Beispiel #1
0
void RenderSVGResourceFilter::postApplyResource(RenderObject* object, GraphicsContext*& context, unsigned short resourceMode, const Path*)
{
    ASSERT(object);
    ASSERT(context);
#ifndef NDEBUG
    ASSERT(resourceMode == ApplyToDefaultMode);
#else
    UNUSED_PARAM(resourceMode);
#endif

    if (!m_filter.contains(object))
        return;

    FilterData* filterData = m_filter.get(object);
    if (!filterData->builded) {
        if (!filterData->savedContext) {
            removeClientFromCache(object);
            return;
        }

        context = filterData->savedContext;
        filterData->savedContext = 0;
#if !PLATFORM(CG)
        if (filterData->sourceGraphicBuffer)
            filterData->sourceGraphicBuffer->transformColorSpace(ColorSpaceDeviceRGB, ColorSpaceLinearRGB);
#endif
    }

    FilterEffect* lastEffect = filterData->builder->lastEffect();
    
    if (lastEffect && !filterData->boundaries.isEmpty() && !lastEffect->filterPrimitiveSubregion().isEmpty()) {
        // This is the real filtering of the object. It just needs to be called on the
        // initial filtering process. We just take the stored filter result on a
        // second drawing.
        if (!filterData->builded) {
            filterData->filter->setSourceImage(filterData->sourceGraphicBuffer.release());
            lastEffect->apply();
#if !PLATFORM(CG)
            ImageBuffer* resultImage = lastEffect->asImageBuffer();
            if (resultImage)
                resultImage->transformColorSpace(ColorSpaceLinearRGB, ColorSpaceDeviceRGB);
#endif
            filterData->builded = true;
        }

        ImageBuffer* resultImage = lastEffect->asImageBuffer();
        if (resultImage) {
            context->concatCTM(filterData->shearFreeAbsoluteTransform.inverse());

            context->scale(FloatSize(1 / filterData->filter->filterResolution().width(), 1 / filterData->filter->filterResolution().height()));
            context->clip(lastEffect->maxEffectRect());
            context->drawImageBuffer(resultImage, object->style()->colorSpace(), lastEffect->absolutePaintRect());
            context->scale(filterData->filter->filterResolution());

            context->concatCTM(filterData->shearFreeAbsoluteTransform);
        }
    }
    filterData->sourceGraphicBuffer.clear();
}
Beispiel #2
0
void FEComposite::platformApplySoftware()
{
    FilterEffect* in = inputEffect(0);
    FilterEffect* in2 = inputEffect(1);

    if (m_type == FECOMPOSITE_OPERATOR_ARITHMETIC) {
        ByteArray* dstPixelArray = createPremultipliedImageResult();
        if (!dstPixelArray)
            return;

        IntRect effectADrawingRect = requestedRegionOfInputImageData(in->absolutePaintRect());
        RefPtr<ByteArray> srcPixelArray = in->asPremultipliedImage(effectADrawingRect);

        IntRect effectBDrawingRect = requestedRegionOfInputImageData(in2->absolutePaintRect());
        in2->copyPremultipliedImage(dstPixelArray, effectBDrawingRect);

        arithmetic(srcPixelArray.get(), dstPixelArray, m_k1, m_k2, m_k3, m_k4);
        return;
    }

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;
    GraphicsContext* filterContext = resultImage->context();

    FloatRect srcRect = FloatRect(0, 0, -1, -1);
    switch (m_type) {
    case FECOMPOSITE_OPERATOR_OVER:
        filterContext->drawImageBuffer(in2->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in2->absolutePaintRect()));
        filterContext->drawImageBuffer(in->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in->absolutePaintRect()));
        break;
    case FECOMPOSITE_OPERATOR_IN: {
        GraphicsContextStateSaver stateSaver(*filterContext);
        filterContext->clipToImageBuffer(in2->asImageBuffer(), drawingRegionOfInputImage(in2->absolutePaintRect()));
        filterContext->drawImageBuffer(in->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in->absolutePaintRect()));
        break;
    }
    case FECOMPOSITE_OPERATOR_OUT:
        filterContext->drawImageBuffer(in->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in->absolutePaintRect()));
        filterContext->drawImageBuffer(in2->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in2->absolutePaintRect()), srcRect, CompositeDestinationOut);
        break;
    case FECOMPOSITE_OPERATOR_ATOP:
        filterContext->drawImageBuffer(in2->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in2->absolutePaintRect()));
        filterContext->drawImageBuffer(in->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in->absolutePaintRect()), srcRect, CompositeSourceAtop);
        break;
    case FECOMPOSITE_OPERATOR_XOR:
        filterContext->drawImageBuffer(in2->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in2->absolutePaintRect()));
        filterContext->drawImageBuffer(in->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in->absolutePaintRect()), srcRect, CompositeXOR);
        break;
    default:
        break;
    }
}
Beispiel #3
0
void FEDropShadow::applySoftware()
{
    FilterEffect* in = inputEffect(0);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    Filter* filter = this->filter();
    FloatSize blurRadius(filter->applyHorizontalScale(m_stdX), filter->applyVerticalScale(m_stdY));
    FloatSize offset(filter->applyHorizontalScale(m_dx), filter->applyVerticalScale(m_dy));

    FloatRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());
    GraphicsContext* resultContext = resultImage->context();
    ASSERT(resultContext);

    Color color = adaptColorToOperatingColorSpace(m_shadowColor.combineWithAlpha(m_shadowOpacity));
    SkAutoTUnref<SkImageFilter> blurFilter(SkBlurImageFilter::Create(blurRadius.width(), blurRadius.height()));
    SkAutoTUnref<SkColorFilter> colorFilter(SkColorFilter::CreateModeFilter(color.rgb(), SkXfermode::kSrcIn_Mode));
    SkPaint paint;
    paint.setImageFilter(blurFilter.get());
    paint.setColorFilter(colorFilter.get());
    paint.setXfermodeMode(SkXfermode::kSrcOver_Mode);
    RefPtr<Image> image = in->asImageBuffer()->copyImage(DontCopyBackingStore);

    RefPtr<NativeImageSkia> nativeImage = image->nativeImageForCurrentFrame();

    if (!nativeImage)
        return;

    resultContext->drawBitmap(nativeImage->bitmap(), drawingRegion.x() + offset.width(), drawingRegion.y() + offset.height(), &paint);
    resultContext->drawBitmap(nativeImage->bitmap(), drawingRegion.x(), drawingRegion.y());
}
Beispiel #4
0
void FEGaussianBlur::applySoftware()
{
    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    FilterEffect* in = inputEffect(0);

    IntRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());

    setIsAlphaImage(in->isAlphaImage());

    float stdX = filter()->applyHorizontalScale(m_stdX);
    float stdY = filter()->applyVerticalScale(m_stdY);

    RefPtr<Image> image = in->asImageBuffer()->copyImage(DontCopyBackingStore);

    SkPaint paint;
    GraphicsContext* dstContext = resultImage->context();
    paint.setImageFilter(SkBlurImageFilter::Create(stdX, stdY))->unref();

    SkRect bounds = SkRect::MakeWH(absolutePaintRect().width(), absolutePaintRect().height());
    dstContext->saveLayer(&bounds, &paint);
    paint.setColor(0xFFFFFFFF);
    dstContext->drawImage(image.get(), drawingRegion.location(), CompositeCopy);
    dstContext->restoreLayer();
}
Beispiel #5
0
void FEColorMatrix::platformApplySoftware()
{
    FilterEffect* in = inputEffect(0);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    resultImage->context()->drawImageBuffer(in->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in->absolutePaintRect()));

    IntRect imageRect(IntPoint(), absolutePaintRect().size());
    RefPtr<Uint8ClampedArray> pixelArray = resultImage->getUnmultipliedImageData(imageRect);

    switch (m_type) {
    case FECOLORMATRIX_TYPE_UNKNOWN:
        break;
    case FECOLORMATRIX_TYPE_MATRIX:
        effectType<FECOLORMATRIX_TYPE_MATRIX>(pixelArray.get(), m_values);
        break;
    case FECOLORMATRIX_TYPE_SATURATE: 
        effectType<FECOLORMATRIX_TYPE_SATURATE>(pixelArray.get(), m_values);
        break;
    case FECOLORMATRIX_TYPE_HUEROTATE:
        effectType<FECOLORMATRIX_TYPE_HUEROTATE>(pixelArray.get(), m_values);
        break;
    case FECOLORMATRIX_TYPE_LUMINANCETOALPHA:
        effectType<FECOLORMATRIX_TYPE_LUMINANCETOALPHA>(pixelArray.get(), m_values);
        setIsAlphaImage(true);
        break;
    }

    resultImage->putByteArray(Unmultiplied, pixelArray.get(), imageRect.size(), imageRect, IntPoint());
}
Beispiel #6
0
bool FELighting::applySkia()
{
    // For now, only use the skia implementation for accelerated rendering.
    if (!filter()->isAccelerated())
        return false;

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return false;

    FilterEffect* in = inputEffect(0);

    IntRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());

    setIsAlphaImage(in->isAlphaImage());

    RefPtr<Image> image = in->asImageBuffer()->copyImage(DontCopyBackingStore);
    RefPtr<NativeImageSkia> nativeImage = image->nativeImageForCurrentFrame();
    if (!nativeImage)
        return false;

    GraphicsContext* dstContext = resultImage->context();

    SkPaint paint;
    RefPtr<SkImageFilter> filter = createImageFilter(0);
    paint.setImageFilter(filter.get());
    dstContext->drawBitmap(nativeImage->bitmap(), drawingRegion.location().x(), drawingRegion.location().y(), &paint);
    return true;
}
Beispiel #7
0
void FEMorphology::applySoftware()
{
    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    FilterEffect* in = inputEffect(0);

    IntRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());

    setIsAlphaImage(in->isAlphaImage());

    float radiusX = filter()->applyHorizontalScale(m_radiusX);
    float radiusY = filter()->applyVerticalScale(m_radiusY);

    RefPtr<Image> image = in->asImageBuffer()->copyImage(DontCopyBackingStore);

    SkPaint paint;
    GraphicsContext* dstContext = resultImage->context();
    if (m_type == FEMORPHOLOGY_OPERATOR_DILATE)
        paint.setImageFilter(SkDilateImageFilter::Create(radiusX, radiusY))->unref();
    else if (m_type == FEMORPHOLOGY_OPERATOR_ERODE)
        paint.setImageFilter(SkErodeImageFilter::Create(radiusX, radiusY))->unref();

