void KisPerspectiveTransformWorker::runPartialDst(KisPaintDeviceSP srcDev,
                                                  KisPaintDeviceSP dstDev,
                                                  const QRect &dstRect)
{
    if (m_isIdentity) {
        KisPainter::copyAreaOptimizedOldData(dstRect.topLeft(), srcDev, dstDev, dstRect);
        return;
    }

    QRectF srcClipRect = srcDev->exactBounds();
    if (srcClipRect.isEmpty()) return;

    KisProgressUpdateHelper progressHelper(m_progressUpdater, 100, dstRect.height());

    KisRandomSubAccessorSP srcAcc = srcDev->createRandomSubAccessor();
    KisRandomAccessorSP accessor = dstDev->createRandomAccessorNG(dstRect.x(), dstRect.y());

    for (int y = dstRect.y(); y < dstRect.y() + dstRect.height(); ++y) {
        for (int x = dstRect.x(); x < dstRect.x() + dstRect.width(); ++x) {

            QPointF dstPoint(x, y);
            QPointF srcPoint = m_backwardTransform.map(dstPoint);

            if (srcClipRect.contains(srcPoint)) {
                accessor->moveTo(dstPoint.x(), dstPoint.y());
                srcAcc->moveTo(srcPoint.x(), srcPoint.y());
                srcAcc->sampledOldRawData(accessor->rawData());
            }
        }
        progressHelper.step();
    }

}
예제 #2
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void KisFilterWave::processImpl(KisPaintDeviceSP device,
                                const QRect& applyRect,
                                const KisFilterConfiguration* config,
                                KoUpdater* progressUpdater
                                ) const
{
    Q_ASSERT(device.data() != 0);

    int cost = (applyRect.width() * applyRect.height()) / 100;
    if (cost == 0) cost = 1;
    int count = 0;

    QVariant value;
    int horizontalwavelength = (config && config->getProperty("horizontalwavelength", value)) ? value.toInt() : 50;
    int horizontalshift = (config && config->getProperty("horizontalshift", value)) ? value.toInt() : 50;
    int horizontalamplitude = (config && config->getProperty("horizontalamplitude", value)) ? value.toInt() : 4;
    int horizontalshape = (config && config->getProperty("horizontalshape", value)) ? value.toInt() : 0;
    int verticalwavelength = (config && config->getProperty("verticalwavelength", value)) ? value.toInt() : 50;
    int verticalshift = (config && config->getProperty("verticalshift", value)) ? value.toInt() : 50;
    int verticalamplitude = (config && config->getProperty("verticalamplitude", value)) ? value.toInt() : 4;
    int verticalshape = (config && config->getProperty("verticalshape", value)) ? value.toInt() : 0;
    KisSequentialIterator dstIt(device, applyRect);
    KisWaveCurve* verticalcurve;
    if (verticalshape == 1)
        verticalcurve = new KisTriangleWaveCurve(verticalamplitude, verticalwavelength, verticalshift);
    else
        verticalcurve = new KisSinusoidalWaveCurve(verticalamplitude, verticalwavelength, verticalshift);
    KisWaveCurve* horizontalcurve;
    if (horizontalshape == 1)
        horizontalcurve = new KisTriangleWaveCurve(horizontalamplitude, horizontalwavelength, horizontalshift);
    else
        horizontalcurve = new KisSinusoidalWaveCurve(horizontalamplitude, horizontalwavelength, horizontalshift);
    
    KisRandomSubAccessorSP srcRSA = device->createRandomSubAccessor();
    do {
        double xv = horizontalcurve->valueAt(dstIt.y(), dstIt.x());
        double yv = verticalcurve->valueAt(dstIt.x(), dstIt.y());
        srcRSA->moveTo(QPointF(xv, yv));
        srcRSA->sampledOldRawData(dstIt.rawData());
        if (progressUpdater) progressUpdater->setProgress((++count) / cost);
    } while (dstIt.nextPixel());
    delete horizontalcurve;
    delete verticalcurve;
}
void KisPerspectiveTransformWorker::run()
{
    KIS_ASSERT_RECOVER_RETURN(m_dev);

    if (m_isIdentity) return;

    KisPaintDeviceSP cloneDevice = new KisPaintDevice(*m_dev.data());

    // Clear the destination device, since all the tiles are already
    // shared with cloneDevice
    m_dev->clear();

    KIS_ASSERT_RECOVER_NOOP(!m_isIdentity);

