/* * 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 #include #include "curves.h" #include "procparams.h" #include "rt_math.h" #include "../rtgui/multilangmgr.h" #include "../rtgui/options.h" #include "../rtgui/paramsedited.h" #include "../rtgui/ppversion.h" #include "../rtgui/version.h" using namespace std; extern Options options; namespace { Glib::ustring expandRelativePath (const Glib::ustring &procparams_fname, const Glib::ustring &prefix, Glib::ustring embedded_fname) { if (embedded_fname == "" || !Glib::path_is_absolute (procparams_fname)) { return embedded_fname; } if (prefix != "") { if (embedded_fname.length() < prefix.length() || embedded_fname.substr (0, prefix.length()) != prefix) { return embedded_fname; } embedded_fname = embedded_fname.substr (prefix.length()); } if (Glib::path_is_absolute (embedded_fname)) { return prefix + embedded_fname; } Glib::ustring absPath = prefix + Glib::path_get_dirname (procparams_fname) + G_DIR_SEPARATOR_S + embedded_fname; return absPath; } Glib::ustring relativePathIfInside (const Glib::ustring &procparams_fname, bool fnameAbsolute, Glib::ustring embedded_fname) { if (fnameAbsolute || embedded_fname == "" || !Glib::path_is_absolute (procparams_fname)) { return embedded_fname; } Glib::ustring prefix = ""; if (embedded_fname.length() > 5 && embedded_fname.substr (0, 5) == "file:") { embedded_fname = embedded_fname.substr (5); prefix = "file:"; } if (!Glib::path_is_absolute (embedded_fname)) { return prefix + embedded_fname; } Glib::ustring dir1 = Glib::path_get_dirname (procparams_fname) + G_DIR_SEPARATOR_S; Glib::ustring dir2 = Glib::path_get_dirname (embedded_fname) + G_DIR_SEPARATOR_S; if (dir2.substr (0, dir1.length()) != dir1) { // it's in a different directory, ie not inside return prefix + embedded_fname; } return prefix + embedded_fname.substr (dir1.length()); } void avoidEmptyCurve (std::vector &curve) { if (curve.empty()) { curve.push_back (FCT_Linear); } } void getFromKeyfile( const Glib::KeyFile& keyfile, const Glib::ustring& group_name, const Glib::ustring& key, int& value ) { value = keyfile.get_integer(group_name, key); } void getFromKeyfile( const Glib::KeyFile& keyfile, const Glib::ustring& group_name, const Glib::ustring& key, double& value ) { value = keyfile.get_double(group_name, key); } void getFromKeyfile( const Glib::KeyFile& keyfile, const Glib::ustring& group_name, const Glib::ustring& key, bool& value ) { value = keyfile.get_boolean(group_name, key); } void getFromKeyfile( const Glib::KeyFile& keyfile, const Glib::ustring& group_name, const Glib::ustring& key, Glib::ustring& value ) { value = keyfile.get_string(group_name, key); } void getFromKeyfile( const Glib::KeyFile& keyfile, const Glib::ustring& group_name, const Glib::ustring& key, std::vector& value ) { value = keyfile.get_double_list(group_name, key); avoidEmptyCurve(value); } template bool assignFromKeyfile( const Glib::KeyFile& keyfile, const Glib::ustring& group_name, const Glib::ustring& key, bool has_params_edited, T& value, bool& params_edited_value ) { if (keyfile.has_key(group_name, key)) { getFromKeyfile(keyfile, group_name, key, value); if (has_params_edited) { params_edited_value = true; } return true; } return false; } template::value>::type> bool assignFromKeyfile( const Glib::KeyFile& keyfile, const Glib::ustring& group_name, const Glib::ustring& key, bool has_params_edited, const std::map& mapping, T& value, bool& params_edited_value ) { if (keyfile.has_key(group_name, key)) { Glib::ustring v; getFromKeyfile(keyfile, group_name, key, v); const typename std::map::const_iterator m = mapping.find(v.c_str()); if (m != mapping.end()) { value = m->second; } else { return false; } if (has_params_edited) { params_edited_value = true; } return true; } return false; } void putToKeyfile( const Glib::ustring& group_name, const Glib::ustring& key, int value, Glib::KeyFile& keyfile ) { keyfile.set_integer(group_name, key, value); } void putToKeyfile( const Glib::ustring& group_name, const Glib::ustring& key, double value, Glib::KeyFile& keyfile ) { keyfile.set_double(group_name, key, value); } void putToKeyfile( const Glib::ustring& group_name, const Glib::ustring& key, bool value, Glib::KeyFile& keyfile ) { keyfile.set_boolean(group_name, key, value); } void putToKeyfile( const Glib::ustring& group_name, const Glib::ustring& key, const Glib::ustring& value, Glib::KeyFile& keyfile ) { keyfile.set_string(group_name, key, value); } void putToKeyfile( const Glib::ustring& group_name, const Glib::ustring& key, const std::vector& value, Glib::KeyFile& keyfile ) { const Glib::ArrayHandle list = value; keyfile.set_integer_list(group_name, key, list); } void putToKeyfile( const Glib::ustring& group_name, const Glib::ustring& key, const std::vector& value, Glib::KeyFile& keyfile ) { const Glib::ArrayHandle list = value; keyfile.set_double_list(group_name, key, list); } template bool saveToKeyfile( bool save, const Glib::ustring& group_name, const Glib::ustring& key, const T& value, Glib::KeyFile& keyfile ) { if (save) { putToKeyfile(group_name, key, value, keyfile); return true; } return false; } template::value>::type> bool saveToKeyfile( bool save, const Glib::ustring& group_name, const Glib::ustring& key, const std::map& mapping, const T& value, Glib::KeyFile& keyfile ) { if (save) { const typename std::map::const_iterator m = mapping.find(value); if (m != mapping.end()) { keyfile.set_string(group_name, key, m->second); return true; } } return false; } const int tr = options.rtSettings.top_right; const int br = options.rtSettings.bot_right; const int tl = options.rtSettings.top_left; const int bl = options.rtSettings.bot_left; } namespace rtengine { namespace procparams { bool operator ==(const rtengine::procparams::WaveletParams& a, const rtengine::procparams::WaveletParams& b) { if (a.enabled != b.enabled) { return false; } for (int i = 0; i < 9; i++) { if (a.c[i] != b.c[i]) { return false; } } for (int i = 0; i < 9; i++) { if (a.ch[i] != b.ch[i]) { return false; } } return true; } bool operator ==(const rtengine::procparams::DirPyrEqualizerParams& a, const rtengine::procparams::DirPyrEqualizerParams& b) { if (a.enabled != b.enabled) { return false; } for (int i = 0; i < 6; i++) { if (a.mult[i] != b.mult[i]) { return false; } } return a.threshold == b.threshold; } ToneCurveParams::ToneCurveParams() : autoexp(false), clip(0.02), hrenabled(false), method("Blend"), expcomp(0), curve{ DCT_Linear }, curve2{ DCT_Linear }, curveMode(ToneCurveParams::TcMode::STD), curveMode2(ToneCurveParams::TcMode::STD), brightness(0), black(0), contrast(0), saturation(0), shcompr(50), hlcompr(0), hlcomprthresh(33) { } bool ToneCurveParams::HLReconstructionNecessary(const LUTu& histRedRaw, const LUTu& histGreenRaw, const LUTu& histBlueRaw) { if (options.rtSettings.verbose) { printf("histRedRaw[ 0]=%07d, histGreenRaw[ 0]=%07d, histBlueRaw[ 0]=%07d\nhistRedRaw[255]=%07d, histGreenRaw[255]=%07d, histBlueRaw[255]=%07d\n", histRedRaw[0], histGreenRaw[0], histBlueRaw[0], histRedRaw[255], histGreenRaw[255], histBlueRaw[255]); } return histRedRaw[255] > 50 || histGreenRaw[255] > 50 || histBlueRaw[255] > 50 || histRedRaw[0] > 50 || histGreenRaw[0] > 50 || histBlueRaw[0] > 50; } RetinexParams::RetinexParams() : enabled(false), cdcurve{ DCT_Linear }, cdHcurve{ DCT_Linear }, lhcurve{ DCT_Linear }, transmissionCurve{ FCT_MinMaxCPoints, 0.00, 0.50, 0.35, 0.35, 0.60, 0.75, 0.35, 0.35, 1.00, 0.50, 0.35, 0.35 }, gaintransmissionCurve{ FCT_MinMaxCPoints, 0.00, 0.1, 0.35, 0.00, 0.25, 0.25, 0.35, 0.35, 0.70, 0.25, 0.35, 0.35, 1.00, 0.1, 0.00, 0.00 }, mapcurve{ DCT_Linear }, str(20), scal(3), iter(1), grad(1), grads(1), gam(1.30), slope(3.), neigh(80), offs(0), highlights(0), htonalwidth(80), shadows(0), stonalwidth(80), radius(40), retinexMethod("high"), retinexcolorspace("Lab"), gammaretinex("none"), mapMethod("none"), viewMethod("none"), vart(200), limd(8), highl(4), skal(3), medianmap(false) { } void RetinexParams::getCurves (RetinextransmissionCurve &transmissionCurveLUT, RetinexgaintransmissionCurve &gaintransmissionCurveLUT) const { transmissionCurveLUT.Set (this->transmissionCurve); gaintransmissionCurveLUT.Set (this->gaintransmissionCurve); } LCurveParams::LCurveParams() : lcurve{ DCT_Linear }, acurve{ DCT_Linear }, bcurve{ DCT_Linear }, cccurve{ DCT_Linear }, chcurve{ FCT_Linear }, lhcurve{ FCT_Linear }, hhcurve{ FCT_Linear }, lccurve{ DCT_Linear }, clcurve{ DCT_Linear }, brightness(0), contrast(0), chromaticity(0), avoidcolorshift(false), rstprotection(0), lcredsk(true) { } ColorToningParams::ColorToningParams () : enabled(false), autosat(true), opacityCurve{ FCT_MinMaxCPoints, 0.00, 0.3, 0.35, 0.00, 0.25, 0.8, 0.35, 0.35, 0.70, 0.8, 0.35, 0.35, 1.00, 0.3, 0.00, 0.00 }, colorCurve{ FCT_MinMaxCPoints, 0.050, 0.62, 0.25, 0.25, 0.585, 0.11, 0.25, 0.25 }, satProtectionThreshold(30), saturatedOpacity(80), strength(50), balance(0), hlColSat(60, 80, false), shadowsColSat (80, 208, false), clcurve{ DCT_NURBS, 0.00, 0.00, 0.35, 0.65, 1.00, 1.00 }, cl2curve{ DCT_NURBS, 0.00, 0.00, 0.35, 0.65, 1.00, 1.00 }, method("Lab"), twocolor("Std"), redlow(0.0), greenlow(0.0), bluelow(0.0), redmed(0.0), greenmed(0.0), bluemed(0.0), redhigh(0.0), greenhigh(0.0), bluehigh(0.0), satlow(0.0), sathigh(0.0), lumamode(true) { } void ColorToningParams::mixerToCurve (std::vector &colorCurve, std::vector &opacityCurve) const { // check if non null first if (!redlow && !greenlow && !bluelow && !redmed && !greenmed && !bluemed && !redhigh && !greenhigh && !bluehigh) { colorCurve.resize (1); colorCurve.at (0) = FCT_Linear; opacityCurve.resize (1); opacityCurve.at (0) = FCT_Linear; return; } float low[3]; // RGB color for shadows float med[3]; // RGB color for mid-tones float high[3]; // RGB color for highlights float lowSat = 0.f; float medSat = 0.f; float highSat = 0.f; float minTmp, maxTmp; // Fill the shadow mixer values of the Color TOning tool low[0] = float (redlow ) / 100.f; // [-1. ; +1.] low[1] = float (greenlow) / 100.f; // [-1. ; +1.] low[2] = float (bluelow ) / 100.f; // [-1. ; +1.] minTmp = min (low[0], low[1], low[2]); maxTmp = max (low[0], low[1], low[2]); if (maxTmp - minTmp > 0.005f) { float v[3]; lowSat = (maxTmp - minTmp) / 2.f; if (low[0] == minTmp) { v[0] = 0.f; } else if (low[1] == minTmp) { v[1] = 0.f; } else if (low[2] == minTmp) { v[2] = 0.f; } if (low[0] == maxTmp) { v[0] = 1.f; } else if (low[1] == maxTmp) { v[1] = 1.f; } else if (low[2] == maxTmp) { v[2] = 1.f; } if (low[0] != minTmp && low[0] != maxTmp) { v[0] = (low[0] - minTmp) / (maxTmp - minTmp); } else if (low[1] != minTmp && low[1] != maxTmp) { v[1] = (low[1] - minTmp) / (maxTmp - minTmp); } else if (low[2] != minTmp && low[2] != maxTmp) { v[2] = (low[2] - minTmp) / (maxTmp - minTmp); } low[0] = v[0]; low[1] = v[1]; low[2] = v[2]; } else { low[0] = low[1] = low[2] = 1.f; } // Fill the mid-tones mixer values of the Color TOning tool med[0] = float (redmed ) / 100.f; // [-1. ; +1.] med[1] = float (greenmed) / 100.f; // [-1. ; +1.] med[2] = float (bluemed ) / 100.f; // [-1. ; +1.] minTmp = min (med[0], med[1], med[2]); maxTmp = max (med[0], med[1], med[2]); if (maxTmp - minTmp > 0.005f) { float v[3]; medSat = (maxTmp - minTmp) / 2.f; if (med[0] == minTmp) { v[0] = 0.f; } else if (med[1] == minTmp) { v[1] = 0.f; } else if (med[2] == minTmp) { v[2] = 0.f; } if (med[0] == maxTmp) { v[0] = 1.f; } else if (med[1] == maxTmp) { v[1] = 1.f; } else if (med[2] == maxTmp) { v[2] = 1.f; } if (med[0] != minTmp && med[0] != maxTmp) { v[0] = (med[0] - minTmp) / (maxTmp - minTmp); } else if (med[1] != minTmp && med[1] != maxTmp) { v[1] = (med[1] - minTmp) / (maxTmp - minTmp); } else if (med[2] != minTmp && med[2] != maxTmp) { v[2] = (med[2] - minTmp) / (maxTmp - minTmp); } med[0] = v[0]; med[1] = v[1]; med[2] = v[2]; } else { med[0] = med[1] = med[2] = 1.f; } // Fill the highlight mixer values of the Color TOning tool high[0] = float (redhigh ) / 100.f; // [-1. ; +1.] high[1] = float (greenhigh) / 100.f; // [-1. ; +1.] high[2] = float (bluehigh ) / 100.f; // [-1. ; +1.] minTmp = min (high[0], high[1], high[2]); maxTmp = max (high[0], high[1], high[2]); if (maxTmp - minTmp > 0.005f) { float v[3]; highSat = (maxTmp - minTmp) / 2.f; if (high[0] == minTmp) { v[0] = 0.f; } else if (high[1] == minTmp) { v[1] = 0.f; } else if (high[2] == minTmp) { v[2] = 0.f; } if (high[0] == maxTmp) { v[0] = 1.f; } else if (high[1] == maxTmp) { v[1] = 1.f; } else if (high[2] == maxTmp) { v[2] = 1.f; } if (high[0] != minTmp && high[0] != maxTmp) { v[0] = (high[0] - minTmp) / (maxTmp - minTmp); } else if (high[1] != minTmp && high[1] != maxTmp) { v[1] = (high[1] - minTmp) / (maxTmp - minTmp); } else if (high[2] != minTmp && high[2] != maxTmp) { v[2] = (high[2] - minTmp) / (maxTmp - minTmp); } high[0] = v[0]; high[1] = v[1]; high[2] = v[2]; } else { high[0] = high[1] = high[2] = 1.f; } const double xPosLow = 0.1; const double xPosMed = 0.4; const double xPosHigh = 0.7; colorCurve.resize ( medSat != 0.f ? 13 : 9 ); colorCurve.at (0) = FCT_MinMaxCPoints; opacityCurve.resize (13); opacityCurve.at (0) = FCT_MinMaxCPoints; float h, s, l; int idx = 1; if (lowSat == 0.f) { if (medSat != 0.f) { Color::rgb2hsl (med[0], med[1], med[2], h, s, l); } else { // highSat can't be null if the 2 other ones are! Color::rgb2hsl (high[0], high[1], high[2], h, s, l); } } else { Color::rgb2hsl (low[0], low[1], low[2], h, s, l); } colorCurve.at (idx++) = xPosLow; colorCurve.at (idx++) = h; colorCurve.at (idx++) = 0.35; colorCurve.at (idx++) = 0.35; if (medSat != 0.f) { Color::rgb2hsl (med[0], med[1], med[2], h, s, l); colorCurve.at (idx++) = xPosMed; colorCurve.at (idx++) = h; colorCurve.at (idx++) = 0.35; colorCurve.at (idx++) = 0.35; } if (highSat == 0.f) { if (medSat != 0.f) { Color::rgb2hsl (med[0], med[1], med[2], h, s, l); } else { // lowSat can't be null if the 2 other ones are! Color::rgb2hsl (low[0], low[1], low[2], h, s, l); } } else { Color::rgb2hsl (high[0], high[1], high[2], h, s, l); } colorCurve.at (idx++) = xPosHigh; colorCurve.at (idx++) = h; colorCurve.at (idx++) = 0.35; colorCurve.at (idx) = 0.35; opacityCurve.at (1) = xPosLow; opacityCurve.at (2) = double (lowSat); opacityCurve.at (3) = 0.35; opacityCurve.at (4) = 0.35; opacityCurve.at (5) = xPosMed; opacityCurve.at (6) = double (medSat); opacityCurve.at (7) = 0.35; opacityCurve.at (8) = 0.35; opacityCurve.at (9) = xPosHigh; opacityCurve.at (10) = double (highSat); opacityCurve.at (11) = 0.35; opacityCurve.at (12) = 0.35; } void ColorToningParams::slidersToCurve (std::vector &colorCurve, std::vector &opacityCurve) const { if (hlColSat.getBottom() == 0 && shadowsColSat.getBottom() == 0) { // if both opacity are null, set both curves to Linear colorCurve.resize (1); colorCurve.at (0) = FCT_Linear; opacityCurve.resize (1); opacityCurve.at (0) = FCT_Linear; return; } colorCurve.resize (9); colorCurve.at (0) = FCT_MinMaxCPoints; colorCurve.at (1) = 0.26 + 0.12 * double (balance) / 100.; colorCurve.at (2) = double (shadowsColSat.getTop()) / 360.; colorCurve.at (3) = 0.35; colorCurve.at (4) = 0.35; colorCurve.at (5) = 0.64 + 0.12 * double (balance) / 100.; colorCurve.at (6) = double (hlColSat.getTop()) / 360.; colorCurve.at (7) = 0.35; colorCurve.at (8) = 0.35; opacityCurve.resize (9); opacityCurve.at (0) = FCT_MinMaxCPoints; opacityCurve.at (1) = colorCurve.at (1); opacityCurve.at (2) = double (shadowsColSat.getBottom()) / 100.; opacityCurve.at (3) = 0.35; opacityCurve.at (4) = 0.35; opacityCurve.at (5) = colorCurve.at (5); opacityCurve.at (6) = double (hlColSat.getBottom()) / 100.; opacityCurve.at (7) = 0.35; opacityCurve.at (8) = 0.35; } void ColorToningParams::getCurves (ColorGradientCurve &colorCurveLUT, OpacityCurve &opacityCurveLUT, const double xyz_rgb[3][3], const double rgb_xyz[3][3], bool &opautili) const { float satur = 0.8f; float lumin = 0.5f; //middle of luminance for optimization of gamut - no real importance...as we work in XYZ and gamut control // Transform slider values to control points std::vector cCurve, oCurve; if (method == "RGBSliders" || method == "Splitlr") { slidersToCurve (cCurve, oCurve); } else if (method == "Splitco") { mixerToCurve (cCurve, oCurve); } else { cCurve = this->colorCurve; oCurve = this->opacityCurve; } if (method == "Lab") { if (twocolor == "Separ") { satur = 0.9f; } if (twocolor == "All" || twocolor == "Two") { satur = 0.9f; } colorCurveLUT.SetXYZ (cCurve, xyz_rgb, rgb_xyz, satur, lumin); opacityCurveLUT.Set (oCurve, opautili); } else if (method == "Splitlr" || method == "Splitco") { colorCurveLUT.SetXYZ (cCurve, xyz_rgb, rgb_xyz, satur, lumin); opacityCurveLUT.Set (oCurve, opautili); } else if (method.substr (0, 3) == "RGB") { colorCurveLUT.SetRGB (cCurve, xyz_rgb, rgb_xyz); opacityCurveLUT.Set (oCurve, opautili); } } SharpeningParams::SharpeningParams() : enabled (false), radius (0.5), amount (200), threshold (20, 80, 2000, 1200, false), edgesonly (false), edges_radius (1.9), edges_tolerance (1800), halocontrol (false), halocontrol_amount (85), deconvamount (75), deconvradius (0.75), deconviter (30), deconvdamping (20) { } VibranceParams::VibranceParams() : enabled (false), pastels (0), saturated (0), psthreshold (0, 75, false), protectskins (false), avoidcolorshift (true), pastsattog (true) { } const std::vector& WBParams::getWbEntries() { static const std::vector wb_entries = { {"Camera", WBEntry::Type::CAMERA, M ("TP_WBALANCE_CAMERA"), 0, 1.f, 1.f, 0.f}, {"Auto", WBEntry::Type::AUTO, M ("TP_WBALANCE_AUTO"), 0, 1.f, 1.f, 0.f}, {"Daylight", WBEntry::Type::DAYLIGHT, M ("TP_WBALANCE_DAYLIGHT"), 5300, 1.f, 1.f, 0.f}, {"Cloudy", WBEntry::Type::CLOUDY, M ("TP_WBALANCE_CLOUDY"), 6200, 1.f, 1.f, 0.f}, {"Shade", WBEntry::Type::SHADE, M ("TP_WBALANCE_SHADE"), 7600, 1.f, 1.f, 0.f}, {"Water 1", WBEntry::Type::WATER, M ("TP_WBALANCE_WATER1"), 35000, 0.3f, 1.1f, 0.f}, {"Water 2", WBEntry::Type::WATER, M ("TP_WBALANCE_WATER2"), 48000, 0.63f, 1.38f, 0.f}, {"Tungsten", WBEntry::Type::TUNGSTEN, M ("TP_WBALANCE_TUNGSTEN"), 2856, 1.f, 1.f, 0.f}, {"Fluo F1", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO1"), 6430, 1.f, 1.f, 0.f}, {"Fluo F2", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO2"), 4230, 1.f, 1.f, 0.f}, {"Fluo F3", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO3"), 3450, 1.f, 1.f, 0.f}, {"Fluo F4", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO4"), 2940, 1.f, 1.f, 0.f}, {"Fluo F5", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO5"), 6350, 1.f, 1.f, 0.f}, {"Fluo F6", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO6"), 4150, 1.f, 1.f, 0.f}, {"Fluo F7", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO7"), 6500, 1.f, 1.f, 0.f}, {"Fluo F8", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO8"), 5020, 1.f, 1.f, 0.f}, {"Fluo F9", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO9"), 4330, 1.f, 1.f, 0.f}, {"Fluo F10", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO10"), 5300, 1.f, 1.f, 0.f}, {"Fluo F11", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO11"), 4000, 1.f, 1.f, 0.f}, {"Fluo F12", WBEntry::Type::FLUORESCENT, M ("TP_WBALANCE_FLUO12"), 3000, 1.f, 1.f, 0.f}, {"HMI Lamp", WBEntry::Type::LAMP, M ("TP_WBALANCE_HMI"), 4800, 1.f, 1.f, 0.f}, {"GTI Lamp", WBEntry::Type::LAMP, M ("TP_WBALANCE_GTI"), 5000, 1.f, 1.f, 0.f}, {"JudgeIII Lamp", WBEntry::Type::LAMP, M ("TP_WBALANCE_JUDGEIII"), 5100, 1.f, 1.f, 0.f}, {"Solux Lamp 3500K", WBEntry::Type::LAMP, M ("TP_WBALANCE_SOLUX35"), 3480, 1.f, 1.f, 0.f}, {"Solux Lamp 4100K", WBEntry::Type::LAMP, M ("TP_WBALANCE_SOLUX41"), 3930, 1.f, 1.f, 0.f}, {"Solux Lamp 4700K", WBEntry::Type::LAMP, M ("TP_WBALANCE_SOLUX47"), 4700, 1.f, 1.f, 0.f}, {"NG Solux Lamp 4700K", WBEntry::Type::LAMP, M ("TP_WBALANCE_SOLUX47_NG"), 4480, 1.f, 1.f, 0.f}, {"LED LSI Lumelex 2040", WBEntry::Type::LED, M ("TP_WBALANCE_LED_LSI"), 2970, 1.f, 1.f, 0.f}, {"LED CRS SP12 WWMR16", WBEntry::Type::LED, M ("TP_WBALANCE_LED_CRS"), 3050, 1.f, 1.f, 0.f}, {"Flash 5500K", WBEntry::Type::FLASH, M ("TP_WBALANCE_FLASH55"), 5500, 1.f, 1.f, 0.f}, {"Flash 6000K", WBEntry::Type::FLASH, M ("TP_WBALANCE_FLASH60"), 6000, 1.f, 1.f, 0.f}, {"Flash 6500K", WBEntry::Type::FLASH, M ("TP_WBALANCE_FLASH65"), 6500, 1.f, 1.f, 0.f}, // Should remain the last one {"Custom", WBEntry::Type::CUSTOM, M ("TP_WBALANCE_CUSTOM"), 0, 1.f, 1.f, 0.f} }; return wb_entries; } DirPyrDenoiseParams::DirPyrDenoiseParams () { setDefaults (); } void DirPyrDenoiseParams::setDefaults() { lcurve = { static_cast(FCT_MinMaxCPoints), 0.05, 0.15, 0.35, 0.35, 0.55, 0.04, 0.35, 0.35 }; cccurve = { static_cast(FCT_MinMaxCPoints), 0.05, 0.50, 0.35, 0.35, 0.35, 0.05, 0.35, 0.35 }; enabled = false; enhance = false; median = false; perform = false; luma = 0; passes = 1; dmethod = "Lab"; Lmethod = "SLI";//"CUR";// SLIDER method with value 0 is set as default, while the default Lcurve is populated via getDefaultNoisCurve and can be switched to by the user Cmethod = "MAN"; C2method = "AUTO"; smethod = "shal"; medmethod = "soft"; methodmed = "none"; rgbmethod = "soft"; Ldetail = 0; chroma = 15; redchro = 0; bluechro = 0; gamma = 1.7; perform = false; } void DirPyrDenoiseParams::getCurves (NoiseCurve &lCurve, NoiseCurve &cCurve) const { lCurve.Set (this->lcurve); cCurve.Set (this->cccurve); } FattalToneMappingParams::FattalToneMappingParams() { setDefaults(); } void FattalToneMappingParams::setDefaults() { enabled = false; threshold = 0; amount = 0; } CropParams::CropParams() : enabled(false), x(0), y(0), w(0), h(0), fixratio(false) { } void CropParams::mapToResized (int resizedWidth, int resizedHeight, int scale, int &x1, int &x2, int &y1, int &y2) const { x1 = 0, x2 = resizedWidth, y1 = 0, y2 = resizedHeight; if (enabled) { x1 = min (resizedWidth - 1, max (0, x / scale)); y1 = min (resizedHeight - 1, max (0, y / scale)); x2 = min (resizedWidth, max (0, (x + w) / scale)); y2 = min (resizedHeight, max (0, (y + h) / scale)); } } CoarseTransformParams::CoarseTransformParams() { setDefaults(); } void CoarseTransformParams::setDefaults() { rotate = 0; hflip = false; vflip = false; } LensProfParams::LensProfParams() { setDefaults(); } void LensProfParams::setDefaults() { lcMode = LcMode::NONE; lcpFile = ""; useDist = useVign = true; useCA = false; lfCameraMake = ""; lfCameraModel = ""; lfLens = ""; } bool LensProfParams::useLensfun() const { return lcMode == LcMode::LENSFUNAUTOMATCH || lcMode == LcMode::LENSFUNMANUAL; } bool LensProfParams::lfAutoMatch() const { return lcMode == LcMode::LENSFUNAUTOMATCH; } bool LensProfParams::useLcp() const { return lcMode == LcMode::LCP && lcpFile.length() > 0; } bool LensProfParams::lfManual() const { return lcMode == LcMode::LENSFUNMANUAL; } const std::vector& LensProfParams::getMethodStrings() const { static const std::vector method_strings = { "none", "lfauto", "lfmanual", "lcp" }; return method_strings; } Glib::ustring LensProfParams::getMethodString(LcMode mode) const { return getMethodStrings()[toUnderlying(mode)]; } LensProfParams::LcMode LensProfParams::getMethodNumber(const Glib::ustring& mode) const { for (std::vector::size_type i = 0; i < getMethodStrings().size(); ++i) { if (getMethodStrings()[i] == mode) { return static_cast(i); } } return LcMode::NONE; } const Glib::ustring ColorManagementParams::NoICMString = Glib::ustring ("No ICM: sRGB output"); ColorManagementParams::ColorManagementParams() { setDefaults(); } void ColorManagementParams::setDefaults() { input = "(cameraICC)"; toneCurve = false; applyLookTable = false; applyBaselineExposureOffset = true; applyHueSatMap = true; dcpIlluminant = 0; working = "ProPhoto"; output = "RT_sRGB"; outputIntent = RI_RELATIVE; outputBPC = true; gamma = "default"; gampos = 2.22; slpos = 4.5; freegamma = false; } WaveletParams::WaveletParams() : hueskin ( -5, 25, 170, 120, false), hueskin2 (-260, -250, -130, -140, false), hllev ( 50, 75, 100, 98, false), bllev ( 0, 2, 50, 25, false), pastlev ( 0, 2, 30, 20, false), satlev ( 30, 45, 130, 100, false), edgcont ( bl, tl, br, tr, false), /*edgcont ( 0, 10, 75, 40, false),*/ level0noise (0, 0, false), level1noise (0, 0, false), level2noise (0, 0, false), level3noise (0, 0, false) { setDefaults (); } void WaveletParams::setDefaults() { getDefaultCCWCurve (ccwcurve); getDefaultOpacityCurveRG (opacityCurveRG); getDefaultOpacityCurveBY (opacityCurveBY); getDefaultOpacityCurveW (opacityCurveW); getDefaultOpacityCurveWL (opacityCurveWL); enabled = false; median = false; medianlev = false; linkedg = true; cbenab = false; lipst = false; Medgreinf = "less"; //"none"; avoid = false; tmr = false; strength = 100; balance = 0; iter = 0; wavclCurve.clear (); wavclCurve.push_back (DCT_Linear); Lmethod = "4_"; CHmethod = "without"; CHSLmethod = "SL"; EDmethod = "CU"; NPmethod = "none"; BAmethod = "none"; TMmethod = "cont"; HSmethod = "with"; CLmethod = "all"; Backmethod = "grey"; Dirmethod = "all"; Tilesmethod = "full"; daubcoeffmethod = "4_"; rescon = 0; resconH = 0; reschro = 0; tmrs = 0; gamma = 1; sky = 0.; sup = 0; thres = 7; chroma = 5; chro = 0; contrast = 0; edgrad = 15; edgval = 0; edgthresh = 10; thr = 35; thrH = 65; skinprotect = 0.; hueskin.setValues ( -5, 25, 170, 120); hueskin2.setValues (-260, -250, -130, -140); threshold = 5; threshold2 = 4; edgedetect = 90; edgedetectthr = 20; edgedetectthr2 = 0; edgesensi = 60; edgeampli = 10; hllev.setValues (50, 75, 100, 98); bllev.setValues ( 0, 2, 50, 25); pastlev.setValues ( 0, 2, 30, 20); satlev.setValues (30, 45, 130, 100); //edgcont.setValues (bl, tl, br, tr); edgcont.setValues ( 0, 10, 75, 40); level0noise.setValues (0, 0); level1noise.setValues (0, 0); level2noise.setValues (0, 0); level3noise.setValues (0, 0); hhcurve.clear (); hhcurve.push_back (FCT_Linear); Chcurve.clear (); Chcurve.push_back (FCT_Linear); expcontrast = false; expchroma = false; expedge = false; expresid = false; expfinal = false; exptoning = false; expnoise = false; for (int i = 0; i < 9; i ++) { c[i] = 0; } for (int i = 0; i < 9; i ++) { ch[i] = 0; } greenlow = greenmed = greenhigh = 0.0; bluelow = bluemed = bluehigh = 0.0; } void WaveletParams::getCurves (WavCurve &cCurve, WavOpacityCurveRG &opacityCurveLUTRG, WavOpacityCurveBY &opacityCurveLUTBY, WavOpacityCurveW &opacityCurveLUTW, WavOpacityCurveWL &opacityCurveLUTWL) const { cCurve.Set (this->ccwcurve); opacityCurveLUTRG.Set (this->opacityCurveRG); opacityCurveLUTBY.Set (this->opacityCurveBY); opacityCurveLUTW.Set (this->opacityCurveW); opacityCurveLUTWL.Set (this->opacityCurveWL); } void WaveletParams::getDefaultCCWCurve (std::vector &curve) { curve = { static_cast(FCT_MinMaxCPoints), 0.0, 0.25, 0.35, 0.35, 0.50, 0.75, 0.35, 0.35, 0.90, 0.0, 0.35, 0.35 }; } void WaveletParams::getDefaultOpacityCurveRG (std::vector &curve) { curve = { static_cast(FCT_MinMaxCPoints), 0.0, 0.50, 0.35, 0.35, 1.00, 0.50, 0.35, 0.35 }; } void WaveletParams::getDefaultOpacityCurveBY (std::vector &curve) { curve = { static_cast(FCT_MinMaxCPoints), 0.0, 0.50, 0.35, 0.35, 1.00, 0.50, 0.35, 0.35 }; } void WaveletParams::getDefaultOpacityCurveW (std::vector &curve) { curve = { static_cast(FCT_MinMaxCPoints), 0.00, 0.35, 0.35, 0.00, 0.35, 0.75, 0.35, 0.35, 0.60, 0.75, 0.35, 0.35, 1.00, 0.35, 0.00, 0.00 }; } void WaveletParams::getDefaultOpacityCurveWL (std::vector &curve) { curve = { static_cast(FCT_MinMaxCPoints), 0.0, 0.50, 0.35, 0.35, 1.00, 0.50, 0.35, 0.35 }; } DirPyrEqualizerParams::DirPyrEqualizerParams() : hueskin (20, 80, 2000, 1200, false) { } FilmSimulationParams::FilmSimulationParams() { setDefaults(); } void FilmSimulationParams::setDefaults() { enabled = false; clutFilename = Glib::ustring(); strength = 100; } void RAWParams::BayerSensor::setPixelShiftDefaults() { pixelShiftMotion = 0; pixelShiftMotionCorrection = RAWParams::BayerSensor::PSMotionCorrection::GRID_3X3_NEW; pixelShiftMotionCorrectionMethod = RAWParams::BayerSensor::PSMotionCorrectionMethod::AUTO; pixelShiftStddevFactorGreen = 5.0; pixelShiftStddevFactorRed = 5.0; pixelShiftStddevFactorBlue = 5.0; pixelShiftEperIso = 0.0; pixelShiftNreadIso = 0.0; pixelShiftPrnu = 1.0; pixelShiftSigma = 1.0; pixelShiftSum = 3.0; pixelShiftRedBlueWeight = 0.7; pixelShiftAutomatic = true; pixelShiftNonGreenHorizontal = false; pixelShiftNonGreenVertical = false; pixelShiftHoleFill = true; pixelShiftMedian = false; pixelShiftMedian3 = false; pixelShiftGreen = true; pixelShiftBlur = true; pixelShiftSmoothFactor = 0.7; pixelShiftExp0 = false; pixelShiftLmmse = false; pixelShiftEqualBright = false; pixelShiftEqualBrightChannel = false; pixelShiftNonGreenCross = true; pixelShiftNonGreenCross2 = false; pixelShiftNonGreenAmaze = false; } const std::vector& RAWParams::BayerSensor::getMethodStrings() { static const std::vector method_strings { "amaze", "igv", "lmmse", "eahd", "hphd", "vng4", "dcb", "ahd", "fast", "mono", "none", "pixelshift" }; return method_strings; } Glib::ustring RAWParams::BayerSensor::getMethodString(Method method) { return getMethodStrings()[toUnderlying(method)]; } const std::vector& RAWParams::XTransSensor::getMethodStrings() { static const std::vector method_strings { "3-pass (best)", "1-pass (medium)", "fast", "mono", "none" }; return method_strings; } Glib::ustring RAWParams::XTransSensor::getMethodString(Method method) { return getMethodStrings()[toUnderlying(method)]; } RAWParams::RAWParams() { setDefaults(); } void RAWParams::setDefaults() { bayersensor.method = RAWParams::BayerSensor::getMethodString(RAWParams::BayerSensor::Method::AMAZE); bayersensor.imageNum = 0; bayersensor.ccSteps = 0; bayersensor.dcb_iterations = 2; bayersensor.dcb_enhance = true; //bayersensor.all_enhance = false; bayersensor.lmmse_iterations = 2; bayersensor.black0 = 0.0; bayersensor.black1 = 0.0; bayersensor.black2 = 0.0; bayersensor.black3 = 0.0; bayersensor.twogreen = true; bayersensor.linenoise = 0; bayersensor.greenthresh = 0; xtranssensor.method = RAWParams::XTransSensor::getMethodString(RAWParams::XTransSensor::Method::THREE_PASS); xtranssensor.ccSteps = 0; xtranssensor.blackred = 0.0; xtranssensor.blackgreen = 0.0; xtranssensor.blackblue = 0.0; expos = 1.0; preser = 0.0; df_autoselect = false; ff_AutoSelect = false; ff_BlurRadius = 32; ff_BlurType = RAWParams::getFlatFieldBlurTypeString(RAWParams::FlatFieldBlurType::AREA); ff_AutoClipControl = false; ff_clipControl = 0; cared = 0; cablue = 0; ca_autocorrect = false; hotPixelFilter = false; deadPixelFilter = false; hotdeadpix_thresh = 100; bayersensor.setPixelShiftDefaults(); bayersensor.pixelShiftShowMotion = false; bayersensor.pixelShiftShowMotionMaskOnly = false; } const std::vector& RAWParams::getFlatFieldBlurTypeStrings() { static const std::vector blur_type_strings { "Area Flatfield", "Vertical Flatfield", "Horizontal Flatfield", "V+H Flatfield" }; return blur_type_strings; } Glib::ustring RAWParams::getFlatFieldBlurTypeString(FlatFieldBlurType type) { return getFlatFieldBlurTypeStrings()[toUnderlying(type)]; } ProcParams::ProcParams () { setDefaults (); } void ProcParams::setDefaults () { toneCurve = ToneCurveParams(); labCurve = LCurveParams(); rgbCurves.lumamode = false; rgbCurves.rcurve.clear (); rgbCurves.rcurve.push_back (DCT_Linear); rgbCurves.gcurve.clear (); rgbCurves.gcurve.push_back (DCT_Linear); rgbCurves.bcurve.clear (); rgbCurves.bcurve.push_back (DCT_Linear); colorToning = ColorToningParams(); sharpenEdge.enabled = false; sharpenEdge.passes = 2; sharpenEdge.amount = 50.0; sharpenEdge.threechannels = false; sharpenMicro.enabled = false; sharpenMicro.amount = 20.0; sharpenMicro.uniformity = 50.0; sharpenMicro.matrix = false; sharpening.enabled = false; sharpening.radius = 0.5; sharpening.amount = 200; sharpening.threshold.setValues (20, 80, 2000, 1200); sharpening.edgesonly = false; sharpening.edges_radius = 1.9; sharpening.edges_tolerance = 1800; sharpening.halocontrol = false; sharpening.halocontrol_amount = 85; sharpening.method = "usm"; sharpening.deconvradius = 0.75; sharpening.deconviter = 30; sharpening.deconvdamping = 20; sharpening.deconvamount = 75; prsharpening.enabled = false; prsharpening.radius = 0.5; prsharpening.amount = 200; prsharpening.threshold.setValues (20, 80, 2000, 1200); prsharpening.edgesonly = false; prsharpening.edges_radius = 1.9; prsharpening.edges_tolerance = 1800; prsharpening.halocontrol = false; prsharpening.halocontrol_amount = 85; prsharpening.method = "rld"; prsharpening.deconvradius = 0.45; prsharpening.deconviter = 100; prsharpening.deconvdamping = 0; prsharpening.deconvamount = 100; vibrance.enabled = false; vibrance.pastels = 0; vibrance.saturated = 0; vibrance.psthreshold.setValues (0, 75); vibrance.protectskins = false; vibrance.avoidcolorshift = true; vibrance.pastsattog = true; vibrance.skintonescurve.clear (); vibrance.skintonescurve.push_back (DCT_Linear); wb.method = "Camera"; wb.temperature = 6504; wb.green = 1.0; wb.equal = 1.0; wb.tempBias = 0.0; colorappearance.enabled = false; colorappearance.degree = 90; colorappearance.autodegree = true; colorappearance.degreeout = 90; colorappearance.autodegreeout = true; colorappearance.surround = "Average"; colorappearance.surrsrc = "Average"; colorappearance.adaplum = 16; colorappearance.badpixsl = 0; colorappearance.adapscen = 2000.0; colorappearance.autoadapscen = true; colorappearance.ybscen = 18; colorappearance.autoybscen = true; colorappearance.algo = "No"; colorappearance.wbmodel = "RawT"; colorappearance.jlight = 0.0; colorappearance.qbright = 0.0; colorappearance.chroma = 0.0; colorappearance.schroma = 0.0; colorappearance.mchroma = 0.0; colorappearance.rstprotection = 0.0; colorappearance.contrast = 0.0; colorappearance.qcontrast = 0.0; colorappearance.colorh = 0.0; colorappearance.surrsource = false; colorappearance.gamut = true; // colorappearance.badpix = false; colorappearance.datacie = false; colorappearance.tonecie = false; // colorappearance.sharpcie = false; colorappearance.curve.clear (); colorappearance.curve.push_back (DCT_Linear); colorappearance.curve2.clear (); colorappearance.curve2.push_back (DCT_Linear); colorappearance.curveMode = ColorAppearanceParams::TcMode::LIGHT; colorappearance.curveMode2 = ColorAppearanceParams::TcMode::LIGHT; colorappearance.curve3.clear (); colorappearance.curve3.push_back (DCT_Linear); colorappearance.curveMode3 = ColorAppearanceParams::CtcMode::CHROMA; colorappearance.tempout = 5000; colorappearance.greenout = 1.0; colorappearance.ybout = 18; colorappearance.tempsc = 5000; colorappearance.greensc = 1.0; impulseDenoise.enabled = false; impulseDenoise.thresh = 50; defringe.enabled = false; defringe.radius = 2.0; defringe.threshold = 13; defringe.huecurve.resize (25); defringe.huecurve.at (0) = FCT_MinMaxCPoints; defringe.huecurve.at (1) = 0.166666667; defringe.huecurve.at (2) = 0.; defringe.huecurve.at (3) = 0.35; defringe.huecurve.at (4) = 0.35; defringe.huecurve.at (5) = 0.347; defringe.huecurve.at (6) = 0.; defringe.huecurve.at (7) = 0.35; defringe.huecurve.at (8) = 0.35; defringe.huecurve.at (9) = 0.513667426; defringe.huecurve.at (10) = 0; defringe.huecurve.at (11) = 0.35; defringe.huecurve.at (12) = 0.35; defringe.huecurve.at (13) = 0.668944571; defringe.huecurve.at (14) = 0.; defringe.huecurve.at (15) = 0.35; defringe.huecurve.at (16) = 0.35; defringe.huecurve.at (17) = 0.8287775246; defringe.huecurve.at (18) = 0.97835991; defringe.huecurve.at (19) = 0.35; defringe.huecurve.at (20) = 0.35; defringe.huecurve.at (21) = 0.9908883827; defringe.huecurve.at (22) = 0.; defringe.huecurve.at (23) = 0.35; defringe.huecurve.at (24) = 0.35; dirpyrDenoise.setDefaults(); epd.enabled = false; epd.strength = 0.5; epd.gamma = 1.0; epd.edgeStopping = 1.4; epd.scale = 1.0; epd.reweightingIterates = 0; fattal.setDefaults(); sh.enabled = false; sh.hq = false; sh.highlights = 0; sh.htonalwidth = 80; sh.shadows = 0; sh.stonalwidth = 80; sh.localcontrast = 0; sh.radius = 40; crop.enabled = false; crop.x = -1; crop.y = -1; crop.w = 15000; crop.h = 15000; crop.fixratio = true; crop.ratio = "3:2"; crop.orientation = "As Image"; crop.guide = "Frame"; coarse.setDefaults(); commonTrans.autofill = true; rotate.degree = 0; distortion.amount = 0; perspective.horizontal = 0; perspective.vertical = 0; gradient.enabled = false; gradient.degree = 0; gradient.feather = 25; gradient.strength = 0.60; gradient.centerX = 0; gradient.centerY = 0; pcvignette.enabled = false; pcvignette.strength = 0.60; pcvignette.feather = 50; pcvignette.roundness = 50; cacorrection.red = 0; cacorrection.blue = 0; vignetting.amount = 0; vignetting.radius = 50; vignetting.strength = 1; vignetting.centerX = 0; vignetting.centerY = 0; lensProf.setDefaults(); chmixer.red[0] = 100; chmixer.red[1] = 0; chmixer.red[2] = 0; chmixer.green[0] = 0; chmixer.green[1] = 100; chmixer.green[2] = 0; chmixer.blue[0] = 0; chmixer.blue[1] = 0; chmixer.blue[2] = 100; blackwhite.autoc = false; blackwhite.enabledcc = true; blackwhite.enabled = false; blackwhite.mixerRed = 33; blackwhite.mixerGreen = 33; blackwhite.mixerBlue = 33; blackwhite.mixerOrange = 33; blackwhite.mixerYellow = 33; blackwhite.mixerCyan = 33; blackwhite.mixerMagenta = 33; blackwhite.mixerPurple = 33; blackwhite.gammaRed = 0; blackwhite.gammaGreen = 0; blackwhite.gammaBlue = 0; blackwhite.luminanceCurve.clear (); blackwhite.luminanceCurve.push_back (FCT_Linear); blackwhite.method = "Desaturation"; blackwhite.filter = "None"; blackwhite.setting = "NormalContrast"; blackwhite.beforeCurve.clear (); blackwhite.beforeCurve.push_back (DCT_Linear); blackwhite.beforeCurveMode = BlackWhiteParams::TcMode::STD_BW; blackwhite.afterCurve.clear (); blackwhite.afterCurve.push_back (DCT_Linear); blackwhite.afterCurveMode = BlackWhiteParams::TcMode::STD_BW; blackwhite.algo = "SP"; resize.enabled = false; resize.scale = 1.0; resize.appliesTo = "Cropped area"; resize.method = "Lanczos"; resize.dataspec = 3; resize.width = 900; resize.height = 900; icm.setDefaults(); dirpyrequalizer.enabled = false; dirpyrequalizer.gamutlab = false; dirpyrequalizer.cbdlMethod = "bef"; for (int i = 0; i < 6; i ++) { dirpyrequalizer.mult[i] = 1.0; } dirpyrequalizer.threshold = 0.2; dirpyrequalizer.skinprotect = 0.; dirpyrequalizer.hueskin.setValues (-5, 25, 170, 120); //default (b_l 0, t_l 30, b_r 170, t_r 120); // dirpyrequalizer.algo = "FI"; hsvequalizer.hcurve.clear (); hsvequalizer.hcurve.push_back (FCT_Linear); hsvequalizer.scurve.clear (); hsvequalizer.scurve.push_back (FCT_Linear); hsvequalizer.vcurve.clear (); hsvequalizer.vcurve.push_back (FCT_Linear); filmSimulation.setDefaults(); raw.setDefaults(); exif.clear (); iptc.clear (); rank = 0; colorlabel = 0; inTrash = false; ppVersion = PPVERSION; } int ProcParams::save (const Glib::ustring &fname, const Glib::ustring &fname2, bool fnameAbsolute, ParamsEdited* pedited) { if (fname.empty () && fname2.empty ()) { return 0; } Glib::ustring sPParams; try { Glib::KeyFile keyFile; // Version keyFile.set_string ("Version", "AppVersion", RTVERSION); keyFile.set_integer ("Version", "Version", PPVERSION); saveToKeyfile(!pedited || pedited->general.rank, "General", "Rank", rank, keyFile); saveToKeyfile(!pedited || pedited->general.colorlabel, "General", "ColorLabel", colorlabel, keyFile); saveToKeyfile(!pedited || pedited->general.intrash, "General", "InTrash", inTrash, keyFile); // Tone curve saveToKeyfile(!pedited || pedited->toneCurve.autoexp, "Exposure", "Auto", toneCurve.autoexp, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.clip, "Exposure", "Clip", toneCurve.clip, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.expcomp, "Exposure", "Compensation", toneCurve.expcomp, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.brightness, "Exposure", "Brightness", toneCurve.brightness, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.contrast, "Exposure", "Contrast", toneCurve.contrast, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.saturation, "Exposure", "Saturation", toneCurve.saturation, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.black, "Exposure", "Black", toneCurve.black, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.hlcompr, "Exposure", "HighlightCompr", toneCurve.hlcompr, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.hlcomprthresh, "Exposure", "HighlightComprThreshold", toneCurve.hlcomprthresh, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.shcompr, "Exposure", "ShadowCompr", toneCurve.shcompr, keyFile); // Highlight recovery saveToKeyfile(!pedited || pedited->toneCurve.hrenabled, "HLRecovery", "Enabled", toneCurve.hrenabled, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.method, "HLRecovery", "Method", toneCurve.method, keyFile); const std::map tc_mapping = { {ToneCurveParams::TcMode::STD, "Standard"}, {ToneCurveParams::TcMode::FILMLIKE, "FilmLike"}, {ToneCurveParams::TcMode::SATANDVALBLENDING, "SatAndValueBlending"}, {ToneCurveParams::TcMode::WEIGHTEDSTD,"WeightedStd"}, {ToneCurveParams::TcMode::LUMINANCE, "Luminance"}, {ToneCurveParams::TcMode::PERCEPTUAL, "Perceptual"} }; saveToKeyfile(!pedited || pedited->toneCurve.curveMode, "Exposure", "CurveMode", tc_mapping, toneCurve.curveMode, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.curveMode2, "Exposure", "CurveMode2", tc_mapping, toneCurve.curveMode2, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.curve, "Exposure", "Curve", toneCurve.curve, keyFile); saveToKeyfile(!pedited || pedited->toneCurve.curve2, "Exposure", "Curve2", toneCurve.curve2, keyFile); // Retinex saveToKeyfile(!pedited || pedited->retinex.enabled, "Retinex", "Enabled", retinex.enabled, keyFile); saveToKeyfile(!pedited || pedited->retinex.str, "Retinex", "Str", retinex.str, keyFile); saveToKeyfile(!pedited || pedited->retinex.scal, "Retinex", "Scal", retinex.scal, keyFile); saveToKeyfile(!pedited || pedited->retinex.iter, "Retinex", "Iter", retinex.iter, keyFile); saveToKeyfile(!pedited || pedited->retinex.grad, "Retinex", "Grad", retinex.grad, keyFile); saveToKeyfile(!pedited || pedited->retinex.grads, "Retinex", "Grads", retinex.grads, keyFile); saveToKeyfile(!pedited || pedited->retinex.gam, "Retinex", "Gam", retinex.gam, keyFile); saveToKeyfile(!pedited || pedited->retinex.slope, "Retinex", "Slope", retinex.slope, keyFile); saveToKeyfile(!pedited || pedited->retinex.medianmap, "Retinex", "Median", retinex.medianmap, keyFile); saveToKeyfile(!pedited || pedited->retinex.neigh, "Retinex", "Neigh", retinex.neigh, keyFile); saveToKeyfile(!pedited || pedited->retinex.offs, "Retinex", "Offs", retinex.offs, keyFile); saveToKeyfile(!pedited || pedited->retinex.vart, "Retinex", "Vart", retinex.vart, keyFile); saveToKeyfile(!pedited || pedited->retinex.limd, "Retinex", "Limd", retinex.limd, keyFile); saveToKeyfile(!pedited || pedited->retinex.highl, "Retinex", "highl", retinex.highl, keyFile); saveToKeyfile(!pedited || pedited->retinex.skal, "Retinex", "skal", retinex.skal, keyFile); saveToKeyfile(!pedited || pedited->retinex.retinexMethod, "Retinex", "RetinexMethod", retinex.retinexMethod, keyFile); saveToKeyfile(!pedited || pedited->retinex.mapMethod, "Retinex", "mapMethod", retinex.mapMethod, keyFile); saveToKeyfile(!pedited || pedited->retinex.viewMethod, "Retinex", "viewMethod", retinex.viewMethod, keyFile); saveToKeyfile(!pedited || pedited->retinex.retinexcolorspace, "Retinex", "Retinexcolorspace", retinex.retinexcolorspace, keyFile); saveToKeyfile(!pedited || pedited->retinex.gammaretinex, "Retinex", "Gammaretinex", retinex.gammaretinex, keyFile); saveToKeyfile(!pedited || pedited->retinex.cdcurve, "Retinex", "CDCurve", retinex.cdcurve, keyFile); saveToKeyfile(!pedited || pedited->retinex.mapcurve, "Retinex", "MAPCurve", retinex.mapcurve, keyFile); saveToKeyfile(!pedited || pedited->retinex.cdHcurve, "Retinex", "CDHCurve", retinex.cdHcurve, keyFile); saveToKeyfile(!pedited || pedited->retinex.lhcurve, "Retinex", "LHCurve", retinex.lhcurve, keyFile); saveToKeyfile(!pedited || pedited->retinex.highlights, "Retinex", "Highlights", retinex.highlights, keyFile); saveToKeyfile(!pedited || pedited->retinex.htonalwidth, "Retinex", "HighlightTonalWidth", retinex.htonalwidth, keyFile); saveToKeyfile(!pedited || pedited->retinex.shadows, "Retinex", "Shadows", retinex.shadows, keyFile); saveToKeyfile(!pedited || pedited->retinex.stonalwidth, "Retinex", "ShadowTonalWidth", retinex.stonalwidth, keyFile); saveToKeyfile(!pedited || pedited->retinex.radius, "Retinex", "Radius", retinex.radius, keyFile); saveToKeyfile(!pedited || pedited->retinex.transmissionCurve, "Retinex", "TransmissionCurve", retinex.transmissionCurve, keyFile); saveToKeyfile(!pedited || pedited->retinex.gaintransmissionCurve, "Retinex", "GainTransmissionCurve", retinex.gaintransmissionCurve, keyFile); // Channel mixer if (!pedited || pedited->chmixer.red[0] || pedited->chmixer.red[1] || pedited->chmixer.red[2]) { Glib::ArrayHandle rmix (chmixer.red, 3, Glib::OWNERSHIP_NONE); keyFile.set_integer_list ("Channel Mixer", "Red", rmix); } if (!pedited || pedited->chmixer.green[0] || pedited->chmixer.green[1] || pedited->chmixer.green[2]) { Glib::ArrayHandle gmix (chmixer.green, 3, Glib::OWNERSHIP_NONE); keyFile.set_integer_list ("Channel Mixer", "Green", gmix); } if (!pedited || pedited->chmixer.blue[0] || pedited->chmixer.blue[1] || pedited->chmixer.blue[2]) { Glib::ArrayHandle bmix (chmixer.blue, 3, Glib::OWNERSHIP_NONE); keyFile.set_integer_list ("Channel Mixer", "Blue", bmix); } // Black & White saveToKeyfile(!pedited || pedited->blackwhite.enabled, "Black & White", "Enabled", blackwhite.enabled, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.method, "Black & White", "Method", blackwhite.method, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.autoc, "Black & White", "Auto", blackwhite.autoc, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.enabledcc, "Black & White", "ComplementaryColors", blackwhite.enabledcc, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.setting, "Black & White", "Setting", blackwhite.setting, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.filter, "Black & White", "Filter", blackwhite.filter, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.mixerRed, "Black & White", "MixerRed", blackwhite.mixerRed, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.mixerOrange, "Black & White", "MixerOrange", blackwhite.mixerOrange, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.mixerYellow, "Black & White", "MixerYellow", blackwhite.mixerYellow, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.mixerGreen, "Black & White", "MixerGreen", blackwhite.mixerGreen, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.mixerCyan, "Black & White", "MixerCyan", blackwhite.mixerCyan, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.mixerBlue, "Black & White", "MixerBlue", blackwhite.mixerBlue, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.mixerMagenta, "Black & White", "MixerMagenta", blackwhite.mixerMagenta, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.mixerPurple, "Black & White", "MixerPurple", blackwhite.mixerPurple, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.gammaRed, "Black & White", "GammaRed", blackwhite.gammaRed, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.gammaGreen, "Black & White", "GammaGreen", blackwhite.gammaGreen, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.gammaBlue, "Black & White", "GammaBlue", blackwhite.gammaBlue, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.algo, "Black & White", "Algorithm", blackwhite.algo, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.luminanceCurve, "Black & White", "LuminanceCurve", blackwhite.luminanceCurve, keyFile); saveToKeyfile( !pedited || pedited->blackwhite.beforeCurveMode, "Black & White", "BeforeCurveMode", { {BlackWhiteParams::TcMode::STD_BW, "Standard"}, {BlackWhiteParams::TcMode::FILMLIKE_BW, "FilmLike"}, {BlackWhiteParams::TcMode::SATANDVALBLENDING_BW, "SatAndValueBlending"}, {BlackWhiteParams::TcMode::WEIGHTEDSTD_BW, "WeightedStd"} }, blackwhite.beforeCurveMode, keyFile ); saveToKeyfile( !pedited || pedited->blackwhite.afterCurveMode, "Black & White", "AfterCurveMode", { {BlackWhiteParams::TcMode::STD_BW, "Standard"}, {BlackWhiteParams::TcMode::WEIGHTEDSTD_BW, "WeightedStd"} }, blackwhite.afterCurveMode, keyFile ); saveToKeyfile(!pedited || pedited->blackwhite.beforeCurve, "Black & White", "BeforeCurve", blackwhite.beforeCurve, keyFile); saveToKeyfile(!pedited || pedited->blackwhite.afterCurve, "Black & White", "AfterCurve", blackwhite.afterCurve, keyFile); // Luma curve saveToKeyfile(!pedited || pedited->labCurve.brightness, "Luminance Curve", "Brightness", labCurve.brightness, keyFile); saveToKeyfile(!pedited || pedited->labCurve.contrast, "Luminance Curve", "Contrast", labCurve.contrast, keyFile); saveToKeyfile(!pedited || pedited->labCurve.chromaticity, "Luminance Curve", "Chromaticity", labCurve.chromaticity, keyFile); saveToKeyfile(!pedited || pedited->labCurve.avoidcolorshift, "Luminance Curve", "AvoidColorShift", labCurve.avoidcolorshift, keyFile); saveToKeyfile(!pedited || pedited->labCurve.rstprotection, "Luminance Curve", "RedAndSkinTonesProtection", labCurve.rstprotection, keyFile); saveToKeyfile(!pedited || pedited->labCurve.lcredsk, "Luminance Curve", "LCredsk", labCurve.lcredsk, keyFile); saveToKeyfile(!pedited || pedited->labCurve.lcurve, "Luminance Curve", "LCurve", labCurve.lcurve, keyFile); saveToKeyfile(!pedited || pedited->labCurve.acurve, "Luminance Curve", "aCurve", labCurve.acurve, keyFile); saveToKeyfile(!pedited || pedited->labCurve.bcurve, "Luminance Curve", "bCurve", labCurve.bcurve, keyFile); saveToKeyfile(!pedited || pedited->labCurve.cccurve, "Luminance Curve", "ccCurve", labCurve.cccurve, keyFile); saveToKeyfile(!pedited || pedited->labCurve.chcurve, "Luminance Curve", "chCurve", labCurve.chcurve, keyFile); saveToKeyfile(!pedited || pedited->labCurve.lhcurve, "Luminance Curve", "lhCurve", labCurve.lhcurve, keyFile); saveToKeyfile(!pedited || pedited->labCurve.hhcurve, "Luminance Curve", "hhCurve", labCurve.hhcurve, keyFile); saveToKeyfile(!pedited || pedited->labCurve.lccurve, "Luminance Curve", "LcCurve", labCurve.lccurve, keyFile); saveToKeyfile(!pedited || pedited->labCurve.clcurve, "Luminance Curve", "ClCurve", labCurve.clcurve, keyFile); // Sharpening saveToKeyfile(!pedited || pedited->sharpening.enabled, "Sharpening", "Enabled", sharpening.enabled, keyFile); saveToKeyfile(!pedited || pedited->sharpening.method, "Sharpening", "Method", sharpening.method, keyFile); saveToKeyfile(!pedited || pedited->sharpening.radius, "Sharpening", "Radius", sharpening.radius, keyFile); saveToKeyfile(!pedited || pedited->sharpening.amount, "Sharpening", "Amount", sharpening.amount, keyFile); saveToKeyfile(!pedited || pedited->sharpening.threshold, "Sharpening", "Threshold", sharpening.threshold.toVector(), keyFile); saveToKeyfile(!pedited || pedited->sharpening.edgesonly, "Sharpening", "OnlyEdges", sharpening.edgesonly, keyFile); saveToKeyfile(!pedited || pedited->sharpening.edges_radius, "Sharpening", "EdgedetectionRadius", sharpening.edges_radius, keyFile); saveToKeyfile(!pedited || pedited->sharpening.edges_tolerance, "Sharpening", "EdgeTolerance", sharpening.edges_tolerance, keyFile); saveToKeyfile(!pedited || pedited->sharpening.halocontrol, "Sharpening", "HalocontrolEnabled", sharpening.halocontrol, keyFile); saveToKeyfile(!pedited || pedited->sharpening.halocontrol_amount, "Sharpening", "HalocontrolAmount", sharpening.halocontrol_amount, keyFile); saveToKeyfile(!pedited || pedited->sharpening.deconvradius, "Sharpening", "DeconvRadius", sharpening.deconvradius, keyFile); saveToKeyfile(!pedited || pedited->sharpening.deconvamount, "Sharpening", "DeconvAmount", sharpening.deconvamount, keyFile); saveToKeyfile(!pedited || pedited->sharpening.deconvdamping, "Sharpening", "DeconvDamping", sharpening.deconvdamping, keyFile); saveToKeyfile(!pedited || pedited->sharpening.deconviter, "Sharpening", "DeconvIterations", sharpening.deconviter, keyFile); // Vibrance saveToKeyfile(!pedited || pedited->vibrance.enabled, "Vibrance", "Enabled", vibrance.enabled, keyFile); saveToKeyfile(!pedited || pedited->vibrance.pastels, "Vibrance", "Pastels", vibrance.pastels, keyFile); saveToKeyfile(!pedited || pedited->vibrance.saturated, "Vibrance", "Saturated", vibrance.saturated, keyFile); saveToKeyfile(!pedited || pedited->vibrance.psthreshold, "Vibrance", "PSThreshold", vibrance.psthreshold.toVector(), keyFile); saveToKeyfile(!pedited || pedited->vibrance.protectskins, "Vibrance", "ProtectSkins", vibrance.protectskins, keyFile); saveToKeyfile(!pedited || pedited->vibrance.avoidcolorshift, "Vibrance", "AvoidColorShift", vibrance.avoidcolorshift, keyFile); saveToKeyfile(!pedited || pedited->vibrance.pastsattog, "Vibrance", "PastSatTog", vibrance.pastsattog, keyFile); saveToKeyfile(!pedited || pedited->vibrance.skintonescurve, "Vibrance", "SkinTonesCurve", vibrance.skintonescurve, keyFile); // Edge sharpening saveToKeyfile(!pedited || pedited->sharpenEdge.enabled, "SharpenEdge", "Enabled", sharpenEdge.enabled, keyFile); saveToKeyfile(!pedited || pedited->sharpenEdge.passes, "SharpenEdge", "Passes", sharpenEdge.passes, keyFile); saveToKeyfile(!pedited || pedited->sharpenEdge.amount, "SharpenEdge", "Strength", sharpenEdge.amount, keyFile); saveToKeyfile(!pedited || pedited->sharpenEdge.threechannels, "SharpenEdge", "ThreeChannels", sharpenEdge.threechannels, keyFile); // Micro-contrast sharpening saveToKeyfile(!pedited || pedited->sharpenMicro.enabled, "SharpenMicro", "Enabled", sharpenMicro.enabled, keyFile); saveToKeyfile(!pedited || pedited->sharpenMicro.matrix, "SharpenMicro", "Matrix", sharpenMicro.matrix, keyFile); saveToKeyfile(!pedited || pedited->sharpenMicro.amount, "SharpenMicro", "Strength", sharpenMicro.amount, keyFile); saveToKeyfile(!pedited || pedited->sharpenMicro.uniformity, "SharpenMicro", "Uniformity", sharpenMicro.uniformity, keyFile); /* // colorBoost if (!pedited || pedited->colorBoost.amount) keyFile.set_integer ("Color Boost", "Amount", colorBoost.amount); if (!pedited || pedited->colorBoost.avoidclip) keyFile.set_boolean ("Color Boost", "AvoidColorClipping", colorBoost.avoidclip); if (!pedited || pedited->colorBoost.enable_saturationlimiter) keyFile.set_boolean ("Color Boost", "SaturationLimiter", colorBoost.enable_saturationlimiter); if (!pedited || pedited->colorBoost.saturationlimit) keyFile.set_double ("Color Boost", "SaturationLimit", colorBoost.saturationlimit); */ // wb saveToKeyfile(!pedited || pedited->wb.method, "White Balance", "Setting", wb.method, keyFile); saveToKeyfile(!pedited || pedited->wb.temperature, "White Balance", "Temperature", wb.temperature, keyFile); saveToKeyfile(!pedited || pedited->wb.green, "White Balance", "Green", wb.green, keyFile); saveToKeyfile(!pedited || pedited->wb.equal, "White Balance", "Equal", wb.equal, keyFile); saveToKeyfile(!pedited || pedited->wb.tempBias, "White Balance", "TemperatureBias", wb.tempBias, keyFile); /* // colorShift if (!pedited || pedited->colorShift.a) keyFile.set_double ("Color Shift", "ChannelA", colorShift.a); if (!pedited || pedited->colorShift.b) keyFile.set_double ("Color Shift", "ChannelB", colorShift.b); */ // Colorappearance saveToKeyfile(!pedited || pedited->colorappearance.enabled, "Color appearance", "Enabled", colorappearance.enabled, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.degree, "Color appearance", "Degree", colorappearance.degree, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.autodegree, "Color appearance", "AutoDegree", colorappearance.autodegree, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.degreeout, "Color appearance", "Degreeout", colorappearance.degreeout, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.autodegreeout, "Color appearance", "AutoDegreeout", colorappearance.autodegreeout, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.surround, "Color appearance", "Surround", colorappearance.surround, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.surrsrc, "Color appearance", "Surrsrc", colorappearance.surrsrc, keyFile); // if (!pedited || pedited->colorappearance.backgrd) keyFile.set_integer ("Color appearance", "Background", colorappearance.backgrd); saveToKeyfile(!pedited || pedited->colorappearance.adaplum, "Color appearance", "AdaptLum", colorappearance.adaplum, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.badpixsl, "Color appearance", "Badpixsl", colorappearance.badpixsl, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.wbmodel, "Color appearance", "Model", colorappearance.wbmodel, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.algo, "Color appearance", "Algorithm", colorappearance.algo, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.jlight, "Color appearance", "J-Light", colorappearance.jlight, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.qbright, "Color appearance", "Q-Bright", colorappearance.qbright, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.chroma, "Color appearance", "C-Chroma", colorappearance.chroma, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.schroma, "Color appearance", "S-Chroma", colorappearance.schroma, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.mchroma, "Color appearance", "M-Chroma", colorappearance.mchroma, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.contrast, "Color appearance", "J-Contrast", colorappearance.contrast, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.qcontrast, "Color appearance", "Q-Contrast", colorappearance.qcontrast, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.colorh, "Color appearance", "H-Hue", colorappearance.colorh, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.rstprotection, "Color appearance", "RSTProtection", colorappearance.rstprotection, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.adapscen, "Color appearance", "AdaptScene", colorappearance.adapscen, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.autoadapscen, "Color appearance", "AutoAdapscen", colorappearance.autoadapscen, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.ybscen, "Color appearance", "YbScene", colorappearance.ybscen, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.autoybscen, "Color appearance", "Autoybscen", colorappearance.autoybscen, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.surrsource, "Color appearance", "SurrSource", colorappearance.surrsource, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.gamut, "Color appearance", "Gamut", colorappearance.gamut, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.tempout, "Color appearance", "Tempout", colorappearance.tempout, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.greenout, "Color appearance", "Greenout", colorappearance.greenout, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.tempsc, "Color appearance", "Tempsc", colorappearance.tempsc, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.greensc, "Color appearance", "Greensc", colorappearance.greensc, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.ybout, "Color appearance", "Ybout", colorappearance.ybout, keyFile); // if (!pedited || pedited->colorappearance.badpix) keyFile.set_boolean ("Color appearance", "Badpix", colorappearance.badpix); saveToKeyfile(!pedited || pedited->colorappearance.datacie, "Color appearance", "Datacie", colorappearance.datacie, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.tonecie, "Color appearance", "Tonecie", colorappearance.tonecie, keyFile); // if (!pedited || pedited->colorappearance.sharpcie) keyFile.set_boolean ("Color appearance", "Sharpcie", colorappearance.sharpcie); const std::map ca_mapping = { {ColorAppearanceParams::TcMode::LIGHT, "Lightness"}, {ColorAppearanceParams::TcMode::BRIGHT, "Brightness"} }; saveToKeyfile(!pedited || pedited->colorappearance.curveMode, "Color appearance", "CurveMode", ca_mapping, colorappearance.curveMode, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.curveMode2, "Color appearance", "CurveMode2", ca_mapping, colorappearance.curveMode2, keyFile); saveToKeyfile( !pedited || pedited->colorappearance.curveMode3, "Color appearance", "CurveMode3", { {ColorAppearanceParams::CtcMode::CHROMA, "Chroma"}, {ColorAppearanceParams::CtcMode::SATUR, "Saturation"}, {ColorAppearanceParams::CtcMode::COLORF, "Colorfullness"} }, colorappearance.curveMode3, keyFile ); saveToKeyfile(!pedited || pedited->colorappearance.curve, "Color appearance", "Curve", colorappearance.curve, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.curve2, "Color appearance", "Curve2", colorappearance.curve2, keyFile); saveToKeyfile(!pedited || pedited->colorappearance.curve3, "Color appearance", "Curve3", colorappearance.curve3, keyFile); // Impulse denoise saveToKeyfile(!pedited || pedited->impulseDenoise.enabled, "Impulse Denoising", "Enabled", impulseDenoise.enabled, keyFile); saveToKeyfile(!pedited || pedited->impulseDenoise.thresh, "Impulse Denoising", "Threshold", impulseDenoise.thresh, keyFile); // Defringe saveToKeyfile(!pedited || pedited->defringe.enabled, "Defringing", "Enabled", defringe.enabled, keyFile); saveToKeyfile(!pedited || pedited->defringe.radius, "Defringing", "Radius", defringe.radius, keyFile); saveToKeyfile(!pedited || pedited->defringe.threshold, "Defringing", "Threshold", defringe.threshold, keyFile); saveToKeyfile(!pedited || pedited->defringe.huecurve, "Defringing", "HueCurve", defringe.huecurve, keyFile); // Directional pyramid denoising saveToKeyfile(!pedited || pedited->dirpyrDenoise.enabled, "Directional Pyramid Denoising", "Enabled", dirpyrDenoise.enabled, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.enhance, "Directional Pyramid Denoising", "Enhance", dirpyrDenoise.enhance, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.median, "Directional Pyramid Denoising", "Median", dirpyrDenoise.median, keyFile); // if (!pedited || pedited->dirpyrDenoise.perform) keyFile.set_boolean ("Directional Pyramid Denoising", "Perform", dirpyrDenoise.perform); saveToKeyfile(!pedited || pedited->dirpyrDenoise.luma, "Directional Pyramid Denoising", "Luma", dirpyrDenoise.luma, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.Ldetail, "Directional Pyramid Denoising", "Ldetail", dirpyrDenoise.Ldetail, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.chroma, "Directional Pyramid Denoising", "Chroma", dirpyrDenoise.chroma, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.dmethod, "Directional Pyramid Denoising", "Method", dirpyrDenoise.dmethod, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.Lmethod, "Directional Pyramid Denoising", "LMethod", dirpyrDenoise.Lmethod, keyFile); // never save 'auto chroma preview mode' to pp3 if (dirpyrDenoise.Cmethod == "PRE") { dirpyrDenoise.Cmethod = "MAN"; } saveToKeyfile(!pedited || pedited->dirpyrDenoise.Cmethod, "Directional Pyramid Denoising", "CMethod", dirpyrDenoise.Cmethod, keyFile); if (dirpyrDenoise.C2method == "PREV") { dirpyrDenoise.C2method = "MANU"; } saveToKeyfile(!pedited || pedited->dirpyrDenoise.C2method, "Directional Pyramid Denoising", "C2Method", dirpyrDenoise.C2method, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.smethod, "Directional Pyramid Denoising", "SMethod", dirpyrDenoise.smethod, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.medmethod, "Directional Pyramid Denoising", "MedMethod", dirpyrDenoise.medmethod, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.rgbmethod, "Directional Pyramid Denoising", "RGBMethod", dirpyrDenoise.rgbmethod, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.methodmed, "Directional Pyramid Denoising", "MethodMed", dirpyrDenoise.methodmed, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.redchro, "Directional Pyramid Denoising", "Redchro", dirpyrDenoise.redchro, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.bluechro, "Directional Pyramid Denoising", "Bluechro", dirpyrDenoise.bluechro, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.gamma, "Directional Pyramid Denoising", "Gamma", dirpyrDenoise.gamma, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.passes, "Directional Pyramid Denoising", "Passes", dirpyrDenoise.passes, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.lcurve, "Directional Pyramid Denoising", "LCurve", dirpyrDenoise.lcurve, keyFile); saveToKeyfile(!pedited || pedited->dirpyrDenoise.cccurve, "Directional Pyramid Denoising", "CCCurve", dirpyrDenoise.cccurve, keyFile); // EPD saveToKeyfile(!pedited || pedited->epd.enabled, "EPD", "Enabled", epd.enabled, keyFile); saveToKeyfile(!pedited || pedited->epd.strength, "EPD", "Strength", epd.strength, keyFile); saveToKeyfile(!pedited || pedited->epd.gamma, "EPD", "Gamma", epd.gamma, keyFile); saveToKeyfile(!pedited || pedited->epd.edgeStopping, "EPD", "EdgeStopping", epd.edgeStopping, keyFile); saveToKeyfile(!pedited || pedited->epd.scale, "EPD", "Scale", epd.scale, keyFile); saveToKeyfile(!pedited || pedited->epd.reweightingIterates, "EPD", "ReweightingIterates", epd.reweightingIterates, keyFile); // Fattal saveToKeyfile(!pedited || pedited->fattal.enabled, "FattalToneMapping", "Enabled", fattal.enabled, keyFile); saveToKeyfile(!pedited || pedited->fattal.threshold, "FattalToneMapping", "Threshold", fattal.threshold, keyFile); saveToKeyfile(!pedited || pedited->fattal.amount, "FattalToneMapping", "Amount", fattal.amount, keyFile); /* // lumaDenoise if (!pedited || pedited->lumaDenoise.enabled) keyFile.set_boolean ("Luminance Denoising", "Enabled", lumaDenoise.enabled); if (!pedited || pedited->lumaDenoise.radius) keyFile.set_double ("Luminance Denoising", "Radius", lumaDenoise.radius); if (!pedited || pedited->lumaDenoise.edgetolerance) keyFile.set_integer ("Luminance Denoising", "EdgeTolerance", lumaDenoise.edgetolerance); */ /* // colorDenoise //if (!pedited || pedited->colorDenoise.enabled) keyFile.set_boolean ("Chrominance Denoising", "Enabled", colorDenoise.enabled); if (!pedited || pedited->colorDenoise.amount) keyFile.set_integer ("Chrominance Denoising", "Amount", colorDenoise.amount); */ // Shadows & highlights saveToKeyfile(!pedited || pedited->sh.enabled, "Shadows & Highlights", "Enabled", sh.enabled, keyFile); saveToKeyfile(!pedited || pedited->sh.hq, "Shadows & Highlights", "HighQuality", sh.hq, keyFile); saveToKeyfile(!pedited || pedited->sh.highlights, "Shadows & Highlights", "Highlights", sh.highlights, keyFile); saveToKeyfile(!pedited || pedited->sh.htonalwidth, "Shadows & Highlights", "HighlightTonalWidth", sh.htonalwidth, keyFile); saveToKeyfile(!pedited || pedited->sh.shadows, "Shadows & Highlights", "Shadows", sh.shadows, keyFile); saveToKeyfile(!pedited || pedited->sh.stonalwidth, "Shadows & Highlights", "ShadowTonalWidth", sh.stonalwidth, keyFile); saveToKeyfile(!pedited || pedited->sh.localcontrast, "Shadows & Highlights", "LocalContrast", sh.localcontrast, keyFile); saveToKeyfile(!pedited || pedited->sh.radius, "Shadows & Highlights", "Radius", sh.radius, keyFile); // Crop saveToKeyfile(!pedited || pedited->crop.enabled, "Crop", "Enabled", crop.enabled, keyFile); saveToKeyfile(!pedited || pedited->crop.x, "Crop", "X", crop.x, keyFile); saveToKeyfile(!pedited || pedited->crop.y, "Crop", "Y", crop.y, keyFile); saveToKeyfile(!pedited || pedited->crop.w, "Crop", "W", crop.w, keyFile); saveToKeyfile(!pedited || pedited->crop.h, "Crop", "H", crop.h, keyFile); saveToKeyfile(!pedited || pedited->crop.fixratio, "Crop", "FixedRatio", crop.fixratio, keyFile); saveToKeyfile(!pedited || pedited->crop.ratio, "Crop", "Ratio", crop.ratio, keyFile); saveToKeyfile(!pedited || pedited->crop.orientation, "Crop", "Orientation", crop.orientation, keyFile); saveToKeyfile(!pedited || pedited->crop.guide, "Crop", "Guide", crop.guide, keyFile); // Coarse transformation saveToKeyfile(!pedited || pedited->coarse.rotate, "Coarse Transformation", "Rotate", coarse.rotate, keyFile); saveToKeyfile(!pedited || pedited->coarse.hflip, "Coarse Transformation", "HorizontalFlip", coarse.hflip, keyFile); saveToKeyfile(!pedited || pedited->coarse.vflip, "Coarse Transformation", "VerticalFlip", coarse.vflip, keyFile); // Common properties for transformations saveToKeyfile(!pedited || pedited->commonTrans.autofill, "Common Properties for Transformations", "AutoFill", commonTrans.autofill, keyFile); // Rotation saveToKeyfile(!pedited || pedited->rotate.degree, "Rotation", "Degree", rotate.degree, keyFile); // Distortion saveToKeyfile(!pedited || pedited->distortion.amount, "Distortion", "Amount", distortion.amount, keyFile); // Lens profile saveToKeyfile(!pedited || pedited->lensProf.lcMode, "LensProfile", "LcMode", lensProf.getMethodString (lensProf.lcMode), keyFile); saveToKeyfile(!pedited || pedited->lensProf.lcpFile, "LensProfile", "LCPFile", relativePathIfInside (fname, fnameAbsolute, lensProf.lcpFile), keyFile); saveToKeyfile(!pedited || pedited->lensProf.useDist, "LensProfile", "UseDistortion", lensProf.useDist, keyFile); saveToKeyfile(!pedited || pedited->lensProf.useVign, "LensProfile", "UseVignette", lensProf.useVign, keyFile); saveToKeyfile(!pedited || pedited->lensProf.useCA, "LensProfile", "UseCA", lensProf.useCA, keyFile); saveToKeyfile(!pedited || pedited->lensProf.lfCameraMake, "LensProfile", "LFCameraMake", lensProf.lfCameraMake, keyFile); saveToKeyfile(!pedited || pedited->lensProf.lfCameraModel, "LensProfile", "LFCameraModel", lensProf.lfCameraModel, keyFile); saveToKeyfile(!pedited || pedited->lensProf.lfLens, "LensProfile", "LFLens", lensProf.lfLens, keyFile); // Perspective correction saveToKeyfile(!pedited || pedited->perspective.horizontal, "Perspective", "Horizontal", perspective.horizontal, keyFile); saveToKeyfile(!pedited || pedited->perspective.vertical, "Perspective", "Vertical", perspective.vertical, keyFile); // Gradient saveToKeyfile(!pedited || pedited->gradient.enabled, "Gradient", "Enabled", gradient.enabled, keyFile); saveToKeyfile(!pedited || pedited->gradient.degree, "Gradient", "Degree", gradient.degree, keyFile); saveToKeyfile(!pedited || pedited->gradient.feather, "Gradient", "Feather", gradient.feather, keyFile); saveToKeyfile(!pedited || pedited->gradient.strength, "Gradient", "Strength", gradient.strength, keyFile); saveToKeyfile(!pedited || pedited->gradient.centerX, "Gradient", "CenterX", gradient.centerX, keyFile); saveToKeyfile(!pedited || pedited->gradient.centerY, "Gradient", "CenterY", gradient.centerY, keyFile); // Post-crop vignette saveToKeyfile(!pedited || pedited->pcvignette.enabled, "PCVignette", "Enabled", pcvignette.enabled, keyFile); saveToKeyfile(!pedited || pedited->pcvignette.strength, "PCVignette", "Strength", pcvignette.strength, keyFile); saveToKeyfile(!pedited || pedited->pcvignette.feather, "PCVignette", "Feather", pcvignette.feather, keyFile); saveToKeyfile(!pedited || pedited->pcvignette.roundness, "PCVignette", "Roundness", pcvignette.roundness, keyFile); // C/A correction saveToKeyfile(!pedited || pedited->cacorrection.red, "CACorrection", "Red", cacorrection.red, keyFile); saveToKeyfile(!pedited || pedited->cacorrection.blue, "CACorrection", "Blue", cacorrection.blue, keyFile); // Vignetting correction saveToKeyfile(!pedited || pedited->vignetting.amount, "Vignetting Correction", "Amount", vignetting.amount, keyFile); saveToKeyfile(!pedited || pedited->vignetting.radius, "Vignetting Correction", "Radius", vignetting.radius, keyFile); saveToKeyfile(!pedited || pedited->vignetting.strength, "Vignetting Correction", "Strength", vignetting.strength, keyFile); saveToKeyfile(!pedited || pedited->vignetting.centerX, "Vignetting Correction", "CenterX", vignetting.centerX, keyFile); saveToKeyfile(!pedited || pedited->vignetting.centerY, "Vignetting Correction", "CenterY", vignetting.centerY, keyFile); // Resize saveToKeyfile(!pedited || pedited->resize.enabled, "Resize", "Enabled", resize.enabled, keyFile); saveToKeyfile(!pedited || pedited->resize.scale, "Resize", "Scale", resize.scale, keyFile); saveToKeyfile(!pedited || pedited->resize.appliesTo, "Resize", "AppliesTo", resize.appliesTo, keyFile); saveToKeyfile(!pedited || pedited->resize.method, "Resize", "Method", resize.method, keyFile); saveToKeyfile(!pedited || pedited->resize.dataspec, "Resize", "DataSpecified", resize.dataspec, keyFile); saveToKeyfile(!pedited || pedited->resize.width, "Resize", "Width", resize.width, keyFile); saveToKeyfile(!pedited || pedited->resize.height, "Resize", "Height", resize.height, keyFile); // Post resize sharpening saveToKeyfile(!pedited || pedited->prsharpening.enabled, "PostResizeSharpening", "Enabled", prsharpening.enabled, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.method, "PostResizeSharpening", "Method", prsharpening.method, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.radius, "PostResizeSharpening", "Radius", prsharpening.radius, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.amount, "PostResizeSharpening", "Amount", prsharpening.amount, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.threshold, "PostResizeSharpening", "Threshold", prsharpening.threshold.toVector(), keyFile); saveToKeyfile(!pedited || pedited->prsharpening.edgesonly, "PostResizeSharpening", "OnlyEdges", prsharpening.edgesonly, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.edges_radius, "PostResizeSharpening", "EdgedetectionRadius", prsharpening.edges_radius, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.edges_tolerance, "PostResizeSharpening", "EdgeTolerance", prsharpening.edges_tolerance, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.halocontrol, "PostResizeSharpening", "HalocontrolEnabled", prsharpening.halocontrol, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.halocontrol_amount, "PostResizeSharpening", "HalocontrolAmount", prsharpening.halocontrol_amount, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.deconvradius, "PostResizeSharpening", "DeconvRadius", prsharpening.deconvradius, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.deconvamount, "PostResizeSharpening", "DeconvAmount", prsharpening.deconvamount, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.deconvdamping, "PostResizeSharpening", "DeconvDamping", prsharpening.deconvdamping, keyFile); saveToKeyfile(!pedited || pedited->prsharpening.deconviter, "PostResizeSharpening", "DeconvIterations", prsharpening.deconviter, keyFile); // Color management saveToKeyfile(!pedited || pedited->icm.input, "Color Management", "InputProfile", relativePathIfInside (fname, fnameAbsolute, icm.input), keyFile); saveToKeyfile(!pedited || pedited->icm.toneCurve, "Color Management", "ToneCurve", icm.toneCurve, keyFile); saveToKeyfile(!pedited || pedited->icm.applyLookTable, "Color Management", "ApplyLookTable", icm.applyLookTable, keyFile); saveToKeyfile(!pedited || pedited->icm.applyBaselineExposureOffset, "Color Management", "ApplyBaselineExposureOffset", icm.applyBaselineExposureOffset, keyFile); saveToKeyfile(!pedited || pedited->icm.applyHueSatMap, "Color Management", "ApplyHueSatMap", icm.applyHueSatMap, keyFile); saveToKeyfile(!pedited || pedited->icm.dcpIlluminant, "Color Management", "DCPIlluminant", icm.dcpIlluminant, keyFile); saveToKeyfile(!pedited || pedited->icm.working, "Color Management", "WorkingProfile", icm.working, keyFile); saveToKeyfile(!pedited || pedited->icm.output, "Color Management", "OutputProfile", icm.output, keyFile); saveToKeyfile( !pedited || icm.outputIntent, "Color Management", "OutputProfileIntent", { {RI_PERCEPTUAL, "Perceptual"}, {RI_RELATIVE, "Relative"}, {RI_SATURATION, "Saturation"}, {RI_ABSOLUTE, "Absolute"} }, icm.outputIntent, keyFile ); saveToKeyfile(!pedited || pedited->icm.outputBPC, "Color Management", "OutputBPC", icm.outputBPC, keyFile); saveToKeyfile(!pedited || pedited->icm.gamma, "Color Management", "Gammafree", icm.gamma, keyFile); saveToKeyfile(!pedited || pedited->icm.freegamma, "Color Management", "Freegamma", icm.freegamma, keyFile); saveToKeyfile(!pedited || pedited->icm.gampos, "Color Management", "GammaValue", icm.gampos, keyFile); saveToKeyfile(!pedited || pedited->icm.slpos, "Color Management", "GammaSlope", icm.slpos, keyFile); // Wavelet saveToKeyfile(!pedited || pedited->wavelet.enabled, "Wavelet", "Enabled", wavelet.enabled, keyFile); saveToKeyfile(!pedited || pedited->wavelet.strength, "Wavelet", "Strength", wavelet.strength, keyFile); saveToKeyfile(!pedited || pedited->wavelet.balance, "Wavelet", "Balance", wavelet.balance, keyFile); saveToKeyfile(!pedited || pedited->wavelet.iter, "Wavelet", "Iter", wavelet.iter, keyFile); saveToKeyfile(!pedited || pedited->wavelet.thres, "Wavelet", "MaxLev", wavelet.thres, keyFile); saveToKeyfile(!pedited || pedited->wavelet.Tilesmethod, "Wavelet", "TilesMethod", wavelet.Tilesmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.daubcoeffmethod, "Wavelet", "DaubMethod", wavelet.daubcoeffmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.CLmethod, "Wavelet", "ChoiceLevMethod", wavelet.CLmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.Backmethod, "Wavelet", "BackMethod", wavelet.Backmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.Lmethod, "Wavelet", "LevMethod", wavelet.Lmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.Dirmethod, "Wavelet", "DirMethod", wavelet.Dirmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.greenhigh, "Wavelet", "CBgreenhigh", wavelet.greenhigh, keyFile); saveToKeyfile(!pedited || pedited->wavelet.greenmed, "Wavelet", "CBgreenmed", wavelet.greenmed, keyFile); saveToKeyfile(!pedited || pedited->wavelet.greenlow, "Wavelet", "CBgreenlow", wavelet.greenlow, keyFile); saveToKeyfile(!pedited || pedited->wavelet.bluehigh, "Wavelet", "CBbluehigh", wavelet.bluehigh, keyFile); saveToKeyfile(!pedited || pedited->wavelet.bluemed, "Wavelet", "CBbluemed", wavelet.bluemed, keyFile); saveToKeyfile(!pedited || pedited->wavelet.bluelow, "Wavelet", "CBbluelow", wavelet.bluelow, keyFile); saveToKeyfile(!pedited || pedited->wavelet.expcontrast, "Wavelet", "Expcontrast", wavelet.expcontrast, keyFile); saveToKeyfile(!pedited || pedited->wavelet.expchroma, "Wavelet", "Expchroma", wavelet.expchroma, keyFile); saveToKeyfile(!pedited || pedited->wavelet.expedge, "Wavelet", "Expedge", wavelet.expedge, keyFile); saveToKeyfile(!pedited || pedited->wavelet.expresid, "Wavelet", "Expresid", wavelet.expresid, keyFile); saveToKeyfile(!pedited || pedited->wavelet.expfinal, "Wavelet", "Expfinal", wavelet.expfinal, keyFile); saveToKeyfile(!pedited || pedited->wavelet.exptoning, "Wavelet", "Exptoning", wavelet.exptoning, keyFile); saveToKeyfile(!pedited || pedited->wavelet.expnoise, "Wavelet", "Expnoise", wavelet.expnoise, keyFile); for (int i = 0; i < 9; i++) { std::stringstream ss; ss << "Contrast" << (i + 1); saveToKeyfile(!pedited || pedited->wavelet.c[i], "Wavelet", ss.str(), wavelet.c[i], keyFile); } for (int i = 0; i < 9; i++) { std::stringstream ss; ss << "Chroma" << (i + 1); saveToKeyfile(!pedited || pedited->wavelet.ch[i], "Wavelet", ss.str(), wavelet.ch[i], keyFile); } saveToKeyfile(!pedited || pedited->wavelet.sup, "Wavelet", "ContExtra", wavelet.sup, keyFile); saveToKeyfile(!pedited || pedited->wavelet.HSmethod, "Wavelet", "HSMethod", wavelet.HSmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.hllev, "Wavelet", "HLRange", wavelet.hllev.