KoColorSpace.cpp 33.1 KB
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/*
 *  Copyright (c) 2005 Boudewijn Rempt <boud@valdyas.org>
 *
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 * This library is free software; you can redistribute it and/or
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 * modify it under the terms of the GNU Lesser General Public
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 * License as published by the Free Software Foundation; either
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 * version 2.1 of the License, or (at your option) any later version.
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 *
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 * This library 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
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 * Lesser General Public License for more details.
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 *
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 * You should have received a copy of the GNU Lesser General Public License
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 * along with this library; see the file COPYING.LIB.  If not, write to
 * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
 * Boston, MA 02110-1301, USA.
*/
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#include "KoColorSpace.h"
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#include "KoColorSpace_p.h"
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#include "KoChannelInfo.h"
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#include "DebugPigment.h"
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#include "KoCompositeOp.h"
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#include "KoColorTransformation.h"
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#include "KoColorTransformationFactory.h"
#include "KoColorTransformationFactoryRegistry.h"
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#include "KoColorConversionCache.h"
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#include "KoColorConversionSystem.h"
#include "KoColorSpaceRegistry.h"
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#include "KoColorProfile.h"
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#include "KoCopyColorConversionTransformation.h"
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#include "KoFallBackColorTransformation.h"
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#include "KoUniqueNumberForIdServer.h"
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#include "KoMixColorsOp.h"
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#include "KoConvolutionOp.h"
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#include "KoCompositeOpRegistry.h"
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#include <QThreadStorage>
#include <QByteArray>
#include <QBitArray>
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#include <QPolygonF>
#include <QPointF>
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#include <math.h>
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KoColorSpace::KoColorSpace()
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        : d(new Private())
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{
}

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KoColorSpace::KoColorSpace(const QString &id, const QString &name, KoMixColorsOp* mixColorsOp, KoConvolutionOp* convolutionOp)
        : d(new Private())
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{
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    d->id = id;
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    d->idNumber = KoUniqueNumberForIdServer::instance()->numberForId(d->id);
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    d->name = name;
    d->mixColorsOp = mixColorsOp;
    d->convolutionOp = convolutionOp;
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    d->transfoToRGBA16 = 0;
    d->transfoFromRGBA16 = 0;
    d->transfoToLABA16 = 0;
    d->transfoFromLABA16 = 0;
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    d->gamutXYY = QPolygonF();
    d->TRCXYY = QPolygonF();
    d->colorants = QVector <qreal> (0);
    d->lumaCoefficients = QVector <qreal> (0);
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    d->deletability = NotOwnedByRegistry;
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}

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KoColorSpace::~KoColorSpace()
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{
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    Q_ASSERT(d->deletability != OwnedByRegistryDoNotDelete);

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    qDeleteAll(d->compositeOps);
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    Q_FOREACH (KoChannelInfo * channel, d->channels) {
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        delete channel;
    }
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    if (d->deletability == NotOwnedByRegistry) {
        KoColorConversionCache* cache = KoColorSpaceRegistry::instance()->colorConversionCache();
        if (cache) {
            cache->colorSpaceIsDestroyed(this);
        }
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    }
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    delete d->mixColorsOp;
    delete d->convolutionOp;
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    delete d->transfoToRGBA16;
    delete d->transfoFromRGBA16;
    delete d->transfoToLABA16;
    delete d->transfoFromLABA16;
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    delete d;
}

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bool KoColorSpace::operator==(const KoColorSpace& rhs) const
{
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    const KoColorProfile* p1 = rhs.profile();
    const KoColorProfile* p2 = profile();
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    return d->idNumber == rhs.d->idNumber && ((p1 == p2) || (*p1 == *p2));
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}