    KisProgressUpdateHelper progressHelper(m_progressUpdater, 100, m_dstRegion.rectCount());

    KisRandomSubAccessorSP srcAcc = cloneDevice->createRandomSubAccessor();
    KisRandomAccessorSP accessor = m_dev->createRandomAccessorNG(0, 0);

    foreach(const QRect &rect, m_dstRegion.rects()) {
        for (int y = rect.y(); y < rect.y() + rect.height(); ++y) {
            for (int x = rect.x(); x < rect.x() + rect.width(); ++x) {

                QPointF dstPoint(x, y);
                QPointF srcPoint = m_backwardTransform.map(dstPoint);

                if (m_srcRect.contains(srcPoint)) {
                    accessor->moveTo(dstPoint.x(), dstPoint.y());
                    srcAcc->moveTo(srcPoint.x(), srcPoint.y());
                    srcAcc->sampledOldRawData(accessor->rawData());
                }
            }
        }
        progressHelper.step();
    }
}
KisSpacingInformation KisDuplicateOp::paintAt(const KisPaintInformation& info)
{
    if (!painter()->device()) return 1.0;

    KisBrushSP brush = m_brush;
    if (!brush)
        return 1.0;

    if (!brush->canPaintFor(info))
        return 1.0;

    if (!m_duplicateStartIsSet) {
        m_duplicateStartIsSet = true;
        m_duplicateStart = info.pos();
    }

    KisPaintDeviceSP realSourceDevice = settings->node()->paintDevice();

    qreal scale = m_sizeOption.apply(info);
    if (checkSizeTooSmall(scale)) return KisSpacingInformation();

    QPointF hotSpot = brush->hotSpot(scale, scale, 0, info);
    QPointF pt = info.pos() - hotSpot;

    setCurrentScale(scale);

    // Split the coordinates into integer plus fractional parts. The integer
    // is where the dab will be positioned and the fractional part determines
    // the sub-pixel positioning.
    qint32 x, y;
    qreal xFraction, yFraction; // will not be used
    splitCoordinate(pt.x(), &x, &xFraction);
    splitCoordinate(pt.y(), &y, &yFraction);

    QPoint srcPoint;

    if(m_moveSourcePoint)
    {
        srcPoint = QPoint(x - static_cast<qint32>(settings->offset().x()),
                          y - static_cast<qint32>(settings->offset().y()));
    } else {
        srcPoint = QPoint(static_cast<qint32>(settings->position().x() - hotSpot.x()),
                          static_cast<qint32>(settings->position().y() - hotSpot.y()));
    }

    qint32 sw = brush->maskWidth(scale, 0.0, xFraction, yFraction, info);
    qint32 sh = brush->maskHeight(scale, 0.0, xFraction, yFraction, info);

    if (srcPoint.x() < 0)
        srcPoint.setX(0);

    if (srcPoint.y() < 0)
        srcPoint.setY(0);

    // Perspective correction ?
    KisImageWSP image = settings->m_image;
    if (m_perspectiveCorrection && image && image->perspectiveGrid()->countSubGrids() == 1) {
        Matrix3qreal startM = Matrix3qreal::Identity();
        Matrix3qreal endM = Matrix3qreal::Identity();

        // First look for the grid corresponding to the start point
        KisSubPerspectiveGrid* subGridStart = *image->perspectiveGrid()->begin();
        QRect r = QRect(0, 0, image->width(), image->height());

#if 1
        if (subGridStart) {
            startM = KisPerspectiveMath::computeMatrixTransfoFromPerspective(r, *subGridStart->topLeft(), *subGridStart->topRight(), *subGridStart->bottomLeft(), *subGridStart->bottomRight());
        }
#endif
#if 1
        // Second look for the grid corresponding to the end point
        KisSubPerspectiveGrid* subGridEnd = *image->perspectiveGrid()->begin();
        if (subGridEnd) {
            endM = KisPerspectiveMath::computeMatrixTransfoToPerspective(*subGridEnd->topLeft(), *subGridEnd->topRight(), *subGridEnd->bottomLeft(), *subGridEnd->bottomRight(), r);
        }
#endif

        // Compute the translation in the perspective transformation space:
        QPointF positionStartPaintingT = KisPerspectiveMath::matProd(endM, QPointF(m_duplicateStart));
        QPointF duplicateStartPositionT = KisPerspectiveMath::matProd(endM, QPointF(m_duplicateStart) - QPointF(settings->offset()));
        QPointF translat = duplicateStartPositionT - positionStartPaintingT;