    SkRect bounds = SkRect::MakeWH(absolutePaintRect().width(), absolutePaintRect().height());
    dstContext->saveLayer(&bounds, &paint);
    dstContext->drawImage(image.get(), drawingRegion.location(), CompositeCopy);
    dstContext->restoreLayer();
}
Beispiel #8
0
void FEColorMatrix::applySoftware()
{
    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    FilterEffect* in = inputEffect(0);

    IntRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());

    SkAutoTUnref<SkColorFilter> filter(createColorFilter(m_type, m_values.data()));

    RefPtr<Image> image = in->asImageBuffer()->copyImage(DontCopyBackingStore);
    RefPtr<NativeImageSkia> nativeImage = image->nativeImageForCurrentFrame();
    if (!nativeImage)
        return;

    SkPaint paint;
    paint.setColorFilter(filter);
    paint.setXfermodeMode(SkXfermode::kSrc_Mode);
    resultImage->context()->drawBitmap(nativeImage->bitmap(), drawingRegion.x(), drawingRegion.y(), &paint);

    if (affectsTransparentPixels()) {
        IntRect fullRect = IntRect(IntPoint(), absolutePaintRect().size());
        resultImage->context()->clipOut(drawingRegion);
        resultImage->context()->fillRect(fullRect, Color(m_values[4], m_values[9], m_values[14], m_values[19]));
    }
    return;
}
Beispiel #9
0
bool FEBlend::platformApplySkia()
{
    // For now, only use the skia implementation for accelerated rendering.
    if (filter()->renderingMode() != Accelerated)
        return false;

    FilterEffect* in = inputEffect(0);
    FilterEffect* in2 = inputEffect(1);

    if (!in || !in2) 
        return false;

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return false;

    RefPtr<Image> foreground = in->asImageBuffer()->copyImage(DontCopyBackingStore);
    RefPtr<Image> background = in2->asImageBuffer()->copyImage(DontCopyBackingStore);

    SkBitmap foregroundBitmap = foreground->nativeImageForCurrentFrame()->bitmap();
    SkBitmap backgroundBitmap = background->nativeImageForCurrentFrame()->bitmap();

    SkAutoTUnref<SkImageFilter> backgroundSource(new SkBitmapSource(backgroundBitmap));
    SkBlendImageFilter::Mode mode = toSkiaMode(m_mode);
    SkAutoTUnref<SkImageFilter> blend(new SkBlendImageFilter(mode, backgroundSource));
    SkPaint paint;
    paint.setImageFilter(blend);
    SkCanvas* canvas = resultImage->context()->platformContext()->canvas();
    canvas->drawBitmap(foregroundBitmap, 0, 0, &paint);
    return true;
}
Beispiel #10
0
void FEGaussianBlur::platformApplySkia()
{
    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    FilterEffect* in = inputEffect(0);

    IntRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());

    setIsAlphaImage(in->isAlphaImage());

    float stdX = filter()->applyHorizontalScale(m_stdX);
    float stdY = filter()->applyVerticalScale(m_stdY);
    
    RefPtr<Image> image = in->asImageBuffer()->copyImage(DontCopyBackingStore);

    SkPaint paint;
    GraphicsContext* dstContext = resultImage->context();
    SkCanvas* canvas = dstContext->platformContext()->canvas();
    paint.setImageFilter(new SkBlurImageFilter(stdX, stdY))->unref();
    canvas->saveLayer(0, &paint);
    paint.setColor(0xFFFFFFFF);
    dstContext->drawImage(image.get(), ColorSpaceDeviceRGB, drawingRegion.location(), CompositeCopy);
    canvas->restore();
    return;
}
Beispiel #11
0
void FEComponentTransfer::applySoftware()
{
    FilterEffect* in = inputEffect(0);
    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    RefPtr<Image> image = in->asImageBuffer()->copyImage(DontCopyBackingStore);
    RefPtr<NativeImageSkia> nativeImage = image->nativeImageForCurrentFrame();
    if (!nativeImage)
        return;

    unsigned char rValues[256], gValues[256], bValues[256], aValues[256];
    getValues(rValues, gValues, bValues, aValues);

    IntRect destRect = drawingRegionOfInputImage(in->absolutePaintRect());
    SkPaint paint;
    paint.setColorFilter(SkTableColorFilter::CreateARGB(aValues, rValues, gValues, bValues))->unref();
    paint.setXfermodeMode(SkXfermode::kSrc_Mode);
    resultImage->context()->drawBitmap(nativeImage->bitmap(), destRect.x(), destRect.y(), &paint);

    if (affectsTransparentPixels()) {
        IntRect fullRect = IntRect(IntPoint(), absolutePaintRect().size());
        resultImage->context()->clipOut(destRect);
        resultImage->context()->fillRect(fullRect, Color(rValues[0], gValues[0], bValues[0], aValues[0]));
    }
}
Beispiel #12
0
void FEOffset::applySoftware()
{
    FilterEffect* in = inputEffect(0);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    setIsAlphaImage(in->isAlphaImage());

    FloatRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());
    Filter* filter = this->filter();
    drawingRegion.move(filter->applyHorizontalScale(m_dx), filter->applyVerticalScale(m_dy));
    resultImage->context()->drawImageBuffer(in->asImageBuffer(), drawingRegion);
}
Beispiel #13
0
void FEMerge::platformApplySoftware()
{
    unsigned size = numberOfEffectInputs();
    ASSERT(size > 0);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    GraphicsContext* filterContext = resultImage->context();
    for (unsigned i = 0; i < size; ++i) {
        FilterEffect* in = inputEffect(i);
        filterContext->drawImageBuffer(in->asImageBuffer(), ColorSpaceDeviceRGB, drawingRegionOfInputImage(in->absolutePaintRect()));
    }
}
Beispiel #14
0
void FEBlend::platformApplySoftware()
{
    FilterEffect* in = inputEffect(0);
    FilterEffect* in2 = inputEffect(1);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;
    GraphicsContext& filterContext = resultImage->context();

    ImageBuffer* imageBuffer = in->asImageBuffer();
    ImageBuffer* imageBuffer2 = in2->asImageBuffer();
    ASSERT(imageBuffer);
    ASSERT(imageBuffer2);

    filterContext.drawImageBuffer(imageBuffer2, ColorSpaceDeviceRGB, drawingRegionOfInputImage(in2->absolutePaintRect()));
    filterContext.drawImageBuffer(imageBuffer, ColorSpaceDeviceRGB, drawingRegionOfInputImage(in->absolutePaintRect()), IntRect(IntPoint(), imageBuffer->logicalSize()), ImagePaintingOptions(CompositeSourceOver, m_mode));
}
Beispiel #15
0
void FETile::platformApplySoftware()
{
// FIXME: See bug 47315. This is a hack to work around a compile failure, but is incorrect behavior otherwise.
    FilterEffect* in = inputEffect(0);

    ImageBuffer* resultImage = createImageBufferResult();
    ImageBuffer* inBuffer = in->asImageBuffer();
    if (!resultImage || !inBuffer)
        return;

    setIsAlphaImage(in->isAlphaImage());

    // Source input needs more attention. It has the size of the filterRegion but gives the
    // size of the cutted sourceImage back. This is part of the specification and optimization.
    FloatRect tileRect = in->maxEffectRect();
    FloatPoint inMaxEffectLocation = tileRect.location();
    FloatPoint maxEffectLocation = maxEffectRect().location();
    if (in->filterEffectType() == FilterEffectTypeSourceInput) {
        Filter& filter = this->filter();
        tileRect = filter.filterRegion();
        tileRect.scale(filter.filterResolution().width(), filter.filterResolution().height());
    }

    auto tileImage = SVGRenderingContext::createImageBuffer(tileRect, tileRect, ColorSpaceSRGB, filter().renderingMode());
    if (!tileImage)
        return;

    GraphicsContext& tileImageContext = tileImage->context();
    tileImageContext.translate(-inMaxEffectLocation.x(), -inMaxEffectLocation.y());
    tileImageContext.drawImageBuffer(*inBuffer, in->absolutePaintRect().location());

    auto tileImageCopy = ImageBuffer::sinkIntoImage(WTFMove(tileImage));
    if (!tileImageCopy)
        return;

    auto pattern = Pattern::create(WTFMove(tileImageCopy), true, true);

    AffineTransform patternTransform;
    patternTransform.translate(inMaxEffectLocation.x() - maxEffectLocation.x(), inMaxEffectLocation.y() - maxEffectLocation.y());
    pattern.get().setPatternSpaceTransform(patternTransform);
    GraphicsContext& filterContext = resultImage->context();
    filterContext.setFillPattern(WTFMove(pattern));
    filterContext.fillRect(FloatRect(FloatPoint(), absolutePaintRect().size()));
}
Beispiel #16
0
void FEDropShadow::platformApplySoftware()
{
    FilterEffect* in = inputEffect(0);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    Filter& filter = this->filter();
    FloatSize blurRadius(2 * filter.applyHorizontalScale(m_stdX), 2 * filter.applyVerticalScale(m_stdY));
    blurRadius.scale(filter.filterScale());
    FloatSize offset(filter.applyHorizontalScale(m_dx), filter.applyVerticalScale(m_dy));

    FloatRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());
    FloatRect drawingRegionWithOffset(drawingRegion);
    drawingRegionWithOffset.move(offset);

    ImageBuffer* sourceImage = in->asImageBuffer();
    if (!sourceImage)
        return;

    GraphicsContext& resultContext = resultImage->context();
    resultContext.setAlpha(m_shadowOpacity);
    resultContext.drawImageBuffer(*sourceImage, drawingRegionWithOffset);
    resultContext.setAlpha(1);

    ShadowBlur contextShadow(blurRadius, offset, m_shadowColor);