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QString KoColorSpace::id() const
{
    return d->id;
}
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QString KoColorSpace::name() const
{
    return d->name;
}
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//Color space info stuff.
QPolygonF KoColorSpace::gamutXYY() const
{
    if (d->gamutXYY.empty()) {
        //now, let's decide on the boundary. This is a bit tricky because icc profiles can be both matrix-shaper and cLUT at once if the maker so pleases.
        //first make a list of colors.
        qreal max = 1.0;
        if ((colorModelId().id()=="CMYKA" || colorModelId().id()=="LABA") && colorDepthId().id()=="F32") {
            //boundaries for cmyka/laba have trouble getting the max values for Float, and are pretty awkward in general.
            max = this->channels()[0]->getUIMax();
            
        }
        int samples = 5;//amount of samples in our color space.
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        QString name = KoColorSpaceRegistry::instance()->colorSpaceFactory("XYZAF32")->defaultProfile();
        const KoColorSpace* xyzColorSpace = KoColorSpaceRegistry::instance()->colorSpace("XYZA", "F32", name);
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        quint8 *data = new quint8[pixelSize()];
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        quint8 data2[16]; // xyza f32 is 4 floats, that is 16 bytes per pixel.
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        //QVector <qreal> sampleCoordinates(pow(colorChannelCount(),samples));
        //sampleCoordinates.fill(0.0);
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        // This is fixed to 5 since the maximum number of channels are 5 for CMYKA
        QVector <float> channelValuesF(5);//for getting the coordinates.

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        for(int x=0;x<samples;x++){
            if (colorChannelCount()==1) {//gray
                channelValuesF[0]=(max/(samples-1))*(x);
                channelValuesF[1]=max;
                fromNormalisedChannelsValue(data, channelValuesF);
                convertPixelsTo(data, data2, xyzColorSpace, 1, KoColorConversionTransformation::IntentAbsoluteColorimetric, KoColorConversionTransformation::adjustmentConversionFlags());
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                xyzColorSpace->normalisedChannelsValue(data2, channelValuesF);
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                qreal x = channelValuesF[0]/(channelValuesF[0]+channelValuesF[1]+channelValuesF[2]);
                qreal y = channelValuesF[1]/(channelValuesF[0]+channelValuesF[1]+channelValuesF[2]);
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                d->gamutXYY << QPointF(x,y);
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            } else {
                for(int y=0;y<samples;y++){
                    for(int z=0;z<samples;z++){
                        if (colorChannelCount()==4) {
                            for(int k=0;k<samples;k++){
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                                channelValuesF[0] = (max / (samples - 1)) * (x);
                                channelValuesF[1] = (max / (samples - 1)) * (y);
                                channelValuesF[2] = (max / (samples - 1)) * (z);
                                channelValuesF[3] = (max / (samples - 1)) * (k);
                                channelValuesF[4] = max;
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                                fromNormalisedChannelsValue(data, channelValuesF);
                                convertPixelsTo(data, data2, xyzColorSpace, 1, KoColorConversionTransformation::IntentAbsoluteColorimetric, KoColorConversionTransformation::adjustmentConversionFlags());
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                                xyzColorSpace->normalisedChannelsValue(data2, channelValuesF);
                                qreal x = channelValuesF[0] / (channelValuesF[0] + channelValuesF[1] + channelValuesF[2]);
                                qreal y = channelValuesF[1] / (channelValuesF[0] + channelValuesF[1] + channelValuesF[2]);
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                                d->gamutXYY<< QPointF(x,y);
                            }
                        } else {
                            channelValuesF[0]=(max/(samples-1))*(x);
                            channelValuesF[1]=(max/(samples-1))*(y);
                            channelValuesF[2]=(max/(samples-1))*(z);
                            channelValuesF[3]=max;
                            if (colorModelId().id()!="XYZA") { //no need for conversion when using xyz.
                                fromNormalisedChannelsValue(data, channelValuesF);
                                convertPixelsTo(data, data2, xyzColorSpace, 1, KoColorConversionTransformation::IntentAbsoluteColorimetric,         KoColorConversionTransformation::adjustmentConversionFlags());
                                xyzColorSpace->normalisedChannelsValue(data2,channelValuesF);
                            }
                            qreal x = channelValuesF[0]/(channelValuesF[0]+channelValuesF[1]+channelValuesF[2]);
                            qreal y = channelValuesF[1]/(channelValuesF[0]+channelValuesF[1]+channelValuesF[2]);
                            d->gamutXYY<< QPointF(x,y);
                        }
                    }
                }
                
