/* * This file is part of RawTherapee. * * Copyright (c) 2004-2010 Gabor Horvath * * 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 . */ #include #include "icmpanel.h" #include "options.h" #include "guiutils.h" #include "../rtengine/iccstore.h" #include "../rtengine/dcp.h" #include "rtimage.h" using namespace rtengine; using namespace rtengine::procparams; extern Options options; ICMPanel::ICMPanel () : FoldableToolPanel(this, "icm", M("TP_ICM_LABEL")), iunchanged(nullptr), icmplistener(nullptr), lastRefFilename(""), camName("") { isBatchMode = lastToneCurve = lastApplyLookTable = lastApplyBaselineExposureOffset = lastApplyHueSatMap = lastgamfree = false; ipDialog = Gtk::manage (new MyFileChooserButton (M("TP_ICM_INPUTDLGLABEL"), Gtk::FILE_CHOOSER_ACTION_OPEN)); ipDialog->set_tooltip_text (M("TP_ICM_INPUTCUSTOM_TOOLTIP")); bindCurrentFolder (*ipDialog, options.lastIccDir); // ------------------------------- Input profile Gtk::Frame *iFrame = Gtk::manage (new Gtk::Frame(M("TP_ICM_INPUTPROFILE")) ); iFrame->set_label_align(0.025, 0.5); iVBox = Gtk::manage ( new Gtk::VBox()); iVBox->set_spacing(2); inone = Gtk::manage (new Gtk::RadioButton (M("TP_ICM_INPUTNONE"))); inone->set_tooltip_text (M("TP_ICM_INPUTNONE_TOOLTIP")); iVBox->pack_start (*inone, Gtk::PACK_SHRINK); iembedded = Gtk::manage (new Gtk::RadioButton (M("TP_ICM_INPUTEMBEDDED"))); iembedded->set_tooltip_text (M("TP_ICM_INPUTEMBEDDED_TOOLTIP")); iVBox->pack_start (*iembedded, Gtk::PACK_SHRINK); icamera = Gtk::manage (new Gtk::RadioButton (M("TP_ICM_INPUTCAMERA"))); icamera->set_tooltip_text (M("TP_ICM_INPUTCAMERA_TOOLTIP")); iVBox->pack_start (*icamera, Gtk::PACK_SHRINK); icameraICC = Gtk::manage (new Gtk::RadioButton (M("TP_ICM_INPUTCAMERAICC"))); icameraICC->set_tooltip_text (M("TP_ICM_INPUTCAMERAICC_TOOLTIP")); iVBox->pack_start (*icameraICC, Gtk::PACK_SHRINK); ifromfile = Gtk::manage (new Gtk::RadioButton (M("TP_ICM_INPUTCUSTOM") + ":")); Gtk::HBox* ffbox = Gtk::manage (new Gtk::HBox ()); ifromfile->set_tooltip_text (M("TP_ICM_INPUTCUSTOM_TOOLTIP")); ffbox->pack_start (*ifromfile, Gtk::PACK_SHRINK); ffbox->pack_start (*ipDialog); iVBox->pack_start (*ffbox, Gtk::PACK_SHRINK); opts = icamera->get_group(); icameraICC->set_group (opts); iembedded->set_group (opts); ifromfile->set_group (opts); inone->set_group (opts); dcpFrame = Gtk::manage (new Gtk::Frame ("DCP")); Gtk::Grid* dcpGrid = Gtk::manage ( new Gtk::Grid()); dcpGrid->set_column_homogeneous(false); dcpGrid->set_row_homogeneous(false); dcpGrid->set_column_spacing(2); dcpGrid->set_row_spacing(2); Gtk::Grid* dcpIllGrid = Gtk::manage ( new Gtk::Grid()); dcpIllGrid->set_column_homogeneous(false); dcpIllGrid->set_row_homogeneous(false); dcpIllGrid->set_column_spacing(2); dcpIllGrid->set_row_spacing(2); dcpIllLabel = Gtk::manage (new Gtk::Label (M("TP_ICM_DCPILLUMINANT") + ":")); setExpandAlignProperties(dcpIllLabel, false, false, Gtk::ALIGN_START, Gtk::ALIGN_CENTER); dcpIllLabel->set_tooltip_text (M("TP_ICM_DCPILLUMINANT_TOOLTIP")); dcpIllLabel->show (); dcpIll = Gtk::manage (new MyComboBoxText ()); setExpandAlignProperties(dcpIll, true, false, Gtk::ALIGN_FILL, Gtk::ALIGN_CENTER); dcpIll->set_tooltip_text (M("TP_ICM_DCPILLUMINANT_TOOLTIP")); dcpIll->append (M("TP_ICM_DCPILLUMINANT_INTERPOLATED")); dcpIll->append (M("TP_ICM_DCPILLUMINANT") + " 1"); dcpIll->append (M("TP_ICM_DCPILLUMINANT") + " 2"); dcpIll->show (); dcpTemperatures[0] = 0; dcpTemperatures[1] = 0; dcpIllGrid->attach_next_to(*dcpIllLabel, Gtk::POS_LEFT, 1, 1); dcpIllGrid->attach_next_to(*dcpIll, *dcpIllLabel, Gtk::POS_RIGHT, 1, 1); ckbToneCurve = Gtk::manage (new Gtk::CheckButton (M("TP_ICM_TONECURVE"))); ckbToneCurve->set_sensitive (false); ckbToneCurve->set_tooltip_text (M("TP_ICM_TONECURVE_TOOLTIP")); setExpandAlignProperties(ckbToneCurve, false, false, Gtk::ALIGN_START, Gtk::ALIGN_CENTER); ckbApplyLookTable = Gtk::manage (new Gtk::CheckButton (M("TP_ICM_APPLYLOOKTABLE"))); ckbApplyLookTable->set_sensitive (false); ckbApplyLookTable->set_tooltip_text (M("TP_ICM_APPLYLOOKTABLE_TOOLTIP")); setExpandAlignProperties(ckbApplyLookTable, false, false, Gtk::ALIGN_START, Gtk::ALIGN_CENTER); ckbApplyHueSatMap = Gtk::manage (new