    // TODO: Direct pixel access to ImageBuffer would avoid copying the ImageData.
    IntRect shadowArea(IntPoint(), resultImage->internalSize());
    RefPtr<Uint8ClampedArray> srcPixelArray = resultImage->getPremultipliedImageData(shadowArea, ImageBuffer::BackingStoreCoordinateSystem);

    contextShadow.blurLayerImage(srcPixelArray->data(), shadowArea.size(), 4 * shadowArea.size().width());

    resultImage->putByteArray(Premultiplied, srcPixelArray.get(), shadowArea.size(), shadowArea, IntPoint(), ImageBuffer::BackingStoreCoordinateSystem);

    resultContext.setCompositeOperation(CompositeSourceIn);
    resultContext.fillRect(FloatRect(FloatPoint(), absolutePaintRect().size()), m_shadowColor);
    resultContext.setCompositeOperation(CompositeDestinationOver);

    resultImage->context().drawImageBuffer(*sourceImage, drawingRegion);
}
Beispiel #17
0
bool FEDisplacementMap::applySkia()
{
    // For now, only use the skia implementation for accelerated rendering.
    if (!filter()->isAccelerated())
        return false;

    FilterEffect* in = inputEffect(0);
    FilterEffect* in2 = inputEffect(1);

    if (!in || !in2)
        return false;

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return false;

    RefPtr<Image> color = in->asImageBuffer()->copyImage(DontCopyBackingStore);
    RefPtr<Image> displ = in2->asImageBuffer()->copyImage(DontCopyBackingStore);

    RefPtr<NativeImageSkia> colorNativeImage = color->nativeImageForCurrentFrame();
    RefPtr<NativeImageSkia> displNativeImage = displ->nativeImageForCurrentFrame();

    if (!colorNativeImage || !displNativeImage)
        return false;

    SkBitmap colorBitmap = colorNativeImage->bitmap();
    SkBitmap displBitmap = displNativeImage->bitmap();

    SkAutoTUnref<SkImageFilter> colorSource(new SkBitmapSource(colorBitmap));
    SkAutoTUnref<SkImageFilter> displSource(new SkBitmapSource(displBitmap));
    SkDisplacementMapEffect::ChannelSelectorType typeX = toSkiaMode(m_xChannelSelector);
    SkDisplacementMapEffect::ChannelSelectorType typeY = toSkiaMode(m_yChannelSelector);
    // FIXME : Only applyHorizontalScale is used and applyVerticalScale is ignored
    // This can be fixed by adding a 2nd scale parameter to SkDisplacementMapEffect
    SkAutoTUnref<SkImageFilter> displEffect(new SkDisplacementMapEffect(
        typeX, typeY, SkFloatToScalar(filter()->applyHorizontalScale(m_scale)), displSource, colorSource));
    SkPaint paint;
    paint.setImageFilter(displEffect);
    resultImage->context()->drawBitmap(colorBitmap, 0, 0, &paint);
    return true;
}
Beispiel #18
0
void FETile::applySoftware()
{
    FilterEffect* in = inputEffect(0);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    setIsAlphaImage(in->isAlphaImage());

    // Source input needs more attention. It has the size of the filterRegion but gives the
    // size of the cutted sourceImage back. This is part of the specification and optimization.
    FloatRect tileRect = in->maxEffectRect();
    FloatPoint inMaxEffectLocation = tileRect.location();
    FloatPoint maxEffectLocation = maxEffectRect().location();
    if (in->filterEffectType() == FilterEffectTypeSourceInput) {
        Filter* filter = this->filter();
        tileRect = filter->absoluteFilterRegion();
    }

    OwnPtr<ImageBufferSurface> surface;
    IntSize intTileSize = roundedIntSize(tileRect.size());
    surface = adoptPtr(new UnacceleratedImageBufferSurface(intTileSize));
    OwnPtr<ImageBuffer> tileImage = ImageBuffer::create(surface.release());
    if (!tileImage)
        return;

    GraphicsContext* tileImageContext = tileImage->context();
    tileImageContext->scale(FloatSize(intTileSize.width() / tileRect.width(), intTileSize.height() / tileRect.height()));
    tileImageContext->translate(-inMaxEffectLocation.x(), -inMaxEffectLocation.y());
    tileImageContext->drawImageBuffer(in->asImageBuffer(), in->absolutePaintRect().location());

    RefPtr<Pattern> pattern = Pattern::create(tileImage->copyImage(CopyBackingStore), true, true);

    AffineTransform patternTransform;
    patternTransform.translate(inMaxEffectLocation.x() - maxEffectLocation.x(), inMaxEffectLocation.y() - maxEffectLocation.y());
    pattern->setPatternSpaceTransform(patternTransform);
    GraphicsContext* filterContext = resultImage->context();
    filterContext->setFillPattern(pattern);
    filterContext->fillRect(FloatRect(FloatPoint(), absolutePaintRect().size()));
}
Beispiel #19
0
// This function will be changed to abstract virtual when all filters are landed.
bool FilterEffect::platformApplyOpenCL()
{
    if (!FilterContextOpenCL::context())
        return false;

    unsigned size = m_inputEffects.size();
    for (unsigned i = 0; i < size; ++i) {
        FilterEffect* in = m_inputEffects.at(i).get();
        // Software code path expects that at least one of the following fileds is valid.
        if (!in->m_imageBufferResult && !in->m_unmultipliedImageResult && !in->m_premultipliedImageResult)
            in->asImageBuffer();
    }

    platformApplySoftware();
    ImageBuffer* sourceImage = asImageBuffer();
    if (sourceImage) {
        RefPtr<Uint8ClampedArray> sourceImageData = sourceImage->getUnmultipliedImageData(IntRect(IntPoint(), sourceImage->internalSize()));
        createOpenCLImageResult(sourceImageData->data());
    }
    return true;
}
Beispiel #20
0
void FEDropShadow::platformApplySoftware()
{
    FilterEffect* in = inputEffect(0);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    Filter* filter = this->filter();
    FloatSize blurRadius(filter->applyHorizontalScale(m_stdX), filter->applyVerticalScale(m_stdY));
    FloatSize offset(filter->applyHorizontalScale(m_dx), filter->applyVerticalScale(m_dy));

    FloatRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());
    FloatRect drawingRegionWithOffset(drawingRegion);
    drawingRegionWithOffset.move(offset);

    ImageBuffer* sourceImage = in->asImageBuffer();
    ASSERT(sourceImage);
    GraphicsContext* resultContext = resultImage->context();
    ASSERT(resultContext);
    resultContext->setAlpha(m_shadowOpacity);
    resultContext->drawImageBuffer(sourceImage, ColorSpaceDeviceRGB, drawingRegionWithOffset);
    resultContext->setAlpha(1);

    ShadowBlur contextShadow(blurRadius, offset, m_shadowColor, ColorSpaceDeviceRGB);

    // TODO: Direct pixel access to ImageBuffer would avoid copying the ImageData.
    IntRect shadowArea(IntPoint(), resultImage->size());
    RefPtr<ByteArray> srcPixelArray = resultImage->getPremultipliedImageData(shadowArea);

    contextShadow.blurLayerImage(srcPixelArray->data(), shadowArea.size(), 4 * shadowArea.size().width());

    resultImage->putPremultipliedImageData(srcPixelArray.get(), shadowArea.size(), shadowArea, IntPoint());

    resultContext->setCompositeOperation(CompositeSourceIn);
    resultContext->fillRect(FloatRect(FloatPoint(), absolutePaintRect().size()), m_shadowColor, ColorSpaceDeviceRGB);
    resultContext->setCompositeOperation(CompositeDestinationOver);

    resultImage->context()->drawImageBuffer(sourceImage, ColorSpaceDeviceRGB, drawingRegion);
}
Beispiel #21
0
bool FEComponentTransfer::platformApplySkia()
{
    FilterEffect* in = inputEffect(0);
    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return false;

    RefPtr<Image> image = in->asImageBuffer()->copyImage(DontCopyBackingStore);
    NativeImageSkia* nativeImage = image->nativeImageForCurrentFrame();
    if (!nativeImage)
        return false;

    unsigned char rValues[256], gValues[256], bValues[256], aValues[256];
    getValues(rValues, gValues, bValues, aValues);

    SkPaint paint;
    paint.setColorFilter(SkTableColorFilter::CreateARGB(aValues, rValues, gValues, bValues))->unref();
    paint.setXfermodeMode(SkXfermode::kSrc_Mode);
    resultImage->context()->platformContext()->drawBitmap(nativeImage->bitmap(), 0, 0, &paint);

    return true;
}
Beispiel #22
0
bool FEColorMatrix::applySkia()
{
    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return false;

    FilterEffect* in = inputEffect(0);

    SkRect drawingRegion = drawingRegionOfInputImage(in->absolutePaintRect());

    SkAutoTUnref<SkColorFilter> filter(createColorFilter(m_type, m_values.data()));

    RefPtr<Image> image = in->asImageBuffer()->copyImage(DontCopyBackingStore);
    RefPtr<NativeImageSkia> nativeImage = image->nativeImageForCurrentFrame();
    if (!nativeImage)
        return false;

    SkPaint paint;
    paint.setColorFilter(filter);
    paint.setXfermodeMode(SkXfermode::kSrc_Mode);
    resultImage->context()->drawBitmap(nativeImage->bitmap(), drawingRegion.fLeft, drawingRegion.fTop, &paint);
    return true;
}
Beispiel #23
0
void FEBlend::applySoftware()
{
#if HAVE(ARM_NEON_INTRINSICS)
    if (applySoftwareNEON())
        return;
#endif

    FilterEffect* in = inputEffect(0);
    FilterEffect* in2 = inputEffect(1);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;
    GraphicsContext* filterContext = resultImage->context();

    ImageBuffer* imageBuffer = in->asImageBuffer();
    ImageBuffer* imageBuffer2 = in2->asImageBuffer();
    ASSERT(imageBuffer);
    ASSERT(imageBuffer2);

    filterContext->drawImageBuffer(imageBuffer2, drawingRegionOfInputImage(in2->absolutePaintRect()));
    filterContext->drawImageBuffer(imageBuffer, drawingRegionOfInputImage(in->absolutePaintRect()), 0, CompositeSourceOver, m_mode);
}
Beispiel #24
0
void RenderSVGResourceFilter::postApplyResource(RenderElement& renderer, GraphicsContext*& context, unsigned short resourceMode, const Path*, const RenderSVGShape*)
{
    ASSERT(context);
    ASSERT_UNUSED(resourceMode, resourceMode == ApplyToDefaultMode);