            }
        }
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        delete[] data;
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        //if we ever implement a boundary-checking thing I'd add it here.
        return d->gamutXYY;
    } else {
        return d->gamutXYY;
    }
}

QPolygonF KoColorSpace::estimatedTRCXYY() const
{
    if (d->TRCXYY.empty()){
        qreal max = 1.0;
        if ((colorModelId().id()=="CMYKA" || colorModelId().id()=="LABA") && colorDepthId().id()=="F32") {
            //boundaries for cmyka/laba have trouble getting the max values for Float, and are pretty awkward in general.
            max = this->channels()[0]->getUIMax();
        }
        QString name = KoColorSpaceRegistry::instance()->colorSpaceFactory("XYZAF16")->defaultProfile();
        const KoColorSpace* xyzColorSpace = KoColorSpaceRegistry::instance()->colorSpace("XYZA", "F16", name);
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        quint8 *data = new quint8[pixelSize()];
        quint8 data2[8]; // xyza is 8 bytes per pixel.

        // This is fixed to 5 since the maximum number of channels are 5 for CMYKA
        QVector <float> channelValuesF(5);//for getting the coordinates.

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        for (quint32 i=0; i<colorChannelCount(); i++) {
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            qreal colorantY=1.0;
            if (colorModelId().id()!="CMYKA") {
                for (int j=5; j>0; j--){
                    channelValuesF.fill(0.0);
                    channelValuesF[i] = ((max/4)*(5-j));

                    if (colorModelId().id()!="XYZA") { //no need for conversion when using xyz.
                        fromNormalisedChannelsValue(data, channelValuesF);
                        convertPixelsTo(data, data2, xyzColorSpace, 1, KoColorConversionTransformation::IntentAbsoluteColorimetric,         KoColorConversionTransformation::adjustmentConversionFlags());
                        xyzColorSpace->normalisedChannelsValue(data2,channelValuesF);
                    }

                    if (j==0) {
                        colorantY = channelValuesF[1];
                        if (d->colorants.size()<2){
                            d->colorants.resize(3*colorChannelCount());
                            d->colorants[i]  = channelValuesF[0]/(channelValuesF[0]+channelValuesF[1]+channelValuesF[2]);
                            d->colorants[i+1]= channelValuesF[1]/(channelValuesF[0]+channelValuesF[1]+channelValuesF[2]);
                            d->colorants[i+2]= channelValuesF[1];
                        }
                    }
                    d->TRCXYY << QPointF(channelValuesF[1]/colorantY, ((1.0/4)*(5-j)));
                }
            } else {
                for (int j=0; j<5; j++){
                    channelValuesF.fill(0.0);
                    channelValuesF[i] = ((max/4)*(j));
                    
                    fromNormalisedChannelsValue(data, channelValuesF);

                    convertPixelsTo(data, data2, xyzColorSpace, 1, KoColorConversionTransformation::IntentAbsoluteColorimetric,         KoColorConversionTransformation::adjustmentConversionFlags());

                    xyzColorSpace->normalisedChannelsValue(data2,channelValuesF);

                    if (j==0) {
                        colorantY = channelValuesF[1];
                        if (d->colorants.size()<2){
                            d->colorants.resize(3*colorChannelCount());
                            d->colorants[i]  = channelValuesF[0]/(channelValuesF[0]+channelValuesF[1]+channelValuesF[2]);
                            d->colorants[i+1]= channelValuesF[1]/(channelValuesF[0]+channelValuesF[1]+channelValuesF[2]);
                            d->colorants[i+2]= channelValuesF[1];
                        }
                    }
                    d->TRCXYY << QPointF(channelValuesF[1]/colorantY, ((1.0/4)*(j)));
                }
            }
        }
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        delete[] data;
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        return d->TRCXYY;
    } else {
        return d->TRCXYY;
    }
}