        KisRectIteratorSP dstIt = m_srcdev->createRectIteratorNG(0, 0, sw, sh);
        KisRandomSubAccessorSP srcAcc = realSourceDevice->createRandomSubAccessor();
        //Action
        do {
            QPointF p =  KisPerspectiveMath::matProd(startM, KisPerspectiveMath::matProd(endM, QPointF(dstIt->x() + x, dstIt->y() + y)) + translat);
            srcAcc->moveTo(p);
            srcAcc->sampledOldRawData(dstIt->rawData());
        } while (dstIt->nextPixel());


    } else {
        KisPainter copyPainter(m_srcdev);
        copyPainter.setCompositeOp(COMPOSITE_COPY);
        copyPainter.bitBltOldData(0, 0, realSourceDevice, srcPoint.x(), srcPoint.y(), sw, sh);
        copyPainter.end();
    }

    // heal ?

    if (m_healing) {
        quint16 srcData[4];
        quint16 tmpData[4];
        qreal* matrix = new qreal[ 3 * sw * sh ];
        // First divide
        const KoColorSpace* srcCs = realSourceDevice->colorSpace();
        const KoColorSpace* tmpCs = m_srcdev->colorSpace();
        KisHLineConstIteratorSP srcIt = realSourceDevice->createHLineConstIteratorNG(x, y, sw);
        KisHLineIteratorSP tmpIt = m_srcdev->createHLineIteratorNG(0, 0, sw);
        qreal* matrixIt = &matrix[0];
        for (int j = 0; j < sh; j++) {
            for (int i = 0; i < sw; i++) {
                srcCs->toLabA16(srcIt->oldRawData(), (quint8*)srcData, 1);
                tmpCs->toLabA16(tmpIt->rawData(), (quint8*)tmpData, 1);
                // Division
                for (int k = 0; k < 3; k++) {
                    matrixIt[k] = srcData[k] / (qreal)qMax((int)tmpData [k], 1);
                }
                srcIt->nextPixel();
                tmpIt->nextPixel();
                matrixIt += 3;
            }
            srcIt->nextRow();
            tmpIt->nextRow();
        }
        // Minimize energy
        {
            int iter = 0;
            qreal err;
            qreal* solution = new qreal [ 3 * sw * sh ];
            do {
                err = minimizeEnergy(&matrix[0], &solution[0], sw, sh);

                // swap pointers
                qreal *tmp = matrix;
                matrix = solution;
                solution = tmp;

                iter++;
            } while (err > 0.00001 && iter < 100);
            delete [] solution;
        }

        // Finaly multiply
        KisHLineIteratorSP srcIt2 = realSourceDevice->createHLineIteratorNG(x, y, sw);
        KisHLineIteratorSP tmpIt2 = m_srcdev->createHLineIteratorNG(0, 0, sw);
        matrixIt = &matrix[0];
        for (int j = 0; j < sh; j++) {
            for (int i = 0; i < sw; i++) {
                srcCs->toLabA16(srcIt2->rawData(), (quint8*)srcData, 1);
                tmpCs->toLabA16(tmpIt2->rawData(), (quint8*)tmpData, 1);
                // Multiplication
                for (int k = 0; k < 3; k++) {
                    tmpData[k] = (int)CLAMP(matrixIt[k] * qMax((int) tmpData[k], 1), 0, 65535);
                }
                tmpCs->fromLabA16((quint8*)tmpData, tmpIt2->rawData(), 1);
                srcIt2->nextPixel();
                tmpIt2->nextPixel();
                matrixIt += 3;
            }
            srcIt2->nextRow();
            tmpIt2->nextRow();
        }
        delete [] matrix;
    }

    static const KoColorSpace *cs = KoColorSpaceRegistry::instance()->alpha8();
    static KoColor color(Qt::black, cs);

    KisFixedPaintDeviceSP dab =
        m_dabCache->fetchDab(cs, color, scale, scale,
                             0.0, info);

    QRect dstRect = QRect(x, y, dab->bounds().width(), dab->bounds().height());
    if (dstRect.isEmpty()) return 1.0;

    painter()->bitBltWithFixedSelection(dstRect.x(), dstRect.y(),
                                        m_srcdev, dab,
                                        dstRect.width(),
                                        dstRect.height());

    painter()->renderMirrorMaskSafe(dstRect, m_srcdev, 0, 0, dab,
                                    !m_dabCache->needSeparateOriginal());

    return effectiveSpacing(dstRect.width(), dstRect.height());
}