    FilterData* filterData = m_filter.get(&renderer);
    if (!filterData)
        return;

    switch (filterData->state) {
    case FilterData::MarkedForRemoval:
        m_filter.remove(&renderer);
        return;

    case FilterData::CycleDetected:
    case FilterData::Applying:
        // We have a cycle if we are already applying the data.
        // This can occur due to FeImage referencing a source that makes use of the FEImage itself.
        // This is the first place we've hit the cycle, so set the state back to PaintingSource so the return stack
        // will continue correctly.
        filterData->state = FilterData::PaintingSource;
        return;

    case FilterData::PaintingSource:
        if (!filterData->savedContext) {
            removeClientFromCache(renderer);
            return;
        }

        context = filterData->savedContext;
        filterData->savedContext = 0;
        break;

    case FilterData::Built:
    { } // Empty
    }

    FilterEffect* lastEffect = filterData->builder->lastEffect();

    if (lastEffect && !filterData->boundaries.isEmpty() && !lastEffect->filterPrimitiveSubregion().isEmpty()) {
        // This is the real filtering of the object. It just needs to be called on the
        // initial filtering process. We just take the stored filter result on a
        // second drawing.
        if (filterData->state != FilterData::Built)
            filterData->filter->setSourceImage(WTF::move(filterData->sourceGraphicBuffer));

        // Always true if filterData is just built (filterData->state == FilterData::Built).
        if (!lastEffect->hasResult()) {
            filterData->state = FilterData::Applying;
            lastEffect->applyAll();
            lastEffect->correctFilterResultIfNeeded();
            lastEffect->transformResultColorSpace(ColorSpaceDeviceRGB);
        }
        filterData->state = FilterData::Built;

        ImageBuffer* resultImage = lastEffect->asImageBuffer();
        if (resultImage) {
            context->concatCTM(filterData->shearFreeAbsoluteTransform.inverse());

            context->scale(FloatSize(1 / filterData->filter->filterResolution().width(), 1 / filterData->filter->filterResolution().height()));
            context->drawImageBuffer(resultImage, renderer.style().colorSpace(), lastEffect->absolutePaintRect());
            context->scale(filterData->filter->filterResolution());

            context->concatCTM(filterData->shearFreeAbsoluteTransform);
        }
    }
    filterData->sourceGraphicBuffer.reset();
}
Beispiel #25
0
void FEComposite::applySoftware()
{
    FilterEffect* in = inputEffect(0);
    FilterEffect* in2 = inputEffect(1);

    if (m_type == FECOMPOSITE_OPERATOR_ARITHMETIC) {
        Uint8ClampedArray* dstPixelArray = createPremultipliedImageResult();
        if (!dstPixelArray)
            return;

        IntRect effectADrawingRect = requestedRegionOfInputImageData(in->absolutePaintRect());
        RefPtr<Uint8ClampedArray> srcPixelArray = in->asPremultipliedImage(effectADrawingRect);

        IntRect effectBDrawingRect = requestedRegionOfInputImageData(in2->absolutePaintRect());
        in2->copyPremultipliedImage(dstPixelArray, effectBDrawingRect);

        platformArithmeticSoftware(srcPixelArray.get(), dstPixelArray, m_k1, m_k2, m_k3, m_k4);
        return;
    }

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;
    GraphicsContext* filterContext = resultImage->context();

    ImageBuffer* imageBuffer = in->asImageBuffer();
    ImageBuffer* imageBuffer2 = in2->asImageBuffer();
    ASSERT(imageBuffer);
    ASSERT(imageBuffer2);

    switch (m_type) {
    case FECOMPOSITE_OPERATOR_OVER:
        filterContext->drawImageBuffer(imageBuffer2, drawingRegionOfInputImage(in2->absolutePaintRect()));
        filterContext->drawImageBuffer(imageBuffer, drawingRegionOfInputImage(in->absolutePaintRect()));
        break;
    case FECOMPOSITE_OPERATOR_IN: {
        // Applies only to the intersected region.
        IntRect destinationRect = in->absolutePaintRect();
        destinationRect.intersect(in2->absolutePaintRect());
        destinationRect.intersect(absolutePaintRect());
        if (destinationRect.isEmpty())
            break;
        FloatRect sourceRect(IntPoint(destinationRect.x() - in->absolutePaintRect().x(),
                                    destinationRect.y() - in->absolutePaintRect().y()), destinationRect.size());
        FloatRect source2Rect(IntPoint(destinationRect.x() - in2->absolutePaintRect().x(),
                                     destinationRect.y() - in2->absolutePaintRect().y()), destinationRect.size());
        destinationRect.move(-absolutePaintRect().x(), -absolutePaintRect().y());
        filterContext->drawImageBuffer(imageBuffer2, destinationRect, &source2Rect);
        filterContext->drawImageBuffer(imageBuffer, destinationRect, &sourceRect, CompositeSourceIn);
        break;
    }
    case FECOMPOSITE_OPERATOR_OUT:
        filterContext->drawImageBuffer(imageBuffer, drawingRegionOfInputImage(in->absolutePaintRect()));
        filterContext->drawImageBuffer(imageBuffer2, drawingRegionOfInputImage(in2->absolutePaintRect()), 0, CompositeDestinationOut);
        break;
    case FECOMPOSITE_OPERATOR_ATOP:
        filterContext->drawImageBuffer(imageBuffer2, drawingRegionOfInputImage(in2->absolutePaintRect()));
        filterContext->drawImageBuffer(imageBuffer, drawingRegionOfInputImage(in->absolutePaintRect()), 0, CompositeSourceAtop);
        break;
    case FECOMPOSITE_OPERATOR_XOR:
        filterContext->drawImageBuffer(imageBuffer2, drawingRegionOfInputImage(in2->absolutePaintRect()));
        filterContext->drawImageBuffer(imageBuffer, drawingRegionOfInputImage(in->absolutePaintRect()), 0, CompositeXOR);
        break;
    default:
        break;
    }
}
Beispiel #26
0
void RenderSVGResourceFilter::postApplyResource(RenderObject* object, GraphicsContext*& context, unsigned short resourceMode, const Path*, const RenderSVGShape*)
{
    ASSERT(object);
    ASSERT(context);
    ASSERT_UNUSED(resourceMode, resourceMode == ApplyToDefaultMode);