QVector <qreal> KoColorSpace::colorants() const
{
    if (d->colorants.size()>1){
        return d->colorants;
    } else if (profile() && profile()->hasColorants()) {
        d->colorants.resize(3*colorChannelCount());
        d->colorants = profile()->getColorantsxyY();
        return d->colorants;
    } else {
        estimatedTRCXYY();
        return d->colorants;
    }
}
QVector <qreal> KoColorSpace::lumaCoefficients() const
{
    if (d->lumaCoefficients.size()>1){
        return d->lumaCoefficients;
    } else {
        d->lumaCoefficients.resize(3);
        if (colorModelId().id()!="RGBA") {
            d->lumaCoefficients.fill(0.33);
        } else {
            colorants();
            if (d->colorants[2]<0 || d->colorants[5]<0 || d->colorants[8]<0) {
                d->lumaCoefficients[0]=0.2126;
                d->lumaCoefficients[1]=0.7152;
                d->lumaCoefficients[2]=0.0722;
            } else {
                d->lumaCoefficients[0]=d->colorants[2];
                d->lumaCoefficients[1]=d->colorants[5];
                d->lumaCoefficients[2]=d->colorants[8];
            }
        }
        return d->lumaCoefficients;
    }
}

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QList<KoChannelInfo *> KoColorSpace::channels() const
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{
    return d->channels;
}

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QBitArray KoColorSpace::channelFlags(bool color, bool alpha) const
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{
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    QBitArray ba(d->channels.size());
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    if (!color && !alpha) return ba;
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    for (int i = 0; i < d->channels.size(); ++i) {
        KoChannelInfo * channel = d->channels.at(i);
        if ((color && channel->channelType() == KoChannelInfo::COLOR) ||
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                (alpha && channel->channelType() == KoChannelInfo::ALPHA))
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            ba.setBit(i, true);
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    }
    return ba;
}

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void KoColorSpace::addChannel(KoChannelInfo * ci)
{
    d->channels.push_back(ci);
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}
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bool KoColorSpace::hasCompositeOp(const QString& id) const
{
    return d->compositeOps.contains(id);
}

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QList<KoCompositeOp*> KoColorSpace::compositeOps() const
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{
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    return d->compositeOps.values();
}

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KoMixColorsOp* KoColorSpace::mixColorsOp() const
{
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    return d->mixColorsOp;
}


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KoConvolutionOp* KoColorSpace::convolutionOp() const
{
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    return d->convolutionOp;
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}

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const KoCompositeOp * KoColorSpace::compositeOp(const QString & id) const
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{
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    const QHash<QString, KoCompositeOp*>::ConstIterator it = d->compositeOps.constFind(id);
    if (it != d->compositeOps.constEnd()) {
        return it.value();
    }
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    else {
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        warnPigment << "Asking for non-existent composite operation " << id << ", returning " << COMPOSITE_OVER;
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        return d->compositeOps.value(COMPOSITE_OVER);
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    }
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}

void KoColorSpace::addCompositeOp(const KoCompositeOp * op)
{
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    if (op->colorSpace()->id() == id()) {
        d->compositeOps.insert(op->id(), const_cast<KoCompositeOp*>(op));
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    }
}

