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rawTherapee/rtgui/bayerrawexposure.cc
Daniel Gao 711f274403 Get rid of relative include paths 
* Use target_include_directories to specify include paths
* Specify project root (parent of rtgui and rtengine) as include path
* Replace relative includes with normal includes
2024-11-16 17:20:02 -05:00

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/*
* This file is part of RawTherapee.
*
* Copyright (c) 2004-2010 Gabor Horvath <hgabor@rawtherapee.com>
*
* RawTherapee is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* RawTherapee is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with RawTherapee. If not, see <https://www.gnu.org/licenses/>.
*/
#include "bayerrawexposure.h"
#include "guiutils.h"
#include "options.h"
#include "rtengine/procparams.h"
using namespace rtengine;
using namespace rtengine::procparams;
const Glib::ustring BayerRAWExposure::TOOL_NAME = "bayerrawexposure";
BayerRAWExposure::BayerRAWExposure () : FoldableToolPanel(this, TOOL_NAME, M("TP_EXPOS_BLACKPOINT_LABEL"), options.prevdemo != PD_Sidecar)
{
auto m = ProcEventMapper::getInstance();
EvDehablack = m->newEvent(DARKFRAME, "HISTORY_MSG_DEHABLACK");
EvDehablackVoid = m->newEvent(M_VOID, "HISTORY_MSG_DEHABLACK");
PexBlack1 = Gtk::manage(new Adjuster (M("TP_RAWEXPOS_BLACK_1"), -2048, 2048, 1.0, 0)); //black level
PexBlack1->setAdjusterListener (this);
PexBlack1->setDelay(std::max(options.adjusterMinDelay, options.adjusterMaxDelay));
PexBlack1->show();
PexBlack2 = Gtk::manage(new Adjuster (M("TP_RAWEXPOS_BLACK_2"), -2048, 2048, 1.0, 0)); //black level
PexBlack2->setAdjusterListener (this);
PexBlack2->setDelay(std::max(options.adjusterMinDelay, options.adjusterMaxDelay));
PexBlack2->show();
PexBlack3 = Gtk::manage(new Adjuster (M("TP_RAWEXPOS_BLACK_3"), -2048, 2048, 1.0, 0)); //black level
PexBlack3->setAdjusterListener (this);
PexBlack3->setDelay(std::max(options.adjusterMinDelay, options.adjusterMaxDelay));
PexBlack3->show();
PexBlack0 = Gtk::manage(new Adjuster (M("TP_RAWEXPOS_BLACK_0"), -2048, 2048, 1.0, 0)); //black level
PexBlack0->setAdjusterListener (this);
PexBlack0->setDelay(std::max(options.adjusterMinDelay, options.adjusterMaxDelay));
PexBlack0->show();
PextwoGreen = Gtk::manage(new CheckBox(M("TP_RAWEXPOS_TWOGREEN"), multiImage));// two green
PextwoGreen->set_active (true);
PextwoGreen->setCheckBoxListener (this);
Dehablack = Gtk::manage(new CheckBox(M("TP_RAWEXPOS_DEHA"), multiImage));// Black dehaze
Dehablack->set_active (false);
Dehablack->setCheckBoxListener (this);
pack_start( *PexBlack1, Gtk::PACK_SHRINK, 0);//black R
pack_start( *PexBlack0, Gtk::PACK_SHRINK, 0);//black G1
pack_start( *PexBlack3, Gtk::PACK_SHRINK, 0);//black G2
pack_start( *PexBlack2, Gtk::PACK_SHRINK, 0);//black B
pack_start( *PextwoGreen, Gtk::PACK_SHRINK, 0);//black 2 green
pack_start( *Dehablack, Gtk::PACK_SHRINK, 0);//black Dehaze
PexBlack0->setLogScale(100, 0);
PexBlack1->setLogScale(100, 0);
PexBlack2->setLogScale(100, 0);
PexBlack3->setLogScale(100, 0);
