rawTherapee/rtgui/vibrance.cc

/*
 *  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 <http://www.gnu.org/licenses/>.
 */

#include "vibrance.h"
#include "../rtengine/color.h"

using namespace rtengine;
using namespace rtengine::procparams;

Vibrance::Vibrance () : FoldableToolPanel(this, "vibrance", M("TP_VIBRANCE_LABEL"), false, true)
{

    std::vector<GradientMilestone> milestones;
    float R, G, B;
    // -0.1 rad < Hue < 1.6 rad
    Color::hsv2rgb01(0.92f, 0.45f, 0.6f, R, G, B);
    milestones.push_back( GradientMilestone(0.0, double(R), double(G), double(B)) );
    Color::hsv2rgb01(0.14056f, 0.45f, 0.6f, R, G, B);
    milestones.push_back( GradientMilestone(1.0, double(R), double(G), double(B)) );

    saturated = Gtk::manage(new Adjuster (M("TP_VIBRANCE_SATURATED"), -100., 100., 1., 0.));
    saturated->setAdjusterListener (this);
    saturated->set_sensitive(false);
    pack_start( *saturated, Gtk::PACK_SHRINK, 0);

    pastels = Gtk::manage(new Adjuster (M("TP_VIBRANCE_PASTELS"), -100., 100., 1., 0.));
    pastels->setAdjusterListener (this);
    pack_start( *pastels, Gtk::PACK_SHRINK, 0);

    psThreshold = Gtk::manage (new ThresholdAdjuster (M("TP_VIBRANCE_PSTHRESHOLD"), -100., 100., 0., M("TP_VIBRANCE_PSTHRESHOLD_WEIGTHING"), 0, 0., 100., 75., M("TP_VIBRANCE_PSTHRESHOLD_SATTHRESH"), 0, this, false));
    psThreshold->setAdjusterListener (this);
    psThreshold->set_tooltip_markup(M("TP_VIBRANCE_PSTHRESHOLD_TOOLTIP"));
    psThreshold->set_sensitive(false);
    pack_start( *psThreshold, Gtk::PACK_SHRINK, 0);

    protectSkins = Gtk::manage (new Gtk::CheckButton (M("TP_VIBRANCE_PROTECTSKINS")));
    protectSkins->set_active (true);
    pack_start(*protectSkins, Gtk::PACK_SHRINK, 0);

    avoidColorShift = Gtk::manage (new Gtk::CheckButton (M("TP_VIBRANCE_AVOIDCOLORSHIFT")));
    avoidColorShift->set_active (true);
    pack_start(*avoidColorShift, Gtk::PACK_SHRINK, 0);

    pastSatTog = Gtk::manage (new Gtk::CheckButton (M("TP_VIBRANCE_PASTSATTOG")));
    pastSatTog->set_active (true);
    pack_start(*pastSatTog, Gtk::PACK_SHRINK, 0);

    curveEditorGG = new CurveEditorGroup (options.lastVibranceCurvesDir, M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_LABEL"));
    curveEditorGG->setCurveListener (this);

    skinTonesCurve = static_cast<DiagonalCurveEditor*>(curveEditorGG->addCurve(CT_Diagonal, M("TP_VIBRANCE_CURVEEDITOR_SKINTONES")));
    skinTonesCurve->setTooltip(M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_TOOLTIP"));
    skinTonesCurve->setBottomBarBgGradient(milestones);
    skinTonesCurve->setLeftBarBgGradient(milestones);
    skinTonesCurve->setRangeLabels(
        M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE1"), M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE2"),
        M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE3"), M("TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE4")
    );
    skinTonesCurve->setRangeDefaultMilestones(0.1, 0.4, 0.85);
    curveEditorGG->curveListComplete();

    pack_start (*curveEditorGG, Gtk::PACK_SHRINK, 4);

    pskinsconn = protectSkins->signal_toggled().connect( sigc::mem_fun(*this, &Vibrance::protectskins_toggled) );
    ashiftconn = avoidColorShift->signal_toggled().connect( sigc::mem_fun(*this, &Vibrance::avoidcolorshift_toggled) );
    pastsattogconn = pastSatTog->signal_toggled().connect( sigc::mem_fun(*this, &Vibrance::pastsattog_toggled) );
}

Vibrance::~Vibrance ()
{
    delete curveEditorGG;
}

void Vibrance::read(const ProcParams* pp, const ParamsEdited* pedited)
{
    disableListener ();

    if(pedited ) {
        set_inconsistent                  (multiImage && !pedited->vibrance.enabled);
        pastels->setEditedState           (pedited->vibrance.pastels ? Edited : UnEdited);
        saturated->setEditedState         (pedited->vibrance.saturated ? Edited : UnEdited);
        psThreshold->setEditedState       (pedited->vibrance.psthreshold ? Edited : UnEdited);
        protectSkins->set_inconsistent    (!pedited->vibrance.protectskins);
        avoidColorShift->set_inconsistent (!pedited->vibrance.avoidcolorshift);
        pastSatTog->set_inconsistent      (!pedited->vibrance.pastsattog);
        skinTonesCurve->setUnChanged      (!pedited->vibrance.skintonescurve);
    }