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const KoColorConversionTransformation* KoColorSpace::toLabA16Converter() const
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{
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    if (!d->transfoToLABA16) {
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        d->transfoToLABA16 = KoColorSpaceRegistry::instance()->colorConversionSystem()->createColorConverter(this, KoColorSpaceRegistry::instance()->lab16(""), KoColorConversionTransformation::internalRenderingIntent(), KoColorConversionTransformation::internalConversionFlags()) ;
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    }
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    return d->transfoToLABA16;
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}
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const KoColorConversionTransformation* KoColorSpace::fromLabA16Converter() const
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{
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    if (!d->transfoFromLABA16) {
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        d->transfoFromLABA16 = KoColorSpaceRegistry::instance()->colorConversionSystem()->createColorConverter(KoColorSpaceRegistry::instance()->lab16(""), this, KoColorConversionTransformation::internalRenderingIntent(), KoColorConversionTransformation::internalConversionFlags()) ;
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    }
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    return d->transfoFromLABA16;
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}
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const KoColorConversionTransformation* KoColorSpace::toRgbA16Converter() const
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{
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    if (!d->transfoToRGBA16) {
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        d->transfoToRGBA16 = KoColorSpaceRegistry::instance()->colorConversionSystem()->createColorConverter(this, KoColorSpaceRegistry::instance()->rgb16(""), KoColorConversionTransformation::internalRenderingIntent(), KoColorConversionTransformation::internalConversionFlags()) ;
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    }
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    return d->transfoToRGBA16;
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}
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const KoColorConversionTransformation* KoColorSpace::fromRgbA16Converter() const
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{
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    if (!d->transfoFromRGBA16) {
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        d->transfoFromRGBA16 = KoColorSpaceRegistry::instance()->colorConversionSystem()->createColorConverter(KoColorSpaceRegistry::instance()->rgb16("") , this, KoColorConversionTransformation::internalRenderingIntent(), KoColorConversionTransformation::internalConversionFlags()) ;
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    }
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    return d->transfoFromRGBA16;
}

void KoColorSpace::toLabA16(const quint8 * src, quint8 * dst, quint32 nPixels) const
{
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    toLabA16Converter()->transform(src, dst, nPixels);
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}

void KoColorSpace::fromLabA16(const quint8 * src, quint8 * dst, quint32 nPixels) const
{
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    fromLabA16Converter()->transform(src, dst, nPixels);
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}

void KoColorSpace::toRgbA16(const quint8 * src, quint8 * dst, quint32 nPixels) const
{
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    toRgbA16Converter()->transform(src, dst, nPixels);
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}

void KoColorSpace::fromRgbA16(const quint8 * src, quint8 * dst, quint32 nPixels) const
{
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    fromRgbA16Converter()->transform(src, dst, nPixels);
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}

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KoColorConversionTransformation* KoColorSpace::createColorConverter(const KoColorSpace * dstColorSpace, KoColorConversionTransformation::Intent renderingIntent, KoColorConversionTransformation::ConversionFlags conversionFlags) const
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{
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    if (*this == *dstColorSpace) {
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        return new KoCopyColorConversionTransformation(this);
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    } else {
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        return KoColorSpaceRegistry::instance()->colorConversionSystem()->createColorConverter(this, dstColorSpace, renderingIntent, conversionFlags);
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    }
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}

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KoColorProofingConversionTransformation* KoColorSpace::createColorProofingConverter(const KoColorSpace * dstColorSpace, const KoColorSpace *proofingSpace, KoColorProofingConversionTransformation::Intent renderingIntent, KoColorProofingConversionTransformation::ConversionFlags conversionFlags) const
{
    return KoColorSpaceRegistry::instance()->colorConversionSystem()->createColorProofingConverter(this, dstColorSpace, proofingSpace, renderingIntent, conversionFlags);
}