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.bllev, "Wavelet", "SHRange", wavelet.bllev.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.edgcont, "Wavelet", "Edgcont", wavelet.edgcont.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.level0noise, "Wavelet", "Level0noise", wavelet.level0noise.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.level1noise, "Wavelet", "Level1noise", wavelet.level1noise.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.level2noise, "Wavelet", "Level2noise", wavelet.level2noise.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.level3noise, "Wavelet", "Level3noise", wavelet.level3noise.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.threshold, "Wavelet", "ThresholdHighlight", wavelet.threshold, keyFile); saveToKeyfile(!pedited || pedited->wavelet.threshold2, "Wavelet", "ThresholdShadow", wavelet.threshold2, keyFile); saveToKeyfile(!pedited || pedited->wavelet.edgedetect, "Wavelet", "Edgedetect", wavelet.edgedetect, keyFile); saveToKeyfile(!pedited || pedited->wavelet.edgedetectthr, "Wavelet", "Edgedetectthr", wavelet.edgedetectthr, keyFile); saveToKeyfile(!pedited || pedited->wavelet.edgedetectthr2, "Wavelet", "EdgedetectthrHi", wavelet.edgedetectthr2, keyFile); saveToKeyfile(!pedited || pedited->wavelet.edgesensi, "Wavelet", "Edgesensi", wavelet.edgesensi, keyFile); saveToKeyfile(!pedited || pedited->wavelet.edgeampli, "Wavelet", "Edgeampli", wavelet.edgeampli, keyFile); saveToKeyfile(!pedited || pedited->wavelet.chroma, "Wavelet", "ThresholdChroma", wavelet.chroma, keyFile); saveToKeyfile(!pedited || pedited->wavelet.CHmethod, "Wavelet", "CHromaMethod", wavelet.CHmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.Medgreinf, "Wavelet", "Medgreinf", wavelet.Medgreinf, keyFile); saveToKeyfile(!pedited || pedited->wavelet.CHSLmethod, "Wavelet", "CHSLromaMethod", wavelet.CHSLmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.EDmethod, "Wavelet", "EDMethod", wavelet.EDmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.NPmethod, "Wavelet", "NPMethod", wavelet.NPmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.BAmethod, "Wavelet", "BAMethod", wavelet.BAmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.TMmethod, "Wavelet", "TMMethod", wavelet.TMmethod, keyFile); saveToKeyfile(!pedited || pedited->wavelet.chro, "Wavelet", "ChromaLink", wavelet.chro, keyFile); saveToKeyfile(!pedited || pedited->wavelet.ccwcurve, "Wavelet", "ContrastCurve", wavelet.ccwcurve, keyFile); saveToKeyfile(!pedited || pedited->wavelet.pastlev, "Wavelet", "Pastlev", wavelet.pastlev.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.satlev, "Wavelet", "Satlev", wavelet.satlev.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.opacityCurveRG, "Wavelet", "OpacityCurveRG", wavelet.opacityCurveRG, keyFile); saveToKeyfile(!pedited || pedited->wavelet.opacityCurveBY, "Wavelet", "OpacityCurveBY", wavelet.opacityCurveBY, keyFile); saveToKeyfile(!pedited || pedited->wavelet.opacityCurveW, "Wavelet", "OpacityCurveW", wavelet.opacityCurveW, keyFile); saveToKeyfile(!pedited || pedited->wavelet.opacityCurveWL, "Wavelet", "OpacityCurveWL", wavelet.opacityCurveWL, keyFile); saveToKeyfile(!pedited || pedited->wavelet.hhcurve, "Wavelet", "HHcurve", wavelet.hhcurve, keyFile); saveToKeyfile(!pedited || pedited->wavelet.Chcurve, "Wavelet", "CHcurve", wavelet.Chcurve, keyFile); saveToKeyfile(!pedited || pedited->wavelet.wavclCurve, "Wavelet", "WavclCurve", wavelet.wavclCurve, keyFile); saveToKeyfile(!pedited || pedited->wavelet.median, "Wavelet", "Median", wavelet.median, keyFile); saveToKeyfile(!pedited || pedited->wavelet.medianlev, "Wavelet", "Medianlev", wavelet.medianlev, keyFile); saveToKeyfile(!pedited || pedited->wavelet.linkedg, "Wavelet", "Linkedg", wavelet.linkedg, keyFile); saveToKeyfile(!pedited || pedited->wavelet.cbenab, "Wavelet", "CBenab", wavelet.cbenab, keyFile); saveToKeyfile(!pedited || pedited->wavelet.lipst, "Wavelet", "Lipst", wavelet.lipst, keyFile); // if (!pedited || pedited->wavelet.edgreinf) keyFile.set_boolean ("Wavelet", "Edgreinf", wavelet.edgreinf); saveToKeyfile(!pedited || pedited->wavelet.skinprotect, "Wavelet", "Skinprotect", wavelet.skinprotect, keyFile); saveToKeyfile(!pedited || pedited->wavelet.hueskin, "Wavelet", "Hueskin", wavelet.hueskin.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.edgrad, "Wavelet", "Edgrad", wavelet.edgrad, keyFile); saveToKeyfile(!pedited || pedited->wavelet.edgval, "Wavelet", "Edgval", wavelet.edgval, keyFile); saveToKeyfile(!pedited || pedited->wavelet.edgthresh, "Wavelet", "ThrEdg", wavelet.edgthresh, keyFile); // if (!pedited || pedited->wavelet.strength) keyFile.set_integer ("Wavelet", "Strength", wavelet.strength); // if (!pedited || pedited->wavelet.balance) keyFile.set_integer ("Wavelet", "Balance", wavelet.balance); saveToKeyfile(!pedited || pedited->wavelet.avoid, "Wavelet", "AvoidColorShift", wavelet.avoid, keyFile); saveToKeyfile(!pedited || pedited->wavelet.tmr, "Wavelet", "TMr", wavelet.tmr, keyFile); saveToKeyfile(!pedited || pedited->wavelet.rescon, "Wavelet", "ResidualcontShadow", wavelet.rescon, keyFile); saveToKeyfile(!pedited || pedited->wavelet.resconH, "Wavelet", "ResidualcontHighlight", wavelet.resconH, keyFile); saveToKeyfile(!pedited || pedited->wavelet.thr, "Wavelet", "ThresholdResidShadow", wavelet.thr, keyFile); saveToKeyfile(!pedited || pedited->wavelet.thrH, "Wavelet", "ThresholdResidHighLight", wavelet.thrH, keyFile); saveToKeyfile(!pedited || pedited->wavelet.reschro, "Wavelet", "Residualchroma", wavelet.reschro, keyFile); saveToKeyfile(!pedited || pedited->wavelet.tmrs, "Wavelet", "ResidualTM", wavelet.tmrs, keyFile); saveToKeyfile(!pedited || pedited->wavelet.gamma, "Wavelet", "Residualgamma", wavelet.gamma, keyFile); saveToKeyfile(!pedited || pedited->wavelet.sky, "Wavelet", "HueRangeResidual", wavelet.sky, keyFile); saveToKeyfile(!pedited || pedited->wavelet.hueskin2, "Wavelet", "HueRange", wavelet.hueskin2.toVector(), keyFile); saveToKeyfile(!pedited || pedited->wavelet.contrast, "Wavelet", "Contrast", wavelet.contrast, keyFile); // Directional pyramid equalizer saveToKeyfile(!pedited || pedited->dirpyrequalizer.enabled, "Directional Pyramid Equalizer", "Enabled", dirpyrequalizer.enabled, keyFile); saveToKeyfile(!pedited || pedited->dirpyrequalizer.gamutlab, "Directional Pyramid Equalizer", "Gamutlab", dirpyrequalizer.gamutlab, keyFile); saveToKeyfile(!pedited || pedited->dirpyrequalizer.cbdlMethod, "Directional Pyramid Equalizer", "cbdlMethod", dirpyrequalizer.cbdlMethod, keyFile); for (int i = 0; i < 6; i++) { std::stringstream ss; ss << "Mult" << i; saveToKeyfile(!pedited || pedited->dirpyrequalizer.mult[i], "Directional Pyramid Equalizer", ss.str(), dirpyrequalizer.mult[i], keyFile); } saveToKeyfile(!pedited || pedited->dirpyrequalizer.threshold, "Directional Pyramid Equalizer", "Threshold", dirpyrequalizer.threshold, keyFile); saveToKeyfile(!pedited || pedited->dirpyrequalizer.skinprotect, "Directional Pyramid Equalizer", "Skinprotect", dirpyrequalizer.skinprotect, keyFile); // if (!pedited || pedited->dirpyrequalizer.algo) keyFile.set_string ("Directional Pyramid Equalizer", "Algorithm", dirpyrequalizer.algo); saveToKeyfile(!pedited || pedited->dirpyrequalizer.hueskin, "Directional Pyramid Equalizer", "Hueskin", dirpyrequalizer.hueskin.toVector(), keyFile); // HSV Equalizer saveToKeyfile(!pedited || pedited->hsvequalizer.hcurve, "HSV Equalizer", "HCurve", hsvequalizer.hcurve, keyFile); saveToKeyfile(!pedited || pedited->hsvequalizer.scurve, "HSV Equalizer", "SCurve", hsvequalizer.scurve, keyFile); saveToKeyfile(!pedited || pedited->hsvequalizer.vcurve, "HSV Equalizer", "VCurve", hsvequalizer.vcurve, keyFile); // Film simulation saveToKeyfile(!pedited || pedited->filmSimulation.enabled, "Film Simulation", "Enabled", filmSimulation.enabled, keyFile); saveToKeyfile(!pedited || pedited->filmSimulation.clutFilename, "Film Simulation", "ClutFilename", filmSimulation.clutFilename, keyFile); saveToKeyfile(!pedited || pedited->filmSimulation.strength, "Film Simulation", "Strength", filmSimulation.strength, keyFile); saveToKeyfile(!pedited || pedited->rgbCurves.lumamode, "RGB Curves", "LumaMode", rgbCurves.lumamode, keyFile); saveToKeyfile(!pedited || pedited->rgbCurves.rcurve, "RGB Curves", "rCurve", rgbCurves.rcurve, keyFile); saveToKeyfile(!pedited || pedited->rgbCurves.gcurve, "RGB Curves", "gCurve", rgbCurves.gcurve, keyFile); saveToKeyfile(!pedited || pedited->rgbCurves.bcurve, "RGB Curves", "bCurve", rgbCurves.bcurve, keyFile); // Color toning saveToKeyfile(!pedited || pedited->colorToning.enabled, "ColorToning", "Enabled", colorToning.enabled, keyFile); saveToKeyfile(!pedited || pedited->colorToning.method, "ColorToning", "Method", colorToning.method, keyFile); saveToKeyfile(!pedited || pedited->colorToning.lumamode, "ColorToning", "Lumamode", colorToning.lumamode, keyFile); saveToKeyfile(!pedited || pedited->colorToning.twocolor, "ColorToning", "Twocolor", colorToning.twocolor, keyFile); saveToKeyfile(!pedited || pedited->colorToning.redlow, "ColorToning", "Redlow", colorToning.redlow, keyFile); saveToKeyfile(!pedited || pedited->colorToning.greenlow, "ColorToning", "Greenlow", colorToning.greenlow, keyFile); saveToKeyfile(!pedited || pedited->colorToning.bluelow, "ColorToning", "Bluelow", colorToning.bluelow, keyFile); saveToKeyfile(!pedited || pedited->colorToning.satlow, "ColorToning", "Satlow", colorToning.satlow, keyFile); saveToKeyfile(!pedited || pedited->colorToning.balance, "ColorToning", "Balance", colorToning.balance, keyFile); saveToKeyfile(!pedited || pedited->colorToning.sathigh, "ColorToning", "Sathigh", colorToning.sathigh, keyFile); saveToKeyfile(!pedited || pedited->colorToning.redmed, "ColorToning", "Redmed", colorToning.redmed, keyFile); saveToKeyfile(!pedited || pedited->colorToning.greenmed, "ColorToning", "Greenmed", colorToning.greenmed, keyFile); saveToKeyfile(!pedited || pedited->colorToning.bluemed, "ColorToning", "Bluemed", colorToning.bluemed, keyFile); saveToKeyfile(!pedited || pedited->colorToning.redhigh, "ColorToning", "Redhigh", colorToning.redhigh, keyFile); saveToKeyfile(!pedited || pedited->colorToning.greenhigh, "ColorToning", "Greenhigh", colorToning.greenhigh, keyFile); saveToKeyfile(!pedited || pedited->colorToning.bluehigh, "ColorToning", "Bluehigh", colorToning.bluehigh, keyFile); saveToKeyfile(!pedited || pedited->colorToning.autosat, "ColorToning", "Autosat", colorToning.autosat, keyFile); saveToKeyfile(!pedited || pedited->colorToning.opacityCurve, "ColorToning", "OpacityCurve", colorToning.opacityCurve, keyFile); saveToKeyfile(!pedited || pedited->colorToning.colorCurve, "ColorToning", "ColorCurve", colorToning.colorCurve, keyFile); saveToKeyfile(!pedited || pedited->colorToning.satprotectionthreshold, "ColorToning", "SatProtectionThreshold", colorToning.satProtectionThreshold, keyFile); saveToKeyfile(!pedited || pedited->colorToning.saturatedopacity, "ColorToning", "SaturatedOpacity", colorToning.saturatedOpacity, keyFile); saveToKeyfile(!pedited || pedited->colorToning.strength, "ColorToning", "Strength", colorToning.strength, keyFile); saveToKeyfile(!pedited || pedited->colorToning.hlColSat, "ColorToning", "HighlightsColorSaturation", colorToning.hlColSat.toVector(), keyFile); saveToKeyfile(!pedited || pedited->colorToning.shadowsColSat, "ColorToning", "ShadowsColorSaturation", colorToning.shadowsColSat.toVector(), keyFile); saveToKeyfile(!pedited || pedited->colorToning.clcurve, "ColorToning", "ClCurve", colorToning.clcurve, keyFile); saveToKeyfile(!pedited || pedited->colorToning.cl2curve, "ColorToning", "Cl2Curve", colorToning.cl2curve, keyFile); // Raw saveToKeyfile(!pedited || pedited->raw.darkFrame, "RAW", "DarkFrame", relativePathIfInside (fname, fnameAbsolute, raw.dark_frame), keyFile); saveToKeyfile(!pedited || pedited->raw.df_autoselect, "RAW", "DarkFrameAuto", raw.df_autoselect, keyFile); saveToKeyfile(!pedited || pedited->raw.ff_file, "RAW", "FlatFieldFile", relativePathIfInside (fname, fnameAbsolute, raw.ff_file), keyFile); saveToKeyfile(!pedited || pedited->raw.ff_AutoSelect, "RAW", "FlatFieldAutoSelect", raw.ff_AutoSelect, keyFile); saveToKeyfile(!pedited || pedited->raw.ff_BlurRadius, "RAW", "FlatFieldBlurRadius", raw.ff_BlurRadius, keyFile); saveToKeyfile(!pedited || pedited->raw.ff_BlurType, "RAW", "FlatFieldBlurType", raw.ff_BlurType, keyFile); saveToKeyfile(!pedited || pedited->raw.ff_AutoClipControl, "RAW", "FlatFieldAutoClipControl", raw.ff_AutoClipControl, keyFile); saveToKeyfile(!pedited || pedited->raw.ff_clipControl, "RAW", "FlatFieldClipControl", raw.ff_clipControl, keyFile); saveToKeyfile(!pedited || pedited->raw.ca_autocorrect, "RAW", "CA", raw.ca_autocorrect, keyFile); saveToKeyfile(!pedited || pedited->raw.cared, "RAW", "CARed", raw.cared, keyFile); saveToKeyfile(!pedited || pedited->raw.cablue, "RAW", "CABlue", raw.cablue, keyFile); saveToKeyfile(!pedited || pedited->raw.hotPixelFilter, "RAW", "HotPixelFilter", raw.hotPixelFilter, keyFile); saveToKeyfile(!pedited || pedited->raw.deadPixelFilter, "RAW", "DeadPixelFilter", raw.deadPixelFilter, keyFile); saveToKeyfile(!pedited || pedited->raw.hotdeadpix_thresh, "RAW", "HotDeadPixelThresh", raw.hotdeadpix_thresh, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.method, "RAW Bayer", "Method", raw.bayersensor.method, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.imageNum, "RAW Bayer", "ImageNum", raw.bayersensor.imageNum + 1, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.ccSteps, "RAW Bayer", "CcSteps", raw.bayersensor.ccSteps, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.exBlack0, "RAW Bayer", "PreBlack0", raw.bayersensor.black0, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.exBlack1, "RAW Bayer", "PreBlack1", raw.bayersensor.black1, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.exBlack2, "RAW Bayer", "PreBlack2", raw.bayersensor.black2, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.exBlack3, "RAW Bayer", "PreBlack3", raw.bayersensor.black3, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.exTwoGreen, "RAW Bayer", "PreTwoGreen", raw.bayersensor.twogreen, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.linenoise, "RAW Bayer", "LineDenoise", raw.bayersensor.linenoise, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.greenEq, "RAW Bayer", "GreenEqThreshold", raw.bayersensor.greenthresh, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.dcbIterations, "RAW Bayer", "DCBIterations", raw.bayersensor.dcb_iterations, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.dcbEnhance, "RAW Bayer", "DCBEnhance", raw.bayersensor.dcb_enhance, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.lmmseIterations, "RAW Bayer", "LMMSEIterations", raw.bayersensor.lmmse_iterations, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftMotion, "RAW Bayer", "PixelShiftMotion", raw.bayersensor.pixelShiftMotion, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftMotionCorrection, "RAW Bayer", "PixelShiftMotionCorrection", toUnderlying(raw.bayersensor.pixelShiftMotionCorrection), keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftMotionCorrectionMethod, "RAW Bayer", "PixelShiftMotionCorrectionMethod", toUnderlying(raw.bayersensor.pixelShiftMotionCorrectionMethod), keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftStddevFactorGreen, "RAW Bayer", "pixelShiftStddevFactorGreen", raw.bayersensor.pixelShiftStddevFactorGreen, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftStddevFactorRed, "RAW Bayer", "pixelShiftStddevFactorRed", raw.bayersensor.pixelShiftStddevFactorRed, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftStddevFactorBlue, "RAW Bayer", "pixelShiftStddevFactorBlue", raw.bayersensor.pixelShiftStddevFactorBlue, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftEperIso, "RAW Bayer", "PixelShiftEperIso", raw.bayersensor.pixelShiftEperIso, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftNreadIso, "RAW Bayer", "PixelShiftNreadIso", raw.bayersensor.pixelShiftNreadIso, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftPrnu, "RAW Bayer", "PixelShiftPrnu", raw.bayersensor.pixelShiftPrnu, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftSigma, "RAW Bayer", "PixelShiftSigma", raw.bayersensor.pixelShiftSigma, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftSum, "RAW Bayer", "PixelShiftSum", raw.bayersensor.pixelShiftSum, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftRedBlueWeight, "RAW Bayer", "PixelShiftRedBlueWeight", raw.bayersensor.pixelShiftRedBlueWeight, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftShowMotion, "RAW Bayer", "PixelShiftShowMotion", raw.bayersensor.pixelShiftShowMotion, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftShowMotionMaskOnly, "RAW Bayer", "PixelShiftShowMotionMaskOnly", raw.bayersensor.pixelShiftShowMotionMaskOnly, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftAutomatic, "RAW Bayer", "pixelShiftAutomatic", raw.bayersensor.pixelShiftAutomatic, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftNonGreenHorizontal, "RAW Bayer", "pixelShiftNonGreenHorizontal", raw.bayersensor.pixelShiftNonGreenHorizontal, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftNonGreenVertical, "RAW Bayer", "pixelShiftNonGreenVertical", raw.bayersensor.pixelShiftNonGreenVertical, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftHoleFill, "RAW Bayer", "pixelShiftHoleFill", raw.bayersensor.pixelShiftHoleFill, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftMedian, "RAW Bayer", "pixelShiftMedian", raw.bayersensor.pixelShiftMedian, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftMedian3, "RAW Bayer", "pixelShiftMedian3", raw.bayersensor.pixelShiftMedian3, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftGreen, "RAW Bayer", "pixelShiftGreen", raw.bayersensor.pixelShiftGreen, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftBlur, "RAW Bayer", "pixelShiftBlur", raw.bayersensor.pixelShiftBlur, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftSmooth, "RAW Bayer", "pixelShiftSmoothFactor", raw.bayersensor.pixelShiftSmoothFactor, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftExp0, "RAW Bayer", "pixelShiftExp0", raw.bayersensor.pixelShiftExp0, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftLmmse, "RAW Bayer", "pixelShiftLmmse", raw.bayersensor.pixelShiftLmmse, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftEqualBright, "RAW Bayer", "pixelShiftEqualBright", raw.bayersensor.pixelShiftEqualBright, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftEqualBrightChannel, "RAW Bayer", "pixelShiftEqualBrightChannel", raw.bayersensor.pixelShiftEqualBrightChannel, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftNonGreenCross, "RAW Bayer", "pixelShiftNonGreenCross", raw.bayersensor.pixelShiftNonGreenCross, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftNonGreenCross2, "RAW Bayer", "pixelShiftNonGreenCross2", raw.bayersensor.pixelShiftNonGreenCross2, keyFile); saveToKeyfile(!pedited || pedited->raw.bayersensor.pixelShiftNonGreenAmaze, "RAW Bayer", "pixelShiftNonGreenAmaze", raw.bayersensor.pixelShiftNonGreenAmaze, keyFile); saveToKeyfile(!pedited || pedited->raw.xtranssensor.method, "RAW X-Trans", "Method", raw.xtranssensor.method, keyFile); saveToKeyfile(!pedited || pedited->raw.xtranssensor.ccSteps, "RAW X-Trans", "CcSteps", raw.xtranssensor.ccSteps, keyFile); saveToKeyfile(!pedited || pedited->raw.xtranssensor.exBlackRed, "RAW X-Trans", "PreBlackRed", raw.xtranssensor.blackred, keyFile); saveToKeyfile(!pedited || pedited->raw.xtranssensor.exBlackGreen, "RAW X-Trans", "PreBlackGreen", raw.xtranssensor.blackgreen, keyFile); saveToKeyfile(!pedited || pedited->raw.xtranssensor.exBlackBlue, "RAW X-Trans", "PreBlackBlue", raw.xtranssensor.blackblue, keyFile); // Raw exposition saveToKeyfile(!pedited || pedited->raw.exPos, "RAW", "PreExposure", raw.expos, keyFile); saveToKeyfile(!pedited || pedited->raw.exPreser, "RAW", "PrePreserv", raw.preser, keyFile); // EXIF change list if (!pedited || pedited->exif) { for (ExifPairs::const_iterator i = exif.begin(); i != exif.end(); ++i) { keyFile.set_string ("Exif", i->first, i->second); } } // IPTC change list if (!pedited || pedited->iptc) { for (IPTCPairs::const_iterator i = iptc.begin(); i != iptc.end(); ++i) { Glib::ArrayHandle values = i->second; keyFile.set_string_list ("IPTC", i->first, values); } } sPParams = keyFile.to_data(); } catch (Glib::KeyFileError&) {} if (sPParams.empty ()) { return 1; } int error1, error2; error1 = write (fname, sPParams); if (!fname2.empty ()) { error2 = write (fname2, sPParams); // If at least one file has been saved, it's a success return error1 & error2; } else { return error1; } } int ProcParams::load (const Glib::ustring &fname, ParamsEdited* pedited) { setlocale (LC_NUMERIC, "C"); // to set decimal point to "." if (fname.empty()) { return 1; } Glib::KeyFile keyFile; try { if (pedited) { pedited->set (false); } FILE* f = g_fopen (fname.c_str (), "rt"); if (!f) { return 1; } char* buffer = new char[1024]; std::ostringstream ostr; while (fgets (buffer, 1024, f)) { ostr << buffer << "\n"; } delete [] buffer; if (!keyFile.load_from_data (ostr.str())) { return 1; } fclose (f); ppVersion = PPVERSION; appVersion = RTVERSION; if (keyFile.has_group ("Version")) { if (keyFile.has_key ("Version", "AppVersion")) { appVersion = keyFile.get_string ("Version", "AppVersion"); } if (keyFile.has_key ("Version", "Version")) { ppVersion = keyFile.get_integer ("Version", "Version"); } } if (keyFile.has_group ("General")) { assignFromKeyfile(keyFile, "General", "Rank", pedited, rank, pedited->general.rank); assignFromKeyfile(keyFile, "General", "ColorLabel", pedited, colorlabel, pedited->general.colorlabel); assignFromKeyfile(keyFile, "General", "InTrash", pedited, inTrash, pedited->general.intrash); } if (keyFile.has_group ("Exposure")) { if (ppVersion < PPVERSION_AEXP) { toneCurve.autoexp = false; // prevent execution of autoexp when opening file created with earlier verions of autoexp algorithm } else { assignFromKeyfile(keyFile, "Exposure", "Auto", pedited, toneCurve.autoexp, pedited->toneCurve.autoexp); } assignFromKeyfile(keyFile, "Exposure", "Clip", pedited, toneCurve.clip, pedited->toneCurve.clip); assignFromKeyfile(keyFile, "Exposure", "Compensation", pedited, toneCurve.expcomp, pedited->toneCurve.expcomp); assignFromKeyfile(keyFile, "Exposure", "Brightness", pedited, toneCurve.brightness, pedited->toneCurve.brightness); assignFromKeyfile(keyFile, "Exposure", "Contrast", pedited, toneCurve.contrast, pedited->toneCurve.contrast); assignFromKeyfile(keyFile, "Exposure", "Saturation", pedited, toneCurve.saturation, pedited->toneCurve.saturation); assignFromKeyfile(keyFile, "Exposure", "Black", pedited, toneCurve.black, pedited->toneCurve.black); assignFromKeyfile(keyFile, "Exposure", "HighlightCompr", pedited, toneCurve.hlcompr, pedited->toneCurve.hlcompr); assignFromKeyfile(keyFile, "Exposure", "HighlightComprThreshold", pedited, toneCurve.hlcomprthresh, pedited->toneCurve.hlcomprthresh); assignFromKeyfile(keyFile, "Exposure", "ShadowCompr", pedited, toneCurve.shcompr, pedited->toneCurve.shcompr); if (toneCurve.shcompr > 100) { toneCurve.shcompr = 100; // older pp3 files can have values above 100. } const std::map tc_mapping = { {"Standard", ToneCurveParams::TcMode::STD}, {"FilmLike", ToneCurveParams::TcMode::FILMLIKE}, {"SatAndValueBlending", ToneCurveParams::TcMode::SATANDVALBLENDING}, {"WeightedStd", ToneCurveParams::TcMode::WEIGHTEDSTD}, {"Luminance", ToneCurveParams::TcMode::LUMINANCE}, {"Perceptual", ToneCurveParams::TcMode::PERCEPTUAL} }; assignFromKeyfile(keyFile, "Exposure", "CurveMode", pedited, tc_mapping, toneCurve.curveMode, pedited->toneCurve.curveMode); assignFromKeyfile(keyFile, "Exposure", "CurveMode2", pedited, tc_mapping, toneCurve.curveMode, pedited->toneCurve.curveMode); if (ppVersion > 200) { assignFromKeyfile(keyFile, "Exposure", "Curve", pedited, toneCurve.curve, pedited->toneCurve.curve); assignFromKeyfile(keyFile, "Exposure", "Curve2", pedited, toneCurve.curve2, pedited->toneCurve.curve2); } } if (keyFile.has_group ("HLRecovery")) { assignFromKeyfile(keyFile, "HLRecovery", "Enabled", pedited, toneCurve.hrenabled, pedited->toneCurve.hrenabled); assignFromKeyfile(keyFile, "HLRecovery", "Method", pedited, toneCurve.method, pedited->toneCurve.method); } if (keyFile.has_group ("Channel Mixer")) { if (keyFile.has_key ("Channel Mixer", "Red") && keyFile.has_key ("Channel Mixer", "Green") && keyFile.has_key ("Channel Mixer", "Blue")) { const std::vector rmix = keyFile.get_integer_list ("Channel Mixer", "Red"); const std::vector gmix = keyFile.get_integer_list ("Channel Mixer", "Green"); const std::vector bmix = keyFile.get_integer_list ("Channel Mixer", "Blue"); if (rmix.size() == 3 && gmix.size() == 3 && bmix.size() == 3) { memcpy (chmixer.red, rmix.data(), 3 * sizeof (int)); memcpy (chmixer.green, gmix.data(), 3 * sizeof (int)); memcpy (chmixer.blue, bmix.data(), 3 * sizeof (int)); } if (pedited) { pedited->chmixer.red[0] = pedited->chmixer.red[1] = pedited->chmixer.red[2] = true; pedited->chmixer.green[0] = pedited->chmixer.green[1] = pedited->chmixer.green[2] = true; pedited->chmixer.blue[0] = pedited->chmixer.blue[1] = pedited->chmixer.blue[2] = true; } } } if (keyFile.has_group ("Black & White")) { assignFromKeyfile(keyFile, "Black & White", "Enabled", pedited, blackwhite.enabled, pedited->blackwhite.enabled); assignFromKeyfile(keyFile, "Black & White", "Method", pedited, blackwhite.method, pedited->blackwhite.method); assignFromKeyfile(keyFile, "Black & White", "Auto", pedited, blackwhite.autoc, pedited->blackwhite.autoc); assignFromKeyfile(keyFile, "Black & White", "ComplementaryColors", pedited, blackwhite.enabledcc, pedited->blackwhite.enabledcc); assignFromKeyfile(keyFile, "Black & White", "MixerRed", pedited, blackwhite.mixerRed, pedited->blackwhite.mixerRed); assignFromKeyfile(keyFile, "Black & White", "MixerOrange", pedited, blackwhite.mixerOrange, pedited->blackwhite.mixerOrange); assignFromKeyfile(keyFile, "Black & White", "MixerYellow", pedited, blackwhite.mixerYellow, pedited->blackwhite.mixerYellow); assignFromKeyfile(keyFile, "Black & White", "MixerGreen", pedited, blackwhite.mixerGreen, pedited->blackwhite.mixerGreen); assignFromKeyfile(keyFile, "Black & White", "MixerCyan", pedited, blackwhite.mixerCyan, pedited->blackwhite.mixerCyan); assignFromKeyfile(keyFile, "Black & White", "MixerBlue", pedited, blackwhite.mixerBlue, pedited->blackwhite.mixerBlue); assignFromKeyfile(keyFile, "Black & White", "MixerMagenta", pedited, blackwhite.mixerMagenta, pedited->blackwhite.mixerMagenta); assignFromKeyfile(keyFile, "Black & White", "MixerPurple", pedited, blackwhite.mixerPurple, pedited->blackwhite.mixerPurple); assignFromKeyfile(keyFile, "Black & White", "GammaRed", pedited, blackwhite.gammaRed, pedited->blackwhite.gammaRed); assignFromKeyfile(keyFile, "Black & White", "GammaGreen", pedited, blackwhite.gammaGreen, pedited->blackwhite.gammaGreen); assignFromKeyfile(keyFile, "Black & White", "GammaBlue", pedited, blackwhite.gammaBlue, pedited->blackwhite.gammaBlue); assignFromKeyfile(keyFile, "Black & White", "Filter", pedited, blackwhite.filter, pedited->blackwhite.filter); assignFromKeyfile(keyFile, "Black & White", "Setting", pedited, blackwhite.setting, pedited->blackwhite.setting); assignFromKeyfile(keyFile, "Black & White", "LuminanceCurve", pedited, blackwhite.luminanceCurve, pedited->blackwhite.luminanceCurve); assignFromKeyfile(keyFile, "Black & White", "BeforeCurve", pedited, blackwhite.beforeCurve, pedited->blackwhite.beforeCurve); assignFromKeyfile(keyFile, "Black & White", "Algorithm", pedited, blackwhite.algo, pedited->blackwhite.algo); assignFromKeyfile( keyFile, "Black & White", "BeforeCurveMode", pedited, { {"Standard", BlackWhiteParams::TcMode::STD_BW}, {"FilmLike", BlackWhiteParams::TcMode::FILMLIKE_BW}, {"SatAndValueBlending", BlackWhiteParams::TcMode::SATANDVALBLENDING_BW}, {"WeightedStd", BlackWhiteParams::TcMode::WEIGHTEDSTD_BW} }, blackwhite.beforeCurveMode, pedited->blackwhite.beforeCurveMode ); assignFromKeyfile(keyFile, "Black & White", "AfterCurve", pedited, blackwhite.afterCurve, pedited->blackwhite.afterCurve); assignFromKeyfile( keyFile, "Black & White", "AfterCurveMode", pedited, { {"Standard", BlackWhiteParams::TcMode::STD_BW}, {"WeightedStd", BlackWhiteParams::TcMode::WEIGHTEDSTD_BW} }, blackwhite.afterCurveMode, pedited->blackwhite.afterCurveMode ); } if (keyFile.has_group ("Retinex")) { assignFromKeyfile(keyFile, "Retinex", "Median", pedited, retinex.medianmap, pedited->retinex.medianmap); assignFromKeyfile(keyFile, "Retinex", "RetinexMethod", pedited, retinex.retinexMethod, pedited->retinex.retinexMethod); assignFromKeyfile(keyFile, "Retinex", "mapMethod", pedited, retinex.mapMethod, pedited->retinex.mapMethod); assignFromKeyfile(keyFile, "Retinex", "viewMethod", pedited, retinex.viewMethod, pedited->retinex.viewMethod); assignFromKeyfile(keyFile, "Retinex", "Retinexcolorspace", pedited, retinex.retinexcolorspace, pedited->retinex.retinexcolorspace); assignFromKeyfile(keyFile, "Retinex", "Gammaretinex", pedited, retinex.gammaretinex, pedited->retinex.gammaretinex); assignFromKeyfile(keyFile, "Retinex", "Enabled", pedited, retinex.enabled, pedited->retinex.enabled); assignFromKeyfile(keyFile, "Retinex", "Neigh", pedited, retinex.neigh, pedited->retinex.neigh); assignFromKeyfile(keyFile, "Retinex", "Str", pedited, retinex.str, pedited->retinex.str); assignFromKeyfile(keyFile, "Retinex", "Scal", pedited, retinex.scal, pedited->retinex.scal); assignFromKeyfile(keyFile, "Retinex", "Iter", pedited, retinex.iter, pedited->retinex.iter); assignFromKeyfile(keyFile, "Retinex", "Grad", pedited, retinex.grad, pedited->retinex.grad); assignFromKeyfile(keyFile, "Retinex", "Grads", pedited, retinex.grads, pedited->retinex.grads); assignFromKeyfile(keyFile, "Retinex", "Gam", pedited, retinex.gam, pedited->retinex.gam); assignFromKeyfile(keyFile, "Retinex", "Slope", pedited, retinex.slope, pedited->retinex.slope); assignFromKeyfile(keyFile, "Retinex", "Offs", pedited, retinex.offs, pedited->retinex.offs); assignFromKeyfile(keyFile, "Retinex", "Vart", pedited, retinex.vart, pedited->retinex.vart); assignFromKeyfile(keyFile, "Retinex", "Limd", pedited, retinex.limd, pedited->retinex.limd); assignFromKeyfile(keyFile, "Retinex", "highl", pedited, retinex.highl, pedited->retinex.highl); assignFromKeyfile(keyFile, "Retinex", "skal", pedited, retinex.skal, pedited->retinex.skal); assignFromKeyfile(keyFile, "Retinex", "CDCurve", pedited, retinex.cdcurve, pedited->retinex.cdcurve); assignFromKeyfile(keyFile, "Retinex", "MAPCurve", pedited, retinex.mapcurve, pedited->retinex.mapcurve); assignFromKeyfile(keyFile, "Retinex", "CDHCurve", pedited, retinex.cdHcurve, pedited->retinex.cdHcurve); assignFromKeyfile(keyFile, "Retinex", "LHCurve", pedited, retinex.lhcurve, pedited->retinex.lhcurve); assignFromKeyfile(keyFile, "Retinex", "Highlights", pedited, retinex.highlights, pedited->retinex.highlights); assignFromKeyfile(keyFile, "Retinex", "HighlightTonalWidth", pedited, retinex.htonalwidth, pedited->retinex.htonalwidth); assignFromKeyfile(keyFile, "Retinex", "Shadows", pedited, retinex.shadows, pedited->retinex.shadows); assignFromKeyfile(keyFile, "Retinex", "ShadowTonalWidth", pedited, retinex.stonalwidth, pedited->retinex.stonalwidth); assignFromKeyfile(keyFile, "Retinex", "Radius", pedited, retinex.radius, pedited->retinex.radius); assignFromKeyfile(keyFile, "Retinex", "TransmissionCurve", pedited, retinex.transmissionCurve, pedited->retinex.transmissionCurve); assignFromKeyfile(keyFile, "Retinex", "GainTransmissionCurve", pedited, retinex.gaintransmissionCurve, pedited->retinex.gaintransmissionCurve); } if (keyFile.has_group ("Luminance Curve")) { assignFromKeyfile(keyFile, "Luminance Curve", "Brightness", pedited, labCurve.brightness, pedited->labCurve.brightness); assignFromKeyfile(keyFile, "Luminance Curve", "Contrast", pedited, labCurve.contrast, pedited->labCurve.contrast); if (ppVersion < 303) { // transform Saturation into Chromaticity // if Saturation == 0, should we set BWToning on? assignFromKeyfile(keyFile, "Luminance Curve", "Saturation", pedited, labCurve.chromaticity, pedited->labCurve.chromaticity); // transform AvoidColorClipping into AvoidColorShift assignFromKeyfile(keyFile, "Luminance Curve", "AvoidColorClipping", pedited, labCurve.avoidcolorshift, pedited->labCurve.avoidcolorshift); } else { if (keyFile.has_key ("Luminance Curve", "Chromaticity")) { labCurve.chromaticity = keyFile.get_integer ("Luminance Curve", "Chromaticity"); if (ppVersion >= 303 && ppVersion < 314 && labCurve.chromaticity == -100) { blackwhite.enabled = true; } if (pedited) { pedited->labCurve.chromaticity = true; } } assignFromKeyfile(keyFile, "Luminance Curve", "AvoidColorShift", pedited, labCurve.avoidcolorshift, pedited->labCurve.avoidcolorshift); assignFromKeyfile(keyFile, "Luminance Curve", "RedAndSkinTonesProtection", pedited, labCurve.rstprotection, pedited->labCurve.rstprotection); } assignFromKeyfile(keyFile, "Luminance Curve", "LCredsk", pedited, labCurve.lcredsk, pedited->labCurve.lcredsk); if (ppVersion < 314) // Backward compatibility: If BWtoning is true, Chromaticity has to be set to -100, which will produce the same effect // and will enable the b&w toning mode ('a' & 'b' curves) if (keyFile.has_key ("Luminance Curve", "BWtoning")) { if ( keyFile.get_boolean ("Luminance Curve", "BWtoning")) { labCurve.chromaticity = -100; if (pedited) { pedited->labCurve.chromaticity = true; } } } assignFromKeyfile(keyFile, "Luminance Curve", "LCurve", pedited, labCurve.lcurve, pedited->labCurve.lcurve); assignFromKeyfile(keyFile, "Luminance Curve", "aCurve", pedited, labCurve.acurve, pedited->labCurve.acurve); assignFromKeyfile(keyFile, "Luminance Curve", "bCurve", pedited, labCurve.bcurve, pedited->labCurve.bcurve); assignFromKeyfile(keyFile, "Luminance Curve", "ccCurve", pedited, labCurve.cccurve, pedited->labCurve.cccurve); assignFromKeyfile(keyFile, "Luminance Curve", "chCurve", pedited, labCurve.chcurve, pedited->labCurve.chcurve); assignFromKeyfile(keyFile, "Luminance Curve", "lhCurve", pedited, labCurve.lhcurve, pedited->labCurve.lhcurve); assignFromKeyfile(keyFile, "Luminance Curve", "hhCurve", pedited, labCurve.hhcurve, pedited->labCurve.hhcurve); assignFromKeyfile(keyFile, "Luminance Curve", "LcCurve", pedited, labCurve.lccurve, pedited->labCurve.lccurve); assignFromKeyfile(keyFile, "Luminance Curve", "ClCurve", pedited, labCurve.clcurve, pedited->labCurve.clcurve); } if (keyFile.has_group ("Sharpening")) { assignFromKeyfile(keyFile, "Sharpening", "Enabled", pedited, sharpening.enabled, pedited->sharpening.enabled); assignFromKeyfile(keyFile, "Sharpening", "Radius", pedited, sharpening.radius, pedited->sharpening.radius); assignFromKeyfile(keyFile, "Sharpening", "Amount", pedited, sharpening.amount, pedited->sharpening.amount); if (keyFile.has_key ("Sharpening", "Threshold")) { if (ppVersion < 302) { int thresh = min (keyFile.get_integer ("Sharpening", "Threshold"), 2000); sharpening.threshold.setValues (thresh, thresh, 2000, 2000); // TODO: 2000 is the maximum value and is taken of rtgui/sharpening.cc ; should be changed by the tool modularization } else { const std::vector thresh = keyFile.get_integer_list ("Sharpening", "Threshold"); if (thresh.size() >= 4) { sharpening.threshold.setValues (thresh[0], thresh[1], min (thresh[2], 2000), min (thresh[3], 2000)); } } if (pedited) { pedited->sharpening.threshold = true; } } assignFromKeyfile(keyFile, "Sharpening", "OnlyEdges", pedited, sharpening.edgesonly, pedited->sharpening.edgesonly); assignFromKeyfile(keyFile, "Sharpening", "EdgedetectionRadius", pedited, sharpening.edges_radius, pedited->sharpening.edges_radius); assignFromKeyfile(keyFile, "Sharpening", "EdgeTolerance", pedited, sharpening.edges_tolerance, pedited->sharpening.edges_tolerance); assignFromKeyfile(keyFile, "Sharpening", "HalocontrolEnabled", pedited, sharpening.halocontrol, pedited->sharpening.halocontrol); assignFromKeyfile(keyFile, "Sharpening", "HalocontrolAmount", pedited, sharpening.halocontrol_amount, pedited->sharpening.halocontrol_amount); assignFromKeyfile(keyFile, "Sharpening", "Method", pedited, sharpening.method, pedited->sharpening.method); assignFromKeyfile(keyFile, "Sharpening", "DeconvRadius", pedited, sharpening.deconvradius, pedited->sharpening.deconvradius); assignFromKeyfile(keyFile, "Sharpening", "DeconvAmount", pedited, sharpening.deconvamount, pedited->sharpening.deconvamount); assignFromKeyfile(keyFile, "Sharpening", "DeconvDamping", pedited, sharpening.deconvdamping, pedited->sharpening.deconvdamping); assignFromKeyfile(keyFile, "Sharpening", "DeconvIterations", pedited, sharpening.deconviter, pedited->sharpening.deconviter); } if (keyFile.has_group ("SharpenEdge")) { assignFromKeyfile(keyFile, "SharpenEdge", "Enabled", pedited, sharpenEdge.enabled, pedited->sharpenEdge.enabled); assignFromKeyfile(keyFile, "SharpenEdge", "Passes", pedited, sharpenEdge.passes, pedited->sharpenEdge.passes); assignFromKeyfile(keyFile, "SharpenEdge", "Strength", pedited, sharpenEdge.amount, pedited->sharpenEdge.amount); assignFromKeyfile(keyFile, "SharpenEdge", "ThreeChannels", pedited, sharpenEdge.threechannels, pedited->sharpenEdge.threechannels); } if (keyFile.has_group ("SharpenMicro")) { assignFromKeyfile(keyFile, "SharpenMicro", "Enabled", pedited, sharpenMicro.enabled, pedited->sharpenMicro.enabled); assignFromKeyfile(keyFile, "SharpenMicro", "Matrix", pedited, sharpenMicro.matrix, pedited->sharpenMicro.matrix); assignFromKeyfile(keyFile, "SharpenMicro", "Strength", pedited, sharpenMicro.amount, pedited->sharpenMicro.amount); assignFromKeyfile(keyFile, "SharpenMicro", "Uniformity", pedited, sharpenMicro.uniformity, pedited->sharpenMicro.uniformity); } if (keyFile.has_group ("Vibrance")) { assignFromKeyfile(keyFile, "Vibrance", "Enabled", pedited, vibrance.enabled, pedited->vibrance.enabled); assignFromKeyfile(keyFile, "Vibrance", "Pastels", pedited, vibrance.pastels, pedited->vibrance.pastels); assignFromKeyfile(keyFile, "Vibrance", "Saturated", pedited, vibrance.saturated, pedited->vibrance.saturated); if (keyFile.has_key ("Vibrance", "PSThreshold")) { if (ppVersion < 302) { int thresh = keyFile.get_integer ("Vibrance", "PSThreshold"); vibrance.psthreshold.setValues (thresh, thresh); } else { const std::vector thresh = keyFile.get_integer_list ("Vibrance", "PSThreshold"); if (thresh.size() >= 2 ) { vibrance.psthreshold.setValues (thresh[0], thresh[1]); } } if (pedited) { pedited->vibrance.psthreshold = true; } } assignFromKeyfile(keyFile, "Vibrance", "ProtectSkins", pedited, vibrance.protectskins, pedited->vibrance.protectskins); assignFromKeyfile(keyFile, "Vibrance", "AvoidColorShift", pedited, vibrance.avoidcolorshift, pedited->vibrance.avoidcolorshift); assignFromKeyfile(keyFile, "Vibrance", "PastSatTog", pedited, vibrance.pastsattog, pedited->vibrance.pastsattog); assignFromKeyfile(keyFile, "Vibrance", "SkinTonesCurve", pedited, vibrance.skintonescurve, pedited->vibrance.skintonescurve); } // load colorBoost /*if (keyFile.has_group ("Color Boost")) { if (keyFile.has_key ("Color Boost", "Amount")) { colorBoost.amount = keyFile.get_integer ("Color Boost", "Amount"); if (pedited) pedited->colorBoost.amount = true; } else { int a=0, b=0; if (keyFile.has_key ("Color Boost", "ChannelA")) { a = keyFile.get_integer ("Color Boost", "ChannelA"); } if (keyFile.has_key ("Color Boost", "ChannelB")) { b = keyFile.get_integer ("Color Boost", "ChannelB"); } colorBoost.amount = (a+b) / 2; if (pedited) pedited->colorBoost.amount = true; } if (keyFile.has_key ("Color Boost", "AvoidColorClipping")) { colorBoost.avoidclip = keyFile.get_boolean ("Color Boost", "AvoidColorClipping"); if (pedited) pedited->colorBoost.avoidclip = true; } if (keyFile.has_key ("Color Boost", "SaturationLimiter")) { colorBoost.enable_saturationlimiter= keyFile.get_boolean ("Color Boost", "SaturationLimiter"); if (pedited) pedited->colorBoost.enable_saturationlimiter = true; } if (keyFile.has_key ("Color Boost", "SaturationLimit")) { colorBoost.saturationlimit = keyFile.get_double ("Color Boost", "SaturationLimit"); if (pedited) pedited->colorBoost.saturationlimit = true; } }*/ if (keyFile.has_group ("White Balance")) { assignFromKeyfile(keyFile, "White Balance", "Setting", pedited, wb.method, pedited->wb.method); assignFromKeyfile(keyFile, "White Balance", "Temperature", pedited, wb.temperature, pedited->wb.temperature); assignFromKeyfile(keyFile, "White Balance", "Green", pedited, wb.green, pedited->wb.green); assignFromKeyfile(keyFile, "White Balance", "Equal", pedited, wb.equal, pedited->wb.equal); assignFromKeyfile(keyFile, "White Balance", "TemperatureBias", pedited, wb.tempBias, pedited->wb.tempBias); } // load colorShift /*if (keyFile.has_group ("Color Shift")) { if (keyFile.has_key ("Color Shift", "ChannelA")) { colorShift.a = keyFile.get_double ("Color Shift", "ChannelA"); if (pedited) pedited->colorShift.a = true; } if (keyFile.has_key ("Color Shift", "ChannelB")) { colorShift.b = keyFile.get_double ("Color Shift", "ChannelB"); if (pedited) pedited->colorShift.b = true; } }*/ if (keyFile.has_group ("Defringing")) { assignFromKeyfile(keyFile, "Defringing", "Enabled", pedited, defringe.enabled, pedited->defringe.enabled); assignFromKeyfile(keyFile, "Defringing", "Radius", pedited, defringe.radius, pedited->defringe.radius); if (keyFile.has_key ("Defringing", "Threshold")) { defringe.threshold = (float)keyFile.get_integer ("Defringing", "Threshold"); if (pedited) { pedited->defringe.threshold = true; } } if (ppVersion < 310) { defringe.threshold = sqrt (defringe.threshold * 33.f / 5.f); } assignFromKeyfile(keyFile, "Defringing", "HueCurve", pedited, defringe.huecurve, pedited->defringe.huecurve); } if (keyFile.has_group ("Color appearance")) { assignFromKeyfile(keyFile, "Color appearance", "Enabled", pedited, colorappearance.enabled, pedited->colorappearance.enabled); assignFromKeyfile(keyFile, "Color appearance", "Degree", pedited, colorappearance.degree, pedited->colorappearance.degree); assignFromKeyfile(keyFile, "Color appearance", "AutoDegree", pedited, colorappearance.autodegree, pedited->colorappearance.autodegree); assignFromKeyfile(keyFile, "Color appearance", "Degreeout", pedited, colorappearance.degreeout, pedited->colorappearance.degreeout); assignFromKeyfile(keyFile, "Color appearance", "AutoDegreeout", pedited, colorappearance.autodegreeout, pedited->colorappearance.autodegreeout); assignFromKeyfile(keyFile, "Color appearance", "Surround", pedited, colorappearance.surround, pedited->colorappearance.surround); assignFromKeyfile(keyFile, "Color appearance", "Surrsrc", pedited, colorappearance.surrsrc, pedited->colorappearance.surrsrc); // if (keyFile.has_key ("Color appearance", "Background")) {colorappearance.backgrd = keyFile.get_integer ("Color appearance", "Background"); if (pedited) pedited->colorappearance.backgrd = true; } assignFromKeyfile(keyFile, "Color appearance", "AdaptLum", pedited, colorappearance.adaplum, pedited->colorappearance.adaplum); assignFromKeyfile(keyFile, "Color appearance", "Badpixsl", pedited, colorappearance.badpixsl, pedited->colorappearance.badpixsl); assignFromKeyfile(keyFile, "Color appearance", "Model", pedited, colorappearance.wbmodel, pedited->colorappearance.wbmodel); assignFromKeyfile(keyFile, "Color appearance", "Algorithm", pedited, colorappearance.algo, pedited->colorappearance.algo); assignFromKeyfile(keyFile, "Color appearance", "J-Light", pedited, colorappearance.jlight, pedited->colorappearance.jlight); assignFromKeyfile(keyFile, "Color appearance", "Q-Bright", pedited, colorappearance.qbright, pedited->colorappearance.qbright); assignFromKeyfile(keyFile, "Color appearance", "C-Chroma", pedited, colorappearance.chroma, pedited->colorappearance.chroma); assignFromKeyfile(keyFile, "Color appearance", "S-Chroma", pedited, colorappearance.schroma, pedited->colorappearance.schroma); assignFromKeyfile(keyFile, "Color appearance", "M-Chroma", pedited, colorappearance.mchroma, pedited->colorappearance.mchroma); assignFromKeyfile(keyFile, "Color appearance", "RSTProtection", pedited, colorappearance.rstprotection, pedited->colorappearance.rstprotection); assignFromKeyfile(keyFile, "Color appearance", "J-Contrast", pedited, colorappearance.contrast, pedited->colorappearance.contrast); assignFromKeyfile(keyFile, "Color appearance", "Q-Contrast", pedited, colorappearance.qcontrast, pedited->colorappearance.qcontrast); assignFromKeyfile(keyFile, "Color appearance", "H-Hue", pedited, colorappearance.colorh, pedited->colorappearance.colorh); assignFromKeyfile(keyFile, "Color appearance", "AdaptScene", pedited, colorappearance.adapscen, pedited->colorappearance.adapscen); assignFromKeyfile(keyFile, "Color appearance", "AutoAdapscen", pedited, colorappearance.autoadapscen, pedited->colorappearance.autoadapscen); assignFromKeyfile(keyFile, "Color appearance", "YbScene", pedited, colorappearance.ybscen, pedited->colorappearance.ybscen); assignFromKeyfile(keyFile, "Color appearance", "Autoybscen", pedited, colorappearance.autoybscen, pedited->colorappearance.autoybscen); assignFromKeyfile(keyFile, "Color appearance", "SurrSource", pedited, colorappearance.surrsource, pedited->colorappearance.surrsource); assignFromKeyfile(keyFile, "Color appearance", "Gamut", pedited, colorappearance.gamut, pedited->colorappearance.gamut); assignFromKeyfile(keyFile, "Color appearance", "Tempout", pedited, colorappearance.tempout, pedited->colorappearance.tempout); assignFromKeyfile(keyFile, "Color appearance", "Greenout", pedited, colorappearance.greenout, pedited->colorappearance.greenout); assignFromKeyfile(keyFile, "Color appearance", "Tempsc", pedited, colorappearance.tempsc, pedited->colorappearance.tempsc); assignFromKeyfile(keyFile, "Color appearance", "Greensc", pedited, colorappearance.greensc, pedited->colorappearance.greensc); assignFromKeyfile(keyFile, "Color appearance", "Ybout", pedited, colorappearance.ybout, pedited->colorappearance.ybout); // if (keyFile.has_key ("Color appearance", "Badpix")) {colorappearance.badpix = keyFile.get_boolean ("Color appearance", "Badpix"); if (pedited) pedited->colorappearance.badpix = true; } assignFromKeyfile(keyFile, "Color appearance", "Datacie", pedited, colorappearance.datacie, pedited->colorappearance.datacie); assignFromKeyfile(keyFile, "Color appearance", "Tonecie", pedited, colorappearance.tonecie, pedited->colorappearance.tonecie); // if (keyFile.has_key ("Color appearance", "Sharpcie")) {colorappearance.sharpcie = keyFile.get_boolean ("Color appearance", "Sharpcie"); if (pedited) pedited->colorappearance.sharpcie = true; } const std::map tc_mapping = { {"Lightness", ColorAppearanceParams::TcMode::LIGHT}, {"Brightness", ColorAppearanceParams::TcMode::BRIGHT} }; assignFromKeyfile(keyFile, "Color appearance", "CurveMode", pedited, tc_mapping, colorappearance.curveMode, pedited->colorappearance.curveMode); assignFromKeyfile(keyFile, "Color appearance", "CurveMode2", pedited, tc_mapping, colorappearance.curveMode2, pedited->colorappearance.curveMode2); assignFromKeyfile( keyFile, "Color appearance", "CurveMode3", pedited, { {"Chroma", ColorAppearanceParams::CtcMode::CHROMA}, {"Saturation", ColorAppearanceParams::CtcMode::SATUR}, {"Colorfullness", ColorAppearanceParams::CtcMode::COLORF} }, colorappearance.curveMode3, pedited->colorappearance.curveMode3 ); if (ppVersion > 200) { assignFromKeyfile(keyFile, "Color appearance", "Curve", pedited, colorappearance.curve, pedited->colorappearance.curve); assignFromKeyfile(keyFile, "Color appearance", "Curve2", pedited, colorappearance.curve2, pedited->colorappearance.curve2); assignFromKeyfile(keyFile, "Color appearance", "Curve3", pedited, colorappearance.curve3, pedited->colorappearance.curve3); } } if (keyFile.has_group ("Impulse Denoising")) { assignFromKeyfile(keyFile, "Impulse Denoising", "Enabled", pedited, impulseDenoise.enabled, pedited->impulseDenoise.enabled); assignFromKeyfile(keyFile, "Impulse