void KisGmicSimpleConvertor::convertToGmicImage(KisPaintDeviceSP dev, gmic_image< float >& gmicImage)
{
    const KoColorSpace *rgbaFloat32bitcolorSpace = KoColorSpaceRegistry::instance()->colorSpace(RGBAColorModelID.id(),
                                                                                                Float32BitsColorDepthID.id(),
                                                                                                KoColorSpaceRegistry::instance()->rgb8()->profile());

    Q_CHECK_PTR(rgbaFloat32bitcolorSpace);
    dev->convertTo(rgbaFloat32bitcolorSpace);

    QRect rc = dev->exactBounds();
    m_planarBytes = dev->readPlanarBytes(rc.x(), rc.y(), rc.width(), rc.height());
    setChannelSize(rc.width() * rc.height());

    int greenOffset = gmicImage._width * gmicImage._height;
    int blueOffset = greenOffset * 2;
    int alphaOffset = greenOffset * 3;
    quint8 * redChannelBytes   = m_planarBytes.at(KoRgbF32Traits::red_pos);
    quint8 * greenChannelBytes = m_planarBytes.at(KoRgbF32Traits::green_pos);
    quint8 * blueChannelBytes  = m_planarBytes.at(KoRgbF32Traits::blue_pos);
    quint8 * alphaChannelBytes = m_planarBytes.at(KoRgbF32Traits::alpha_pos);

    unsigned int channelSize = sizeof(float);

    memcpy(gmicImage._data                  ,redChannelBytes    ,gmicImage._width * gmicImage._height * channelSize);
    memcpy(gmicImage._data + greenOffset    ,greenChannelBytes  ,gmicImage._width * gmicImage._height * channelSize);
    memcpy(gmicImage._data + blueOffset     ,blueChannelBytes   ,gmicImage._width * gmicImage._height * channelSize);
    memcpy(gmicImage._data + alphaOffset    ,alphaChannelBytes  ,gmicImage._width * gmicImage._height * channelSize);
}
Esempio n. 2
0
bool PSDImageData::write(QIODevice *io, KisPaintDeviceSP dev)
{
    // XXX: make the compression settting configurable. For now, always use RLE.
    psdwrite(io, (quint16)Compression::RLE);

    // now write all the channels in display order
    // fill in the channel chooser, in the display order, but store the pixel index as well.
    QRect rc(0, 0, m_header->width, m_header->height);
    QVector<quint8* > tmp = dev->readPlanarBytes(0, 0, rc.width(), rc.height());
    // then reorder the planes to fit the psd model -- alpha first, then display order
    QVector<quint8* > planes;
    QList<KoChannelInfo*> origChannels = dev->colorSpace()->channels();

    quint8* alphaPlane = 0;
    foreach(KoChannelInfo *ch, KoChannelInfo::displayOrderSorted(origChannels)) {
        int channelIndex = KoChannelInfo::displayPositionToChannelIndex(ch->displayPosition(), origChannels);
        //qDebug() << ppVar(ch->name()) << ppVar(ch->pos()) << ppVar(ch->displayPosition()) << ppVar(channelIndex);
        if (ch->channelType() == KoChannelInfo::ALPHA) {
            alphaPlane = tmp[channelIndex];
        } else {
            planes.append(tmp[channelIndex]);
        }
    }
Esempio n. 3
0
void KisPaintDeviceTest::testPlanarReadWrite()
{
    const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8();
    KisPaintDeviceSP dev = new KisPaintDevice(cs);

    quint8* pixel = new quint8[cs->pixelSize()];
    cs->fromQColor(QColor(255, 200, 155, 100), pixel);
    dev->fill(0, 0, 5000, 5000, pixel);
    delete[] pixel;

    QColor c1;
    dev->pixel(5, 5, &c1);

    QVector<quint8*> planes = dev->readPlanarBytes(500, 500, 100, 100);
    QVector<quint8*> swappedPlanes;

    QCOMPARE((int)planes.size(), (int)dev->channelCount());

    for (int i = 0; i < 100*100; i++) {
        // BGRA encoded
        QVERIFY(planes.at(2)[i] == 255);
        QVERIFY(planes.at(1)[i] == 200);
        QVERIFY(planes.at(0)[i] == 155);
        QVERIFY(planes.at(3)[i] == 100);
    }

    for (uint i = 1; i < dev->channelCount() + 1; ++i) {
        swappedPlanes.append(planes[dev->channelCount() - i]);
    }

    dev->writePlanarBytes(swappedPlanes, 0, 0, 100, 100);

    dev->convertToQImage(0, 0, 0, 1000, 1000).save("planar.png");

    dev->pixel(5, 5, &c1);

    QVERIFY(c1.red() == 200);
    QVERIFY(c1.green() == 255);
    QVERIFY(c1.blue() == 100);
    QVERIFY(c1.alpha() == 155);

    dev->pixel(75, 50, &c1);

    QVERIFY(c1.red() == 200);
    QVERIFY(c1.green() == 255);
    QVERIFY(c1.blue() == 100);
    QVERIFY(c1.alpha() == 155);

    // check if one of the planes is Null.
    Q_ASSERT(planes.size() == 4);
    delete planes[2];
    planes[2] = 0;
    dev->writePlanarBytes(planes, 0, 0, 100, 100);
    dev->convertToQImage(0, 0, 0, 1000, 1000).save("planar_noR.png");

    dev->pixel(75, 50, &c1);

    QCOMPARE(c1.red(), 200);
    QCOMPARE(c1.green(), 200);
    QCOMPARE(c1.blue(), 155);
    QCOMPARE(c1.alpha(), 100);

    qDeleteAll(planes);
    swappedPlanes.clear();
}