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bool KoColorSpace::convertPixelsTo(const quint8 * src,
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                                   quint8 * dst,
                                   const KoColorSpace * dstColorSpace,
                                   quint32 numPixels,
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                                   KoColorConversionTransformation::Intent renderingIntent,
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                                   KoColorConversionTransformation::ConversionFlags conversionFlags) const
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{
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    if (*this == *dstColorSpace) {
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        if (src != dst) {
            memcpy(dst, src, numPixels * sizeof(quint8) * pixelSize());
        }
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    } else {
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        KoCachedColorConversionTransformation cct = KoColorSpaceRegistry::instance()->colorConversionCache()->cachedConverter(this, dstColorSpace, renderingIntent, conversionFlags);
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        cct.transformation()->transform(src, dst, numPixels);
    }
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    return true;
}
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bool KoColorSpace::proofPixelsTo(const quint8 * src,
                                   quint8 * dst,
                                   const KoColorSpace * dstColorSpace,
                                   const KoColorSpace * proofingSpace,
                                   quint32 numPixels,
                                   KoColorProofingConversionTransformation::Intent renderingIntent,
                                   KoColorProofingConversionTransformation::ConversionFlags conversionFlags) const
{
    if (*this == *dstColorSpace && *this == *proofingSpace) {
        if (src != dst) {
            memcpy(dst, src, numPixels * sizeof(quint8) * pixelSize());
        }
    } else {
        KoColorProofingConversionTransformation cct = KoColorSpaceRegistry::instance()->colorConversionSystem()->createColorProofingConverter(this, dstColorSpace, proofingSpace, renderingIntent, conversionFlags);
        cct->transform(src, dst, numPixels);
    }
    return true;
}
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void KoColorSpace::bitBlt(const KoColorSpace* srcSpace, const KoCompositeOp::ParameterInfo& params, const KoCompositeOp* op,
                          KoColorConversionTransformation::Intent renderingIntent,
                          KoColorConversionTransformation::ConversionFlags conversionFlags) const
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{
    Q_ASSERT_X(*op->colorSpace() == *this, "KoColorSpace::bitBlt", QString("Composite op is for color space %1 (%2) while this is %3 (%4)").arg(op->colorSpace()->id()).arg(op->colorSpace()->profile()->name()).arg(id()).arg(profile()->name()).toLatin1());
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    if(params.rows <= 0 || params.cols <= 0)
        return;
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    if(!(*this == *srcSpace)) {
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         if (preferCompositionInSourceColorSpace() &&
             srcSpace->hasCompositeOp(op->id())) {

             quint32           conversionDstBufferStride = params.cols * srcSpace->pixelSize();
             QVector<quint8> * conversionDstCache        = threadLocalConversionCache(params.rows * conversionDstBufferStride);
             quint8*           conversionDstData         = conversionDstCache->data();

             for(qint32 row=0; row<params.rows; row++) {
                 convertPixelsTo(params.dstRowStart + row * params.dstRowStride,
                                 conversionDstData  + row * conversionDstBufferStride, srcSpace, params.cols,
                                 renderingIntent, conversionFlags);
             }

             // FIXME: do not calculate the otherOp every time
             const KoCompositeOp *otherOp = srcSpace->compositeOp(op->id());

             KoCompositeOp::ParameterInfo paramInfo(params);
             paramInfo.dstRowStart  = conversionDstData;
             paramInfo.dstRowStride = conversionDstBufferStride;
             otherOp->composite(paramInfo);

             for(qint32 row=0; row<params.rows; row++) {
                 srcSpace->convertPixelsTo(conversionDstData  + row * conversionDstBufferStride,
                                           params.dstRowStart + row * params.dstRowStride, this, params.cols,
                                           renderingIntent, conversionFlags);
             }

        } else {
            quint32           conversionBufferStride = params.cols * pixelSize();
            QVector<quint8> * conversionCache        = threadLocalConversionCache(params.rows * conversionBufferStride);
            quint8*           conversionData         = conversionCache->data();

            for(qint32 row=0; row<params.rows; row++) {
                srcSpace->convertPixelsTo(params.srcRowStart + row * params.srcRowStride,
                                          conversionData     + row * conversionBufferStride, this, params.cols,
                                          renderingIntent, conversionFlags);
            }

            KoCompositeOp::ParameterInfo paramInfo(params);
            paramInfo.srcRowStart  = conversionData;
            paramInfo.srcRowStride = conversionBufferStride;
            op->composite(paramInfo);
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        }
    }
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    else {
        op->composite(params);
    }
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}