Gtk::CheckButton (M("TP_ICM_APPLYHUESATMAP"))); ckbApplyHueSatMap->set_sensitive (false); ckbApplyHueSatMap->set_tooltip_text (M("TP_ICM_APPLYHUESATMAP_TOOLTIP")); setExpandAlignProperties(ckbApplyHueSatMap, false, false, Gtk::ALIGN_START, Gtk::ALIGN_CENTER); ckbApplyBaselineExposureOffset = Gtk::manage (new Gtk::CheckButton (M("TP_ICM_APPLYBASELINEEXPOSUREOFFSET"))); ckbApplyBaselineExposureOffset->set_sensitive (false); ckbApplyBaselineExposureOffset->set_tooltip_text (M("TP_ICM_APPLYBASELINEEXPOSUREOFFSET_TOOLTIP")); setExpandAlignProperties(ckbApplyBaselineExposureOffset, false, false, Gtk::ALIGN_START, Gtk::ALIGN_CENTER); dcpGrid->attach_next_to(*dcpIllGrid, Gtk::POS_BOTTOM, 1, 1); dcpGrid->attach_next_to(*ckbToneCurve, Gtk::POS_BOTTOM, 1, 1); dcpGrid->attach_next_to(*ckbApplyHueSatMap, Gtk::POS_BOTTOM, 1, 1); dcpGrid->attach_next_to(*ckbApplyLookTable, Gtk::POS_BOTTOM, 1, 1); dcpGrid->attach_next_to(*ckbApplyBaselineExposureOffset, Gtk::POS_BOTTOM, 1, 1); dcpFrame->add(*dcpGrid); dcpFrame->set_sensitive(false); iVBox->pack_start (*dcpFrame); saveRef = Gtk::manage (new Gtk::Button (M("TP_ICM_SAVEREFERENCE"))); saveRef->set_image (*Gtk::manage (new RTImage ("gtk-save-large.png"))); saveRef->set_alignment (0.5f, 0.5f); saveRef->set_tooltip_markup (M("TP_ICM_SAVEREFERENCE_TOOLTIP")); iVBox->pack_start (*saveRef, Gtk::PACK_SHRINK); iFrame->add(*iVBox); pack_start (*iFrame, Gtk::PACK_EXPAND_WIDGET); // ---------------------------- Working profile Gtk::Frame *wFrame = Gtk::manage (new Gtk::Frame(M("TP_ICM_WORKINGPROFILE")) ); wFrame->set_label_align(0.025, 0.5); Gtk::VBox *wVBox = Gtk::manage ( new Gtk::VBox()); wVBox->set_spacing(2); wnames = Gtk::manage (new MyComboBoxText ()); wVBox->pack_start (*wnames, Gtk::PACK_SHRINK); std::vector wpnames = rtengine::ICCStore::getWorkingProfiles(); for (size_t i = 0; i < wpnames.size(); i++) { wnames->append (wpnames[i]); } wnames->set_active (0); wFrame->add(*wVBox); pack_start (*wFrame, Gtk::PACK_EXPAND_WIDGET); // ---------------------------- Output profile Gtk::Frame *oFrame = Gtk::manage (new Gtk::Frame(M("TP_ICM_OUTPUTPROFILE")) ); oFrame->set_label_align(0.025, 0.5); Gtk::VBox *oVBox = Gtk::manage ( new Gtk::VBox()); oVBox->set_spacing(2); onames = Gtk::manage (new MyComboBoxText ()); oVBox->pack_start (*onames, Gtk::PACK_SHRINK); onames->append (M("TP_ICM_NOICM")); onames->set_active (0); std::vector opnames = ICCStore::getInstance()->getProfiles (rtengine::ICCStore::ProfileType::OUTPUT); for (size_t i = 0; i < opnames.size(); i++) { onames->append (opnames[i]); } onames->set_active (0); // Rendering intent Gtk::HBox *riHBox = Gtk::manage ( new Gtk::HBox()); Gtk::Label* outputIntentLbl = Gtk::manage (new Gtk::Label(M("TP_ICM_PROFILEINTENT")+":")); riHBox->pack_start (*outputIntentLbl, Gtk::PACK_SHRINK); ointent.reset (new PopUpButton ()); ointent->addEntry("intent-perceptual.png", M("PREFERENCES_INTENT_PERCEPTUAL")); ointent->addEntry("intent-relative.png", M("PREFERENCES_INTENT_RELATIVE")); ointent->addEntry("intent-saturation.png", M("PREFERENCES_INTENT_SATURATION")); ointent->addEntry("intent-absolute.png", M("PREFERENCES_INTENT_ABSOLUTE")); ointent->setSelected (1); ointent->show(); riHBox->pack_start (*ointent->buttonGroup, Gtk::PACK_EXPAND_PADDING); oVBox->pack_start(*riHBox, Gtk::PACK_SHRINK); // Black Point Compensation obpc = Gtk::manage(new Gtk::CheckButton((M("TP_ICM_BPC")))); obpc->set_active (true); oVBox->pack_start(*obpc, Gtk::PACK_SHRINK); // Output gamma Gtk::HBox* gaHBox = Gtk::manage (new Gtk::HBox ()); Gtk::Label* galab = Gtk::manage (new Gtk::Label (M("TP_GAMMA_OUTPUT") + ":")); //galab->set_alignment (0.0, 0.5); gaHBox->pack_start (*galab, Gtk::PACK_SHRINK); wgamma = Gtk::manage (new MyComboBoxText ()); gaHBox->pack_start (*wgamma, Gtk::PACK_EXPAND_WIDGET); oVBox->pack_start(*gaHBox, Gtk::PACK_EXPAND_WIDGET); std::vector wpgamma = rtengine::ICCStore::getGamma(); for (size_t i = 0; i < wpgamma.size(); i++) { wgamma->append (wpgamma[i]); } wgamma->set_active (0); Gtk::Frame* fgFrame = Gtk::manage (new Gtk::Frame ()); Gtk::VBox *fgVBox = Gtk::manage ( new Gtk::VBox()); fgVBox->set_spacing(2); freegamma = Gtk::manage(new