/* * This file is part of RawTherapee. */ #include "retinex.h" #include "mycurve.h" #include "rtimage.h" using namespace rtengine; using namespace rtengine::procparams; Retinex::Retinex () : FoldableToolPanel(this, "retinex", M("TP_RETINEX_LABEL"), false, true), lastmedianmap(false) { CurveListener::setMulti(true); std::vector defaultCurve; std::vector milestones; nextmin = 0.; nextmax = 0.; nextminiT = 0.; nextmaxiT = 0.; nextmeanT = 0.; nextsigma = 0.; nextminT = 0.; nextmaxT = 0.; // MAIN Expander ================================================================== Gtk::Grid *retinexGrid = Gtk::manage ( new Gtk::Grid()); setExpandAlignProperties(retinexGrid, false, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); dhgrid = Gtk::manage (new Gtk::Grid ()); setExpandAlignProperties(dhgrid, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); labmdh = Gtk::manage (new Gtk::Label (M("TP_RETINEX_METHOD") + ":")); setExpandAlignProperties(labmdh, false, false, Gtk::ALIGN_START, Gtk::ALIGN_BASELINE); dhgrid->attach(*labmdh, 0, 0, 1, 1); retinexMethod = Gtk::manage (new MyComboBoxText ()); setExpandAlignProperties(retinexMethod, true, true, Gtk::ALIGN_FILL, Gtk::ALIGN_BASELINE); retinexMethod->append (M("TP_RETINEX_LOW")); retinexMethod->append (M("TP_RETINEX_UNIFORM")); retinexMethod->append (M("TP_RETINEX_HIGH")); retinexMethod->append (M("TP_RETINEX_HIGHLIG")); // retinexMethod->append (M("TP_RETINEX_HIGHLIGPLUS")); retinexMethod->set_active(0); retinexMethodConn = retinexMethod->signal_changed().connect ( sigc::mem_fun(*this, &Retinex::retinexMethodChanged) ); retinexMethod->set_tooltip_markup (M("TP_RETINEX_METHOD_TOOLTIP")); dhgrid->attach(*retinexMethod, 1, 0, 1, 1); retinexcolorspace = Gtk::manage (new MyComboBoxText ()); setExpandAlignProperties(retinexcolorspace, true, true, Gtk::ALIGN_FILL, Gtk::ALIGN_BASELINE); retinexcolorspace->append (M("TP_RETINEX_LABSPACE")); retinexcolorspace->append (M("TP_RETINEX_HSLSPACE_LOG")); retinexcolorspace->append (M("TP_RETINEX_HSLSPACE_LIN")); retinexcolorspace->set_active(0); retinexColorSpaceConn = retinexcolorspace->signal_changed().connect ( sigc::mem_fun(*this, &Retinex::retinexColorSpaceChanged) ); dhgrid->attach(*retinexcolorspace, 2, 0, 1, 1); retinexGrid->attach(*dhgrid, 0, 0, 1, 1); str = Gtk::manage (new Adjuster (M("TP_RETINEX_STRENGTH"), 0, 100., 1., 20.)); setExpandAlignProperties(str, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); retinexGrid->attach(*str, 0, 1, 1, 1); str->show (); neigh = Gtk::manage (new Adjuster (M("TP_RETINEX_NEIGHBOR"), 6, 100., 1., 80.)); setExpandAlignProperties(neigh, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); retinexGrid->attach(*neigh, 0, 2, 1, 1); neigh->show (); vart = Gtk::manage (new Adjuster (M("TP_RETINEX_VARIANCE"), 50, 500, 1, 200)); setExpandAlignProperties(vart, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); vart->set_tooltip_markup (M("TP_RETINEX_VARIANCE_TOOLTIP")); retinexGrid->attach(*vart, 0, 3, 1, 1); vart->show (); highl = Gtk::manage (new Adjuster (M("TP_RETINEX_HIGHLIGHT"), 1, 20, 1, 4)); setExpandAlignProperties(highl, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); highl->set_tooltip_markup (M("TP_RETINEX_HIGHLIGHT_TOOLTIP")); retinexGrid->attach(*highl, 0, 4, 1, 1); highl->show (); viewgrid = Gtk::manage (new Gtk::Grid ()); setExpandAlignProperties(viewgrid, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); labview = Gtk::manage (new Gtk::Label (M("TP_RETINEX_VIEW") + ":")); setExpandAlignProperties(labview, false, false, Gtk::ALIGN_START, Gtk::ALIGN_BASELINE); viewgrid->attach(*labview, 0, 0, 1, 1); viewMethod = Gtk::manage (new MyComboBoxText ()); setExpandAlignProperties(viewMethod, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_BASELINE); viewMethod->append (M("TP_RETINEX_VIEW_NONE")); viewMethod->append (M("TP_RETINEX_VIEW_UNSHARP")); viewMethod->append (M("TP_RETINEX_VIEW_MASK")); viewMethod->append (M("TP_RETINEX_VIEW_TRAN")); viewMethod->append (M("TP_RETINEX_VIEW_TRAN2")); viewMethod->set_active(0); viewMethodConn = viewMethod->signal_changed().connect ( sigc::mem_fun(*this, &Retinex::viewMethodChanged) ); viewMethod->set_tooltip_markup (M("TP_RETINEX_VIEW_METHOD_TOOLTIP")); viewgrid->attach(*viewMethod, 1, 0, 1, 1); retinexGrid->attach(*viewgrid, 0, 5, 1, 1); //------------- pack_start (*retinexGrid); // MAP (MASK) Frame --------------------------------------------------------------- Gtk::Frame *maskFrame = Gtk::manage (new Gtk::Frame(M("TP_RETINEX_LABEL_MASK")) ); setExpandAlignProperties(maskFrame, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); Gtk::Grid *maskGrid = Gtk::manage ( new Gtk::Grid()); setExpandAlignProperties(maskGrid, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); // Map Method mapgrid = Gtk::manage (new Gtk::Grid ()); setExpandAlignProperties(mapgrid, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); labmap = Gtk::manage (new Gtk::Label (M("TP_RETINEX_MAP") + ":")); setExpandAlignProperties(labmap, false, false, Gtk::ALIGN_START, Gtk::ALIGN_BASELINE); mapgrid->attach(*labmap, 0, 0, 1, 1); mapMethod = Gtk::manage (new MyComboBoxText ()); setExpandAlignProperties(mapMethod, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_BASELINE); mapMethod->append (M("TP_RETINEX_MAP_NONE")); mapMethod->append (M("TP_RETINEX_MAP_GAUS")); mapMethod->append (M("TP_RETINEX_MAP_MAPP")); mapMethod->append (M("TP_RETINEX_MAP_MAPT")); mapMethod->set_active(0); mapMethodConn = mapMethod->signal_changed().connect ( sigc::mem_fun(*this, &Retinex::mapMethodChanged) ); mapMethod->set_tooltip_markup (M("TP_RETINEX_MAP_METHOD_TOOLTIP")); mapgrid->attach(*mapMethod, 1, 0, 1, 1); maskGrid->attach(*mapgrid, 0, 0, 1, 1); mapgrid->show(); // Map Equalizer curveEditormap = new CurveEditorGroup (options.lastRetinexDir, M("TP_RETINEX_CONTEDIT_MAP")); setExpandAlignProperties(curveEditormap, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); curveEditormap->setCurveListener (this); std::vector milestones222; milestones222.push_back( GradientMilestone(0., 0., 0., 0.) ); milestones222.push_back( GradientMilestone(1., 1., 1., 1.) ); mapshape = static_cast(curveEditormap->addCurve(CT_Diagonal, M("TP_RETINEX_CURVEEDITOR_MAP"))); mapshape->setTooltip(M("TP_RETINEX_CURVEEDITOR_MAP_TOOLTIP")); mapshape->setBottomBarBgGradient(milestones222); mapshape->setLeftBarBgGradient(milestones222); curveEditormap->curveListComplete(); maskGrid->attach(*curveEditormap, 0, 1, 1, 1); curveEditormap->show(); // Adjusters highlights = Gtk::manage (new Adjuster (M("TP_SHADOWSHLIGHTS_HIGHLIGHTS"), 0, 100, 1, 0)); setExpandAlignProperties(highlights, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); maskGrid->attach(*highlights, 0, 2, 1, 1); highlights->show(); h_tonalwidth = Gtk::manage (new Adjuster (M("TP_SHADOWSHLIGHTS_HLTONALW"), 10, 100, 1, 80)); setExpandAlignProperties(h_tonalwidth, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); maskGrid->attach(*h_tonalwidth, 0, 3, 1, 1); h_tonalwidth->show(); shadows = Gtk::manage (new Adjuster (M("TP_SHADOWSHLIGHTS_SHADOWS"), 0, 100, 1, 0)); setExpandAlignProperties(shadows, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); maskGrid->attach(*shadows, 0, 4, 1, 1); shadows->show(); s_tonalwidth = Gtk::manage (new Adjuster (M("TP_SHADOWSHLIGHTS_SHTONALW"), 10, 100, 1, 80)); setExpandAlignProperties(s_tonalwidth, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); maskGrid->attach(*s_tonalwidth, 0, 5, 1, 1); s_tonalwidth->show(); radius = Gtk::manage (new Adjuster (M("TP_SHADOWSHLIGHTS_RADIUS"), 5, 100, 1, 40)); setExpandAlignProperties(radius, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); maskGrid->attach(*radius, 0, 6, 1, 1); radius->show(); //------------- maskFrame->add(*maskGrid); pack_start (*maskFrame, Gtk::PACK_EXPAND_WIDGET, 4); // SETTINGS Expander ============================================================== expsettings = new MyExpander (false, M("TP_RETINEX_SETTINGS")); setExpandAlignProperties(expsettings, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); expsettings->signal_button_release_event().connect_notify( sigc::bind( sigc::mem_fun(this, &Retinex::foldAllButMe), expsettings) ); Gtk::Grid *settingsGrid = Gtk::manage ( new Gtk::Grid()); setExpandAlignProperties(settingsGrid, false, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); mMLabels = Gtk::manage(new Gtk::Label("---")); setExpandAlignProperties(mMLabels, true, false, Gtk::ALIGN_CENTER, Gtk::ALIGN_START); mMLabels->set_tooltip_markup (M("TP_RETINEX_MLABEL_TOOLTIP")); settingsGrid->attach(*mMLabels, 0, 0, 1, 1); mMLabels->show (); transLabels = Gtk::manage(new Gtk::Label("---")); setExpandAlignProperties(transLabels, true, false, Gtk::ALIGN_CENTER, Gtk::ALIGN_START); transLabels->set_tooltip_markup (M("TP_RETINEX_TLABEL_TOOLTIP")); settingsGrid->attach(*transLabels, 0, 1, 1, 1); transLabels->show (); transLabels2 = Gtk::manage(new Gtk::Label("---")); setExpandAlignProperties(transLabels2, true, false, Gtk::ALIGN_CENTER, Gtk::ALIGN_START); settingsGrid->attach(*transLabels2, 0, 2, 1, 1); transLabels2->show (); // EQUALIZER Frame ---------------------------------------------------------------- equalFrame = Gtk::manage (new Gtk::Frame(M("TP_RETINEX_EQUAL"))); setExpandAlignProperties(equalFrame, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); //GTK318 #if GTK_MAJOR_VERSION == 3 && GTK_MINOR_VERSION < 20 equalFrame->set_border_width(5); #endif //GTK318 Gtk::Grid *equalGrid = Gtk::manage (new Gtk::Grid()); setExpandAlignProperties(equalGrid, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); // Histogram equalizer Lab curve curveEditorGD = new CurveEditorGroup (options.lastRetinexDir, M("TP_RETINEX_CONTEDIT_LAB")); setExpandAlignProperties(curveEditorGD, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); curveEditorGD->setCurveListener (this); std::vector milestones22; milestones22.push_back( GradientMilestone(0., 0., 0., 0.) ); milestones22.push_back( GradientMilestone(1., 1., 1., 1.) ); cdshape = static_cast(curveEditorGD->addCurve(CT_Diagonal, M("TP_RETINEX_CURVEEDITOR_CD"))); cdshape->setTooltip(M("TP_RETINEX_CURVEEDITOR_CD_TOOLTIP")); cdshape->setBottomBarBgGradient(milestones22); cdshape->setLeftBarBgGradient(milestones22); curveEditorGD->curveListComplete(); equalGrid->attach(*curveEditorGD, 0, 0, 1, 1); curveEditorGD->show(); // Histogram equalizer HSL curve curveEditorGDH = new CurveEditorGroup (options.lastRetinexDir, M("TP_RETINEX_CONTEDIT_HSL")); setExpandAlignProperties(curveEditorGDH, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); curveEditorGDH->setCurveListener (this); std::vector milestones22H; milestones22H.push_back( GradientMilestone(0., 0., 0., 0.) ); milestones22H.push_back( GradientMilestone(1., 1., 1., 1.) ); cdshapeH = static_cast(curveEditorGDH->addCurve(CT_Diagonal, M("TP_RETINEX_CURVEEDITOR_CD"))); cdshapeH->setTooltip(M("TP_RETINEX_CURVEEDITOR_CD_TOOLTIP")); cdshapeH->setBottomBarBgGradient(milestones22H); cdshapeH->setLeftBarBgGradient(milestones22H); curveEditorGDH->curveListComplete(); equalGrid->attach(*curveEditorGDH, 0, 1, 1, 1); curveEditorGDH->show(); // Hue equalizer curveEditorGH = new CurveEditorGroup (options.lastRetinexDir, M("TP_RETINEX_CONTEDIT_LH")); setExpandAlignProperties(curveEditorGH, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); curveEditorGH->setCurveListener (this); lhshape = static_cast(curveEditorGH->addCurve(CT_Flat, M("TP_RETINEX_CURVEEDITOR_LH"))); lhshape->setTooltip(M("TP_RETINEX_CURVEEDITOR_LH_TOOLTIP")); lhshape->setCurveColorProvider(this, 4); milestones.clear(); for (int i = 0; i < 7; i++) { float R, G, B; float x = float(i) * (1.0f / 6.0); Color::hsv2rgb01(x, 0.5f, 0.5f, R, G, B); milestones.push_back( GradientMilestone(double(x), double(R), double(G), double(B)) ); } lhshape->setBottomBarBgGradient(milestones); curveEditorGH->curveListComplete(); equalGrid->attach(*curveEditorGH, 0, 2, 1, 1); curveEditorGH->show(); // Gamma settings gamgrid = Gtk::manage (new Gtk::Grid ()); setExpandAlignProperties(gamgrid, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); labgam = Gtk::manage (new Gtk::Label (M("TP_RETINEX_GAMMA") + ":")); setExpandAlignProperties(labgam, false, false, Gtk::ALIGN_START, Gtk::ALIGN_BASELINE); gamgrid->attach(*labgam, 0, 0, 1, 1); gammaretinex = Gtk::manage (new MyComboBoxText ()); setExpandAlignProperties(gammaretinex, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_BASELINE); gammaretinex->append (M("TP_RETINEX_GAMMA_NONE")); gammaretinex->append (M("TP_RETINEX_GAMMA_LOW")); gammaretinex->append (M("TP_RETINEX_GAMMA_MID")); gammaretinex->append (M("TP_RETINEX_GAMMA_HIGH")); gammaretinex->append (M("TP_RETINEX_GAMMA_FREE")); gammaretinex->set_active(0); gammaretinexConn = gammaretinex->signal_changed().connect ( sigc::mem_fun(*this, &Retinex::gammaretinexChanged) ); gammaretinex->set_tooltip_markup (M("TP_RETINEX_GAMMA_TOOLTIP")); gamgrid->attach(*gammaretinex, 1, 0, 1, 1); equalGrid->attach(*gamgrid, 0, 3, 1, 1); gammaretinex->show(); gam = Gtk::manage (new Adjuster (M("TP_RETINEX_FREEGAMMA"), 0.6, 3.0, 0.01, 1.30)); setExpandAlignProperties(gam, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); equalGrid->attach(*gam, 0, 4, 1, 1); gam->show (); slope = Gtk::manage (new Adjuster (M("TP_RETINEX_SLOPE"), 1., 20., 0.1, 3.)); setExpandAlignProperties(slope, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); equalGrid->attach(*slope, 0, 5, 1, 1); slope->show (); //------------- equalFrame->add(*equalGrid); settingsGrid->attach(*equalFrame, 0, 3, 1, 1); // TONE MAPPING Frame ------------------------------------------------------------- iterFrame = Gtk::manage (new Gtk::Frame(M("TP_RETINEX_ITERF"))); setExpandAlignProperties(iterFrame, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); //GTK318 #if GTK_MAJOR_VERSION == 3 && GTK_MINOR_VERSION < 20 iterFrame->set_border_width(5); #endif //GTK318 Gtk::Grid *iterGrid = Gtk::manage (new Gtk::Grid()); setExpandAlignProperties(iterGrid, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); iter = Gtk::manage (new Adjuster (M("TP_RETINEX_ITER"), 1, 5., 1., 1.)); setExpandAlignProperties(iter, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); iter->set_tooltip_markup (M("TP_RETINEX_ITER_TOOLTIP")); iterGrid->attach(*iter, 0, 0, 1, 1); iter->show (); scal = Gtk::manage (new Adjuster (M("TP_RETINEX_SCALES"), -1, 6., 1., 3.)); setExpandAlignProperties(scal, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); scal->set_tooltip_markup (M("TP_RETINEX_SCALES_TOOLTIP")); iterGrid->attach(*scal, 0, 1, 1, 1); scal->show (); grad = Gtk::manage (new Adjuster (M("TP_RETINEX_GRAD"), -2., 2., 1., 1.)); setExpandAlignProperties(grad, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); grad->set_tooltip_markup (M("TP_RETINEX_GRAD_TOOLTIP")); iterGrid->attach(*grad, 0, 2, 1, 1); grad->show (); grads = Gtk::manage (new Adjuster (M("TP_RETINEX_GRADS"), -2., 2., 1., 1.)); setExpandAlignProperties(grads, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); grads->set_tooltip_markup (M("TP_RETINEX_GRADS_TOOLTIP")); iterGrid->attach(*grads, 0, 3, 1, 1); grads->show (); //------------- iterFrame->add(*iterGrid); settingsGrid->attach(*iterFrame, 0, 4, 1, 1); // TRANSMISSION Frame ------------------------------------------------------------- tranFrame = Gtk::manage (new Gtk::Frame(M("TP_RETINEX_TRANF"))); setExpandAlignProperties(tranFrame, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); //GTK318 #if GTK_MAJOR_VERSION == 3 && GTK_MINOR_VERSION < 20 tranFrame->set_border_width(5); #endif //GTK318 Gtk::Grid *tranGrid = Gtk::manage (new Gtk::Grid()); setExpandAlignProperties(tranGrid, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); // Transmission map curve transmissionCurveEditorG = new CurveEditorGroup (options.lastRetinexDir, M("TP_RETINEX_TRANSMISSION")); setExpandAlignProperties(transmissionCurveEditorG, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); transmissionCurveEditorG->setCurveListener (this); rtengine::RetinexParams::getDefaulttransmissionCurve(defaultCurve); transmissionShape = static_cast(transmissionCurveEditorG->addCurve(CT_Flat, "", nullptr, false, false)); transmissionShape->setIdentityValue(0.); transmissionShape->setResetCurve(FlatCurveType(defaultCurve.at(0)), defaultCurve); transmissionShape->setBottomBarBgGradient(milestones); transmissionCurveEditorG->curveListComplete(); transmissionCurveEditorG->set_tooltip_markup (M("TP_RETINEX_TRANSMISSION_TOOLTIP")); tranGrid->attach( *transmissionCurveEditorG, 0, 0, 1, 1); transmissionCurveEditorG->show(); // Scale skal = Gtk::manage (new Adjuster (M("TP_RETINEX_SKAL"), 1, 8, 1, 3)); setExpandAlignProperties(skal, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); tranGrid->attach(*skal, 0, 1, 1, 1); skal->show (); // Threshold limd = Gtk::manage (new Adjuster (M("TP_RETINEX_THRESHOLD"), 2, 100, 1, 8)); setExpandAlignProperties(limd, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); limd->set_tooltip_markup (M("TP_RETINEX_THRESHOLD_TOOLTIP")); tranGrid->attach(*limd, 0, 2, 1, 1); limd->show (); // Transmission median filter medianmap = Gtk::manage (new Gtk::CheckButton (M("TP_RETINEX_MEDIAN"))); setExpandAlignProperties(medianmap, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); medianmap->set_active (true); medianmapConn = medianmap->signal_toggled().connect( sigc::mem_fun(*this, &Retinex::medianmapChanged) ); tranGrid->attach(*medianmap, 0, 3, 1, 1); medianmap->show (); //------------- tranFrame->add(*tranGrid); settingsGrid->attach(*tranFrame, 0, 5, 1, 1); // GAIN AND OFFSET Frame ---------------------------------------------------------- gainFrame = Gtk::manage (new Gtk::Frame(M("TP_RETINEX_GAINOFFS"))); setExpandAlignProperties(gainFrame, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); //GTK318 #if GTK_MAJOR_VERSION == 3 && GTK_MINOR_VERSION < 20 gainFrame->set_border_width(5); #endif //GTK318 Gtk::Grid *gainGrid = Gtk::manage (new Gtk::Grid()); setExpandAlignProperties(gainGrid, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); // Gain Transmission map curve gaintransmissionCurve = new CurveEditorGroup (options.lastRetinexDir, M("TP_RETINEX_GAINTRANSMISSION")); setExpandAlignProperties(gaintransmissionCurve, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); gaintransmissionCurve->setCurveListener (this); rtengine::RetinexParams::getDefaultgaintransmissionCurve(defaultCurve); gaintransmissionShape = static_cast(gaintransmissionCurve->addCurve(CT_Flat, "", nullptr, false, false)); gaintransmissionShape->setIdentityValue(0.); gaintransmissionShape->setResetCurve(FlatCurveType(defaultCurve.at(0)), defaultCurve); gaintransmissionShape->setBottomBarBgGradient(milestones); gaintransmissionCurve->set_tooltip_markup (M("TP_RETINEX_GAINTRANSMISSION_TOOLTIP")); gaintransmissionCurve->curveListComplete(); gainGrid->attach( *gaintransmissionCurve, 0, 0, 1, 1); gaintransmissionCurve->show(); gain = Gtk::manage (new Adjuster (M("TP_RETINEX_GAIN"), 20, 200, 1, 50)); // Unused !? setExpandAlignProperties(gain, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); gain->set_tooltip_markup (M("TP_RETINEX_GAIN_TOOLTIP")); offs = Gtk::manage (new Adjuster (M("TP_RETINEX_OFFSET"), -1000, 5000, 1, 0)); setExpandAlignProperties(offs, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); gainGrid->attach(*offs, 0, 1, 1, 1); offs->show (); //------------- gainFrame->add(*gainGrid); settingsGrid->attach(*gainFrame, 0, 6, 1, 1); baselog = Gtk::manage (new Adjuster (M("TP_RETINEX_BASELOG"), 1., 10., 1., 3.)); // Unused !? setExpandAlignProperties(baselog, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); baselog->set_tooltip_markup (M("TP_RETINEX_BASELOG_TOOLTIP")); // settingsGrid->attach(*baselog, 0, 7, 1, 1); // baselog->show (); //-------------------------- expsettings->add(*settingsGrid); expsettings->setLevel(2); pack_start (*expsettings); // End of SETTINGS Expander ======================================================= // Reset button neutral = Gtk::manage (new Gtk::Button (M("TP_RETINEX_NEUTRAL"))); setExpandAlignProperties(neutral, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_START); RTImage *resetImg = Gtk::manage (new RTImage ("gtk-undo-ltr-small.png", "gtk-undo-rtl-small.png")); setExpandAlignProperties(resetImg, false, false, Gtk::ALIGN_CENTER, Gtk::ALIGN_CENTER); neutral->set_image(*resetImg); neutral->set_tooltip_text (M("TP_RETINEX_NEUTRAL_TIP")); neutralconn = neutral->signal_pressed().connect( sigc::mem_fun(*this, &Retinex::neutral_pressed) ); neutral->show(); //------------- pack_start (*neutral); // Setting Adjusters'delay str->setAdjusterListener (this); if (str->delay < 200) { str->delay = 200; } scal->setAdjusterListener (this); if (scal->delay < 200) { scal->delay = 200; } iter->setAdjusterListener (this); if (iter->delay < 200) { iter->delay = 200; } grad->setAdjusterListener (this); if (grad->delay < 200) { grad->delay = 200; } grads->setAdjusterListener (this); if (grads->delay < 200) { grads->delay = 200; } gam->setAdjusterListener (this); if (gam->delay < 500) { gam->delay = 500; } slope->setAdjusterListener (this); if (slope->delay < 500) { slope->delay = 500; } neigh->setAdjusterListener (this); if (neigh->delay < 200) { neigh->delay = 200; } gain->setAdjusterListener (this); if (gain->delay < 200) { gain->delay = 200; } offs->setAdjusterListener (this); if (offs->delay < 200) { offs->delay = 200; } vart->setAdjusterListener (this); if (vart->delay < 200) { vart->delay = 200; } limd->setAdjusterListener (this); if (limd->delay < 200) { limd->delay = 200; } highl->setAdjusterListener (this); if (highl->delay < 200) { highl->delay = 200; } baselog->setAdjusterListener (this); if (baselog->delay < 200) { baselog->delay = 200; } radius->setAdjusterListener (this); if (radius->delay < 200) { radius->delay = 200; } highlights->setAdjusterListener (this); if (highlights->delay < 200) { highlights->delay = 200; } h_tonalwidth->setAdjusterListener (this); if (h_tonalwidth->delay < 200) { h_tonalwidth->delay = 200; } shadows->setAdjusterListener (this); if (shadows->delay < 200) { shadows->delay = 200; } s_tonalwidth->setAdjusterListener (this); if (s_tonalwidth->delay < 200) { s_tonalwidth->delay = 200; } skal->setAdjusterListener (this); if (skal->delay < 200) { skal->delay = 200; } disableListener(); retinexColorSpaceChanged(); gammaretinexChanged(); medianmapChanged(); enableListener(); } Retinex::~Retinex() { idle_register.destroy(); delete curveEditorGD; delete curveEditorGDH; delete transmissionCurveEditorG; delete gaintransmissionCurve; delete curveEditorGH; delete curveEditormap; } void Retinex::neutral_pressed () { neigh->resetValue(false); gain->resetValue(false); offs->resetValue(false); str->resetValue(false); scal->resetValue(false); iter->resetValue(false); grad->resetValue(false); grads->resetValue(false); vart->resetValue(false); limd->resetValue(false); highl->resetValue(false); baselog->resetValue(false); gam->resetValue(false); slope->resetValue(false); highlights->resetValue(false); h_tonalwidth->resetValue(false); shadows->resetValue(false); s_tonalwidth->resetValue(false); radius->resetValue(false); mapMethod->set_active(0); viewMethod->set_active(0); retinexMethod->set_active(2); retinexcolorspace->set_active(0); gammaretinex->set_active(0); transmissionShape->reset(); gaintransmissionShape->reset(); cdshape->reset(); cdshapeH->reset(); lhshape->reset(); mapshape->reset(); } void Retinex::foldAllButMe (GdkEventButton* event, MyExpander *expander) { if (event->button == 3) { expsettings->set_expanded(expsettings == expander); } } void Retinex::writeOptions(std::vector &tpOpen) { tpOpen.push_back (expsettings->get_expanded ()); } void Retinex::updateToolState(std::vector &tpOpen) { if(tpOpen.size() == 10) { expsettings->set_expanded(tpOpen.at(9)); } } void Retinex::minmaxChanged (double cdma, double cdmin, double mini, double maxi, double Tmean, double Tsigma, double Tmin, double Tmax) { nextmin = cdmin; nextmax = cdma; nextminiT = mini; nextmaxiT = maxi; nextmeanT = Tmean; nextsigma = Tsigma; nextminT = Tmin; nextmaxT = Tmax; const auto func = [](gpointer data) -> gboolean { GThreadLock lock; // All GUI access from idle_add callbacks or separate thread HAVE to be protected static_cast(data)->minmaxComputed_(); return FALSE; }; idle_register.add(func, this); } bool Retinex::minmaxComputed_ () { disableListener (); enableListener (); updateLabel (); updateTrans (); return false; } void Retinex::updateLabel () { if (!batchMode) { float nX, nY; nX = nextmin; nY = nextmax; { mMLabels->set_text( Glib::ustring::compose(M("TP_RETINEX_MLABEL"), Glib::ustring::format(std::fixed, std::setprecision(0), nX), Glib::ustring::format(std::fixed, std::setprecision(0), nY)) ); } } } void Retinex::updateTrans () { if (!batchMode) { float nm, nM, nZ, nA, nB, nS; nm = nextminiT; nM = nextmaxiT; nZ = nextmeanT; nA = nextminT; nB = nextmaxT; nS = nextsigma; { transLabels->set_text( Glib::ustring::compose(M("TP_RETINEX_TLABEL"), Glib::ustring::format(std::fixed, std::setprecision(1), nm), Glib::ustring::format(std::fixed, std::setprecision(1), nM), Glib::ustring::format(std::fixed, std::setprecision(1), nZ), Glib::ustring::format(std::fixed, std::setprecision(1), nS)) ); transLabels2->set_text( Glib::ustring::compose(M("TP_RETINEX_TLABEL2"), Glib::ustring::format(std::fixed, std::setprecision(1), nA), Glib::ustring::format(std::fixed, std::setprecision(1), nB)) ); } } } void Retinex::read (const ProcParams* pp, const ParamsEdited* pedited) { disableListener (); retinexMethodConn.block(true); retinexColorSpaceConn.block(true); gammaretinexConn.block(true); mapMethodConn.block(true); viewMethodConn.block(true); if (pedited) { scal->setEditedState (pedited->retinex.scal ? Edited : UnEdited); iter->setEditedState (pedited->retinex.iter ? Edited : UnEdited); grad->setEditedState (pedited->retinex.grad ? Edited : UnEdited); grads->setEditedState (pedited->retinex.grads ? Edited : UnEdited); neigh->setEditedState (pedited->retinex.neigh ? Edited : UnEdited); gam->setEditedState (pedited->retinex.gam ? Edited : UnEdited); slope->setEditedState (pedited->retinex.slope ? Edited : UnEdited); gain->setEditedState (pedited->retinex.gain ? Edited : UnEdited); offs->setEditedState (pedited->retinex.offs ? Edited : UnEdited); vart->setEditedState (pedited->retinex.vart ? Edited : UnEdited); limd->setEditedState (pedited->retinex.limd ? Edited : UnEdited); highl->setEditedState (pedited->retinex.highl ? Edited : UnEdited); baselog->setEditedState (pedited->retinex.baselog ? Edited : UnEdited); skal->setEditedState (pedited->retinex.skal ? Edited : UnEdited); set_inconsistent (multiImage && !pedited->retinex.enabled); medianmap->set_inconsistent (!pedited->retinex.medianmap); radius->setEditedState (pedited->retinex.radius ? Edited : UnEdited); highlights->setEditedState (pedited->retinex.highlights ? Edited : UnEdited); h_tonalwidth->setEditedState (pedited->retinex.htonalwidth ? Edited : UnEdited); shadows->setEditedState (pedited->retinex.shadows ? Edited : UnEdited); s_tonalwidth->setEditedState (pedited->retinex.stonalwidth ? Edited : UnEdited); if (!pedited->retinex.retinexMethod) { retinexMethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->retinex.mapMethod) { mapMethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->retinex.viewMethod) { viewMethod->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->retinex.retinexcolorspace) { retinexcolorspace->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->retinex.gammaretinex) { gammaretinex->set_active_text(M("GENERAL_UNCHANGED")); } cdshape->setUnChanged (!pedited->retinex.cdcurve); cdshapeH->setUnChanged (!pedited->retinex.cdHcurve); transmissionShape->setUnChanged (!pedited->retinex.transmissionCurve); gaintransmissionShape->setUnChanged (!pedited->retinex.gaintransmissionCurve); lhshape->setUnChanged (!pedited->retinex.lhcurve); mapshape->setUnChanged (!pedited->retinex.mapcurve); } neigh->setValue (pp->retinex.neigh); gain->setValue (pp->retinex.gain); offs->setValue (pp->retinex.offs); str->setValue (pp->retinex.str); scal->setValue (pp->retinex.scal); iter->setValue (pp->retinex.iter); grad->setValue (pp->retinex.grad); grads->setValue (pp->retinex.grads); vart->setValue (pp->retinex.vart); limd->setValue (pp->retinex.limd); gam->setValue (pp->retinex.gam); slope->setValue (pp->retinex.slope); highl->setValue (pp->retinex.highl); baselog->setValue (pp->retinex.baselog); radius->setValue (pp->retinex.radius); highlights->setValue (pp->retinex.highlights); h_tonalwidth->setValue (pp->retinex.htonalwidth); shadows->setValue (pp->retinex.shadows); s_tonalwidth->setValue (pp->retinex.stonalwidth); skal->setValue (pp->retinex.skal); if (!batchMode) { if(pp->retinex.iter == 1) { grad->set_sensitive(false); scal->set_sensitive(false); grads->set_sensitive(false); } else { grad->set_sensitive(true); scal->set_sensitive(true); grads->set_sensitive(true); } } setEnabled (pp->retinex.enabled); medianmap->set_active (pp->retinex.medianmap); medianmapConn.block (false); lastmedianmap = pp->retinex.medianmap; if (pp->retinex.retinexMethod == "low") { retinexMethod->set_active (0); } else if (pp->retinex.retinexMethod == "uni") { retinexMethod->set_active (1); } else if (pp->retinex.retinexMethod == "high") { retinexMethod->set_active (2); } else if (pp->retinex.retinexMethod == "highli") { retinexMethod->set_active (3); // } else if (pp->retinex.retinexMethod == "highliplus") { // retinexMethod->set_active (4); } if (pp->retinex.mapMethod == "none") { mapMethod->set_active (0); // } else if (pp->retinex.mapMethod == "curv") { // mapMethod->set_active (1); } else if (pp->retinex.mapMethod == "gaus") { mapMethod->set_active (1); } else if (pp->retinex.mapMethod == "map") { mapMethod->set_active (2); } else if (pp->retinex.mapMethod == "mapT") { mapMethod->set_active (3); } if (pp->retinex.viewMethod == "none") { viewMethod->set_active (0); } else if (pp->retinex.viewMethod == "unsharp") { viewMethod->set_active (1); } else if (pp->retinex.viewMethod == "mask") { viewMethod->set_active (2); } else if (pp->retinex.viewMethod == "tran") { viewMethod->set_active (3); } else if (pp->retinex.viewMethod == "tran2") { viewMethod->set_active (4); } if (pp->retinex.retinexcolorspace == "Lab") { retinexcolorspace->set_active (0); } else if (pp->retinex.retinexcolorspace == "HSLLOG") { retinexcolorspace->set_active (1); } else if (pp->retinex.retinexcolorspace == "HSLLIN") { retinexcolorspace->set_active (2); } if (pp->retinex.gammaretinex == "none") { gammaretinex->set_active (0); } else if (pp->retinex.gammaretinex == "low") { gammaretinex->set_active (1); } else if (pp->retinex.gammaretinex == "mid") { gammaretinex->set_active (2); } else if (pp->retinex.gammaretinex == "hig") { gammaretinex->set_active (3); } else if (pp->retinex.gammaretinex == "fre") { gammaretinex->set_active (4); } retinexMethodChanged (); retinexColorSpaceChanged(); gammaretinexChanged(); mapMethodChanged (); viewMethodChanged (); medianmapConn.block(true); medianmapChanged (); medianmapConn.block(false); cdshape->setCurve (pp->retinex.cdcurve); cdshapeH->setCurve (pp->retinex.cdHcurve); lhshape->setCurve (pp->retinex.lhcurve); mapshape->setCurve (pp->retinex.mapcurve); retinexMethodConn.block(false); retinexColorSpaceConn.block(false); gammaretinexConn.block(false); mapMethodConn.block(false); viewMethodConn.block(false); transmissionShape->setCurve (pp->retinex.transmissionCurve); gaintransmissionShape->setCurve (pp->retinex.gaintransmissionCurve); enableListener (); } void Retinex::write (ProcParams* pp, ParamsEdited* pedited) { pp->retinex.str = str->getValue (); pp->retinex.scal = (int)scal->getValue (); pp->retinex.iter = (int) iter->getValue (); pp->retinex.grad = (int) grad->getValue (); pp->retinex.grads = (int) grads->getValue (); pp->retinex.gam = gam->getValue (); pp->retinex.slope = slope->getValue (); pp->retinex.neigh = neigh->getValue (); pp->retinex.gain = (int)gain->getValue (); pp->retinex.offs = (int)offs->getValue (); pp->retinex.vart = (int)vart->getValue (); pp->retinex.limd = (int)limd->getValue (); pp->retinex.highl = (int)highl->getValue (); pp->retinex.baselog = baselog->getValue (); pp->retinex.skal = (int)skal->getValue (); pp->retinex.cdcurve = cdshape->getCurve (); pp->retinex.lhcurve = lhshape->getCurve (); pp->retinex.cdHcurve = cdshapeH->getCurve (); pp->retinex.mapcurve = mapshape->getCurve (); pp->retinex.transmissionCurve = transmissionShape->getCurve (); pp->retinex.gaintransmissionCurve = gaintransmissionShape->getCurve (); pp->retinex.enabled = getEnabled(); pp->retinex.medianmap = medianmap->get_active(); pp->retinex.radius = (int)radius->getValue (); pp->retinex.highlights = (int)highlights->getValue (); pp->retinex.htonalwidth = (int)h_tonalwidth->getValue (); pp->retinex.shadows = (int)shadows->getValue (); pp->retinex.stonalwidth = (int)s_tonalwidth->getValue (); if (pedited) { pedited->retinex.retinexMethod = retinexMethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->retinex.retinexcolorspace = retinexcolorspace->get_active_text() != M("GENERAL_UNCHANGED"); pedited->retinex.gammaretinex = gammaretinex->get_active_text() != M("GENERAL_UNCHANGED"); pedited->retinex.mapMethod = mapMethod->get_active_text() != M("GENERAL_UNCHANGED"); pedited->retinex.viewMethod = viewMethod->get_active_text() != M("GENERAL_UNCHANGED"); //%%%%%%%%%%%%%%%%%%%%%% pedited->retinex.str = str->getEditedState (); pedited->retinex.scal = scal->getEditedState (); pedited->retinex.iter = iter->getEditedState (); pedited->retinex.grad = grad->getEditedState (); pedited->retinex.grads = grads->getEditedState (); pedited->retinex.gam = gam->getEditedState (); pedited->retinex.slope = slope->getEditedState (); pedited->retinex.neigh = neigh->getEditedState (); pedited->retinex.gain = gain->getEditedState (); pedited->retinex.offs = offs->getEditedState (); pedited->retinex.vart = vart->getEditedState (); pedited->retinex.limd = limd->getEditedState (); pedited->retinex.highl = highl->getEditedState (); pedited->retinex.baselog = baselog->getEditedState (); pedited->retinex.skal = skal->getEditedState (); pedited->retinex.cdcurve = !cdshape->isUnChanged (); pedited->retinex.cdHcurve = !cdshapeH->isUnChanged (); pedited->retinex.transmissionCurve = !transmissionShape->isUnChanged (); pedited->retinex.gaintransmissionCurve = !gaintransmissionShape->isUnChanged (); pedited->retinex.mapcurve = !mapshape->isUnChanged (); pedited->retinex.enabled = !get_inconsistent(); pedited->retinex.medianmap = !medianmap->get_inconsistent(); pedited->retinex.lhcurve = !lhshape->isUnChanged (); pedited->retinex.radius = radius->getEditedState (); pedited->retinex.highlights = highlights->getEditedState (); pedited->retinex.htonalwidth = h_tonalwidth->getEditedState (); pedited->retinex.shadows = shadows->getEditedState (); pedited->retinex.stonalwidth = s_tonalwidth->getEditedState (); } if (retinexMethod->get_active_row_number() == 0) { pp->retinex.retinexMethod = "low"; } else if (retinexMethod->get_active_row_number() == 1) { pp->retinex.retinexMethod = "uni"; } else if (retinexMethod->get_active_row_number() == 2) { pp->retinex.retinexMethod = "high"; } else if (retinexMethod->get_active_row_number() == 3) { pp->retinex.retinexMethod = "highli"; // } else if (retinexMethod->get_active_row_number() == 4) { // pp->retinex.retinexMethod = "highliplus"; } if (mapMethod->get_active_row_number() == 0) { pp->retinex.mapMethod = "none"; // } else if (mapMethod->get_active_row_number() == 1) { // pp->retinex.mapMethod = "curv"; } else if (mapMethod->get_active_row_number() == 1) { pp->retinex.mapMethod = "gaus"; } else if (mapMethod->get_active_row_number() == 2) { pp->retinex.mapMethod = "map"; } else if (mapMethod->get_active_row_number() == 3) { pp->retinex.mapMethod = "mapT"; } if (viewMethod->get_active_row_number() == 0) { pp->retinex.viewMethod = "none"; } else if (viewMethod->get_active_row_number() == 1) { pp->retinex.viewMethod = "unsharp"; } else if (viewMethod->get_active_row_number() == 2) { pp->retinex.viewMethod = "mask"; } else if (viewMethod->get_active_row_number() == 3) { pp->retinex.viewMethod = "tran"; } else if (viewMethod->get_active_row_number() == 4) { pp->retinex.viewMethod = "tran2"; } if (retinexcolorspace->get_active_row_number() == 0) { pp->retinex.retinexcolorspace = "Lab"; } else if (retinexcolorspace->get_active_row_number() == 1) { pp->retinex.retinexcolorspace = "HSLLOG"; } else if (retinexcolorspace->get_active_row_number() == 2) { pp->retinex.retinexcolorspace = "HSLLIN"; } if (gammaretinex->get_active_row_number() == 0) { pp->retinex.gammaretinex = "none"; } else if (gammaretinex->get_active_row_number() == 1) { pp->retinex.gammaretinex = "low"; } else if (gammaretinex->get_active_row_number() == 2) { pp->retinex.gammaretinex = "mid"; } else if (gammaretinex->get_active_row_number() == 3) { pp->retinex.gammaretinex = "hig"; } else if (gammaretinex->get_active_row_number() == 4) { pp->retinex.gammaretinex = "fre"; } } void Retinex::retinexMethodChanged() { if (!batchMode) { if(retinexMethod->get_active_row_number() == 3) { highl->show(); } else { highl->hide(); } } if (listener) { listener->panelChanged (EvretinexMethod, retinexMethod->get_active_text ()); } } void