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QVector<quint8> * KoColorSpace::threadLocalConversionCache(quint32 size) const
{
    QVector<quint8> * ba = 0;
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    if (!d->conversionCache.hasLocalData()) {
        ba = new QVector<quint8>(size, '0');
        d->conversionCache.setLocalData(ba);
    } else {
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        ba = d->conversionCache.localData();
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        if ((quint8)ba->size() < size)
            ba->resize(size);
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    }
    return ba;
}
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KoColorTransformation* KoColorSpace::createColorTransformation(const QString & id, const QHash<QString, QVariant> & parameters) const
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{
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    KoColorTransformationFactory* factory = KoColorTransformationFactoryRegistry::instance()->get(id);
    if (!factory) return 0;
    QPair<KoID, KoID> model(colorModelId(), colorDepthId());
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    QList< QPair<KoID, KoID> > models = factory->supportedModels();
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    if (models.isEmpty() || models.contains(model)) {
        return factory->createTransformation(this, parameters);
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    } else {
        // Find the best solution
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        // TODO use the color conversion cache
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        KoColorConversionTransformation* csToFallBack = 0;
        KoColorConversionTransformation* fallBackToCs = 0;
        KoColorSpaceRegistry::instance()->colorConversionSystem()->createColorConverters(this, models, csToFallBack, fallBackToCs);
        Q_ASSERT(csToFallBack);
        Q_ASSERT(fallBackToCs);
        KoColorTransformation* transfo = factory->createTransformation(fallBackToCs->srcColorSpace(), parameters);
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        return new KoFallBackColorTransformation(csToFallBack, fallBackToCs, transfo);
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    }
}
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void KoColorSpace::increaseLuminosity(quint8 * pixel, qreal step) const{
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    int channelnumber = channelCount();
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    if (profile()->hasTRC()){
        //only linearise and crunch the luma if there's a TRC
        profile()->linearizeFloatValue(channelValues);
        qreal hue, sat, luma = 0.0;
        toHSY(channelValues, &hue, &sat, &luma);
        luma = pow(luma, 1/2.2);
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        luma = qMin(1.0, luma + step);
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        luma = pow(luma, 2.2);
        channelValues = fromHSY(&hue, &sat, &luma);
    profile()->delinearizeFloatValue(channelValues);
    } else {
        qreal hue, sat, luma = 0.0;
        toHSY(channelValues, &hue, &sat, &luma);
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        luma = qMin(1.0, luma + step);
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        channelValues = fromHSY(&hue, &sat, &luma);
    }
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}
void KoColorSpace::decreaseLuminosity(quint8 * pixel, qreal step) const {
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    int channelnumber = channelCount();
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    if (profile()->hasTRC()){
        //only linearise and crunch the luma if there's a TRC
        profile()->linearizeFloatValue(channelValues);
        qreal hue, sat, luma = 0.0;
        toHSY(channelValues, &hue, &sat, &luma);
        luma = pow(luma, 1/2.2);
        if (luma-step<0.0) {
            luma=0.0;
        } else {
            luma -= step;
        }
        luma = pow(luma, 2.2);
        channelValues = fromHSY(&hue, &sat, &luma);
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        profile()->delinearizeFloatValue(channelValues);
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    } else {
        qreal hue, sat, luma = 0.0;
        toHSY(channelValues, &hue, &sat, &luma);
        if (luma-step<0.0) {
            luma=0.0;
        } else {
            luma -= step;
        }
        channelValues = fromHSY(&hue, &sat, &luma);
    }
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}
void KoColorSpace::increaseSaturation(quint8 * pixel, qreal step) const{
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    int channelnumber = channelCount();
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    profile()->linearizeFloatValue(channelValues);
    qreal hue, sat, luma = 0.0;
    toHSY(channelValues, &hue, &sat, &luma);
    sat += step;
    sat = qBound(0.0, sat, 1.0);
    channelValues = fromHSY(&hue, &sat, &luma);
    profile()->delinearizeFloatValue(channelValues);
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}
void KoColorSpace::decreaseSaturation(quint8 * pixel, qreal step) const{
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    int channelnumber = channelCount();
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    profile()->linearizeFloatValue(channelValues);
    qreal hue, sat, luma = 0.0;
    toHSY(channelValues, &hue, &sat, &luma);
    sat -= step;
    sat = qBound(0.0, sat, 1.0);
    channelValues = fromHSY(&hue, &sat, &luma);
    profile()->delinearizeFloatValue(channelValues);
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}
void KoColorSpace::increaseHue(quint8 * pixel, qreal step) const{
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    int channelnumber = channelCount(); //doesn't work for cmyka...
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    profile()->linearizeFloatValue(channelValues);
    qreal hue, sat, luma = 0.0;
    toHSY(channelValues, &hue, &sat, &luma);
    if (hue+step>1.0){
        hue=(hue+step)- 1.0;
    } else {
        hue += step;
    }
    channelValues = fromHSY(&hue, &sat, &luma);
    profile()->delinearizeFloatValue(channelValues);
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}
void KoColorSpace::decreaseHue(quint8 * pixel, qreal step) const{
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    int channelnumber = channelCount();
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    profile()->linearizeFloatValue(channelValues);
    qreal hue, sat, luma = 0.0;
    toHSY(channelValues, &hue, &sat, &luma);
    if (hue-step<0.0){
        hue=1.0-(step-hue);
    } else {
        hue -= step;
    }
    channelValues = fromHSY(&hue, &sat, &luma);
    profile()->delinearizeFloatValue(channelValues);
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}

