Exemple #1
0
void KisPaintDeviceTest::testCrop()
{
    const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8();
    KisPaintDeviceSP dev = new KisPaintDevice(cs);
    quint8* pixel = new quint8[cs->pixelSize()];
    cs->fromQColor(Qt::white, pixel);
    dev->fill(-14, 8, 433, 512, pixel);

    QVERIFY(dev->exactBounds() == QRect(-14, 8, 433, 512));

    // Crop inside
    dev->crop(50, 50, 150, 150);
    QVERIFY(dev->exactBounds() == QRect(50, 50, 150, 150));

    // Crop outside, pd should not grow
    dev->crop(0, 0, 1000, 1000);
    QVERIFY(dev->exactBounds() == QRect(50, 50, 150, 150));
}
Exemple #2
0
void KisPaintDeviceTest::testGeometry()
{
    const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8();
    KisPaintDeviceSP dev = new KisPaintDevice(cs);

    quint8* pixel = new quint8[cs->pixelSize()];
    cs->fromQColor(Qt::white, pixel);
    dev->fill(0, 0, 512, 512, pixel);

    QCOMPARE(dev->exactBounds(), QRect(0, 0, 512, 512));
    QCOMPARE(dev->extent(), QRect(0, 0, 512, 512));

    dev->move(10, 10);

    QCOMPARE(dev->exactBounds(), QRect(10, 10, 512, 512));
    QCOMPARE(dev->extent(), QRect(10, 10, 512, 512));

    dev->crop(50, 50, 50, 50);
    QCOMPARE(dev->exactBounds(), QRect(50, 50, 50, 50));
    QCOMPARE(dev->extent(), QRect(10, 10, 128, 128));

    QColor c;

    dev->clear(QRect(50, 50, 50, 50));
    dev->pixel(80, 80, &c);
    QVERIFY(c.alpha() == OPACITY_TRANSPARENT_U8);

    dev->fill(0, 0, 512, 512, pixel);
    dev->pixel(80, 80, &c);
    QVERIFY(c == Qt::white);
    QVERIFY(c.alpha() == OPACITY_OPAQUE_U8);

    dev->clear();
    dev->pixel(80, 80, &c);
    QVERIFY(c.alpha() == OPACITY_TRANSPARENT_U8);

    QVERIFY(dev->extent().isEmpty());
    QVERIFY(dev->exactBounds().isEmpty());

}
Exemple #3
0
void KisPaintDeviceTest::testCaching()
{
    const KoColorSpace * cs = KoColorSpaceRegistry::instance()->rgb8();
    KisPaintDeviceSP dev = new KisPaintDevice(cs);

    quint8* whitePixel = new quint8[cs->pixelSize()];
    cs->fromQColor(Qt::white, whitePixel);

    quint8* blackPixel = new quint8[cs->pixelSize()];
    cs->fromQColor(Qt::black, blackPixel);

    dev->fill(0, 0, 512, 512, whitePixel);
    QImage thumb1 = dev->createThumbnail(50, 50);
    QRect exactBounds1 = dev->exactBounds();

    dev->fill(0, 0, 768, 768, blackPixel);
    QImage thumb2 = dev->createThumbnail(50, 50);
    QRect exactBounds2 = dev->exactBounds();

    dev->move(10, 10);
    QImage thumb3 = dev->createThumbnail(50, 50);
    QRect exactBounds3 = dev->exactBounds();

    dev->crop(50, 50, 50, 50);
    QImage thumb4 = dev->createThumbnail(50, 50);
    QRect exactBounds4 = dev->exactBounds();

    QVERIFY(thumb1 != thumb2);
    QVERIFY(thumb2 == thumb3); // Cache miss, but image is the same
    QVERIFY(thumb3 != thumb4);
    QVERIFY(thumb4 != thumb1);

    QCOMPARE(exactBounds1, QRect(0,0,512,512));
    QCOMPARE(exactBounds2, QRect(0,0,768,768));
    QCOMPARE(exactBounds3, QRect(10,10,768,768));
    QCOMPARE(exactBounds4, QRect(50,50,50,50));
}
void KisCustomBrushWidget::createBrush()
{
    if (!m_image)
        return;

    if (m_brush){
        // don't delete shared pointer, please
        bool removedCorrectly = KisBrushServer::instance()->brushServer()->removeResourceFromServer(  m_brush.data() );
        if (!removedCorrectly){
            kWarning() << "Brush was not removed correctly for the resource server";
        }
    }

    if (brushStyle->currentIndex() == 0) {
        KisSelectionSP selection = m_image->globalSelection();
        // create copy of the data
        m_image->lock();
        KisPaintDeviceSP dev = new KisPaintDevice(*m_image->mergedImage());
        m_image->unlock();

        if (!selection){
            m_brush = new KisGbrBrush(dev, 0, 0, m_image->width(), m_image->height());
        }
        else {
            // apply selection mask
            QRect r = selection->selectedExactRect();
            dev->crop(r);

            KisHLineIteratorSP pixelIt = dev->createHLineIteratorNG(r.x(), r.top(), r.width());
            KisHLineConstIteratorSP maskIt = selection->projection()->createHLineIteratorNG(r.x(), r.top(), r.width());

            for (qint32 y = r.top(); y <= r.bottom(); ++y) {

                do {
                    dev->colorSpace()->applyAlphaU8Mask(pixelIt->rawData(), maskIt->oldRawData(), 1);
                } while (pixelIt->nextPixel() && maskIt->nextPixel());

                pixelIt->nextRow();
                maskIt->nextRow();
            }

            QRect rc = dev->exactBounds();
            m_brush = new KisGbrBrush(dev, rc.x(), rc.y(), rc.width(), rc.height());
        }

    } else {
        // For each layer in the current image, create a new image, and add it to the list
        QVector< QVector<KisPaintDevice*> > devices;
        devices.push_back(QVector<KisPaintDevice*>());
        int w = m_image->width();
        int h = m_image->height();

        m_image->lock();

        // We only loop over the rootLayer. Since we actually should have a layer selection
        // list, no need to elaborate on that here and now
        KoProperties properties;
        properties.setProperty("visible", true);
        QList<KisNodeSP> layers = m_image->root()->childNodes(QStringList("KisLayer"), properties);
        KisNodeSP node;
        foreach(KisNodeSP node, layers) {
            devices[0].push_back(node->projection().data());
        }

        QVector<KisParasite::SelectionMode> modes;

        switch (comboBox2->currentIndex()) {
        case 0: modes.push_back(KisParasite::Constant); break;
        case 1: modes.push_back(KisParasite::Random); break;
        case 2: modes.push_back(KisParasite::Incremental); break;
        case 3: modes.push_back(KisParasite::Pressure); break;
        case 4: modes.push_back(KisParasite::Angular); break;
        default: modes.push_back(KisParasite::Incremental);
        }

        m_brush = new KisImagePipeBrush(m_image->objectName(), w, h, devices, modes);
        m_image->unlock();
    }