}
void BayerRAWExposure::read(const rtengine::procparams::ProcParams* pp, const ParamsEdited* pedited)
{
disableListener ();
if(pedited ) {
PexBlack0->setEditedState( pedited->raw.bayersensor.exBlack0 ? Edited : UnEdited );
PexBlack1->setEditedState( pedited->raw.bayersensor.exBlack1 ? Edited : UnEdited );
PexBlack2->setEditedState( pedited->raw.bayersensor.exBlack2 ? Edited : UnEdited );
PexBlack3->setEditedState( pedited->raw.bayersensor.exBlack3 ? Edited : UnEdited );
}
PextwoGreen->setValue (pp->raw.bayersensor.twogreen);
Dehablack->setValue (pp->raw.bayersensor.Dehablack);
PexBlack0->setValue (pp->raw.bayersensor.black0);//black
PexBlack1->setValue (pp->raw.bayersensor.black1);//black
PexBlack2->setValue (pp->raw.bayersensor.black2);//black
if(!PextwoGreen->getLastActive()) {
PexBlack3->setValue (pp->raw.bayersensor.black3);
} else {
PexBlack3->setValue (PexBlack0->getValue());
}
checkBoxToggled (Dehablack, CheckValue::on);
enableListener ();
}
void BayerRAWExposure::write( rtengine::procparams::ProcParams* pp, ParamsEdited* pedited)
{
pp->raw.bayersensor.black0 = PexBlack0->getValue();// black
pp->raw.bayersensor.black1 = PexBlack1->getValue();// black
pp->raw.bayersensor.black2 = PexBlack2->getValue();// black
pp->raw.bayersensor.twogreen = PextwoGreen->getLastActive();
pp->raw.bayersensor.Dehablack = Dehablack->getLastActive();
if(PextwoGreen->getLastActive()) {
pp->raw.bayersensor.black3 = pp->raw.bayersensor.black0; // active or desactive 2 green together
} else {
pp->raw.bayersensor.black3 = PexBlack3->getValue();
}
if (pedited) {
pedited->raw.bayersensor.exBlack0 = PexBlack0->getEditedState ();//black
pedited->raw.bayersensor.exBlack1 = PexBlack1->getEditedState ();//black
pedited->raw.bayersensor.exBlack2 = PexBlack2->getEditedState ();//black
pedited->raw.bayersensor.exBlack3 = PexBlack3->getEditedState ();//black
pedited->raw.bayersensor.exTwoGreen = !PextwoGreen->get_inconsistent();
pedited->raw.bayersensor.Dehablack = !Dehablack->get_inconsistent();
}
}
BayerRAWExposure::~BayerRAWExposure()
{
idle_register.destroy();
}
void BayerRAWExposure::autoBlackChanged (double reddeha, double greendeha, double bluedeha)
{
idle_register.add(
[this, reddeha, greendeha, bluedeha]() -> bool
{
if (reddeha != PexBlack1->getValue()) {
disableListener();
PexBlack1->setValue(reddeha);
enableListener();
}
if (greendeha != PexBlack0->getValue()) {
disableListener();
PexBlack0->setValue(greendeha);
enableListener();
}
if (greendeha != PexBlack3->getValue()) {
disableListener();
PexBlack3->setValue(greendeha);
enableListener();
}
if (bluedeha != PexBlack2->getValue()) {
disableListener();
PexBlack2->setValue(bluedeha);
enableListener();
}
return false;
}
);
}
void BayerRAWExposure::adjusterChanged(Adjuster* a, double newval)
{
if (listener) {
Glib::ustring value = a->getTextValue();
if (a == PexBlack0) {
if(!PextwoGreen->getLastActive()) {
listener->panelChanged (EvPreProcessExpBlackzero, value );
} else {
listener->panelChanged (EvPreProcessExpBlackzero, value );