Denoising", "Threshold", pedited, impulseDenoise.thresh, pedited->impulseDenoise.thresh); } if (keyFile.has_group ("Directional Pyramid Denoising")) {//TODO: No longer an accurate description for FT denoise assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Enabled", pedited, dirpyrDenoise.enabled, pedited->dirpyrDenoise.enabled); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Enhance", pedited, dirpyrDenoise.enhance, pedited->dirpyrDenoise.enhance); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Median", pedited, dirpyrDenoise.median, pedited->dirpyrDenoise.median); // if (keyFile.has_key ("Directional Pyramid Denoising", "Perform")) { dirpyrDenoise.perform = keyFile.get_boolean ("Directional Pyramid Denoising", "Perform"); if (pedited) pedited->dirpyrDenoise.perform = true; } assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Luma", pedited, dirpyrDenoise.luma, pedited->dirpyrDenoise.luma); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Ldetail", pedited, dirpyrDenoise.Ldetail, pedited->dirpyrDenoise.Ldetail); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Chroma", pedited, dirpyrDenoise.chroma, pedited->dirpyrDenoise.chroma); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Method", pedited, dirpyrDenoise.dmethod, pedited->dirpyrDenoise.dmethod); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "LMethod", pedited, dirpyrDenoise.Lmethod, pedited->dirpyrDenoise.Lmethod); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "CMethod", pedited, dirpyrDenoise.Cmethod, pedited->dirpyrDenoise.Cmethod); // never load 'auto chroma preview mode' from pp3 if (dirpyrDenoise.Cmethod == "PRE") { dirpyrDenoise.Cmethod = "MAN"; } assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "C2Method", pedited, dirpyrDenoise.C2method, pedited->dirpyrDenoise.C2method); if (dirpyrDenoise.C2method == "PREV") { dirpyrDenoise.C2method = "MANU"; } assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "SMethod", pedited, dirpyrDenoise.smethod, pedited->dirpyrDenoise.smethod); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "MedMethod", pedited, dirpyrDenoise.medmethod, pedited->dirpyrDenoise.medmethod); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "MethodMed", pedited, dirpyrDenoise.methodmed, pedited->dirpyrDenoise.methodmed); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "RGBMethod", pedited, dirpyrDenoise.rgbmethod, pedited->dirpyrDenoise.rgbmethod); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "LCurve", pedited, dirpyrDenoise.lcurve, pedited->dirpyrDenoise.lcurve); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "CCCurve", pedited, dirpyrDenoise.cccurve, pedited->dirpyrDenoise.cccurve); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Redchro", pedited, dirpyrDenoise.redchro, pedited->dirpyrDenoise.redchro); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Bluechro", pedited, dirpyrDenoise.bluechro, pedited->dirpyrDenoise.bluechro); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Gamma", pedited, dirpyrDenoise.gamma, pedited->dirpyrDenoise.gamma); assignFromKeyfile(keyFile, "Directional Pyramid Denoising", "Passes", pedited, dirpyrDenoise.passes, pedited->dirpyrDenoise.passes); } if (keyFile.has_group ("EPD")) { assignFromKeyfile(keyFile, "EPD", "Enabled", pedited, epd.enabled, pedited->epd.enabled); assignFromKeyfile(keyFile, "EPD", "Strength", pedited, epd.strength, pedited->epd.strength); assignFromKeyfile(keyFile, "EPD", "Gamma", pedited, epd.gamma, pedited->epd.gamma); assignFromKeyfile(keyFile, "EPD", "EdgeStopping", pedited, epd.edgeStopping, pedited->epd.edgeStopping); assignFromKeyfile(keyFile, "EPD", "Scale", pedited, epd.scale, pedited->epd.scale); assignFromKeyfile(keyFile, "EPD", "ReweightingIterates", pedited, epd.reweightingIterates, pedited->epd.reweightingIterates); } if (keyFile.has_group ("FattalToneMapping")) { assignFromKeyfile(keyFile, "FattalToneMapping", "Enabled", pedited, fattal.enabled, pedited->fattal.enabled); assignFromKeyfile(keyFile, "FattalToneMapping", "Threshold", pedited, fattal.threshold, pedited->fattal.threshold); assignFromKeyfile(keyFile, "FattalToneMapping", "Amount", pedited, fattal.amount, pedited->fattal.amount); } // load lumaDenoise /*if (keyFile.has_group ("Luminance Denoising")) { if (keyFile.has_key ("Luminance Denoising", "Enabled")) { lumaDenoise.enabled = keyFile.get_boolean ("Luminance Denoising", "Enabled"); if (pedited) pedited->lumaDenoise.enabled = true; } if (keyFile.has_key ("Luminance Denoising", "Radius")) { lumaDenoise.radius = keyFile.get_double ("Luminance Denoising", "Radius"); if (pedited) pedited->lumaDenoise.radius = true; } if (keyFile.has_key ("Luminance Denoising", "EdgeTolerance")) { lumaDenoise.edgetolerance = keyFile.get_integer ("Luminance Denoising", "EdgeTolerance"); if (pedited) pedited->lumaDenoise.edgetolerance = true; } }*/ // load colorDenoise /*if (keyFile.has_group ("Chrominance Denoising")) { if (keyFile.has_key ("Chrominance Denoising", "Enabled")) { colorDenoise.enabled = keyFile.get_boolean ("Chrominance Denoising", "Enabled"); if (pedited) pedited->colorDenoise.enabled = true; } // WARNING: radius doesn't exist anymore; is there any compatibility issue that require to keep the following line? if (keyFile.has_key ("Chrominance Denoising", "Radius")) { colorDenoise.amount = 10*keyFile.get_double ("Chrominance Denoising", "Radius"); } if (keyFile.has_key ("Chrominance Denoising", "Amount")) { colorDenoise.amount = keyFile.get_integer ("Chrominance Denoising", "Amount"); if (pedited) pedited->colorDenoise.amount = true; } }*/ if (keyFile.has_group ("Shadows & Highlights")) { assignFromKeyfile(keyFile, "Shadows & Highlights", "Enabled", pedited, sh.enabled, pedited->sh.enabled); assignFromKeyfile(keyFile, "Shadows & Highlights", "HighQuality", pedited, sh.hq, pedited->sh.hq); assignFromKeyfile(keyFile, "Shadows & Highlights", "Highlights", pedited, sh.highlights, pedited->sh.highlights); assignFromKeyfile(keyFile, "Shadows & Highlights", "HighlightTonalWidth", pedited, sh.htonalwidth, pedited->sh.htonalwidth); assignFromKeyfile(keyFile, "Shadows & Highlights", "Shadows", pedited, sh.shadows, pedited->sh.shadows); assignFromKeyfile(keyFile, "Shadows & Highlights", "ShadowTonalWidth", pedited, sh.stonalwidth, pedited->sh.stonalwidth); assignFromKeyfile(keyFile, "Shadows & Highlights", "LocalContrast", pedited, sh.localcontrast, pedited->sh.localcontrast); assignFromKeyfile(keyFile, "Shadows & Highlights", "Radius", pedited, sh.radius, pedited->sh.radius); } if (keyFile.has_group ("Crop")) { assignFromKeyfile(keyFile, "Crop", "Enabled", pedited, crop.enabled, pedited->crop.enabled); assignFromKeyfile(keyFile, "Crop", "X", pedited, crop.x, pedited->crop.x); assignFromKeyfile(keyFile, "Crop", "Y", pedited, crop.y, pedited->crop.y); if (keyFile.has_key ("Crop", "W")) { crop.w = std::max (keyFile.get_integer ("Crop", "W"), 1); if (pedited) { pedited->crop.w = true; } } if (keyFile.has_key ("Crop", "H")) { crop.h = std::max (keyFile.get_integer ("Crop", "H"), 1); if (pedited) { pedited->crop.h = true; } } assignFromKeyfile(keyFile, "Crop", "FixedRatio", pedited, crop.fixratio, pedited->crop.fixratio); if (assignFromKeyfile(keyFile, "Crop", "Ratio", pedited, crop.ratio, pedited->crop.ratio)) { //backwards compatibility for crop.ratio if (crop.ratio == "DIN") { crop.ratio = "1.414 - DIN EN ISO 216"; } if (crop.ratio == "8.5:11") { crop.ratio = "8.5:11 - US Letter"; } if (crop.ratio == "11:17") { crop.ratio = "11:17 - Tabloid"; } } assignFromKeyfile(keyFile, "Crop", "Orientation", pedited, crop.orientation, pedited->crop.orientation); assignFromKeyfile(keyFile, "Crop", "Guide", pedited, crop.guide, pedited->crop.guide); } if (keyFile.has_group ("Coarse Transformation")) { assignFromKeyfile(keyFile, "Coarse Transformation", "Rotate", pedited, coarse.rotate, pedited->coarse.rotate); assignFromKeyfile(keyFile, "Coarse Transformation", "HorizontalFlip", pedited, coarse.hflip, pedited->coarse.hflip); assignFromKeyfile(keyFile, "Coarse Transformation", "VerticalFlip", pedited, coarse.vflip, pedited->coarse.vflip); } if (keyFile.has_group ("Rotation")) { assignFromKeyfile(keyFile, "Rotation", "Degree", pedited, rotate.degree, pedited->rotate.degree); } if (keyFile.has_group ("Common Properties for Transformations")) { assignFromKeyfile(keyFile, "Common Properties for Transformations", "AutoFill", pedited, commonTrans.autofill, pedited->commonTrans.autofill); } if (keyFile.has_group ("Distortion")) { assignFromKeyfile(keyFile, "Distortion", "Amount", pedited, distortion.amount, pedited->distortion.amount); } if (keyFile.has_group ("LensProfile")) { if (keyFile.has_key ("LensProfile", "LcMode")) { lensProf.lcMode = lensProf.getMethodNumber (keyFile.get_string ("LensProfile", "LcMode")); if (pedited) { pedited->lensProf.lcMode = true; } } if (keyFile.has_key ("LensProfile", "LCPFile")) { lensProf.lcpFile = expandRelativePath (fname, "", keyFile.get_string ("LensProfile", "LCPFile")); if (pedited) { pedited->lensProf.lcpFile = true; } if(ppVersion < 327 && !lensProf.lcpFile.empty()) { lensProf.lcMode = LensProfParams::LcMode::LCP; } } assignFromKeyfile(keyFile, "LensProfile", "UseDistortion", pedited, lensProf.useDist, pedited->lensProf.useDist); assignFromKeyfile(keyFile, "LensProfile", "UseVignette", pedited, lensProf.useVign, pedited->lensProf.useVign); assignFromKeyfile(keyFile, "LensProfile", "UseCA", pedited, lensProf.useCA, pedited->lensProf.useCA); if (keyFile.has_key("LensProfile", "LFCameraMake")) { lensProf.lfCameraMake = keyFile.get_string("LensProfile", "LFCameraMake"); if (pedited) { pedited->lensProf.lfCameraMake = true; } } if (keyFile.has_key("LensProfile", "LFCameraModel")) { lensProf.lfCameraModel = keyFile.get_string("LensProfile", "LFCameraModel"); if (pedited) { pedited->lensProf.lfCameraModel = true; } } if (keyFile.has_key("LensProfile", "LFLens")) { lensProf.lfLens = keyFile.get_string("LensProfile", "LFLens"); if (pedited) { pedited->lensProf.lfLens = true; } } } if (keyFile.has_group ("Perspective")) { assignFromKeyfile(keyFile, "Perspective", "Horizontal", pedited, perspective.horizontal, pedited->perspective.horizontal); assignFromKeyfile(keyFile, "Perspective", "Vertical", pedited, perspective.vertical, pedited->perspective.vertical); } if (keyFile.has_group ("Gradient")) { assignFromKeyfile(keyFile, "Gradient", "Enabled", pedited, gradient.enabled, pedited->gradient.enabled); assignFromKeyfile(keyFile, "Gradient", "Degree", pedited, gradient.degree, pedited->gradient.degree); assignFromKeyfile(keyFile, "Gradient", "Feather", pedited, gradient.feather, pedited->gradient.feather); assignFromKeyfile(keyFile, "Gradient", "Strength", pedited, gradient.strength, pedited->gradient.strength); assignFromKeyfile(keyFile, "Gradient", "CenterX", pedited, gradient.centerX, pedited->gradient.centerX); assignFromKeyfile(keyFile, "Gradient", "CenterY", pedited, gradient.centerY, pedited->gradient.centerY); } if (keyFile.has_group ("PCVignette")) { assignFromKeyfile(keyFile, "PCVignette", "Enabled", pedited, pcvignette.enabled, pedited->pcvignette.enabled); assignFromKeyfile(keyFile, "PCVignette", "Strength", pedited, pcvignette.strength, pedited->pcvignette.strength); assignFromKeyfile(keyFile, "PCVignette", "Feather", pedited, pcvignette.feather, pedited->pcvignette.feather); assignFromKeyfile(keyFile, "PCVignette", "Roundness", pedited, pcvignette.roundness, pedited->pcvignette.roundness); } if (keyFile.has_group ("CACorrection")) { assignFromKeyfile(keyFile, "CACorrection", "Red", pedited, cacorrection.red, pedited->cacorrection.red); assignFromKeyfile(keyFile, "CACorrection", "Blue", pedited, cacorrection.blue, pedited->cacorrection.blue); } if (keyFile.has_group ("Vignetting Correction")) { assignFromKeyfile(keyFile, "Vignetting Correction", "Amount", pedited, vignetting.amount, pedited->vignetting.amount); assignFromKeyfile(keyFile, "Vignetting Correction", "Radius", pedited, vignetting.radius, pedited->vignetting.radius); assignFromKeyfile(keyFile, "Vignetting Correction", "Strength", pedited, vignetting.strength, pedited->vignetting.strength); assignFromKeyfile(keyFile, "Vignetting Correction", "CenterX", pedited, vignetting.centerX, pedited->vignetting.centerX); assignFromKeyfile(keyFile, "Vignetting Correction", "CenterY", pedited, vignetting.centerY, pedited->vignetting.centerY); } if (keyFile.has_group ("Resize")) { assignFromKeyfile(keyFile, "Resize", "Enabled", pedited, resize.enabled, pedited->resize.enabled); assignFromKeyfile(keyFile, "Resize", "Scale", pedited, resize.scale, pedited->resize.scale); assignFromKeyfile(keyFile, "Resize", "AppliesTo", pedited, resize.appliesTo, pedited->resize.appliesTo); assignFromKeyfile(keyFile, "Resize", "Method", pedited, resize.method, pedited->resize.method); assignFromKeyfile(keyFile, "Resize", "DataSpecified", pedited, resize.dataspec, pedited->resize.dataspec); assignFromKeyfile(keyFile, "Resize", "Width", pedited, resize.width, pedited->resize.width); assignFromKeyfile(keyFile, "Resize", "Height", pedited, resize.height, pedited->resize.height); } if (keyFile.has_group ("PostResizeSharpening")) { assignFromKeyfile(keyFile, "PostResizeSharpening", "Enabled", pedited, prsharpening.enabled, pedited->prsharpening.enabled); assignFromKeyfile(keyFile, "PostResizeSharpening", "Radius", pedited, prsharpening.radius, pedited->prsharpening.radius); assignFromKeyfile(keyFile, "PostResizeSharpening", "Amount", pedited, prsharpening.amount, pedited->prsharpening.amount); if (keyFile.has_key ("PostResizeSharpening", "Threshold")) { if (ppVersion < 302) { int thresh = min (keyFile.get_integer ("PostResizeSharpening", "Threshold"), 2000); prsharpening.threshold.setValues (thresh, thresh, 2000, 2000); // TODO: 2000 is the maximum value and is taken of rtgui/sharpening.cc ; should be changed by the tool modularization } else { const std::vector thresh = keyFile.get_integer_list ("PostResizeSharpening", "Threshold"); if (thresh.size() >= 4) { prsharpening.threshold.setValues (thresh[0], thresh[1], min (thresh[2], 2000), min (thresh[3], 2000)); } } if (pedited) { pedited->prsharpening.threshold = true; } } assignFromKeyfile(keyFile, "PostResizeSharpening", "OnlyEdges", pedited, prsharpening.edgesonly, pedited->prsharpening.edgesonly); assignFromKeyfile(keyFile, "PostResizeSharpening", "EdgedetectionRadius", pedited, prsharpening.edges_radius, pedited->prsharpening.edges_radius); assignFromKeyfile(keyFile, "PostResizeSharpening", "EdgeTolerance", pedited, prsharpening.edges_tolerance, pedited->prsharpening.edges_tolerance); assignFromKeyfile(keyFile, "PostResizeSharpening", "HalocontrolEnabled", pedited, prsharpening.halocontrol, pedited->prsharpening.halocontrol); assignFromKeyfile(keyFile, "PostResizeSharpening", "HalocontrolAmount", pedited, prsharpening.halocontrol_amount, pedited->prsharpening.halocontrol_amount); assignFromKeyfile(keyFile, "PostResizeSharpening", "Method", pedited, prsharpening.method, pedited->prsharpening.method); assignFromKeyfile(keyFile, "PostResizeSharpening", "DeconvRadius", pedited, prsharpening.deconvradius, pedited->prsharpening.deconvradius); assignFromKeyfile(keyFile, "PostResizeSharpening", "DeconvAmount", pedited, prsharpening.deconvamount, pedited->prsharpening.deconvamount); assignFromKeyfile(keyFile, "PostResizeSharpening", "DeconvDamping", pedited, prsharpening.deconvdamping, pedited->prsharpening.deconvdamping); assignFromKeyfile(keyFile, "PostResizeSharpening", "DeconvIterations", pedited, prsharpening.deconviter, pedited->prsharpening.deconviter); } if (keyFile.has_group ("Color Management")) { if (keyFile.has_key ("Color Management", "InputProfile")) { icm.input = expandRelativePath (fname, "file:", keyFile.get_string ("Color Management", "InputProfile")); if (pedited) { pedited->icm.input = true; } } assignFromKeyfile(keyFile, "Color Management", "ToneCurve", pedited, icm.toneCurve, pedited->icm.toneCurve); assignFromKeyfile(keyFile, "Color Management", "ApplyLookTable", pedited, icm.applyLookTable, pedited->icm.applyLookTable); assignFromKeyfile(keyFile, "Color Management", "ApplyBaselineExposureOffset", pedited, icm.applyBaselineExposureOffset, pedited->icm.applyBaselineExposureOffset); assignFromKeyfile(keyFile, "Color Management", "ApplyHueSatMap", pedited, icm.applyHueSatMap, pedited->icm.applyHueSatMap); assignFromKeyfile(keyFile, "Color Management", "DCPIlluminant", pedited, icm.dcpIlluminant, pedited->icm.dcpIlluminant); assignFromKeyfile(keyFile, "Color Management", "WorkingProfile", pedited, icm.working, pedited->icm.working); assignFromKeyfile(keyFile, "Color Management", "OutputProfile", pedited, icm.output, pedited->icm.output); if (keyFile.has_key ("Color Management", "OutputProfileIntent")) { Glib::ustring intent = keyFile.get_string ("Color Management", "OutputProfileIntent"); if (intent == "Perceptual") { icm.outputIntent = RI_PERCEPTUAL; } else if (intent == "Relative") { icm.outputIntent = RI_RELATIVE; } else if (intent == "Saturation") { icm.outputIntent = RI_SATURATION; } else if (intent == "Absolute") { icm.outputIntent = RI_ABSOLUTE; } if (pedited) { pedited->icm.outputIntent = true; } } assignFromKeyfile(keyFile, "Color Management", "OutputBPC", pedited, icm.outputBPC, pedited->icm.outputBPC); assignFromKeyfile(keyFile, "Color Management", "Gammafree", pedited, icm.gamma, pedited->icm.gamfree); assignFromKeyfile(keyFile, "Color Management", "Freegamma", pedited, icm.freegamma, pedited->icm.freegamma); assignFromKeyfile(keyFile, "Color Management", "GammaValue", pedited, icm.gampos, pedited->icm.gampos); assignFromKeyfile(keyFile, "Color Management", "GammaSlope", pedited, icm.slpos, pedited->icm.slpos); } if (keyFile.has_group ("Wavelet")) { assignFromKeyfile(keyFile, "Wavelet", "Enabled", pedited, wavelet.enabled, pedited->wavelet.enabled); assignFromKeyfile(keyFile, "Wavelet", "Strength", pedited, wavelet.strength, pedited->wavelet.strength); assignFromKeyfile(keyFile, "Wavelet", "Balance", pedited, wavelet.balance, pedited->wavelet.balance); assignFromKeyfile(keyFile, "Wavelet", "Iter", pedited, wavelet.iter, pedited->wavelet.iter); assignFromKeyfile(keyFile, "Wavelet", "Median", pedited, wavelet.median, pedited->wavelet.median); assignFromKeyfile(keyFile, "Wavelet", "Medianlev", pedited, wavelet.medianlev, pedited->wavelet.medianlev); assignFromKeyfile(keyFile, "Wavelet", "Linkedg", pedited, wavelet.linkedg, pedited->wavelet.linkedg); assignFromKeyfile(keyFile, "Wavelet", "CBenab", pedited, wavelet.cbenab, pedited->wavelet.cbenab); assignFromKeyfile(keyFile, "Wavelet", "CBgreenhigh", pedited, wavelet.greenhigh, pedited->wavelet.greenhigh); assignFromKeyfile(keyFile, "Wavelet", "CBgreenmed", pedited, wavelet.greenmed, pedited->wavelet.greenmed); assignFromKeyfile(keyFile, "Wavelet", "CBgreenlow", pedited, wavelet.greenlow, pedited->wavelet.greenlow); assignFromKeyfile(keyFile, "Wavelet", "CBbluehigh", pedited, wavelet.bluehigh, pedited->wavelet.bluehigh); assignFromKeyfile(keyFile, "Wavelet", "CBbluemed", pedited, wavelet.bluemed, pedited->wavelet.bluemed); assignFromKeyfile(keyFile, "Wavelet", "CBbluelow", pedited, wavelet.bluelow, pedited->wavelet.bluelow); // if (keyFile.has_key ("Wavelet", "Edgreinf")) {wavelet.edgreinf = keyFile.get_boolean ("Wavelet", "Edgreinf");if (pedited) pedited->wavelet.edgreinf = true;} assignFromKeyfile(keyFile, "Wavelet", "Lipst", pedited, wavelet.lipst, pedited->wavelet.lipst); assignFromKeyfile(keyFile, "Wavelet", "AvoidColorShift", pedited, wavelet.avoid, pedited->wavelet.avoid); assignFromKeyfile(keyFile, "Wavelet", "TMr", pedited, wavelet.tmr, pedited->wavelet.tmr); assignFromKeyfile(keyFile, "Wavelet", "LevMethod", pedited, wavelet.Lmethod, pedited->wavelet.Lmethod); assignFromKeyfile(keyFile, "Wavelet", "ChoiceLevMethod", pedited, wavelet.CLmethod, pedited->wavelet.CLmethod); assignFromKeyfile(keyFile, "Wavelet", "BackMethod", pedited, wavelet.Backmethod, pedited->wavelet.Backmethod); assignFromKeyfile(keyFile, "Wavelet", "TilesMethod", pedited, wavelet.Tilesmethod, pedited->wavelet.Tilesmethod); assignFromKeyfile(keyFile, "Wavelet", "DaubMethod", pedited, wavelet.daubcoeffmethod, pedited->wavelet.daubcoeffmethod); assignFromKeyfile(keyFile, "Wavelet", "CHromaMethod", pedited, wavelet.CHmethod, pedited->wavelet.CHmethod); assignFromKeyfile(keyFile, "Wavelet", "Medgreinf", pedited, wavelet.Medgreinf, pedited->wavelet.Medgreinf); assignFromKeyfile(keyFile, "Wavelet", "CHSLromaMethod", pedited, wavelet.CHSLmethod, pedited->wavelet.CHSLmethod); assignFromKeyfile(keyFile, "Wavelet", "EDMethod", pedited, wavelet.EDmethod, pedited->wavelet.EDmethod); assignFromKeyfile(keyFile, "Wavelet", "NPMethod", pedited, wavelet.NPmethod, pedited->wavelet.NPmethod); assignFromKeyfile(keyFile, "Wavelet", "BAMethod", pedited, wavelet.BAmethod, pedited->wavelet.BAmethod); assignFromKeyfile(keyFile, "Wavelet", "TMMethod", pedited, wavelet.TMmethod, pedited->wavelet.TMmethod); assignFromKeyfile(keyFile, "Wavelet", "HSMethod", pedited, wavelet.HSmethod, pedited->wavelet.HSmethod); assignFromKeyfile(keyFile, "Wavelet", "DirMethod", pedited, wavelet.Dirmethod, pedited->wavelet.Dirmethod); assignFromKeyfile(keyFile, "Wavelet", "ResidualcontShadow", pedited, wavelet.rescon, pedited->wavelet.rescon); assignFromKeyfile(keyFile, "Wavelet", "ResidualcontHighlight", pedited, wavelet.resconH, pedited->wavelet.resconH); assignFromKeyfile(keyFile, "Wavelet", "Residualchroma", pedited, wavelet.reschro, pedited->wavelet.reschro); assignFromKeyfile(keyFile, "Wavelet", "ResidualTM", pedited, wavelet.tmrs, pedited->wavelet.tmrs); assignFromKeyfile(keyFile, "Wavelet", "Residualgamma", pedited, wavelet.gamma, pedited->wavelet.gamma); assignFromKeyfile(keyFile, "Wavelet", "ContExtra", pedited, wavelet.sup, pedited->wavelet.sup); assignFromKeyfile(keyFile, "Wavelet", "HueRangeResidual", pedited, wavelet.sky, pedited->wavelet.sky); assignFromKeyfile(keyFile, "Wavelet", "MaxLev", pedited, wavelet.thres, pedited->wavelet.thres); assignFromKeyfile(keyFile, "Wavelet", "ThresholdHighLight", pedited, wavelet.threshold, pedited->wavelet.threshold); assignFromKeyfile(keyFile, "Wavelet", "ThresholdShadow", pedited, wavelet.threshold2, pedited->wavelet.threshold2); assignFromKeyfile(keyFile, "Wavelet", "Edgedetect", pedited, wavelet.edgedetect, pedited->wavelet.edgedetect); assignFromKeyfile(keyFile, "Wavelet", "Edgedetectthr", pedited, wavelet.edgedetectthr, pedited->wavelet.edgedetectthr); assignFromKeyfile(keyFile, "Wavelet", "EdgedetectthrHi", pedited, wavelet.edgedetectthr2, pedited->wavelet.edgedetectthr2); assignFromKeyfile(keyFile, "Wavelet", "Edgesensi", pedited, wavelet.edgesensi, pedited->wavelet.edgesensi); assignFromKeyfile(keyFile, "Wavelet", "Edgeampli", pedited, wavelet.edgeampli, pedited->wavelet.edgeampli); assignFromKeyfile(keyFile, "Wavelet", "ThresholdChroma", pedited, wavelet.chroma, pedited->wavelet.chroma); assignFromKeyfile(keyFile, "Wavelet", "ChromaLink", pedited, wavelet.chro, pedited->wavelet.chro); assignFromKeyfile(keyFile, "Wavelet", "Contrast", pedited, wavelet.contrast, pedited->wavelet.contrast); assignFromKeyfile(keyFile, "Wavelet", "Edgrad", pedited, wavelet.edgrad, pedited->wavelet.edgrad); assignFromKeyfile(keyFile, "Wavelet", "Edgval", pedited, wavelet.edgval, pedited->wavelet.edgval); assignFromKeyfile(keyFile, "Wavelet", "ThrEdg", pedited, wavelet.edgthresh, pedited->wavelet.edgthresh); assignFromKeyfile(keyFile, "Wavelet", "ThresholdResidShadow", pedited, wavelet.thr, pedited->wavelet.thr); assignFromKeyfile(keyFile, "Wavelet", "ThresholdResidHighLight", pedited, wavelet.thrH, pedited->wavelet.thrH); assignFromKeyfile(keyFile, "Wavelet", "ContrastCurve", pedited, wavelet.ccwcurve, pedited->wavelet.ccwcurve); assignFromKeyfile(keyFile, "Wavelet", "OpacityCurveRG", pedited, wavelet.opacityCurveRG, pedited->wavelet.opacityCurveRG); assignFromKeyfile(keyFile, "Wavelet", "OpacityCurveBY", pedited, wavelet.opacityCurveBY, pedited->wavelet.opacityCurveBY); assignFromKeyfile(keyFile, "Wavelet", "OpacityCurveW", pedited, wavelet.opacityCurveW, pedited->wavelet.opacityCurveW); assignFromKeyfile(keyFile, "Wavelet", "OpacityCurveWL", pedited, wavelet.opacityCurveWL, pedited->wavelet.opacityCurveWL); assignFromKeyfile(keyFile, "Wavelet", "HHcurve", pedited, wavelet.hhcurve, pedited->wavelet.hhcurve); assignFromKeyfile(keyFile, "Wavelet", "CHcurve", pedited, wavelet.Chcurve, pedited->wavelet.Chcurve); assignFromKeyfile(keyFile, "Wavelet", "WavclCurve", pedited, wavelet.wavclCurve, pedited->wavelet.wavclCurve); if (keyFile.has_key ("Wavelet", "Hueskin")) { const std::vector thresh = keyFile.get_integer_list ("Wavelet", "Hueskin"); if (thresh.size() >= 4) { wavelet.hueskin.setValues (thresh[0], thresh[1], min (thresh[2], 300), min (thresh[3], 300)); } if (pedited) { pedited->wavelet.hueskin = true; } } if (keyFile.has_key ("Wavelet", "HueRange")) { const std::vector thresh = keyFile.get_integer_list ("Wavelet", "HueRange"); if (thresh.size() >= 4) { wavelet.hueskin2.setValues (thresh[0], thresh[1], min (thresh[2], 300), min (thresh[3], 300)); } if (pedited) { pedited->wavelet.hueskin2 = true; } } if (keyFile.has_key ("Wavelet", "HLRange")) { const std::vector thresh = keyFile.get_integer_list ("Wavelet", "HLRange"); if (thresh.size() >= 4) { wavelet.hllev.setValues (thresh[0], thresh[1], min (thresh[2], 300), min (thresh[3], 300)); } if (pedited) { pedited->wavelet.hllev = true; } } if (keyFile.has_key ("Wavelet", "SHRange")) { const std::vector thresh = keyFile.get_integer_list ("Wavelet", "SHRange"); if (thresh.size() >= 4) { wavelet.bllev.setValues (thresh[0], thresh[1], min (thresh[2], 300), min (thresh[3], 300)); } if (pedited) { pedited->wavelet.bllev = true; } } if (keyFile.has_key ("Wavelet", "Edgcont")) { const std::vector thresh = keyFile.get_integer_list ("Wavelet", "Edgcont"); if (thresh.size() >= 4) { wavelet.edgcont.setValues (thresh[0], thresh[1], min (thresh[2], 300), min (thresh[3], 300)); } if (pedited) { pedited->wavelet.edgcont = true; } } if (keyFile.has_key ("Wavelet", "Level0noise")) { const std::vector thresh = keyFile.get_double_list ("Wavelet", "Level0noise"); if (thresh.size() >= 2) { wavelet.level0noise.setValues (thresh[0], thresh[1]); } if (pedited) { pedited->wavelet.level0noise = true; } } if (keyFile.has_key ("Wavelet", "Level1noise")) { const std::vector thresh = keyFile.get_double_list ("Wavelet", "Level1noise"); if (thresh.size() >= 2) { wavelet.level1noise.setValues (thresh[0], thresh[1]); } if (pedited) { pedited->wavelet.level1noise = true; } } if (keyFile.has_key ("Wavelet", "Level2noise")) { const std::vector thresh = keyFile.get_double_list ("Wavelet", "Level2noise"); if (thresh.size() >= 2) { wavelet.level2noise.setValues (thresh[0], thresh[1]); } if (pedited) { pedited->wavelet.level2noise = true; } } if (keyFile.has_key ("Wavelet", "Level3noise")) { const std::vector thresh = keyFile.get_double_list ("Wavelet", "Level3noise"); if (thresh.size() >= 2) { wavelet.level3noise.setValues (thresh[0], thresh[1]); } if (pedited) { pedited->wavelet.level3noise = true; } } if (keyFile.has_key ("Wavelet", "Pastlev")) { const std::vector thresh = keyFile.get_integer_list ("Wavelet", "Pastlev"); if (thresh.size() >= 4) { wavelet.pastlev.setValues (thresh[0], thresh[1], min (thresh[2], 300), min (thresh[3], 300)); } if (pedited) { pedited->wavelet.pastlev = true; } } if (keyFile.has_key ("Wavelet", "Satlev")) { const std::vector thresh = keyFile.get_integer_list ("Wavelet", "Satlev"); if (thresh.size() >= 4) { wavelet.satlev.setValues (thresh[0], thresh[1], min (thresh[2], 300), min (thresh[3], 300)); } if (pedited) { pedited->wavelet.satlev = true; } } assignFromKeyfile(keyFile, "Wavelet", "Skinprotect", pedited, wavelet.skinprotect, pedited->wavelet.skinprotect); assignFromKeyfile(keyFile, "Wavelet", "Expcontrast", pedited, wavelet.expcontrast, pedited->wavelet.expcontrast); assignFromKeyfile(keyFile, "Wavelet", "Expchroma", pedited, wavelet.expchroma, pedited->wavelet.expchroma); for (int i = 0; i < 9; i ++) { std::stringstream ss; ss << "Contrast" << (i + 1); if (keyFile.has_key ("Wavelet", ss.str())) { wavelet.c[i] = keyFile.get_integer ("Wavelet", ss.str()); if (pedited) { pedited->wavelet.c[i] = true; } } } for (int i = 0; i < 9; i ++) { std::stringstream ss; ss << "Chroma" << (i + 1); if (keyFile.has_key ("Wavelet", ss.str())) { wavelet.ch[i] = keyFile.get_integer ("Wavelet", ss.str()); if (pedited) { pedited->wavelet.ch[i] = true; } } } assignFromKeyfile(keyFile, "Wavelet", "Expedge", pedited, wavelet.expedge, pedited->wavelet.expedge); assignFromKeyfile(keyFile, "Wavelet", "Expresid", pedited, wavelet.expresid, pedited->wavelet.expresid); assignFromKeyfile(keyFile, "Wavelet", "Expfinal", pedited, wavelet.expfinal, pedited->wavelet.expfinal); assignFromKeyfile(keyFile, "Wavelet", "Exptoning", pedited, wavelet.exptoning, pedited->wavelet.exptoning); assignFromKeyfile(keyFile, "Wavelet", "Expnoise", pedited, wavelet.expnoise, pedited->wavelet.expnoise); } if (keyFile.has_group ("Directional Pyramid Equalizer")) { assignFromKeyfile(keyFile, "Directional Pyramid Equalizer", "Enabled", pedited, dirpyrequalizer.enabled, pedited->dirpyrequalizer.enabled); assignFromKeyfile(keyFile, "Directional Pyramid Equalizer", "Gamutlab", pedited, dirpyrequalizer.gamutlab, pedited->dirpyrequalizer.gamutlab); assignFromKeyfile(keyFile, "Directional Pyramid Equalizer", "cbdlMethod", pedited, dirpyrequalizer.cbdlMethod, pedited->dirpyrequalizer.cbdlMethod); // if (keyFile.has_key ("Directional Pyramid Equalizer", "Algorithm")) { dirpyrequalizer.algo = keyFile.get_string ("Directional Pyramid Equalizer", "Algorithm"); if (pedited) pedited->dirpyrequalizer.algo = true; } if (keyFile.has_key ("Directional Pyramid Equalizer", "Hueskin")) { const std::vector thresh = keyFile.get_integer_list ("Directional Pyramid Equalizer", "Hueskin"); if (thresh.size() >= 4) { dirpyrequalizer.hueskin.setValues (thresh[0], thresh[1], min (thresh[2], 300), min (thresh[3], 300)); } if (pedited) { pedited->dirpyrequalizer.hueskin = true; } } if (ppVersion < 316) { for (int i = 0; i < 5; i ++) { std::stringstream ss; ss << "Mult" << i; if (keyFile.has_key ("Directional Pyramid Equalizer", ss.str())) { if (i == 4) { dirpyrequalizer.threshold = keyFile.get_double ("Directional Pyramid Equalizer", ss.str()); if (pedited) { pedited->dirpyrequalizer.threshold = true; } } else { dirpyrequalizer.mult[i] = keyFile.get_double ("Directional Pyramid Equalizer", ss.str()); if (pedited) { pedited->dirpyrequalizer.mult[i] = true; } } } } dirpyrequalizer.mult[4] = 1.0; } else { // 5 level wavelet + dedicated threshold parameter for (int i = 0; i < 6; i ++) { std::stringstream ss; ss << "Mult" << i; if (keyFile.has_key ("Directional Pyramid Equalizer", ss.str())) { dirpyrequalizer.mult[i] = keyFile.get_double ("Directional Pyramid Equalizer", ss.str()); if (pedited) { pedited->dirpyrequalizer.mult[i] = true; } } } assignFromKeyfile(keyFile, "Directional Pyramid Equalizer", "Threshold", pedited, dirpyrequalizer.threshold, pedited->dirpyrequalizer.threshold); assignFromKeyfile(keyFile, "Directional Pyramid Equalizer", "Skinprotect", pedited, dirpyrequalizer.skinprotect, pedited->dirpyrequalizer.skinprotect); } } if (keyFile.has_group ("Film Simulation")) { assignFromKeyfile(keyFile, "Film Simulation", "Enabled", pedited, filmSimulation.enabled, pedited->filmSimulation.enabled); assignFromKeyfile(keyFile, "Film Simulation", "ClutFilename", pedited, filmSimulation.clutFilename, pedited->filmSimulation.clutFilename); if (keyFile.has_key ("Film Simulation", "Strength")) { if (ppVersion < 321) { filmSimulation.strength = keyFile.get_double ("Film Simulation", "Strength") * 100 + 0.1; } else { filmSimulation.strength = keyFile.get_integer ("Film Simulation", "Strength"); } if (pedited) { pedited->filmSimulation.strength = true; } } } if (keyFile.has_group ("HSV Equalizer")) { if (ppVersion >= 300) { assignFromKeyfile(keyFile, "HSV Equalizer", "HCurve", pedited, hsvequalizer.hcurve, pedited->hsvequalizer.hcurve); assignFromKeyfile(keyFile, "HSV Equalizer", "SCurve", pedited, hsvequalizer.scurve, pedited->hsvequalizer.scurve); assignFromKeyfile(keyFile, "HSV Equalizer", "VCurve", pedited, hsvequalizer.vcurve, pedited->hsvequalizer.vcurve); } } if (keyFile.has_group ("RGB Curves")) { assignFromKeyfile(keyFile, "RGB Curves", "LumaMode", pedited, rgbCurves.lumamode, pedited->rgbCurves.lumamode); assignFromKeyfile(keyFile, "RGB Curves", "rCurve", pedited, rgbCurves.rcurve, pedited->rgbCurves.rcurve); assignFromKeyfile(keyFile, "RGB Curves", "gCurve", pedited, rgbCurves.gcurve, pedited->rgbCurves.gcurve); assignFromKeyfile(keyFile, "RGB Curves", "bCurve", pedited, rgbCurves.bcurve, pedited->rgbCurves.bcurve); } if (keyFile.has_group ("ColorToning")) { assignFromKeyfile(keyFile, "ColorToning", "Enabled", pedited, colorToning.enabled, pedited->colorToning.enabled); assignFromKeyfile(keyFile, "ColorToning", "Method", pedited, colorToning.method, pedited->colorToning.method); assignFromKeyfile(keyFile, "ColorToning", "Lumamode", pedited, colorToning.lumamode, pedited->colorToning.lumamode); assignFromKeyfile(keyFile, "ColorToning", "Twocolor", pedited, colorToning.twocolor, pedited->colorToning.twocolor); assignFromKeyfile(keyFile, "ColorToning", "OpacityCurve", pedited, colorToning.opacityCurve, pedited->colorToning.opacityCurve); assignFromKeyfile(keyFile, "ColorToning", "ColorCurve", pedited, colorToning.colorCurve, pedited->colorToning.colorCurve); assignFromKeyfile(keyFile, "ColorToning", "Autosat", pedited, colorToning.autosat, pedited->colorToning.autosat); assignFromKeyfile(keyFile, "ColorToning", "SatProtectionThreshold", pedited, colorToning.satProtectionThreshold, pedited->colorToning.satprotectionthreshold); assignFromKeyfile(keyFile, "ColorToning", "SaturatedOpacity", pedited, colorToning.saturatedOpacity, pedited->colorToning.saturatedopacity); assignFromKeyfile(keyFile, "ColorToning", "Strength", pedited, colorToning.strength, pedited->colorToning.strength); if (keyFile.has_key ("ColorToning", "HighlightsColorSaturation")) { const std::vector thresh = keyFile.get_integer_list ("ColorToning", "HighlightsColorSaturation"); if (thresh.size() >= 2) { colorToning.hlColSat.setValues (thresh[0], thresh[1]); } if (pedited) { pedited->colorToning.hlColSat = true; } } if (keyFile.has_key ("ColorToning", "ShadowsColorSaturation")) { const std::vector thresh = keyFile.get_integer_list ("ColorToning", "ShadowsColorSaturation"); if (thresh.size() >= 2) { colorToning.shadowsColSat.setValues (thresh[0], thresh[1]); } if (pedited) { pedited->colorToning.shadowsColSat = true; } } assignFromKeyfile(keyFile, "ColorToning", "ClCurve", pedited, colorToning.clcurve, pedited->colorToning.clcurve); assignFromKeyfile(keyFile, "ColorToning", "Cl2Curve", pedited, colorToning.cl2curve, pedited->colorToning.cl2curve); assignFromKeyfile(keyFile, "ColorToning", "Redlow", pedited, colorToning.redlow, pedited->colorToning.redlow); assignFromKeyfile(keyFile, "ColorToning", "Greenlow", pedited, colorToning.greenlow, pedited->colorToning.greenlow); assignFromKeyfile(keyFile, "ColorToning", "Bluelow", pedited, colorToning.bluelow, pedited->colorToning.bluelow); assignFromKeyfile(keyFile, "ColorToning", "Satlow", pedited, colorToning.satlow, pedited->colorToning.satlow); assignFromKeyfile(keyFile, "ColorToning", "Balance", pedited, colorToning.balance, pedited->colorToning.balance); assignFromKeyfile(keyFile, "ColorToning", "Sathigh", pedited, colorToning.sathigh, pedited->colorToning.sathigh); assignFromKeyfile(keyFile, "ColorToning", "Redmed", pedited, colorToning.redmed, pedited->colorToning.redmed); assignFromKeyfile(keyFile, "ColorToning", "Greenmed", pedited, colorToning.greenmed, pedited->colorToning.greenmed); assignFromKeyfile(keyFile, "ColorToning", "Bluemed", pedited, colorToning.bluemed, pedited->colorToning.bluemed); assignFromKeyfile(keyFile, "ColorToning", "Redhigh", pedited, colorToning.redhigh, pedited->colorToning.redhigh); assignFromKeyfile(keyFile, "ColorToning", "Greenhigh", pedited, colorToning.greenhigh, pedited->colorToning.greenhigh); assignFromKeyfile(keyFile, "ColorToning", "Bluehigh", pedited, colorToning.bluehigh, pedited->colorToning.bluehigh); } if (keyFile.has_group ("RAW")) { if (keyFile.has_key ("RAW", "DarkFrame")) { raw.dark_frame = expandRelativePath (fname, "", keyFile.get_string ("RAW", "DarkFrame" )); if (pedited) { pedited->raw.darkFrame = true; } } assignFromKeyfile(keyFile, "RAW", "DarkFrameAuto", pedited, raw.df_autoselect, pedited->raw.df_autoselect); if (keyFile.has_key ("RAW", "FlatFieldFile")) { raw.ff_file = expandRelativePath (fname, "", keyFile.get_string ("RAW", "FlatFieldFile" )); if (pedited) { pedited->raw.ff_file = true; } } assignFromKeyfile(keyFile, "RAW", "FlatFieldAutoSelect", pedited, raw.ff_AutoSelect, pedited->raw.ff_AutoSelect); assignFromKeyfile(keyFile, "RAW", "FlatFieldBlurRadius", pedited, raw.ff_BlurRadius, pedited->raw.ff_BlurRadius); assignFromKeyfile(keyFile, "RAW", "FlatFieldBlurType", pedited, raw.ff_BlurType, pedited->raw.ff_BlurType); assignFromKeyfile(keyFile, "RAW", "FlatFieldAutoClipControl", pedited, raw.ff_AutoClipControl, pedited->raw.ff_AutoClipControl); assignFromKeyfile(keyFile, "RAW", "FlatFieldClipControl", pedited, raw.ff_clipControl, pedited->raw.ff_clipControl); assignFromKeyfile(keyFile, "RAW", "CA", pedited, raw.ca_autocorrect, pedited->raw.ca_autocorrect); assignFromKeyfile(keyFile, "RAW", "CARed", pedited, raw.cared, pedited->raw.cared); assignFromKeyfile(keyFile, "RAW", "CABlue", pedited, raw.cablue, pedited->raw.cablue); // For compatibility to elder pp3 versions assignFromKeyfile(keyFile, "RAW", "HotDeadPixels", pedited, raw.hotPixelFilter, pedited->raw.hotPixelFilter); raw.deadPixelFilter = raw.hotPixelFilter; pedited->raw.deadPixelFilter = pedited->raw.hotPixelFilter; assignFromKeyfile(keyFile, "RAW", "HotPixelFilter", pedited, raw.hotPixelFilter, pedited->raw.hotPixelFilter); assignFromKeyfile(keyFile, "RAW", "DeadPixelFilter", pedited, raw.deadPixelFilter, pedited->raw.deadPixelFilter); assignFromKeyfile(keyFile, "RAW", "HotDeadPixelThresh", pedited, raw.hotdeadpix_thresh, pedited->raw.hotdeadpix_thresh); assignFromKeyfile(keyFile, "RAW", "PreExposure", pedited, raw.expos, pedited->raw.exPos); assignFromKeyfile(keyFile, "RAW", "PrePreserv", pedited, raw.preser, pedited->raw.exPreser); if (ppVersion < 320) { assignFromKeyfile(keyFile, "RAW", "Method", pedited, raw.bayersensor.method, pedited->raw.bayersensor.method); assignFromKeyfile(keyFile, "RAW", "CcSteps", pedited, raw.bayersensor.ccSteps, pedited->raw.bayersensor.ccSteps); assignFromKeyfile(keyFile, "RAW", "LineDenoise", pedited, raw.bayersensor.linenoise, pedited->raw.bayersensor.linenoise); assignFromKeyfile(keyFile, "RAW", "GreenEqThreshold", pedited, raw.bayersensor.greenthresh, pedited->raw.bayersensor.greenEq); assignFromKeyfile(keyFile, "RAW", "DCBIterations", pedited, raw.bayersensor.dcb_iterations, pedited->raw.bayersensor.dcbIterations); assignFromKeyfile(keyFile, "RAW", "DCBEnhance", pedited, raw.bayersensor.dcb_enhance, pedited->raw.bayersensor.dcbEnhance); assignFromKeyfile(keyFile, "RAW", "LMMSEIterations", pedited, raw.bayersensor.lmmse_iterations, pedited->raw.bayersensor.lmmseIterations); assignFromKeyfile(keyFile, "RAW", "PreBlackzero", pedited, raw.bayersensor.black0, pedited->raw.bayersensor.exBlack0); assignFromKeyfile(keyFile, "RAW", "PreBlackone", pedited, raw.bayersensor.black1, pedited->raw.bayersensor.exBlack1); assignFromKeyfile(keyFile, "RAW", "PreBlacktwo", pedited, raw.bayersensor.black2, pedited->raw.bayersensor.exBlack2); assignFromKeyfile(keyFile, "RAW", "PreBlackthree", pedited, raw.bayersensor.black3, pedited->raw.bayersensor.exBlack3); assignFromKeyfile(keyFile, "RAW", "PreTwoGreen", pedited, raw.bayersensor.twogreen, pedited->raw.bayersensor.exTwoGreen); //if (keyFile.has_key ("RAW", "ALLEnhance")) { raw.bayersensor.all_enhance = keyFile.get_boolean("RAW", "ALLEnhance"); if (pedited) pedited->raw.bayersensor.allEnhance = true; } } } if (keyFile.has_group ("RAW Bayer")) { assignFromKeyfile(keyFile, "RAW Bayer", "Method", pedited, raw.bayersensor.method, pedited->raw.bayersensor.method); if (keyFile.has_key ("RAW Bayer", "ImageNum")) { raw.bayersensor.imageNum = keyFile.get_integer ("RAW Bayer", "ImageNum") - 1; if (pedited) { pedited->raw.bayersensor.imageNum = true; } } assignFromKeyfile(keyFile, "RAW Bayer", "CcSteps", pedited, raw.bayersensor.ccSteps, pedited->raw.bayersensor.ccSteps); assignFromKeyfile(keyFile, "RAW Bayer", "PreBlack0", pedited, raw.bayersensor.black0, pedited->raw.bayersensor.exBlack0); assignFromKeyfile(keyFile, "RAW Bayer", "PreBlack1", pedited, raw.bayersensor.black1, pedited->raw.bayersensor.exBlack1); assignFromKeyfile(keyFile, "RAW Bayer", "PreBlack2", pedited, raw.bayersensor.black2, pedited->raw.bayersensor.exBlack2); assignFromKeyfile(keyFile, "RAW Bayer", "PreBlack3", pedited, raw.bayersensor.black3, pedited->raw.bayersensor.exBlack3); assignFromKeyfile(keyFile, "RAW Bayer", "PreTwoGreen", pedited, raw.bayersensor.twogreen, pedited->raw.bayersensor.exTwoGreen); assignFromKeyfile(keyFile, "RAW Bayer", "LineDenoise", pedited, raw.bayersensor.linenoise, pedited->raw.bayersensor.linenoise); assignFromKeyfile(keyFile, "RAW Bayer", "GreenEqThreshold", pedited, raw.bayersensor.greenthresh, pedited->raw.bayersensor.greenEq); assignFromKeyfile(keyFile, "RAW Bayer", "DCBIterations", pedited, raw.bayersensor.dcb_iterations, pedited->raw.bayersensor.dcbIterations); assignFromKeyfile(keyFile, "RAW Bayer", "DCBEnhance", pedited, raw.bayersensor.dcb_enhance, pedited->raw.bayersensor.dcbEnhance); assignFromKeyfile(keyFile, "RAW Bayer", "LMMSEIterations", pedited, raw.bayersensor.lmmse_iterations, pedited->raw.bayersensor.lmmseIterations); assignFromKeyfile(keyFile, "RAW Bayer", "PixelShiftMotion", pedited, raw.bayersensor.pixelShiftMotion, pedited->raw.bayersensor.pixelShiftMotion); if (keyFile.has_key ("RAW Bayer", "PixelShiftMotionCorrection")) { raw.bayersensor.pixelShiftMotionCorrection = (RAWParams::BayerSensor::PSMotionCorrection)keyFile.get_integer ("RAW Bayer", "PixelShiftMotionCorrection"); if (pedited) { pedited->raw.bayersensor.pixelShiftMotionCorrection = true; } } if (keyFile.has_key ("RAW Bayer", "PixelShiftMotionCorrectionMethod")) { raw.bayersensor.pixelShiftMotionCorrectionMethod = (RAWParams::BayerSensor::PSMotionCorrectionMethod)keyFile.get_integer ("RAW Bayer", "PixelShiftMotionCorrectionMethod"); if (pedited) { pedited->raw.bayersensor.pixelShiftMotionCorrectionMethod = true; } } assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftStddevFactorGreen", pedited, raw.bayersensor.pixelShiftStddevFactorGreen, pedited->raw.bayersensor.pixelShiftStddevFactorGreen); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftStddevFactorRed", pedited, raw.bayersensor.pixelShiftStddevFactorRed, pedited->raw.bayersensor.pixelShiftStddevFactorRed); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftStddevFactorBlue", pedited, raw.bayersensor.pixelShiftStddevFactorBlue, pedited->raw.bayersensor.pixelShiftStddevFactorBlue); assignFromKeyfile(keyFile, "RAW Bayer", "PixelShiftEperIso", pedited, raw.bayersensor.pixelShiftEperIso, pedited->raw.bayersensor.pixelShiftEperIso); assignFromKeyfile(keyFile, "RAW Bayer", "PixelShiftNreadIso", pedited, raw.bayersensor.pixelShiftNreadIso, pedited->raw.bayersensor.pixelShiftNreadIso); assignFromKeyfile(keyFile, "RAW Bayer", "PixelShiftPrnu", pedited, raw.bayersensor.pixelShiftPrnu, pedited->raw.bayersensor.pixelShiftPrnu); assignFromKeyfile(keyFile, "RAW Bayer", "PixelShiftSigma", pedited, raw.bayersensor.pixelShiftSigma, pedited->raw.bayersensor.pixelShiftSigma); assignFromKeyfile(keyFile, "RAW Bayer", "PixelShiftSum", pedited, raw.bayersensor.pixelShiftSum, pedited->raw.bayersensor.pixelShiftSum); assignFromKeyfile(keyFile, "RAW Bayer", "PixelShiftRedBlueWeight", pedited, raw.bayersensor.pixelShiftRedBlueWeight, pedited->raw.bayersensor.pixelShiftRedBlueWeight); assignFromKeyfile(keyFile, "RAW Bayer", "PixelShiftShowMotion", pedited, raw.bayersensor.pixelShiftShowMotion, pedited->raw.bayersensor.pixelShiftShowMotion); assignFromKeyfile(keyFile, "RAW Bayer", "PixelShiftShowMotionMaskOnly", pedited, raw.bayersensor.pixelShiftShowMotionMaskOnly, pedited->raw.bayersensor.pixelShiftShowMotionMaskOnly); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftAutomatic", pedited, raw.bayersensor.pixelShiftAutomatic, pedited->raw.bayersensor.pixelShiftAutomatic); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftNonGreenHorizontal", pedited, raw.bayersensor.pixelShiftNonGreenHorizontal, pedited->raw.bayersensor.pixelShiftNonGreenHorizontal); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftNonGreenVertical", pedited, raw.bayersensor.pixelShiftNonGreenVertical, pedited->raw.bayersensor.pixelShiftNonGreenVertical); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftHoleFill", pedited, raw.bayersensor.pixelShiftHoleFill, pedited->raw.bayersensor.pixelShiftHoleFill); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftMedian", pedited, raw.bayersensor.pixelShiftMedian, pedited->raw.bayersensor.pixelShiftMedian); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftMedian3", pedited, raw.bayersensor.pixelShiftMedian3, pedited->raw.bayersensor.pixelShiftMedian3); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftGreen", pedited, raw.bayersensor.pixelShiftGreen, pedited->raw.bayersensor.pixelShiftGreen); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftBlur", pedited, raw.bayersensor.pixelShiftBlur, pedited->raw.bayersensor.pixelShiftBlur); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftSmoothFactor", pedited, raw.bayersensor.pixelShiftSmoothFactor, pedited->raw.bayersensor.pixelShiftSmooth); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftExp0", pedited, raw.bayersensor.pixelShiftExp0, pedited->raw.bayersensor.pixelShiftExp0); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftLmmse", pedited, raw.bayersensor.pixelShiftLmmse, pedited->raw.bayersensor.pixelShiftLmmse); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftEqualBright", pedited, raw.bayersensor.pixelShiftEqualBright, pedited->raw.bayersensor.pixelShiftEqualBright); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftEqualBrightChannel", pedited, raw.bayersensor.pixelShiftEqualBrightChannel, pedited->raw.bayersensor.pixelShiftEqualBrightChannel); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftNonGreenCross", pedited, raw.bayersensor.pixelShiftNonGreenCross, pedited->raw.bayersensor.pixelShiftNonGreenCross); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftNonGreenCross2", pedited, raw.bayersensor.pixelShiftNonGreenCross2, pedited->raw.bayersensor.pixelShiftNonGreenCross2); assignFromKeyfile(keyFile, "RAW Bayer", "pixelShiftNonGreenAmaze", pedited, raw.bayersensor.pixelShiftNonGreenAmaze, pedited->raw.bayersensor.pixelShiftNonGreenAmaze); } if (keyFile.has_group ("RAW X-Trans")) { assignFromKeyfile(keyFile, "RAW X-Trans", "Method", pedited, raw.xtranssensor.method, pedited->raw.xtranssensor.method); assignFromKeyfile(keyFile, "RAW X-Trans", "CcSteps", pedited, raw.xtranssensor.ccSteps, pedited->raw.xtranssensor.ccSteps); assignFromKeyfile(keyFile, "RAW X-Trans", "PreBlackRed", pedited, raw.xtranssensor.blackred, pedited->raw.xtranssensor.exBlackRed); assignFromKeyfile(keyFile, "RAW X-Trans", "PreBlackGreen", pedited, raw.xtranssensor.blackgreen, pedited->raw.xtranssensor.exBlackGreen); assignFromKeyfile(keyFile, "RAW X-Trans", "PreBlackBlue", pedited, raw.xtranssensor.blackblue, pedited->raw.xtranssensor.exBlackBlue); } if (keyFile.has_group ("Exif")) { std::vector keys = keyFile.get_keys ("Exif"); for (const auto& key : keyFile.get_keys("Exif")) { exif[key] = keyFile.get_string ("Exif", key); if (pedited) { pedited->exif = true; } } } /* * Load iptc change settings * * Existing values are preserved, and the stored values * are added to the list. To reset a field, the user has to * save the profile with the field leaved empty, but still * terminated by a semi-column ";" * * Please note that the old Keywords and SupplementalCategories * tag content is fully replaced by the new one, * i.e. they don't merge */ if (keyFile.has_group ("IPTC")) { for (const auto& key : keyFile.get_keys("IPTC")) { // does this key already exist? const IPTCPairs::iterator element = iptc.find(key); if (element != iptc.end()) { // it already exist so we cleanup the values element->second.clear(); } // TODO: look out if merging Keywords and SupplementalCategories from the procparams chain would be interesting for (const auto& currLoadedTagValue : keyFile.get_string_list ("IPTC", key)) { iptc[key].push_back (currLoadedTagValue); } if (pedited) { pedited->iptc = true; } } } return 0; } catch (const Glib::Error& e) { printf ("-->%s\n", e.what().c_str()); setDefaults (); return 1; } catch (...) { printf ("-->unknown exception!