Gtk::CheckButton((M("TP_GAMMA_FREE")))); freegamma->set_active (false); fgFrame->set_label_widget(*freegamma); gampos = Gtk::manage(new Adjuster (M("TP_GAMMA_CURV"), 1, 3.5, 0.01, 2.22)); gampos->setAdjusterListener (this); if (gampos->delay < options.adjusterMaxDelay) { gampos->delay = options.adjusterMaxDelay; } gampos->show(); slpos = Gtk::manage(new Adjuster (M("TP_GAMMA_SLOP"), 0, 15, 0.01, 4.5)); slpos->setAdjusterListener (this); if (slpos->delay < options.adjusterMaxDelay) { slpos->delay = options.adjusterMaxDelay; } slpos->show(); fgVBox->pack_start( *gampos, Gtk::PACK_SHRINK);//gamma fgVBox->pack_start( *slpos, Gtk::PACK_SHRINK);//slope fgFrame->add(*fgVBox); oVBox->pack_start(*fgFrame, Gtk::PACK_EXPAND_WIDGET); oFrame->add(*oVBox); pack_start (*oFrame, Gtk::PACK_EXPAND_WIDGET); // ---------------------------- Output gamma list entries Glib::RefPtr filter_icc = Gtk::FileFilter::create(); filter_icc->set_name(M("FILECHOOSER_FILTER_COLPROF")); filter_icc->add_pattern("*.dcp"); filter_icc->add_pattern("*.DCP"); filter_icc->add_pattern("*.icc"); filter_icc->add_pattern("*.icm"); filter_icc->add_pattern("*.ICC"); filter_icc->add_pattern("*.ICM"); Glib::RefPtr filter_iccdng = Gtk::FileFilter::create(); filter_iccdng->set_name(M("FILECHOOSER_FILTER_COLPROF") + " + DNG"); filter_iccdng->add_pattern("*.dcp"); filter_iccdng->add_pattern("*.DCP"); filter_iccdng->add_pattern("*.dng"); filter_iccdng->add_pattern("*.DNG"); filter_iccdng->add_pattern("*.icc"); filter_iccdng->add_pattern("*.icm"); filter_iccdng->add_pattern("*.ICC"); filter_iccdng->add_pattern("*.ICM"); Glib::RefPtr filter_any = Gtk::FileFilter::create(); filter_any->set_name(M("FILECHOOSER_FILTER_ANY")); filter_any->add_pattern("*"); ipDialog->add_filter (filter_icc); ipDialog->add_filter (filter_iccdng); ipDialog->add_filter (filter_any); oldip = ""; wnamesconn = wnames->signal_changed().connect( sigc::mem_fun(*this, &ICMPanel::wpChanged) ); onamesconn = onames->signal_changed().connect( sigc::mem_fun(*this, &ICMPanel::opChanged) ); ointentconn = ointent->signal_changed().connect( sigc::mem_fun(*this, &ICMPanel::oiChanged) ); wgammaconn = wgamma->signal_changed().connect( sigc::mem_fun(*this, &ICMPanel::gpChanged) ); dcpillconn = dcpIll->signal_changed().connect( sigc::mem_fun(*this, &ICMPanel::dcpIlluminantChanged) ); obpcconn = obpc->signal_toggled().connect( sigc::mem_fun(*this, &ICMPanel::oBPCChanged) ); gamcsconn = freegamma->signal_toggled().connect ( sigc::mem_fun(*this, &ICMPanel::GamChanged)); tcurveconn = ckbToneCurve->signal_toggled().connect ( sigc::mem_fun(*this, &ICMPanel::toneCurveChanged)); ltableconn = ckbApplyLookTable->signal_toggled().connect ( sigc::mem_fun(*this, &ICMPanel::applyLookTableChanged)); beoconn = ckbApplyBaselineExposureOffset->signal_toggled().connect ( sigc::mem_fun(*this, &ICMPanel::applyBaselineExposureOffsetChanged)); hsmconn = ckbApplyHueSatMap->signal_toggled().connect ( sigc::mem_fun(*this, &ICMPanel::applyHueSatMapChanged)); icamera->signal_toggled().connect( sigc::mem_fun(*this, &ICMPanel::ipChanged) ); icameraICC->signal_toggled().connect( sigc::mem_fun(*this, &ICMPanel::ipChanged) ); iembedded->signal_toggled().connect( sigc::mem_fun(*this, &ICMPanel::ipChanged) ); ifromfile->signal_toggled().connect( sigc::mem_fun(*this, &ICMPanel::ipChanged) ); ipc = ipDialog->signal_selection_changed().connect( sigc::mem_fun(*this, &ICMPanel::ipSelectionChanged) ); saveRef->signal_pressed().connect( sigc::mem_fun(*this, &ICMPanel::saveReferencePressed) ); show_all (); } void ICMPanel::updateRenderingIntent (const Glib::ustring &profile) { const uint8_t supportedIntents = rtengine::ICCStore::getInstance()->getOutputIntents (profile); const bool supportsPerceptual = supportedIntents & 1 << INTENT_PERCEPTUAL; const bool supportsRelative = supportedIntents & 1 << INTENT_RELATIVE_COLORIMETRIC; const bool supportsSaturation = supportedIntents & 1 << INTENT_SATURATION; const bool supportsAbsolute = supportedIntents & 1 << INTENT_ABSOLUTE_COLORIMETRIC; //printf("Intents: %d / Perceptual: %d Relative: %d Saturation: %d Absolute: %d\n", supportedIntents, supportsPerceptual, supportsRelative, supportsSaturation, supportsAbsolute); if (!profile.empty() && (supportsPerceptual || supportsRelative || supportsSaturation || supportsAbsolute)) { ointent->set_sensitive (true); ointent->setItemSensitivity(0, supportsPerceptual); ointent->setItemSensitivity(1, supportsRelative); ointent->setItemSensitivity(2, supportsSaturation); ointent->setItemSensitivity(3, supportsAbsolute); } else { ointent->setItemSensitivity(0, true); ointent->setItemSensitivity(1, true); ointent->setItemSensitivity(2, true); ointent->setItemSensitivity(3, true); ointent->set_sensitive (false); ointent->setSelected (1); } } void ICMPanel::updateDCP (int dcpIlluminant, Glib::ustring dcp_name) { ConnectionBlocker dcpillconn_(dcpillconn); if (isBatchMode) { dcpFrame->set_sensitive(true); ckbToneCurve->set_sensitive (true); ckbApplyLookTable->set_sensitive (true); ckbApplyBaselineExposureOffset->set_sensitive (true); ckbApplyHueSatMap->set_sensitive (true); dcpIllLabel->set_sensitive (true); dcpIll->set_sensitive (true); if (dcpTemperatures[0] != 0 || dcpTemperatures[1] != 0) { int curr_active = dcpIll->get_active_row_number(); dcpIll->remove_all (); dcpIll->append (M("TP_ICM_DCPILLUMINANT_INTERPOLATED")); dcpIll->append (M("TP_ICM_DCPILLUMINANT") + " 1"); dcpIll->append (M("TP_ICM_DCPILLUMINANT") + " 2"); dcpIll->append (M("GENERAL_UNCHANGED")); dcpTemperatures[0] = 0; dcpTemperatures[1] = 0; dcpIll->set_active (curr_active); } if (dcpIll->get_active_row_number() == -1 && dcpIlluminant == -1) { dcpIll->set_active(0); } else if (dcpIlluminant >= 0 && dcpIlluminant != dcpIll->get_active_row_number()) { dcpIll->set_active(dcpIlluminant); } dcpIll->set_sensitive (true); dcpIllLabel->set_sensitive (true); return; } ckbToneCurve->set_sensitive (false); ckbApplyLookTable->set_sensitive (false); ckbApplyBaselineExposureOffset->set_sensitive (false); ckbApplyHueSatMap->set_sensitive (false); dcpIllLabel->set_sensitive (false); dcpIll->set_sensitive (false); dcpFrame->set_sensitive(false); DCPProfile* dcp = nullptr; if(dcp_name == "(cameraICC)") { dcp = DCPStore::getInstance()->getStdProfile(camName); } else if (ifromfile->get_active() && DCPStore::getInstance()->isValidDCPFileName(dcp_name)) { dcp = DCPStore::getInstance()->getProfile(dcp_name); } if (dcp) { dcpFrame->set_sensitive(true); if (dcp->getHasToneCurve()) { ckbToneCurve->set_sensitive (true); } if (dcp->getHasLookTable()) { ckbApplyLookTable->set_sensitive (true); } if (dcp->getHasBaselineExposureOffset()) { ckbApplyBaselineExposureOffset->set_sensitive (true); } if (dcp->getHasHueSatMap()) { ckbApplyHueSatMap->set_sensitive (true); } const DCPProfile::Illuminants illuminants = dcp->getIlluminants(); if (illuminants.will_interpolate) { if (dcpTemperatures[0] != illuminants.temperature_1 || dcpTemperatures[1] != illuminants.temperature_2) { char tempstr1[64], tempstr2[64]; sprintf(tempstr1, "%.0fK", illuminants.temperature_1); sprintf(tempstr2, "%.0fK", illuminants.temperature_2); int curr_active = dcpIll->get_active_row_number(); dcpIll->remove_all (); dcpIll->append (M("TP_ICM_DCPILLUMINANT_INTERPOLATED")); dcpIll->append (tempstr1); dcpIll->append (tempstr2); dcpTemperatures[0] = illuminants.temperature_1; dcpTemperatures[1] = illuminants.temperature_2; dcpIll->set_active (curr_active); } if (dcpIlluminant > 2) { dcpIlluminant = 0; } if (dcpIll->get_active_row_number() == -1 && dcpIlluminant == -1) { dcpIll->set_active(0); } else if (dcpIlluminant >= 0 && dcpIlluminant != dcpIll->get_active_row_number()) { dcpIll->set_active(dcpIlluminant); } dcpIll->set_sensitive (true); dcpIllLabel->set_sensitive (true); } else { if (dcpIll->get_active_row_number() != -1) { dcpIll->set_active(-1); } } } if (!dcpIllLabel->get_sensitive() && dcpIll->get_active_row_number() != 0) { if (dcpTemperatures[0] != 0 || dcpTemperatures[1] != 0) { int curr_active = dcpIll->get_active_row_number(); dcpIll->remove_all (); dcpIll->append (M("TP_ICM_DCPILLUMINANT_INTERPOLATED")); dcpIll->append (M("TP_ICM_DCPILLUMINANT") + " 1"); dcpIll->append (M("TP_ICM_DCPILLUMINANT") + " 2"); if (isBatchMode) { dcpIll->append (M("GENERAL_UNCHANGED")); } dcpTemperatures[0] = 0; dcpTemperatures[1] = 0; dcpIll->set_active (curr_active); } } } void ICMPanel::read (const