipst->show(); separatoredge->show(); edgedetectthr->show(); edgedetectthr2->show(); // edgesensi->show(); // edgeampli->show(); // NPmethod->show(); // labmNP->show(); if (lipst->get_active ()) { edgesensi->show(); edgeampli->show(); NPmethod->show(); labmNP->show(); } else { edgesensi->hide(); edgeampli->hide(); NPmethod->hide(); labmNP->hide(); } } else { edgedetect->hide(); lipst->hide(); edgedetectthr->hide(); edgedetectthr2->hide(); edgesensi->hide(); edgeampli->hide(); separatoredge->hide(); NPmethod->hide(); labmNP->hide(); } } } void Wavelet::medianlevToggled () { if (multiImage) { if (medianlev->get_inconsistent()) { medianlev->set_inconsistent (false); medianlevConn.block (true); medianlev->set_active (false); medianlevConn.block (false); } else if (lastmedianlev) { medianlev->set_inconsistent (true); } lastmedianlev = medianlev->get_active (); } medianlevUpdateUI(); if (listener && (multiImage || getEnabled ())) { if (medianlev->get_inconsistent()) { listener->panelChanged (EvWavmedianlev, M("GENERAL_UNCHANGED")); } else if (medianlev->get_active () ) { listener->panelChanged (EvWavmedianlev, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvWavmedianlev, M("GENERAL_DISABLED")); } } } void Wavelet::linkedgToggled () { if (multiImage) { if (linkedg->get_inconsistent()) { linkedg->set_inconsistent (false); linkedgConn.block (true); linkedg->set_active (false); linkedgConn.block (false); } else if (lastlinkedg) { linkedg->set_inconsistent (true); } lastlinkedg = linkedg->get_active (); } if (listener && (multiImage || getEnabled ())) { if (linkedg->get_inconsistent()) { listener->panelChanged (EvWavlinkedg, M("GENERAL_UNCHANGED")); } else if (linkedg->get_active () ) { listener->panelChanged (EvWavlinkedg, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvWavlinkedg, M("GENERAL_DISABLED")); } } } void Wavelet::cbenabUpdateUI () { if (!batchMode) { if(cbenab->get_active ()) { chanMixerHLFrame->show(); chanMixerMidFrame->show(); chanMixerShadowsFrame->show(); neutrHBox->show(); } else { chanMixerHLFrame->hide(); chanMixerMidFrame->hide(); chanMixerShadowsFrame->hide(); neutrHBox->hide(); } } } void Wavelet::cbenabToggled () { if (multiImage) { if (cbenab->get_inconsistent()) { cbenab->set_inconsistent (false); cbenabConn.block (true); cbenab->set_active (false); cbenabConn.block (false); } else if (lastcbenab) { cbenab->set_inconsistent (true); } lastcbenab = cbenab->get_active (); } cbenabUpdateUI(); if (listener && (multiImage || getEnabled ())) { if (cbenab->get_inconsistent() ) { listener->panelChanged (EvWavcbenab, M("GENERAL_UNCHANGED")); } else if (cbenab->get_active () ) { listener->panelChanged (EvWavcbenab, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvWavcbenab, M("GENERAL_DISABLED")); } } } void Wavelet::lipstUpdateUI () { if (!batchMode) { if (lipst->get_active ()) { NPmethod->show(); edgesensi->show(); edgeampli->show(); labmNP->show(); } else { NPmethod->hide(); edgesensi->hide(); edgeampli->hide(); labmNP->hide(); } } } void Wavelet::lipstToggled () { if (multiImage) { if (lipst->get_inconsistent()) { lipst->set_inconsistent (false); lipstConn.block (true); lipst->set_active (false); lipstConn.block (false); } else if (lastlipst) { lipst->set_inconsistent (true); } lastlipst = lipst->get_active (); } lipstUpdateUI(); if (listener && (multiImage || getEnabled ())) { if (lipst->get_inconsistent()) { listener->panelChanged (EvWavlipst, M("GENERAL_UNCHANGED")); } else if (lipst->get_active ()) { listener->panelChanged (EvWavlipst, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvWavlipst, M("GENERAL_DISABLED")); } } } /* void Wavelet::edgreinfToggled () { if (batchMode) { if (edgreinf->get_inconsistent()) { edgreinf->set_inconsistent (false); edgreinfConn.block (true); edgreinf->set_active (false); edgreinfConn.block (false); } else if (lastedgreinf) edgreinf->set_inconsistent (true); lastedgreinf = edgreinf->get_active (); } if (listener) { if (enabled->get_inconsistent ()) listener->panelChanged (EvWavedgreinf, M("GENERAL_UNCHANGED")); else if (enabled->get_active ()) listener->panelChanged (EvWavedgreinf, M("GENERAL_ENABLED")); else listener->panelChanged (EvWavedgreinf, M("GENERAL_DISABLED")); } } */ void Wavelet::avoidToggled () { if (multiImage) { 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 (listener && (multiImage || getEnabled ())) { if (avoid->get_inconsistent()) { listener->panelChanged (EvWavavoid, M("GENERAL_UNCHANGED")); } else if (avoid->get_active ()) { listener->panelChanged (EvWavavoid, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvWavavoid, M("GENERAL_DISABLED")); } } } void Wavelet::tmrToggled () { if (multiImage) { if (tmr->get_inconsistent()) { tmr->set_inconsistent (false); tmrConn.block (true); tmr->set_active (false); tmrConn.block (false); } else if (lasttmr) { tmr->set_inconsistent (true); } lasttmr = tmr->get_active (); } if (listener && (multiImage || getEnabled ())) { if (tmr->get_inconsistent()) { listener->panelChanged (EvWavtmr, M("GENERAL_UNCHANGED")); } else if (tmr->get_active ()) { listener->panelChanged (EvWavtmr, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvWavtmr, M("GENERAL_DISABLED")); } } } void Wavelet::colorForValue (double valX, double valY, enum ColorCaller::ElemType elemType, int callerId, ColorCaller *caller) { float R = 0.f, G = 0.f, B = 0.f; 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; 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 == 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 Wavelet::setAdjusterBehavior (bool multiplieradd, bool thresholdadd, bool threshold2add, bool thresadd, bool chroadd, bool chromaadd, bool contrastadd, bool skinadd, bool reschroadd, bool tmrsadd, bool resconadd, bool resconHadd, bool thradd, bool thrHadd, bool skyadd, bool edgradadd, bool edgvaladd, bool strengthadd, bool gammaadd, bool edgedetectadd, bool edgedetectthradd , bool edgedetectthr2add) { for (int i = 0; i < 9; i++) { correction[i]->setAddMode(multiplieradd); } threshold->setAddMode(thresholdadd); skinprotect->setAddMode(skinadd); threshold2->setAddMode(threshold2add); thres->setAddMode(thresadd); chro->setAddMode(chroadd); chroma->setAddMode(chromaadd); contrast->setAddMode(contrastadd); rescon->setAddMode(resconadd); resconH->setAddMode(resconHadd); reschro->setAddMode(reschroadd); tmrs->setAddMode(tmrsadd); thr->setAddMode(thradd); thrH->setAddMode(thrHadd); sky->setAddMode(skyadd); edgrad->setAddMode(edgradadd); edgval->setAddMode(edgvaladd); strength->setAddMode(strengthadd); gamma->setAddMode(gammaadd); edgedetect->setAddMode(edgedetectadd); edgedetectthr->setAddMode(edgedetectthradd); edgedetectthr2->setAddMode(edgedetectthr2add); } void Wavelet::neutralPressed () { for (int i = 0; i < 9; i++) { correction[i]->setValue(0); adjusterChanged(correction[i], 0); } } void Wavelet::neutralchPressed () { for (int i = 0; i < 9; i++) { correctionch[i]->setValue(0); adjusterChanged(correctionch[i], 0); } } void Wavelet::contrastPlusPressed () { for (int i = 0; i < 9; i++) { int inc = 1 * (9 - i); correction[i]->setValue(correction[i]->getValue() + inc); adjusterChanged(correction[i], correction[i]->getValue()); } } void Wavelet::contrastMinusPressed () { for (int i = 0; i < 9; i++) { int inc = -1 * (9 - i); correction[i]->setValue(correction[i]->getValue() + inc); adjusterChanged(correction[i], correction[i]->getValue()); } } void Wavelet::foldAllButMe (GdkEventButton* event, MyExpander *expander) { if (event->button == 3) { expsettings->set_expanded(expsettings == expander); expcontrast->set_expanded(expcontrast == expander); expchroma->set_expanded(expchroma == expander); exptoning->set_expanded(exptoning == expander); expnoise->set_expanded(expnoise == expander); expedge->set_expanded(expedge == expander); expgamut->set_expanded(expgamut == expander); expresid->set_expanded(expresid == expander); expfinal->set_expanded(expfinal == expander); } } void Wavelet::enableToggled(MyExpander *expander) { if (listener) { rtengine::ProcEvent event = NUMOFEVENTS; if (expander == expcontrast) { event = EvWavenacont; } else if (expander == expchroma) { event = EvWavenachrom; } else if (expander == exptoning) { event = EvWavenatoning; } else if (expander == expnoise) { event = EvWavenanoise; } else if (expander == expedge) { event = EvWavenaedge; } else if (expander == expresid) { event = EvWavenares; } else if (expander == expfinal) { event = EvWavenafin; } else // unknown expander, returning ! { 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 Wavelet::writeOptions(std::vector &tpOpen) { tpOpen.push_back (expsettings->get_expanded ()); tpOpen.push_back (expcontrast->get_expanded ()); tpOpen.push_back (expchroma->get_expanded ()); tpOpen.push_back (exptoning->get_expanded ()); tpOpen.push_back (expnoise->get_expanded ()); tpOpen.push_back (expedge->get_expanded ()); tpOpen.push_back (expgamut->get_expanded ()); tpOpen.push_back (expresid->get_expanded ()); tpOpen.push_back (expfinal->get_expanded ()); } void Wavelet::updateToolState(std::vector &tpOpen) { if(tpOpen.size() >= 9) { expsettings->set_expanded(tpOpen.at(0)); expcontrast->set_expanded(tpOpen.at(1)); expchroma->set_expanded(tpOpen.at(2)); exptoning->set_expanded(tpOpen.at(3)); expnoise->set_expanded(tpOpen.at(4)); expedge->set_expanded(tpOpen.at(5)); expgamut->set_expanded(tpOpen.at(6)); expresid->set_expanded(tpOpen.at(7)); expfinal->set_expanded(tpOpen.at(8)); } }