void KoColorSpace::increaseRed(quint8 * pixel, qreal step) const{
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    int channelnumber = channelCount();
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    profile()->linearizeFloatValue(channelValues);
    qreal y, u, v = 0.0;
    toYUV(channelValues, &y, &u, &v);
    u += step;
    u = qBound(0.0, u, 1.0);
    channelValues = fromYUV(&y, &u, &v);
    profile()->delinearizeFloatValue(channelValues);
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}
void KoColorSpace::increaseGreen(quint8 * pixel, qreal step) const{
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    int channelnumber = channelCount();
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    profile()->linearizeFloatValue(channelValues);
    qreal y, u, v = 0.0;
    toYUV(channelValues, &y, &u, &v);
    u -= step;
    u = qBound(0.0, u, 1.0);
    channelValues = fromYUV(&y, &u, &v);
    profile()->delinearizeFloatValue(channelValues);
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}
void KoColorSpace::increaseBlue(quint8 * pixel, qreal step) const{
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    int channelnumber = channelCount();
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    profile()->linearizeFloatValue(channelValues);
    qreal y, u, v = 0.0;
    toYUV(channelValues, &y, &u, &v);
    v += step;
    v = qBound(0.0, v, 1.0);
    channelValues = fromYUV(&y, &u, &v);
    profile()->delinearizeFloatValue(channelValues);
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}
void KoColorSpace::increaseYellow(quint8 * pixel, qreal step) const{
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    int channelnumber = channelCount();
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    QVector <double> channelValues(channelnumber);
    QVector <float> channelValuesF(channelnumber);
    normalisedChannelsValue(pixel, channelValuesF);
    for (int i=0;i<channelnumber;i++){
        channelValues[i]=channelValuesF[i];
    }
    profile()->linearizeFloatValue(channelValues);
    qreal y, u, v = 0.0;
    toYUV(channelValues, &y, &u, &v);
    v -= step;
    v = qBound(0.0, v, 1.0);
    channelValues = fromYUV(&y, &u, &v);
    profile()->delinearizeFloatValue(channelValues);
    for (int i=0;i<channelnumber;i++){
        channelValuesF[i]=channelValues[i];
    }
    fromNormalisedChannelsValue(pixel, channelValuesF);
    setOpacity(pixel, 1.0, 1);
}
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QImage KoColorSpace::convertToQImage(const quint8 *data, qint32 width, qint32 height,
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                                     const KoColorProfile *dstProfile,
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                                     KoColorConversionTransformation::Intent renderingIntent,
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                                     KoColorConversionTransformation::ConversionFlags conversionFlags) const
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{
    QImage img = QImage(width, height, QImage::Format_ARGB32);

    const KoColorSpace * dstCS = KoColorSpaceRegistry::instance()->rgb8(dstProfile);

    if (data)
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        this->convertPixelsTo(const_cast<quint8 *>(data), img.bits(), dstCS, width * height, renderingIntent, conversionFlags);
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    return img;
}
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bool KoColorSpace::preferCompositionInSourceColorSpace() const
{
    return false;
}