ProcParams* pp, const ParamsEdited* pedited) { disableListener (); ConnectionBlocker obpcconn_(obpcconn); ConnectionBlocker ipc_(ipc); ConnectionBlocker gamcsconn_(gamcsconn); ConnectionBlocker tcurveconn_(tcurveconn); ConnectionBlocker ltableconn_(ltableconn); ConnectionBlocker beoconn_(beoconn); ConnectionBlocker hsmconn_(hsmconn); ConnectionBlocker wnamesconn_(wnamesconn); ConnectionBlocker onamesconn_(onamesconn); ConnectionBlocker ointentconn_(ointentconn); ConnectionBlocker wgammaconn_(wgammaconn); ConnectionBlocker dcpillconn_(dcpillconn); if(pp->icm.input.substr(0, 5) != "file:" && !ipDialog->get_filename().empty()) { ipDialog->set_filename(pp->icm.input); } if (pp->icm.input == "(none)") { inone->set_active (true); updateDCP(pp->icm.dcpIlluminant, ""); } else if (pp->icm.input == "(embedded)" || ((pp->icm.input == "(camera)" || pp->icm.input == "") && icamera->get_state() == Gtk::STATE_INSENSITIVE)) { iembedded->set_active (true); updateDCP(pp->icm.dcpIlluminant, ""); } else if ((pp->icm.input == "(cameraICC)") && icameraICC->get_state() != Gtk::STATE_INSENSITIVE) { icameraICC->set_active (true); updateDCP(pp->icm.dcpIlluminant, "(cameraICC)"); } else if ((pp->icm.input == "(cameraICC)") && icamera->get_state() != Gtk::STATE_INSENSITIVE && icameraICC->get_state() == Gtk::STATE_INSENSITIVE) { // this is the case when (cameraICC) is instructed by packaged profiles, but ICC file is not found // therefore falling back UI to explicitly reflect the (camera) option icamera->set_active (true); updateDCP(pp->icm.dcpIlluminant, ""); } else if ((pp->icm.input == "(cameraICC)") && icamera->get_state() == Gtk::STATE_INSENSITIVE && icameraICC->get_state() == Gtk::STATE_INSENSITIVE) { // If neither (camera) nor (cameraICC) are available, as is the case when loading a non-raw, activate (embedded). iembedded->set_active (true); updateDCP(pp->icm.dcpIlluminant, "(cameraICC)"); } else if ((pp->icm.input == "(camera)" || pp->icm.input == "") && icamera->get_state() != Gtk::STATE_INSENSITIVE) { icamera->set_active (true); updateDCP(pp->icm.dcpIlluminant, ""); } else { ifromfile->set_active (true); oldip = pp->icm.input.substr(5); // cut of "file:" ipDialog->set_filename (pp->icm.input.substr(5)); updateDCP(pp->icm.dcpIlluminant, pp->icm.input.substr(5)); } wnames->set_active_text (pp->icm.working); wgamma->set_active_text (pp->icm.gamma); if (pp->icm.output == ColorManagementParams::NoICMString) { onames->set_active_text (M("TP_ICM_NOICM")); } else { onames->set_active_text (pp->icm.output); } if (onames->get_active_row_number() == -1) { onames->set_active_text (M("TP_ICM_NOICM")); } ointent->setSelected (pp->icm.outputIntent); obpc->set_active (pp->icm.outputBPC); ckbToneCurve->set_active (pp->icm.toneCurve); lastToneCurve = pp->icm.toneCurve; ckbApplyLookTable->set_active (pp->icm.applyLookTable); lastApplyLookTable = pp->icm.applyLookTable; ckbApplyBaselineExposureOffset->set_active (pp->icm.applyBaselineExposureOffset); lastApplyBaselineExposureOffset = pp->icm.applyBaselineExposureOffset; ckbApplyHueSatMap->set_active (pp->icm.applyHueSatMap); lastApplyHueSatMap = pp->icm.applyHueSatMap; freegamma->set_active (pp->icm.freegamma); lastgamfree = pp->icm.freegamma; if (!batchMode) { onames->set_sensitive(wgamma->get_active_row_number() == 0 && !pp->icm.freegamma); //"default" wgamma->set_sensitive(!pp->icm.freegamma); gampos->set_sensitive(pp->icm.freegamma); slpos->set_sensitive(pp->icm.freegamma); updateRenderingIntent(pp->icm.output); } gampos->setValue (pp->icm.gampos); slpos->setValue (pp->icm.slpos); if (pedited) { iunchanged->set_active (!pedited->icm.input); obpc->set_inconsistent(!pedited->icm.outputBPC); ckbToneCurve->set_inconsistent(!pedited->icm.toneCurve); ckbApplyLookTable->set_inconsistent(!pedited->icm.applyLookTable); ckbApplyBaselineExposureOffset->set_inconsistent(!pedited->icm.applyBaselineExposureOffset); ckbApplyHueSatMap->set_inconsistent(!pedited->icm.applyHueSatMap); freegamma->set_inconsistent (!pedited->icm.freegamma); if (!pedited->icm.working) { wnames->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->icm.output) { onames->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->icm.outputIntent) { ointent->setSelected (4); } if (!pedited->icm.dcpIlluminant) { dcpIll->set_active_text(M("GENERAL_UNCHANGED")); } if (!pedited->icm.gamma) { wgamma->set_active_text(M("GENERAL_UNCHANGED")); wgamma->set_active_text(M("GENERAL_UNCHANGED")); } gampos->setEditedState (pedited->icm.gampos ? Edited : UnEdited); slpos->setEditedState (pedited->icm.slpos ? Edited : UnEdited); } enableListener (); } void ICMPanel::write (ProcParams* pp, ParamsEdited* pedited) { if (inone->get_active()) { pp->icm.input = "(none)"; } else if (iembedded->get_active ()) { pp->icm.input = "(embedded)"; } else if (icamera->get_active ()) { pp->icm.input = "(camera)"; } else if (icameraICC->get_active ()) { pp->icm.input = "(cameraICC)"; } else { if (Glib::file_test (ipDialog->get_filename (), Glib::FILE_TEST_EXISTS) && !Glib::file_test (ipDialog->get_filename (), Glib::FILE_TEST_IS_DIR)) { pp->icm.input = "file:" + ipDialog->get_filename (); } else { pp->icm.input = ""; // just a directory } Glib::ustring p = Glib::path_get_dirname(ipDialog->get_filename ()); } pp->icm.working = wnames->get_active_text (); pp->icm.gamma = wgamma->get_active_text (); pp->icm.dcpIlluminant = rtengine::max(dcpIll->get_active_row_number(), 0); if (onames->get_active_text() == M("TP_ICM_NOICM")) { pp->icm.output = ColorManagementParams::NoICMString; } else { pp->icm.output = onames->get_active_text(); } int ointentVal = ointent->getSelected (); if (ointentVal >= 0 && ointentVal < RI__COUNT) { pp->icm.outputIntent = static_cast(ointentVal); } else { pp->icm.outputIntent = rtengine::RI_RELATIVE; } pp->icm.freegamma = freegamma->get_active(); pp->icm.toneCurve = ckbToneCurve->get_active (); pp->icm.applyLookTable = ckbApplyLookTable->get_active (); pp->icm.applyBaselineExposureOffset = ckbApplyBaselineExposureOffset->get_active (); pp->icm.applyHueSatMap = ckbApplyHueSatMap->get_active (); pp->icm.gampos = (double) gampos->getValue(); pp->icm.slpos = (double) slpos->getValue(); pp->icm.outputBPC = obpc->get_active (); if (pedited) { pedited->icm.input = !iunchanged->get_active (); pedited->icm.working = wnames->get_active_text() != M("GENERAL_UNCHANGED"); pedited->icm.output = onames->get_active_text() != M("GENERAL_UNCHANGED"); pedited->icm.outputIntent = ointent->getSelected () < 4; pedited->icm.outputBPC = !obpc->get_inconsistent (); pedited->icm.dcpIlluminant = dcpIll->get_active_text() != M("GENERAL_UNCHANGED"); pedited->icm.toneCurve = !ckbToneCurve->get_inconsistent (); pedited->icm.applyLookTable = !ckbApplyLookTable->get_inconsistent (); pedited->icm.applyBaselineExposureOffset = !ckbApplyBaselineExposureOffset->get_inconsistent (); pedited->icm.applyHueSatMap = !ckbApplyHueSatMap->get_inconsistent (); pedited->icm.gamma = wgamma->get_active_text() != M("GENERAL_UNCHANGED"); pedited->icm.freegamma = !freegamma->get_inconsistent(); pedited->icm.gampos = gampos->getEditedState (); pedited->icm.slpos = slpos->getEditedState (); } } void ICMPanel::setDefaults (const ProcParams* defParams, const ParamsEdited* pedited) { gampos->setDefault (defParams->icm.gampos); slpos->setDefault (defParams->icm.slpos); if (pedited) { gampos->setDefaultEditedState (pedited->icm.gampos ? Edited : UnEdited); slpos->setDefaultEditedState (pedited->icm.slpos ? Edited : UnEdited); } else { gampos->setDefaultEditedState (Irrelevant); slpos->setDefaultEditedState (Irrelevant); } } void ICMPanel::setAdjusterBehavior (bool gammaadd, bool slopeadd) { gampos->setAddMode (gammaadd); slpos->setAddMode (slopeadd); } void ICMPanel::adjusterChanged (Adjuster* a, double newval) { if (listener && (freegamma->get_active() || batchMode)) { Glib::ustring costr = Glib::ustring::format (std::setw(3), std::fixed, std::setprecision(2), newval); if (a == gampos) { listener->panelChanged (EvGAMPOS, costr); } else if (a == slpos) { listener->panelChanged (EvSLPOS, costr); } } } void ICMPanel::wpChanged () { if (listener) { listener->panelChanged (EvWProfile, wnames->get_active_text ()); } } void ICMPanel::gpChanged () { if (listener) { listener->panelChanged (EvGAMMA, wgamma->get_active_text ()); onames->set_sensitive(wgamma->get_active_row_number() == 0); //"default" } } void