    setEnabled (pp->vibrance.enabled);

    pskinsconn.block (true);
    protectSkins->set_active (pp->vibrance.protectskins);
    pskinsconn.block (false);
    lastProtectSkins = pp->vibrance.protectskins;

    ashiftconn.block (true);
    avoidColorShift->set_active (pp->vibrance.avoidcolorshift);
    ashiftconn.block (false);
    lastAvoidColorShift = pp->vibrance.avoidcolorshift;

    pastsattogconn.block (true);
    pastSatTog->set_active (pp->vibrance.pastsattog);
    pastsattogconn.block (false);
    lastPastSatTog = pp->vibrance.pastsattog;

    pastels->setValue (pp->vibrance.pastels);
    psThreshold->setValue<int> (pp->vibrance.psthreshold);

    if (lastPastSatTog) {
        // Link both slider, so we set saturated and psThresholds unsensitive
        psThreshold->set_sensitive(false);
        saturated->set_sensitive(false);
        saturated->setValue (pp->vibrance.pastels);    // Pastels and Saturated are linked
    } else {
        // Separate sliders, so we set saturated and psThresholds sensitive again
        psThreshold->set_sensitive(true);
        saturated->set_sensitive(true);
        saturated->setValue (pp->vibrance.saturated);  // Pastels and Saturated are separate
    }

    skinTonesCurve->setCurve (pp->vibrance.skintonescurve);

    enableListener ();
}

void Vibrance::autoOpenCurve  ()
{
    skinTonesCurve->openIfNonlinear();
}

void Vibrance::write( ProcParams* pp, ParamsEdited* pedited)
{
    pp->vibrance.enabled         = getEnabled ();
    pp->vibrance.pastels         = pastels->getIntValue();
    pp->vibrance.saturated       = pastSatTog->get_active() ? pp->vibrance.pastels : saturated->getIntValue ();
    pp->vibrance.psthreshold     = psThreshold->getValue<int> ();
    pp->vibrance.protectskins    = protectSkins->get_active ();
    pp->vibrance.avoidcolorshift = avoidColorShift->get_active ();
    pp->vibrance.pastsattog      = pastSatTog->get_active ();
    pp->vibrance.skintonescurve  = skinTonesCurve->getCurve ();

    if (pedited) {
        pedited->vibrance.enabled         = !get_inconsistent();
        pedited->vibrance.pastels         = pastels->getEditedState ();
        pedited->vibrance.saturated       = saturated->getEditedState ();
        pedited->vibrance.psthreshold     = psThreshold->getEditedState ();
        pedited->vibrance.protectskins    = !protectSkins->get_inconsistent();
        pedited->vibrance.avoidcolorshift = !avoidColorShift->get_inconsistent();
        pedited->vibrance.pastsattog      = !pastSatTog->get_inconsistent();
        pedited->vibrance.skintonescurve  = !skinTonesCurve->isUnChanged ();
    }

}
void Vibrance::curveChanged ()
{

    if (listener && getEnabled ()) {
        listener->panelChanged (EvVibranceSkinTonesCurve, M("HISTORY_CUSTOMCURVE"));
    }
}

void Vibrance::enabledChanged ()
{
    if (listener) {
        if (get_inconsistent()) {
            listener->panelChanged (EvVibranceEnabled, M("GENERAL_UNCHANGED"));
        }

        if (getEnabled()) {
            listener->panelChanged (EvVibranceEnabled, M("GENERAL_ENABLED"));
        } else {
            listener->panelChanged (EvVibranceEnabled, M("GENERAL_DISABLED"));
        }
    }
}

void Vibrance::protectskins_toggled ()
{
    if (batchMode) {
        if (protectSkins->get_inconsistent()) {
            protectSkins->set_inconsistent (false);
            pskinsconn.block (true);
            protectSkins->set_active (false);
            pskinsconn.block (false);
        } else if (lastProtectSkins) {
            protectSkins->set_inconsistent (true);
        }

        lastProtectSkins = protectSkins->get_active ();
    }

    if (listener && getEnabled()) {
        if (protectSkins->get_active ()) {
            listener->panelChanged (EvVibranceProtectSkins, M("GENERAL_ENABLED"));
        } else {
            listener->panelChanged (EvVibranceProtectSkins, M("GENERAL_DISABLED"));
        }
    }
}

void Vibrance::avoidcolorshift_toggled ()
{
    if (batchMode) {
        if (avoidColorShift->get_inconsistent()) {
            avoidColorShift->set_inconsistent (false);
            ashiftconn.block (true);
            avoidColorShift->set_active (false);
            ashiftconn.block (false);
        } else if (lastAvoidColorShift) {
            avoidColorShift->set_inconsistent (true);
        }

        lastAvoidColorShift = avoidColorShift->get_active ();
    }

    if (listener && getEnabled()) {
        if (avoidColorShift->get_active ()) {
            listener->panelChanged (EvVibranceAvoidColorShift, M("GENERAL_ENABLED"));
        } else {
            listener->panelChanged (EvVibranceAvoidColorShift, M("GENERAL_DISABLED"));
        }
    }
}