\n"); setDefaults (); return 1; } return 0; } ProcParams* ProcParams::create () { return new ProcParams(); } void ProcParams::destroy (ProcParams* pp) { delete pp; } bool ProcParams::operator== (const ProcParams& other) { return toneCurve.curve == other.toneCurve.curve && toneCurve.curve2 == other.toneCurve.curve2 && toneCurve.brightness == other.toneCurve.brightness && toneCurve.black == other.toneCurve.black && toneCurve.contrast == other.toneCurve.contrast && toneCurve.saturation == other.toneCurve.saturation && toneCurve.shcompr == other.toneCurve.shcompr && toneCurve.hlcompr == other.toneCurve.hlcompr && toneCurve.hlcomprthresh == other.toneCurve.hlcomprthresh && toneCurve.autoexp == other.toneCurve.autoexp && toneCurve.clip == other.toneCurve.clip && toneCurve.expcomp == other.toneCurve.expcomp && toneCurve.curveMode == other.toneCurve.curveMode && toneCurve.curveMode2 == other.toneCurve.curveMode2 && toneCurve.hrenabled == other.toneCurve.hrenabled && toneCurve.method == other.toneCurve.method && retinex.cdcurve == other.retinex.cdcurve && retinex.mapcurve == other.retinex.mapcurve && retinex.cdHcurve == other.retinex.cdHcurve && retinex.lhcurve == other.retinex.lhcurve && retinex.transmissionCurve == other.retinex.transmissionCurve && retinex.gaintransmissionCurve == other.retinex.gaintransmissionCurve && retinex.str == other.retinex.str && retinex.scal == other.retinex.scal && retinex.iter == other.retinex.iter && retinex.grad == other.retinex.grad && retinex.grads == other.retinex.grads && retinex.gam == other.retinex.gam && retinex.slope == other.retinex.slope && retinex.neigh == other.retinex.neigh && retinex.limd == other.retinex.limd && retinex.highl == other.retinex.highl && retinex.highlights == other.retinex.highlights && retinex.htonalwidth == other.retinex.htonalwidth && retinex.shadows == other.retinex.shadows && retinex.stonalwidth == other.retinex.stonalwidth && retinex.radius == other.retinex.radius && retinex.skal == other.retinex.skal && retinex.offs == other.retinex.offs && retinex.retinexMethod == other.retinex.retinexMethod && retinex.mapMethod == other.retinex.mapMethod && retinex.viewMethod == other.retinex.viewMethod && retinex.retinexcolorspace == other.retinex.retinexcolorspace && retinex.gammaretinex == other.retinex.gammaretinex && retinex.vart == other.retinex.vart && retinex.medianmap == other.retinex.medianmap && retinex.enabled == other.retinex.enabled && labCurve.lcurve == other.labCurve.lcurve && labCurve.acurve == other.labCurve.acurve && labCurve.bcurve == other.labCurve.bcurve && labCurve.cccurve == other.labCurve.cccurve && labCurve.chcurve == other.labCurve.chcurve && labCurve.lhcurve == other.labCurve.lhcurve && labCurve.hhcurve == other.labCurve.hhcurve && labCurve.lccurve == other.labCurve.lccurve && labCurve.clcurve == other.labCurve.clcurve && labCurve.brightness == other.labCurve.brightness && labCurve.contrast == other.labCurve.contrast && labCurve.chromaticity == other.labCurve.chromaticity && labCurve.avoidcolorshift == other.labCurve.avoidcolorshift && labCurve.rstprotection == other.labCurve.rstprotection && labCurve.lcredsk == other.labCurve.lcredsk && sharpenEdge.enabled == other.sharpenEdge.enabled && sharpenEdge.passes == other.sharpenEdge.passes && sharpenEdge.amount == other.sharpenEdge.amount && sharpenEdge.threechannels == other.sharpenEdge.threechannels && sharpenMicro.enabled == other.sharpenMicro.enabled && sharpenMicro.matrix == other.sharpenMicro.matrix && sharpenMicro.amount == other.sharpenMicro.amount && sharpenMicro.uniformity == other.sharpenMicro.uniformity && sharpening.enabled == other.sharpening.enabled && sharpening.radius == other.sharpening.radius && sharpening.amount == other.sharpening.amount && sharpening.threshold == other.sharpening.threshold && sharpening.edgesonly == other.sharpening.edgesonly && sharpening.edges_radius == other.sharpening.edges_radius && sharpening.edges_tolerance == other.sharpening.edges_tolerance && sharpening.halocontrol == other.sharpening.halocontrol && sharpening.halocontrol_amount == other.sharpening.halocontrol_amount && sharpening.method == other.sharpening.method && sharpening.deconvamount == other.sharpening.deconvamount && sharpening.deconvradius == other.sharpening.deconvradius && sharpening.deconviter == other.sharpening.deconviter && sharpening.deconvdamping == other.sharpening.deconvdamping && prsharpening.enabled == other.prsharpening.enabled && prsharpening.radius == other.prsharpening.radius && prsharpening.amount == other.prsharpening.amount && prsharpening.threshold == other.prsharpening.threshold && prsharpening.edgesonly == other.prsharpening.edgesonly && prsharpening.edges_radius == other.prsharpening.edges_radius && prsharpening.edges_tolerance == other.prsharpening.edges_tolerance && prsharpening.halocontrol == other.prsharpening.halocontrol && prsharpening.halocontrol_amount == other.prsharpening.halocontrol_amount && prsharpening.method == other.prsharpening.method && prsharpening.deconvamount == other.prsharpening.deconvamount && prsharpening.deconvradius == other.prsharpening.deconvradius && prsharpening.deconviter == other.prsharpening.deconviter && prsharpening.deconvdamping == other.prsharpening.deconvdamping && vibrance.enabled == other.vibrance.enabled && vibrance.pastels == other.vibrance.pastels && vibrance.saturated == other.vibrance.saturated && vibrance.psthreshold == other.vibrance.psthreshold && vibrance.protectskins == other.vibrance.protectskins && vibrance.avoidcolorshift == other.vibrance.avoidcolorshift && vibrance.pastsattog == other.vibrance.pastsattog && vibrance.skintonescurve == other.vibrance.skintonescurve //&& colorBoost.amount == other.colorBoost.amount //&& colorBoost.avoidclip == other.colorBoost.avoidclip //&& colorBoost.enable_saturationlimiter == other.colorBoost.enable_saturationlimiter //&& colorBoost.saturationlimit == other.colorBoost.saturationlimit && wb.method == other.wb.method && wb.green == other.wb.green && wb.temperature == other.wb.temperature && wb.equal == other.wb.equal //&& colorShift.a == other.colorShift.a //&& colorShift.b == other.colorShift.b && colorappearance.enabled == other.colorappearance.enabled && colorappearance.degree == other.colorappearance.degree && colorappearance.autodegree == other.colorappearance.autodegree && colorappearance.degreeout == other.colorappearance.degreeout && colorappearance.autodegreeout == other.colorappearance.autodegreeout && colorappearance.surround == other.colorappearance.surround && colorappearance.surrsrc == other.colorappearance.surrsrc && colorappearance.adapscen == other.colorappearance.adapscen && colorappearance.autoadapscen == other.colorappearance.autoadapscen && colorappearance.ybscen == other.colorappearance.ybscen && colorappearance.autoybscen == other.colorappearance.autoybscen && colorappearance.adaplum == other.colorappearance.adaplum && colorappearance.badpixsl == other.colorappearance.badpixsl && colorappearance.wbmodel == other.colorappearance.wbmodel && colorappearance.algo == other.colorappearance.algo && colorappearance.curveMode == other.colorappearance.curveMode && colorappearance.curveMode2 == other.colorappearance.curveMode2 && colorappearance.curveMode3 == other.colorappearance.curveMode3 && colorappearance.jlight == other.colorappearance.jlight && colorappearance.qbright == other.colorappearance.qbright && colorappearance.chroma == other.colorappearance.chroma && colorappearance.schroma == other.colorappearance.schroma && colorappearance.mchroma == other.colorappearance.mchroma && colorappearance.rstprotection == other.colorappearance.rstprotection && colorappearance.contrast == other.colorappearance.contrast && colorappearance.qcontrast == other.colorappearance.qcontrast && colorappearance.colorh == other.colorappearance.colorh && colorappearance.tempout == other.colorappearance.tempout && colorappearance.greenout == other.colorappearance.greenout && colorappearance.tempsc == other.colorappearance.tempsc && colorappearance.greensc == other.colorappearance.greensc && colorappearance.ybout == other.colorappearance.ybout && impulseDenoise.enabled == other.impulseDenoise.enabled && impulseDenoise.thresh == other.impulseDenoise.thresh && dirpyrDenoise.enabled == other.dirpyrDenoise.enabled && dirpyrDenoise.enhance == other.dirpyrDenoise.enhance && dirpyrDenoise.median == other.dirpyrDenoise.median // && dirpyrDenoise.perform == other.dirpyrDenoise.perform && dirpyrDenoise.luma == other.dirpyrDenoise.luma && dirpyrDenoise.lcurve == other.dirpyrDenoise.lcurve && dirpyrDenoise.cccurve == other.dirpyrDenoise.cccurve && dirpyrDenoise.Ldetail == other.dirpyrDenoise.Ldetail && dirpyrDenoise.chroma == other.dirpyrDenoise.chroma && dirpyrDenoise.dmethod == other.dirpyrDenoise.dmethod && dirpyrDenoise.Lmethod == other.dirpyrDenoise.Lmethod && dirpyrDenoise.Cmethod == other.dirpyrDenoise.Cmethod && dirpyrDenoise.C2method == other.dirpyrDenoise.C2method && dirpyrDenoise.smethod == other.dirpyrDenoise.smethod && dirpyrDenoise.medmethod == other.dirpyrDenoise.medmethod && dirpyrDenoise.methodmed == other.dirpyrDenoise.methodmed && dirpyrDenoise.rgbmethod == other.dirpyrDenoise.rgbmethod && dirpyrDenoise.redchro == other.dirpyrDenoise.redchro && dirpyrDenoise.bluechro == other.dirpyrDenoise.bluechro && dirpyrDenoise.gamma == other.dirpyrDenoise.gamma && dirpyrDenoise.passes == other.dirpyrDenoise.passes && epd.enabled == other.epd.enabled && epd.strength == other.epd.strength && epd.gamma == other.epd.gamma && epd.edgeStopping == other.epd.edgeStopping && epd.scale == other.epd.scale && epd.reweightingIterates == other.epd.reweightingIterates && fattal.enabled == other.fattal.enabled && fattal.threshold == other.fattal.threshold && fattal.amount == other.fattal.amount && defringe.enabled == other.defringe.enabled && defringe.radius == other.defringe.radius && defringe.threshold == other.defringe.threshold && defringe.huecurve == other.defringe.huecurve //&& lumaDenoise.enabled == other.lumaDenoise.enabled //&& lumaDenoise.radius == other.lumaDenoise.radius //&& lumaDenoise.edgetolerance == other.lumaDenoise.edgetolerance //&& colorDenoise.enabled == other.colorDenoise.enabled //&& colorDenoise.edgetolerance == other.colorDenoise.edgetolerance //&& colorDenoise.edgesensitive == other.colorDenoise.edgesensitive && sh.enabled == other.sh.enabled && sh.hq == other.sh.hq && sh.highlights == other.sh.highlights && sh.htonalwidth == other.sh.htonalwidth && sh.shadows == other.sh.shadows && sh.stonalwidth == other.sh.stonalwidth && sh.localcontrast == other.sh.localcontrast && sh.radius == other.sh.radius && crop.enabled == other.crop.enabled && crop.x == other.crop.x && crop.y == other.crop.y && crop.w == other.crop.w && crop.h == other.crop.h && crop.fixratio == other.crop.fixratio && crop.ratio == other.crop.ratio && crop.orientation == other.crop.orientation && crop.guide == other.crop.guide && coarse.rotate == other.coarse.rotate && coarse.hflip == other.coarse.hflip && coarse.vflip == other.coarse.vflip && rotate.degree == other.rotate.degree && commonTrans.autofill == other.commonTrans.autofill && distortion.amount == other.distortion.amount && lensProf.lcMode == other.lensProf.lcMode && lensProf.lcpFile == other.lensProf.lcpFile && lensProf.useDist == other.lensProf.useDist && lensProf.useVign == other.lensProf.useVign && lensProf.useCA == other.lensProf.useCA && lensProf.lfCameraMake == other.lensProf.lfCameraMake && lensProf.lfCameraModel == other.lensProf.lfCameraModel && lensProf.lfLens == other.lensProf.lfLens && perspective.horizontal == other.perspective.horizontal && perspective.vertical == other.perspective.vertical && gradient.enabled == other.gradient.enabled && gradient.degree == other.gradient.degree && gradient.feather == other.gradient.feather && gradient.strength == other.gradient.strength && gradient.centerX == other.gradient.centerX && gradient.centerY == other.gradient.centerY && pcvignette.enabled == other.pcvignette.enabled && pcvignette.strength == other.pcvignette.strength && pcvignette.feather == other.pcvignette.feather && pcvignette.roundness == other.pcvignette.roundness && cacorrection.red == other.cacorrection.red && cacorrection.blue == other.cacorrection.blue && vignetting.amount == other.vignetting.amount && vignetting.radius == other.vignetting.radius && vignetting.strength == other.vignetting.strength && vignetting.centerX == other.vignetting.centerX && vignetting.centerY == other.vignetting.centerY && !memcmp (&chmixer.red, &other.chmixer.red, 3 * sizeof (int)) && !memcmp (&chmixer.green, &other.chmixer.green, 3 * sizeof (int)) && !memcmp (&chmixer.blue, &other.chmixer.blue, 3 * sizeof (int)) && blackwhite.mixerRed == other.blackwhite.mixerRed && blackwhite.mixerOrange == other.blackwhite.mixerOrange && blackwhite.mixerYellow == other.blackwhite.mixerYellow && blackwhite.mixerGreen == other.blackwhite.mixerGreen && blackwhite.mixerCyan == other.blackwhite.mixerCyan && blackwhite.mixerBlue == other.blackwhite.mixerBlue && blackwhite.mixerMagenta == other.blackwhite.mixerMagenta && blackwhite.mixerPurple == other.blackwhite.mixerPurple && blackwhite.gammaRed == other.blackwhite.gammaRed && blackwhite.gammaGreen == other.blackwhite.gammaGreen && blackwhite.gammaBlue == other.blackwhite.gammaBlue && blackwhite.filter == other.blackwhite.filter && blackwhite.setting == other.blackwhite.setting && blackwhite.method == other.blackwhite.method && blackwhite.luminanceCurve == other.blackwhite.luminanceCurve && blackwhite.beforeCurve == other.blackwhite.beforeCurve && blackwhite.afterCurve == other.blackwhite.afterCurve && blackwhite.beforeCurveMode == other.blackwhite.beforeCurveMode && blackwhite.afterCurveMode == other.blackwhite.afterCurveMode && blackwhite.autoc == other.blackwhite.autoc && blackwhite.algo == other.blackwhite.algo && resize.scale == other.resize.scale && resize.appliesTo == other.resize.appliesTo && resize.method == other.resize.method && resize.dataspec == other.resize.dataspec && resize.width == other.resize.width && resize.height == other.resize.height && raw.bayersensor.method == other.raw.bayersensor.method && raw.bayersensor.imageNum == other.raw.bayersensor.imageNum && raw.bayersensor.ccSteps == other.raw.bayersensor.ccSteps && raw.bayersensor.black0 == other.raw.bayersensor.black0 && raw.bayersensor.black1 == other.raw.bayersensor.black1 && raw.bayersensor.black2 == other.raw.bayersensor.black2 && raw.bayersensor.black3 == other.raw.bayersensor.black3 && raw.bayersensor.twogreen == other.raw.bayersensor.twogreen && raw.bayersensor.greenthresh == other.raw.bayersensor.greenthresh && raw.bayersensor.linenoise == other.raw.bayersensor.linenoise && raw.bayersensor.dcb_iterations == other.raw.bayersensor.dcb_iterations && raw.bayersensor.lmmse_iterations == other.raw.bayersensor.lmmse_iterations && raw.bayersensor.pixelShiftMotion == other.raw.bayersensor.pixelShiftMotion && raw.bayersensor.pixelShiftMotionCorrection == other.raw.bayersensor.pixelShiftMotionCorrection && raw.bayersensor.pixelShiftMotionCorrectionMethod == other.raw.bayersensor.pixelShiftMotionCorrectionMethod && raw.bayersensor.pixelShiftStddevFactorGreen == other.raw.bayersensor.pixelShiftStddevFactorGreen && raw.bayersensor.pixelShiftStddevFactorRed == other.raw.bayersensor.pixelShiftStddevFactorRed && raw.bayersensor.pixelShiftStddevFactorBlue == other.raw.bayersensor.pixelShiftStddevFactorBlue && raw.bayersensor.pixelShiftEperIso == other.raw.bayersensor.pixelShiftEperIso && raw.bayersensor.pixelShiftNreadIso == other.raw.bayersensor.pixelShiftNreadIso && raw.bayersensor.pixelShiftPrnu == other.raw.bayersensor.pixelShiftPrnu && raw.bayersensor.pixelShiftSigma == other.raw.bayersensor.pixelShiftSigma && raw.bayersensor.pixelShiftSum == other.raw.bayersensor.pixelShiftSum && raw.bayersensor.pixelShiftRedBlueWeight == other.raw.bayersensor.pixelShiftRedBlueWeight && raw.bayersensor.pixelShiftShowMotion == other.raw.bayersensor.pixelShiftShowMotion && raw.bayersensor.pixelShiftShowMotionMaskOnly == other.raw.bayersensor.pixelShiftShowMotionMaskOnly && raw.bayersensor.pixelShiftAutomatic == other.raw.bayersensor.pixelShiftAutomatic && raw.bayersensor.pixelShiftNonGreenHorizontal == other.raw.bayersensor.pixelShiftNonGreenHorizontal && raw.bayersensor.pixelShiftNonGreenVertical == other.raw.bayersensor.pixelShiftNonGreenVertical && raw.bayersensor.pixelShiftHoleFill == other.raw.bayersensor.pixelShiftHoleFill && raw.bayersensor.pixelShiftMedian == other.raw.bayersensor.pixelShiftMedian && raw.bayersensor.pixelShiftMedian3 == other.raw.bayersensor.pixelShiftMedian3 && raw.bayersensor.pixelShiftGreen == other.raw.bayersensor.pixelShiftGreen && raw.bayersensor.pixelShiftBlur == other.raw.bayersensor.pixelShiftBlur && raw.bayersensor.pixelShiftSmoothFactor == other.raw.bayersensor.pixelShiftSmoothFactor && raw.bayersensor.pixelShiftExp0 == other.raw.bayersensor.pixelShiftExp0 && raw.bayersensor.pixelShiftLmmse == other.raw.bayersensor.pixelShiftLmmse && raw.bayersensor.pixelShiftEqualBright == other.raw.bayersensor.pixelShiftEqualBright && raw.bayersensor.pixelShiftEqualBrightChannel == other.raw.bayersensor.pixelShiftEqualBrightChannel && raw.bayersensor.pixelShiftNonGreenCross == other.raw.bayersensor.pixelShiftNonGreenCross && raw.bayersensor.pixelShiftNonGreenCross2 == other.raw.bayersensor.pixelShiftNonGreenCross2 && raw.bayersensor.pixelShiftNonGreenAmaze == other.raw.bayersensor.pixelShiftNonGreenAmaze && raw.bayersensor.dcb_enhance == other.raw.bayersensor.dcb_enhance && raw.xtranssensor.method == other.raw.xtranssensor.method && raw.xtranssensor.ccSteps == other.raw.xtranssensor.ccSteps && raw.xtranssensor.blackred == other.raw.xtranssensor.blackred && raw.xtranssensor.blackgreen == other.raw.xtranssensor.blackgreen && raw.xtranssensor.blackblue == other.raw.xtranssensor.blackblue && raw.dark_frame == other.raw.dark_frame && raw.df_autoselect == other.raw.df_autoselect && raw.ff_file == other.raw.ff_file && raw.ff_AutoSelect == other.raw.ff_AutoSelect && raw.ff_BlurRadius == other.raw.ff_BlurRadius && raw.ff_BlurType == other.raw.ff_BlurType && raw.ff_AutoClipControl == other.raw.ff_AutoClipControl && raw.ff_clipControl == other.raw.ff_clipControl && raw.expos == other.raw.expos && raw.preser == other.raw.preser && raw.ca_autocorrect == other.raw.ca_autocorrect && raw.cared == other.raw.cared && raw.cablue == other.raw.cablue && raw.hotPixelFilter == other.raw.hotPixelFilter && raw.deadPixelFilter == other.raw.deadPixelFilter && raw.hotdeadpix_thresh == other.raw.hotdeadpix_thresh && icm.input == other.icm.input && icm.toneCurve == other.icm.toneCurve && icm.applyLookTable == other.icm.applyLookTable && icm.applyBaselineExposureOffset == other.icm.applyBaselineExposureOffset && icm.applyHueSatMap == other.icm.applyHueSatMap && icm.dcpIlluminant == other.icm.dcpIlluminant && icm.working == other.icm.working && icm.output == other.icm.output && icm.gamma == other.icm.gamma && icm.freegamma == other.icm.freegamma && icm.gampos == other.icm.gampos && icm.slpos == other.icm.slpos && wavelet == other.wavelet && wavelet.Lmethod == other.wavelet.Lmethod && wavelet.CLmethod == other.wavelet.CLmethod && wavelet.Backmethod == other.wavelet.Backmethod && wavelet.Tilesmethod == other.wavelet.Tilesmethod && wavelet.daubcoeffmethod == other.wavelet.daubcoeffmethod && wavelet.CHmethod == other.wavelet.CHmethod && wavelet.CHSLmethod == other.wavelet.CHSLmethod && wavelet.EDmethod == other.wavelet.EDmethod && wavelet.NPmethod == other.wavelet.NPmethod && wavelet.BAmethod == other.wavelet.BAmethod && wavelet.TMmethod == other.wavelet.TMmethod && wavelet.HSmethod == other.wavelet.HSmethod && wavelet.Dirmethod == other.wavelet.Dirmethod && wavelet.rescon == other.wavelet.rescon && wavelet.resconH == other.wavelet.resconH && wavelet.reschro == other.wavelet.reschro && wavelet.tmrs == other.wavelet.tmrs && wavelet.gamma == other.wavelet.gamma && wavelet.sup == other.wavelet.sup && wavelet.sky == other.wavelet.sky && wavelet.thres == other.wavelet.thres && wavelet.chroma == other.wavelet.chroma && wavelet.chro == other.wavelet.chro && wavelet.tmr == other.wavelet.tmr && wavelet.contrast == other.wavelet.contrast && wavelet.median == other.wavelet.median && wavelet.expcontrast == other.wavelet.expcontrast && wavelet.expchroma == other.wavelet.expchroma && wavelet.expedge == other.wavelet.expedge && wavelet.expresid == other.wavelet.expresid && wavelet.expfinal == other.wavelet.expfinal && wavelet.exptoning == other.wavelet.exptoning && wavelet.expnoise == other.wavelet.expnoise && wavelet.medianlev == other.wavelet.medianlev && wavelet.linkedg == other.wavelet.linkedg && wavelet.cbenab == other.wavelet.cbenab && wavelet.lipst == other.wavelet.lipst && wavelet.Medgreinf == other.wavelet.Medgreinf && wavelet.edgrad == other.wavelet.edgrad && wavelet.edgval == other.wavelet.edgval && wavelet.edgthresh == other.wavelet.edgthresh && wavelet.thr == other.wavelet.thr && wavelet.thrH == other.wavelet.thrH && wavelet.threshold == other.wavelet.threshold && wavelet.threshold2 == other.wavelet.threshold2 && wavelet.edgedetect == other.wavelet.edgedetect && wavelet.edgedetectthr == other.wavelet.edgedetectthr && wavelet.edgedetectthr2 == other.wavelet.edgedetectthr2 && wavelet.edgesensi == other.wavelet.edgesensi && wavelet.edgeampli == other.wavelet.edgeampli && wavelet.hueskin == other.wavelet.hueskin && wavelet.hueskin2 == other.wavelet.hueskin2 && wavelet.hllev == other.wavelet.hllev && wavelet.bllev == other.wavelet.bllev && wavelet.edgcont == other.wavelet.edgcont && wavelet.level0noise == other.wavelet.level0noise && wavelet.level1noise == other.wavelet.level1noise && wavelet.level2noise == other.wavelet.level2noise && wavelet.level3noise == other.wavelet.level3noise && wavelet.pastlev == other.wavelet.pastlev && wavelet.satlev == other.wavelet.satlev && wavelet.opacityCurveRG == other.wavelet.opacityCurveRG && wavelet.opacityCurveBY == other.wavelet.opacityCurveBY && wavelet.opacityCurveW == other.wavelet.opacityCurveW && wavelet.opacityCurveWL == other.wavelet.opacityCurveWL && wavelet.hhcurve == other.wavelet.hhcurve && wavelet.Chcurve == other.wavelet.Chcurve && wavelet.ccwcurve == other.wavelet.ccwcurve && wavelet.wavclCurve == other.wavelet.wavclCurve && wavelet.skinprotect == other.wavelet.skinprotect && wavelet.strength == other.wavelet.strength && wavelet.balance == other.wavelet.balance && wavelet.greenhigh == other.wavelet.greenhigh && wavelet.greenmed == other.wavelet.greenmed && wavelet.greenlow == other.wavelet.greenlow && wavelet.bluehigh == other.wavelet.bluehigh && wavelet.bluemed == other.wavelet.bluemed && wavelet.bluelow == other.wavelet.bluelow && wavelet.iter == other.wavelet.iter && dirpyrequalizer == other.dirpyrequalizer // && dirpyrequalizer.algo == other.dirpyrequalizer.algo && dirpyrequalizer.hueskin == other.dirpyrequalizer.hueskin && dirpyrequalizer.threshold == other.dirpyrequalizer.threshold && dirpyrequalizer.cbdlMethod == other.dirpyrequalizer.cbdlMethod && dirpyrequalizer.skinprotect == other.dirpyrequalizer.skinprotect && hsvequalizer.hcurve == other.hsvequalizer.hcurve && hsvequalizer.scurve == other.hsvequalizer.scurve && hsvequalizer.vcurve == other.hsvequalizer.vcurve && filmSimulation.enabled == other.filmSimulation.enabled && filmSimulation.clutFilename == other.filmSimulation.clutFilename && filmSimulation.strength == other.filmSimulation.strength && rgbCurves.rcurve == other.rgbCurves.rcurve && rgbCurves.gcurve == other.rgbCurves.gcurve && rgbCurves.bcurve == other.rgbCurves.bcurve && colorToning.enabled == other.colorToning.enabled && colorToning.twocolor == other.colorToning.twocolor && colorToning.method == other.colorToning.method && colorToning.colorCurve == other.colorToning.colorCurve && colorToning.opacityCurve == other.colorToning.opacityCurve && colorToning.autosat == other.colorToning.autosat && colorToning.satProtectionThreshold == other.colorToning.satProtectionThreshold && colorToning.saturatedOpacity == other.colorToning.saturatedOpacity && colorToning.strength == other.colorToning.strength && colorToning.hlColSat == other.colorToning.hlColSat && colorToning.shadowsColSat == other.colorToning.shadowsColSat && colorToning.balance == other.colorToning.balance && colorToning.clcurve == other.colorToning.clcurve && colorToning.cl2curve == other.colorToning.cl2curve && colorToning.redlow == other.colorToning.redlow && colorToning.greenlow == other.colorToning.greenlow && colorToning.bluelow == other.colorToning.bluelow && colorToning.satlow == other.colorToning.satlow && colorToning.sathigh == other.colorToning.sathigh && colorToning.redmed == other.colorToning.redmed && colorToning.greenmed == other.colorToning.greenmed && colorToning.bluemed == other.colorToning.bluemed && colorToning.redhigh == other.colorToning.redhigh && colorToning.greenhigh == other.colorToning.greenhigh && colorToning.bluehigh == other.colorToning.bluehigh && exif == other.exif && iptc == other.iptc; } bool ProcParams::operator!= (const ProcParams& other) { return !(*this == other); } void ProcParams::init () { } void ProcParams::cleanup () { } int ProcParams::write (const Glib::ustring &fname, const Glib::ustring &content) const { int error = 0; if (fname.length()) { FILE *f; f = g_fopen (fname.c_str (), "wt"); if (f == nullptr) { error = 1; } else { fprintf (f, "%s", content.c_str()); fclose (f); } } return error; } PartialProfile::PartialProfile (bool createInstance, bool paramsEditedValue) { if (createInstance) { pparams = new ProcParams(); pedited = new ParamsEdited (paramsEditedValue); } else { pparams = nullptr; pedited = nullptr; } } PartialProfile::PartialProfile (ProcParams* pp, ParamsEdited* pe, bool fullCopy) { if (fullCopy && pp) { pparams = new ProcParams (*pp); } else { pparams = pp; } if (fullCopy && pe) { pedited = new ParamsEdited (*pe); } else { pedited = pe; } } PartialProfile::PartialProfile (const ProcParams* pp, const ParamsEdited* pe) { if (pp) { pparams = new ProcParams (*pp); } else { pparams = nullptr; } if (pe) { pedited = new ParamsEdited (*pe); } else { pedited = nullptr; } } void PartialProfile::deleteInstance () { if (pparams) { delete pparams; pparams = nullptr; } if (pedited) { delete pedited; pedited = nullptr; } } void PartialProfile::clearGeneral () { if (pedited) { pedited->general.colorlabel = false; pedited->general.intrash = false; pedited->general.rank = false; } } int PartialProfile::load (const Glib::ustring &fName) { if (!pparams) { pparams = new ProcParams(); } if (!pedited) { pedited = new ParamsEdited(); } if (fName == DEFPROFILE_INTERNAL) { return 0; } else if (fName == DEFPROFILE_DYNAMIC) { return -1; // should not happen here } else { return pparams->load (fName, pedited); } } /* * Set the all values of the General section to false * in order to preserve them in applyTo */ void PartialProfile::set (bool v) { if (pedited) { pedited->set (v); } } const void PartialProfile::applyTo (ProcParams *destParams) const { if (destParams && pparams && pedited) { pedited->combine (*destParams, *pparams, true); } } } }