ICMPanel::dcpIlluminantChanged() { if (listener) { listener->panelChanged (EvDCPIlluminant, dcpIll->get_active_text ()); } } void ICMPanel::toneCurveChanged() { if (multiImage) { if (ckbToneCurve->get_inconsistent()) { ckbToneCurve->set_inconsistent (false); tcurveconn.block (true); ckbToneCurve->set_active (false); tcurveconn.block (false); } else if (lastToneCurve) { ckbToneCurve->set_inconsistent (true); } lastToneCurve = ckbToneCurve->get_active (); } if (listener) { if (ckbToneCurve->get_inconsistent()) { listener->panelChanged (EvDCPToneCurve, M("GENERAL_UNCHANGED")); } else if (ckbToneCurve->get_active()) { listener->panelChanged (EvDCPToneCurve, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvDCPToneCurve, M("GENERAL_DISABLED")); } } } void ICMPanel::applyLookTableChanged() { if (multiImage) { if (ckbApplyLookTable->get_inconsistent()) { ckbApplyLookTable->set_inconsistent (false); ltableconn.block (true); ckbApplyLookTable->set_active (false); ltableconn.block (false); } else if (lastApplyLookTable) { ckbApplyLookTable->set_inconsistent (true); } lastApplyLookTable = ckbApplyLookTable->get_active (); } if (listener) { if (ckbApplyLookTable->get_inconsistent()) { listener->panelChanged (EvDCPApplyLookTable, M("GENERAL_UNCHANGED")); } else if (ckbApplyLookTable->get_active()) { listener->panelChanged (EvDCPApplyLookTable, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvDCPApplyLookTable, M("GENERAL_DISABLED")); } } } void ICMPanel::applyBaselineExposureOffsetChanged() { if (multiImage) { if (ckbApplyBaselineExposureOffset->get_inconsistent()) { ckbApplyBaselineExposureOffset->set_inconsistent (false); beoconn.block (true); ckbApplyBaselineExposureOffset->set_active (false); beoconn.block (false); } else if (lastApplyBaselineExposureOffset) { ckbApplyBaselineExposureOffset->set_inconsistent (true); } lastApplyBaselineExposureOffset = ckbApplyBaselineExposureOffset->get_active (); } if (listener) { if (ckbApplyBaselineExposureOffset->get_inconsistent()) { listener->panelChanged (EvDCPApplyBaselineExposureOffset, M("GENERAL_UNCHANGED")); } else if (ckbApplyBaselineExposureOffset->get_active()) { listener->panelChanged (EvDCPApplyBaselineExposureOffset, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvDCPApplyBaselineExposureOffset, M("GENERAL_DISABLED")); } } } void ICMPanel::applyHueSatMapChanged() { if (multiImage) { if (ckbApplyHueSatMap->get_inconsistent()) { ckbApplyHueSatMap->set_inconsistent (false); hsmconn.block (true); ckbApplyHueSatMap->set_active (false); hsmconn.block (false); } else if (lastApplyHueSatMap) { ckbApplyHueSatMap->set_inconsistent (true); } lastApplyHueSatMap = ckbApplyHueSatMap->get_active (); } if (listener) { if (ckbApplyHueSatMap->get_inconsistent()) { listener->panelChanged (EvDCPApplyHueSatMap, M("GENERAL_UNCHANGED")); } else if (ckbApplyHueSatMap->get_active()) { listener->panelChanged (EvDCPApplyHueSatMap, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvDCPApplyHueSatMap, M("GENERAL_DISABLED")); } } } void ICMPanel::ipChanged () { Glib::ustring profname; if (inone->get_active()) { profname = "(none)"; } else if (iembedded->get_active ()) { profname = "(embedded)"; } else if (icamera->get_active ()) { profname = "(camera)"; } else if (icameraICC->get_active ()) { profname = "(cameraICC)"; } else { profname = ipDialog->get_filename (); } updateDCP(-1, profname); if (listener && profname != oldip) { listener->panelChanged (EvIProfile, profname); } oldip = profname; } void ICMPanel::GamChanged() { if (multiImage) { if (freegamma->get_inconsistent()) { freegamma->set_inconsistent (false); gamcsconn.block (true); freegamma->set_active (false); gamcsconn.block (false); } else if (lastgamfree) { freegamma->set_inconsistent (true); } lastgamfree = freegamma->get_active (); } if (listener) { if (freegamma->get_inconsistent()) { listener->panelChanged (EvGAMFREE, M("GENERAL_UNCHANGED")); } else if (freegamma->get_active()) { listener->panelChanged (EvGAMFREE, M("GENERAL_ENABLED")); if (!batchMode) { onames->set_sensitive(false);//disabled choice wgamma->set_sensitive(false); gampos->set_sensitive(true); slpos->set_sensitive(true); } } else { listener->panelChanged (EvGAMFREE, M("GENERAL_DISABLED")); if (!batchMode) { onames->set_sensitive(wgamma->get_active_row_number() == 0); wgamma->set_sensitive(true); gampos->set_sensitive(false); slpos->set_sensitive(false); } } } } void ICMPanel::opChanged () { if (!batchMode) { updateRenderingIntent(onames->get_active_text()); } if (listener) { listener->panelChanged (EvOProfile, onames->get_active_text()); } } void ICMPanel::oiChanged (int n) { if (listener) { Glib::ustring str; switch (n) { case 0: str = M("PREFERENCES_INTENT_PERCEPTUAL"); break; case 1: str = M("PREFERENCES_INTENT_RELATIVE"); break; case 2: str = M("PREFERENCES_INTENT_SATURATION"); break; case 3: str = M("PREFERENCES_INTENT_ABSOLUTE"); break; case 4: default: str = M("GENERAL_UNCHANGED"); break; } listener->panelChanged (EvOIntent, str); } } void ICMPanel::oBPCChanged () { if (multiImage) { if (obpc->get_inconsistent()) { obpc->set_inconsistent (false); obpcconn.block (true); obpc->set_active (false); obpcconn.block (false); } else if (lastobpc) { obpc->set_inconsistent (true); } lastobpc = obpc->get_active (); } if (listener) { if (obpc->get_inconsistent()) { listener->panelChanged (EvOBPCompens, M("GENERAL_UNCHANGED")); } else if (obpc->get_active()) { listener->panelChanged (EvOBPCompens, M("GENERAL_ENABLED")); } else { listener->panelChanged (EvOBPCompens, M("GENERAL_DISABLED")); } } } void ICMPanel::setRawMeta (bool raw, const rtengine::FramesData* pMeta) { disableListener (); icamera->set_active (raw); iembedded->set_active (!raw); icamera->set_sensitive (raw); camName = pMeta->getCamera(); icameraICC->set_sensitive (raw && (ICCStore::getInstance()->getStdProfile(pMeta->getCamera()) != nullptr || DCPStore::getInstance()->getStdProfile(pMeta->getCamera()) != nullptr)); iembedded->set_sensitive (!raw); enableListener (); } void ICMPanel::ipSelectionChanged() { if (ipDialog->get_filename() == "") { return; } ipChanged(); } void ICMPanel::saveReferencePressed () { if (!icmplistener) { return; } Gtk::FileChooserDialog dialog (getToplevelWindow (this), M("TP_ICM_SAVEREFERENCE"), Gtk::FILE_CHOOSER_ACTION_SAVE); bindCurrentFolder (dialog, options.lastProfilingReferenceDir); dialog.set_current_name (lastRefFilename); dialog.add_button(M("GENERAL_CANCEL"), Gtk::RESPONSE_CANCEL); dialog.add_button(M("GENERAL_SAVE"), Gtk::RESPONSE_OK); Gtk::CheckButton applyWB(M("TP_ICM_SAVEREFERENCE_APPLYWB")); applyWB.set_tooltip_text (M("TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP")); Gtk::HBox* hbox = Gtk::manage( new Gtk::HBox() ); hbox->pack_end(applyWB, Gtk::PACK_SHRINK, 2); Gtk::Box *box = dialog.get_content_area(); box->pack_end(*hbox, Gtk::PACK_SHRINK, 2); Glib::RefPtr filter_tif = Gtk::FileFilter::create(); filter_tif->set_name(M("FILECHOOSER_FILTER_TIFF")); filter_tif->add_pattern("*.tif"); filter_tif->add_pattern("*.tiff"); dialog.add_filter(filter_tif); Glib::RefPtr filter_any = Gtk::FileFilter::create(); filter_any->set_name(M("FILECHOOSER_FILTER_ANY")); filter_any->add_pattern("*"); dialog.add_filter(filter_any); dialog.show_all_children(); //dialog.set_do_overwrite_confirmation (true); bool done = false; do { int result = dialog.run(); if (result != Gtk::RESPONSE_OK) { done = true; } else { std::string fname = dialog.get_filename(); Glib::ustring ext = getExtension(fname); if (ext != "tif" && ext != "tiff") { fname += ".tif"; } if (confirmOverwrite(dialog, fname)) { icmplistener->saveInputICCReference (fname, applyWB.get_active()); lastRefFilename = Glib::path_get_basename (fname); done = true; } } } while (!done); return; } void ICMPanel::setBatchMode (bool batchMode) { isBatchMode = true; ToolPanel::setBatchMode (batchMode); iunchanged = Gtk::manage (new Gtk::RadioButton (M("GENERAL_UNCHANGED"))); iunchanged->set_group (opts); iVBox->pack_start (*iunchanged, Gtk::PACK_SHRINK, 4); iVBox->reorder_child (*iunchanged, 5); removeIfThere (this, saveRef); onames->append (M("GENERAL_UNCHANGED")); ointent->addEntry("unchanged-22.png", M("GENERAL_UNCHANGED")); ointent->show(); wnames->append (M("GENERAL_UNCHANGED")); wgamma->append (M("GENERAL_UNCHANGED")); dcpIll->append (M("GENERAL_UNCHANGED")); gampos->showEditedCB (); slpos->showEditedCB (); }