void Vibrance::pastsattog_toggled ()
{
    if (batchMode) {
        if (pastSatTog->get_inconsistent()) {
            pastSatTog->set_inconsistent (false);
            pastsattogconn.block (true);
            pastSatTog->set_active (false);
            pastsattogconn.block (false);
        } else if (lastPastSatTog) {
            pastSatTog->set_inconsistent (true);
        }

        lastPastSatTog = pastSatTog->get_active ();
    }

    if (pastSatTog->get_active()) {
        // Link both slider, so we set saturated and psThresholds unsensitive
        psThreshold->set_sensitive(false);
        saturated->set_sensitive(false);
        saturated->setValue (pastels->getValue());     // Pastels and Saturated are linked
    } else {
        // Separate sliders, so we set saturated and psThresholds sensitive again
        psThreshold->set_sensitive(true);
        saturated->set_sensitive(true);
    }

    if (listener && getEnabled()) {
        if (pastSatTog->get_active ()) {
            listener->panelChanged (EvVibrancePastSatTog, M("GENERAL_ENABLED"));
        } else {
            listener->panelChanged (EvVibrancePastSatTog, M("GENERAL_DISABLED"));
        }
    }
}

void Vibrance::adjusterChanged (Adjuster* a, double newval)
{
    if (a == pastels && pastSatTog->get_active()) {
        saturated->setValue (newval);
    }

    if (listener && getEnabled()) {
        Glib::ustring value = a->getTextValue();

        if (a == pastels ) {
            listener->panelChanged (EvVibrancePastels,  value );
        } else if (a == saturated && !pastSatTog->get_active()) {
            listener->panelChanged (EvVibranceSaturated, value );
        }
    }
}

void Vibrance::adjusterChanged (ThresholdAdjuster* a, int newBottom, int newTop)
{
    if (listener && getEnabled()) {
        listener->panelChanged (EvVibrancePastSatThreshold, psThreshold->getHistoryString());
    }
}


void Vibrance::setBatchMode(bool batchMode)
{

    ToolPanel::setBatchMode (batchMode);

    pastels->showEditedCB   ();
    saturated->showEditedCB ();
    psThreshold->showEditedCB ();

    curveEditorGG->setBatchMode (batchMode);
}

void Vibrance::setDefaults(const ProcParams* defParams, const ParamsEdited* pedited)
{
    pastels->setDefault (defParams->vibrance.pastels);
    saturated->setDefault (defParams->vibrance.saturated);
    psThreshold->setDefault<int> (defParams->vibrance.psthreshold);

    if (pedited) {
        pastels->setDefaultEditedState     (pedited->vibrance.pastels ? Edited : UnEdited);
        saturated->setDefaultEditedState   (pedited->vibrance.saturated ? Edited : UnEdited);
        psThreshold->setDefaultEditedState (pedited->vibrance.psthreshold ? Edited : UnEdited);

    } else {
        pastels->setDefaultEditedState     (Irrelevant);
        saturated->setDefaultEditedState   (Irrelevant);
        psThreshold->setDefaultEditedState (Irrelevant);
    }
}

void Vibrance::setAdjusterBehavior (bool pastelsadd, bool saturatedadd)
{
    pastels->setAddMode (pastelsadd);
    saturated->setAddMode (saturatedadd);
}

void Vibrance::trimValues (ProcParams* pp)
{
    pastels->trimValue (pp->vibrance.pastels);
    saturated->trimValue (pp->vibrance.saturated);
}

std::vector<double> Vibrance::getCurvePoints(ThresholdSelector* tAdjuster) const
{
    std::vector<double> points;
    double threshold, transitionWeighting;
    tAdjuster->getPositions<double>(transitionWeighting, threshold);  // ( range -100;+100,   range 0;+100 )
    transitionWeighting /= 100.; // range -1., +1.
    threshold /= 100.;      // range  0., +1.

    // Initial point
    points.push_back(0.);
    points.push_back(0.);

    double p2 = 3.0 * threshold / 4.0;             // same one than in ipvibrance.cc
    double s0 = threshold + (1.0 - threshold) / 4.0; // same one than in ipvibrance.cc

    // point at the beginning of the first linear transition
    points.push_back(p2);
    points.push_back(0.);

    // Y value of the chroma mean point, calculated to get a straight line between p2 and s0
    double chromaMean = (threshold / 4.0) / (s0 - p2);

    // move chromaMean up or down depending on transitionWeighting
    if (transitionWeighting > 0.0) {
        // positive values -> give more weight to Saturated
        chromaMean = (1.0 - chromaMean) * transitionWeighting + chromaMean;
    } else if (transitionWeighting < 0.0) {
        // negative values -> give more weight to Pastels
        chromaMean =      chromaMean  * transitionWeighting + chromaMean;
    }

    // point at the location of the Top cursor, at the end of the first linear transition and the beginning of the second one
    points.push_back(threshold);
    points.push_back(chromaMean);

    if (threshold < 1.0) {

        // point at the end of the second linear transition
        points.push_back(s0);
        points.push_back(1.0);

        // end point
        points.push_back(1.0);
        points.push_back(1.0);
    }

    return points;
}