Retinex::mapMethodChanged() { if (!batchMode) { if(mapMethod->get_active_row_number() == 1 /*|| mapMethod->get_active_row_number() == 2*/) { curveEditormap->show(); highlights->show(); h_tonalwidth->show(); shadows->show(); s_tonalwidth->show(); radius->show(); } else if(mapMethod->get_active_row_number() == 2 || mapMethod->get_active_row_number() == 3) { curveEditormap->show(); highlights->show(); h_tonalwidth->show(); shadows->show(); s_tonalwidth->show(); radius->hide(); } else { curveEditormap->hide(); highlights->hide(); h_tonalwidth->hide(); shadows->hide(); s_tonalwidth->hide(); radius->hide(); } } if (listener) { listener->panelChanged (EvmapMethod, mapMethod->get_active_text ()); } } void Retinex::viewMethodChanged() { if (!batchMode) { if(viewMethod->get_active_row_number() == 1 || viewMethod->get_active_row_number() == 2) { //vart->hide(); gain->hide(); offs->hide(); limd->hide(); transmissionCurveEditorG->hide(); medianmap->hide(); iterFrame->hide(); /* iter->hide(); scal->hide(); grad->hide(); grads->hide(); */ curveEditorGH->hide(); } else if(viewMethod->get_active_row_number() == 3 || viewMethod->get_active_row_number() == 4) { gain->hide(); offs->hide(); transmissionCurveEditorG->show(); //vart->hide(); curveEditorGH->hide(); } else { vart->show(); neigh->show(); gain->show(); offs->show(); limd->show(); transmissionCurveEditorG->show(); medianmap->show(); iterFrame->show(); /* iter->show(); scal->show(); grad->show(); grads->show(); */ curveEditorGH->show(); } } if (listener) { listener->panelChanged (EvviewMethod, viewMethod->get_active_text ()); } } void Retinex::ColorSpaceUpdateUI () { if (!batchMode) { curveEditorGH->show(); if(retinexcolorspace->get_active_row_number() == 0) { curveEditorGD->show(); curveEditorGDH->hide(); baselog->show(); } else if(retinexcolorspace->get_active_row_number() == 1) { curveEditorGD->hide(); curveEditorGDH->show(); baselog->show(); } else if(retinexcolorspace->get_active_row_number() == 2) { curveEditorGD->hide(); curveEditorGDH->show(); baselog->hide(); } } } void Retinex::retinexColorSpaceChanged() { ColorSpaceUpdateUI(); if (listener) { listener->panelChanged (EvretinexColorSpace, retinexcolorspace->get_active_text ()); } } void Retinex::gammaretinexChanged() { if (!batchMode) { if(gammaretinex->get_active_row_number() == 4) { gam->show(); slope->show(); } else /*if(gammaretinex->get_active_row_number() != 4)*/ { gam->hide(); slope->hide(); } } ColorSpaceUpdateUI(); if (listener) { listener->panelChanged (Evretinexgamma, gammaretinex->get_active_text ()); } } void Retinex::medianmapChanged () { if (batchMode) { if (medianmap->get_inconsistent()) { medianmap->set_inconsistent (false); medianmapConn.block (true); medianmap->set_active (false); medianmapConn.block (false); } else if (lastmedianmap) { medianmap->set_inconsistent (true); } lastmedianmap = medianmap->get_active (); } if (listener) { if (medianmap->get_active()) { if (getEnabled()) { listener->panelChanged (EvRetinexmedianmap, M("GENERAL_ENABLED")); } } else { if (getEnabled()) { listener->panelChanged (EvRetinexmedianmap, M("GENERAL_DISABLED")); } } } } void Retinex::setDefaults (const ProcParams* defParams, const ParamsEdited* pedited) { neigh->setDefault (defParams->retinex.neigh); gain->setDefault (defParams->retinex.gain); offs->setDefault (defParams->retinex.offs); str->setDefault (defParams->retinex.str); scal->setDefault (defParams->retinex.scal); iter->setDefault (defParams->retinex.iter); grad->setDefault (defParams->retinex.grad); grads->setDefault (defParams->retinex.grads); vart->setDefault (defParams->retinex.vart); limd->setDefault (defParams->retinex.limd); highl->setDefault (defParams->retinex.highl); baselog->setDefault (defParams->retinex.baselog); skal->setDefault (defParams->retinex.skal); gam->setDefault (defParams->retinex.gam); slope->setDefault (defParams->retinex.slope); radius->setDefault (defParams->retinex.radius); highlights->setDefault (defParams->retinex.highlights); h_tonalwidth->setDefault (defParams->retinex.htonalwidth); shadows->setDefault (defParams->retinex.shadows); s_tonalwidth->setDefault (defParams->retinex.stonalwidth); if (pedited) { neigh->setDefaultEditedState (pedited->retinex.neigh ? Edited : UnEdited); gain->setDefaultEditedState (pedited->retinex.gain ? Edited : UnEdited); offs->setDefaultEditedState (pedited->retinex.offs ? Edited : UnEdited); str->setDefaultEditedState (pedited->retinex.str ? Edited : UnEdited); scal->setDefaultEditedState (pedited->retinex.scal ? Edited : UnEdited); iter->setDefaultEditedState (pedited->retinex.iter ? Edited : UnEdited); grad->setDefaultEditedState (pedited->retinex.grad ? Edited : UnEdited); grads->setDefaultEditedState (pedited->retinex.grads ? Edited : UnEdited); vart->setDefaultEditedState (pedited->retinex.vart ? Edited : UnEdited); limd->setDefaultEditedState (pedited->retinex.limd ? Edited : UnEdited); highl->setDefaultEditedState (pedited->retinex.highl ? Edited : UnEdited); baselog->setDefaultEditedState (pedited->retinex.baselog ? Edited : UnEdited); skal->setDefaultEditedState (pedited->retinex.skal ? Edited : UnEdited); gam->setDefaultEditedState (pedited->retinex.gam ? Edited : UnEdited); slope->setDefaultEditedState (pedited->retinex.slope ? Edited : UnEdited); radius->setDefaultEditedState (pedited->retinex.radius ? Edited : UnEdited); highlights->setDefaultEditedState (pedited->retinex.highlights ? Edited : UnEdited); h_tonalwidth->setDefaultEditedState (pedited->retinex.htonalwidth ? Edited : UnEdited); shadows->setDefaultEditedState (pedited->retinex.shadows ? Edited : UnEdited); s_tonalwidth->setDefaultEditedState (pedited->retinex.stonalwidth ? Edited : UnEdited); } else { neigh->setDefaultEditedState (Irrelevant); gain->setDefaultEditedState (Irrelevant); offs->setDefaultEditedState (Irrelevant); vart->setDefaultEditedState (Irrelevant); limd->setDefaultEditedState (Irrelevant); highl->setDefaultEditedState (Irrelevant); baselog->setDefaultEditedState (Irrelevant); skal->setDefaultEditedState (Irrelevant); str->setDefaultEditedState (Irrelevant); scal->setDefaultEditedState (Irrelevant); iter->setDefaultEditedState (Irrelevant); grad->setDefaultEditedState (Irrelevant); grads->setDefaultEditedState (Irrelevant); gam->setDefaultEditedState (Irrelevant); slope->setDefaultEditedState (Irrelevant); radius->setDefaultEditedState (Irrelevant); highlights->setDefaultEditedState (Irrelevant); h_tonalwidth->setDefaultEditedState (Irrelevant); shadows->setDefaultEditedState (Irrelevant); s_tonalwidth->setDefaultEditedState (Irrelevant); } } void Retinex::setAdjusterBehavior (bool strAdd, bool neighAdd, bool limdAdd, bool gainAdd, bool offsAdd, bool vartAdd, bool gamAdd, bool slopeAdd) { str->setAddMode(strAdd); neigh->setAddMode(neighAdd); limd->setAddMode(limdAdd); gain->setAddMode(gainAdd); offs->setAddMode(offsAdd); vart->setAddMode(vartAdd); gam->setAddMode(gamAdd); slope->setAddMode(slopeAdd); } void Retinex::adjusterChanged (Adjuster* a, double newval) { if (a==iter && !batchMode) { if(iter->getIntValue() > 1) { scal->set_sensitive(true); grad->set_sensitive(true); grads->set_sensitive(true); } else { scal->set_sensitive(false); grad->set_sensitive(false); grads->set_sensitive(false); } } if (!listener || !getEnabled()) { return; } if (a == neigh) { listener->panelChanged (EvLneigh, neigh->getTextValue()); } else if (a == str) { listener->panelChanged (EvLstr, str->getTextValue()); } else if (a == scal) { listener->panelChanged (EvLscal, scal->getTextValue()); } else if (a == iter) { listener->panelChanged (EvLiter, iter->getTextValue()); } else if (a == grad) { listener->panelChanged (EvLgrad, grad->getTextValue()); } else if (a == grads) { listener->panelChanged (EvLgrads, grads->getTextValue()); } else if (a == gain) { listener->panelChanged (EvLgain, gain->getTextValue()); } else if (a == offs) { listener->panelChanged (EvLoffs, offs->getTextValue()); } else if (a == vart) { listener->panelChanged (EvLvart, vart->getTextValue()); } else if (a == limd) { listener->panelChanged (EvLlimd, limd->getTextValue()); } else if (a == highl) { listener->panelChanged (EvLhighl, highl->getTextValue()); } else if (a == baselog) { listener->panelChanged (EvLbaselog, baselog->getTextValue()); } else if (a == skal) { listener->panelChanged (EvLskal, skal->getTextValue()); } else if (a == gam) { listener->panelChanged (EvLgam, gam->getTextValue()); } else if (a == slope) { listener->panelChanged (EvLslope, slope->getTextValue()); } else if (a == highlights) { listener->panelChanged (EvLhighlights, highlights->getTextValue()); } else if (a == h_tonalwidth) { listener->panelChanged (EvLh_tonalwidth, h_tonalwidth->getTextValue()); } else if (a == shadows) { listener->panelChanged (EvLshadows, shadows->getTextValue()); } else if (a == s_tonalwidth) { listener->panelChanged (EvLs_tonalwidth, s_tonalwidth->getTextValue()); } else if (a == radius) { listener->panelChanged (EvLradius, radius->getTextValue()); } } void Retinex::autoOpenCurve () { cdshape->openIfNonlinear(); cdshapeH->openIfNonlinear(); transmissionShape->openIfNonlinear(); gaintransmissionShape->openIfNonlinear(); lhshape->openIfNonlinear(); mapshape->openIfNonlinear(); } void Retinex::curveChanged (CurveEditor* ce) { if (listener && getEnabled()) { if (ce == cdshape) { listener->panelChanged (EvLCDCurve, M("HISTORY_CUSTOMCURVE")); } else if (ce == cdshapeH) { listener->panelChanged (EvLCDHCurve, M("HISTORY_CUSTOMCURVE")); } else if (ce == transmissionShape) { listener->panelChanged (EvRetinextransmission, M("HISTORY_CUSTOMCURVE")); } else if (ce == gaintransmissionShape) { listener->panelChanged (EvRetinexgaintransmission, M("HISTORY_CUSTOMCURVE")); } else if (ce == lhshape) { listener->panelChanged (EvRetinexlhcurve, M("HISTORY_CUSTOMCURVE")); } else if (ce == mapshape) { listener->panelChanged (EvRetinexmapcurve, M("HISTORY_CUSTOMCURVE")); } } } void Retinex::enabledChanged () { if (listener) { if (get_inconsistent()) { listener->panelChanged (EvRetinexEnabled, M("GENERAL_UNCHANGED")); } else if (getEnabled()) { listener->panelChanged (EvRetinexEnabled, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvRetinexEnabled, M("GENERAL_DISABLED")); } } } void Retinex::trimValues (rtengine::procparams::ProcParams* pp) { str->trimValue(pp->retinex.str); scal->trimValue(pp->retinex.scal); iter->trimValue(pp->retinex.iter); grad->trimValue(pp->retinex.grad); grads->trimValue(pp->retinex.grads); neigh->trimValue(pp->retinex.neigh); gain->trimValue(pp->retinex.gain); offs->trimValue(pp->retinex.offs); vart->trimValue(pp->retinex.vart); limd->trimValue(pp->retinex.limd); highl->trimValue(pp->retinex.highl); baselog->trimValue(pp->retinex.baselog); gam->trimValue(pp->retinex.gam); slope->trimValue(pp->retinex.slope); highlights->trimValue(pp->retinex.highlights); shadows->trimValue(pp->retinex.shadows); } void Retinex::updateCurveBackgroundHistogram (LUTu & histToneCurve, LUTu & histLCurve, LUTu & histCCurve,/* LUTu & histCLurve, LUTu & histLLCurve,*/ LUTu & histLCAM, LUTu & histCCAM, LUTu & histRed, LUTu & histGreen, LUTu & histBlue, LUTu & histLuma, LUTu & histLRETI) { cdshape->updateBackgroundHistogram (histLRETI); cdshapeH->updateBackgroundHistogram (histLRETI); } void Retinex::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; // whole hue range // Y axis / from 0.15 up to 0.75 (arbitrary values; was 0.45 before) Color::hsv2rgb01(float(valY), float(valX), value, R, G, B); } else if (callerId == 3) { // lc - bottom bar float value = (1.f - 0.7f) * float(valX) + 0.7f; // 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 Retinex::setBatchMode (bool batchMode) { ToolPanel::setBatchMode (batchMode); neigh->showEditedCB (); gain->showEditedCB (); offs->showEditedCB (); str->showEditedCB (); scal->showEditedCB (); iter->showEditedCB (); grad->showEditedCB (); grads->showEditedCB (); gam->showEditedCB (); slope->showEditedCB (); vart->showEditedCB (); limd->showEditedCB (); highl->showEditedCB (); baselog->showEditedCB (); radius->showEditedCB (); highlights->showEditedCB (); h_tonalwidth->showEditedCB (); shadows->showEditedCB (); s_tonalwidth->showEditedCB (); skal->showEditedCB (); curveEditorGD->setBatchMode (batchMode); curveEditorGDH->setBatchMode (batchMode); transmissionCurveEditorG->setBatchMode (batchMode); gaintransmissionCurve->setBatchMode (batchMode); curveEditorGH->setBatchMode (batchMode); curveEditormap->setBatchMode (batchMode); }