PexBlack3->setValue (PexBlack0->getValue());
}
} else if (a == PexBlack1) {
listener->panelChanged (EvPreProcessExpBlackone, value );
} else if (a == PexBlack2) {
listener->panelChanged (EvPreProcessExpBlacktwo, value );
} else if (a == PexBlack3) {
if(!PextwoGreen->getLastActive()) {
listener->panelChanged (EvPreProcessExpBlackthree, value );
} else {
PexBlack0->setValue (PexBlack3->getValue());
listener->panelChanged (EvPreProcessExpBlackthree, value );
}
}
}
}
void BayerRAWExposure::checkBoxToggled (CheckBox* c, CheckValue newval)
{
if (c == PextwoGreen) {
if (listener) {
listener->panelChanged (EvPreProcessExptwoGreen, PextwoGreen->getLastActive() ? M("GENERAL_ENABLED") : M("GENERAL_DISABLED"));
if (PextwoGreen->getLastActive()) {
PexBlack3->setValue (PexBlack0->getValue());//two green together
}
}
} else if(c == Dehablack) {
if(Dehablack->getLastActive()) {
PexBlack1->set_sensitive(false);
PexBlack2->set_sensitive(false);
PexBlack3->set_sensitive(false);
PexBlack0->set_sensitive(false);
} else {
PexBlack1->set_sensitive(true);
PexBlack2->set_sensitive(true);
PexBlack3->set_sensitive(true);
PexBlack0->set_sensitive(true);
}
if (listener) {
if (Dehablack->getLastActive()) {
listener->panelChanged (EvDehablack, M("GENERAL_ENABLED"));
} else {
listener->panelChanged (EvDehablackVoid, M("GENERAL_DISABLED"));
}
}
}
}
void BayerRAWExposure::setBatchMode(bool batchMode)
{
ToolPanel::setBatchMode (batchMode);
PexBlack0->showEditedCB ();//black
PexBlack1->showEditedCB ();//black
PexBlack2->showEditedCB ();//black
PexBlack3->showEditedCB ();//black
}
void BayerRAWExposure::setDefaults(const rtengine::procparams::ProcParams* defParams, const ParamsEdited* pedited)
{
PexBlack0->setDefault( defParams->raw.bayersensor.black0);
PexBlack1->setDefault( defParams->raw.bayersensor.black1);
PexBlack2->setDefault( defParams->raw.bayersensor.black2);
PexBlack3->setDefault( defParams->raw.bayersensor.black3);
if (pedited) {
PexBlack0->setDefaultEditedState( pedited->raw.bayersensor.exBlack0 ? Edited : UnEdited);
PexBlack1->setDefaultEditedState( pedited->raw.bayersensor.exBlack1 ? Edited : UnEdited);
PexBlack2->setDefaultEditedState( pedited->raw.bayersensor.exBlack2 ? Edited : UnEdited);
PexBlack3->setDefaultEditedState( pedited->raw.bayersensor.exBlack3 ? Edited : UnEdited);
} else {
PexBlack0->setDefaultEditedState( Irrelevant );
PexBlack1->setDefaultEditedState( Irrelevant );
PexBlack2->setDefaultEditedState( Irrelevant );
PexBlack3->setDefaultEditedState( Irrelevant );
}
}
void BayerRAWExposure::setAdjusterBehavior (bool pexblackadd)
{
PexBlack0->setAddMode(pexblackadd);
PexBlack1->setAddMode(pexblackadd);
PexBlack2->setAddMode(pexblackadd);
PexBlack3->setAddMode(pexblackadd);
}
void BayerRAWExposure::trimValues (rtengine::procparams::ProcParams* pp)
{
PexBlack0->trimValue(pp->raw.bayersensor.black0);
PexBlack1->trimValue(pp->raw.bayersensor.black1);
PexBlack2->trimValue(pp->raw.bayersensor.black2);
PexBlack3->trimValue(pp->raw.bayersensor.black3);
}
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