    FilterData* filterData = m_filter.get(object);
    if (!filterData)
        return;

    if (filterData->markedForRemoval) {
        delete m_filter.take(object);
        return;
    }

    // We have a cycle if we are already applying the data.
    // This can occur due to FeImage referencing a source that makes use of the FEImage itself.
    if (filterData->isApplying)
        return;

    if (!filterData->isBuilt) {
        if (!filterData->savedContext) {
            removeClientFromCache(object);
            return;
        }

        context = filterData->savedContext;
        filterData->savedContext = 0;
    }

    ApplyingFilterEffectGuard isApplyingGuard(filterData);

    FilterEffect* lastEffect = filterData->builder->lastEffect();

    if (lastEffect && !filterData->boundaries.isEmpty() && !lastEffect->filterPrimitiveSubregion().isEmpty()) {
        // This is the real filtering of the object. It just needs to be called on the
        // initial filtering process. We just take the stored filter result on a
        // second drawing.
        if (!filterData->isBuilt)
            filterData->filter->setSourceImage(filterData->sourceGraphicBuffer.release());

        // Always true if filterData is just built (filterData->isBuilt is false).
        if (!lastEffect->hasResult()) {
            lastEffect->apply();
            lastEffect->correctFilterResultIfNeeded();
#if !USE(CG)
            ImageBuffer* resultImage = lastEffect->asImageBuffer();
            if (resultImage)
                resultImage->transformColorSpace(lastEffect->colorSpace(), ColorSpaceDeviceRGB);
#endif
        }
        filterData->isBuilt = true;

        ImageBuffer* resultImage = lastEffect->asImageBuffer();
        if (resultImage) {
            context->concatCTM(filterData->shearFreeAbsoluteTransform.inverse());

            context->scale(FloatSize(1 / filterData->filter->filterResolution().width(), 1 / filterData->filter->filterResolution().height()));
            context->drawImageBuffer(resultImage, object->style()->colorSpace(), lastEffect->absolutePaintRect());
            context->scale(filterData->filter->filterResolution());

            context->concatCTM(filterData->shearFreeAbsoluteTransform);
        }
    }
    filterData->sourceGraphicBuffer.clear();
}
Beispiel #27
-1
void FETile::platformApplySoftware()
{
// FIXME: See bug 47315. This is a hack to work around a compile failure, but is incorrect behavior otherwise.
#if ENABLE(SVG)
    FilterEffect* in = inputEffect(0);

    ImageBuffer* resultImage = createImageBufferResult();
    if (!resultImage)
        return;

    setIsAlphaImage(in->isAlphaImage());

    // Source input needs more attention. It has the size of the filterRegion but gives the
    // size of the cutted sourceImage back. This is part of the specification and optimization.
    FloatRect tileRect = in->maxEffectRect();
    FloatPoint inMaxEffectLocation = tileRect.location();
    FloatPoint maxEffectLocation = maxEffectRect().location();
    if (in->filterEffectType() == FilterEffectTypeSourceInput) {
        Filter* filter = this->filter();
        tileRect = filter->filterRegion();
        tileRect.scale(filter->filterResolution().width(), filter->filterResolution().height());
    }

    OwnPtr<ImageBuffer> tileImage;
    if (!SVGImageBufferTools::createImageBufferForPattern(tileRect, tileRect, tileImage, ColorSpaceDeviceRGB, filter()->renderingMode()))
        return;

    GraphicsContext* tileImageContext = tileImage->context();
    tileImageContext->translate(-inMaxEffectLocation.x(), -inMaxEffectLocation.y());
    tileImageContext->drawImageBuffer(in->asImageBuffer(), ColorSpaceDeviceRGB, in->absolutePaintRect().location());

    RefPtr<Pattern> pattern = Pattern::create(tileImage->copyImage(CopyBackingStore), true, true);

    AffineTransform patternTransform;
    patternTransform.translate(inMaxEffectLocation.x() - maxEffectLocation.x(), inMaxEffectLocation.y() - maxEffectLocation.y());
    pattern->setPatternSpaceTransform(patternTransform);
    GraphicsContext* filterContext = resultImage->context();
    filterContext->setFillPattern(pattern);
    filterContext->fillRect(FloatRect(FloatPoint(), absolutePaintRect().size()));
#endif
}