Exemplo n.º 1
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;
    }
}
Exemplo n.º 2
0
void FEComposite::apply(Filter* filter)
{
    m_in->apply(filter);
    m_in2->apply(filter);
    if (!m_in->resultImage() || !m_in2->resultImage())
        return;

    GraphicsContext* filterContext = getEffectContext();
    if (!filterContext)
        return;

    FloatRect srcRect = FloatRect(0.f, 0.f, -1.f, -1.f);
    switch (m_type) {
    case FECOMPOSITE_OPERATOR_OVER:
        filterContext->drawImageBuffer(m_in2->resultImage(), DeviceColorSpace, calculateDrawingRect(m_in2->scaledSubRegion()));
        filterContext->drawImageBuffer(m_in->resultImage(), DeviceColorSpace, calculateDrawingRect(m_in->scaledSubRegion()));
        break;
    case FECOMPOSITE_OPERATOR_IN:
        filterContext->save();
        filterContext->clipToImageBuffer(m_in2->resultImage(), calculateDrawingRect(m_in2->scaledSubRegion()));
        filterContext->drawImageBuffer(m_in->resultImage(), DeviceColorSpace, calculateDrawingRect(m_in->scaledSubRegion()));
        filterContext->restore();
        break;
    case FECOMPOSITE_OPERATOR_OUT:
        filterContext->drawImageBuffer(m_in->resultImage(), DeviceColorSpace, calculateDrawingRect(m_in->scaledSubRegion()));
        filterContext->drawImageBuffer(m_in2->resultImage(), DeviceColorSpace, calculateDrawingRect(m_in2->scaledSubRegion()), srcRect, CompositeDestinationOut);
        break;
    case FECOMPOSITE_OPERATOR_ATOP:
        filterContext->drawImageBuffer(m_in2->resultImage(), DeviceColorSpace, calculateDrawingRect(m_in2->scaledSubRegion()));
        filterContext->drawImageBuffer(m_in->resultImage(), DeviceColorSpace, calculateDrawingRect(m_in->scaledSubRegion()), srcRect, CompositeSourceAtop);
        break;
    case FECOMPOSITE_OPERATOR_XOR:
        filterContext->drawImageBuffer(m_in2->resultImage(), DeviceColorSpace, calculateDrawingRect(m_in2->scaledSubRegion()));
        filterContext->drawImageBuffer(m_in->resultImage(), DeviceColorSpace, calculateDrawingRect(m_in->scaledSubRegion()), srcRect, CompositeXOR);
        break;
    case FECOMPOSITE_OPERATOR_ARITHMETIC: {
        IntRect effectADrawingRect = calculateDrawingIntRect(m_in->scaledSubRegion());
        RefPtr<CanvasPixelArray> srcPixelArrayA(m_in->resultImage()->getPremultipliedImageData(effectADrawingRect)->data());

        IntRect effectBDrawingRect = calculateDrawingIntRect(m_in2->scaledSubRegion());
        RefPtr<ImageData> imageData(m_in2->resultImage()->getPremultipliedImageData(effectBDrawingRect));
        CanvasPixelArray* srcPixelArrayB(imageData->data());

        arithmetic(srcPixelArrayA, srcPixelArrayB, m_k1, m_k2, m_k3, m_k4);
        resultImage()->putPremultipliedImageData(imageData.get(), IntRect(IntPoint(), resultImage()->size()), IntPoint());
        }
        break;
    default:
        break;
    }
}
Exemplo n.º 3
0
void SourceAlpha::apply(Filter* filter)
{
    GraphicsContext* filterContext = getEffectContext();
    if (!filterContext)
        return;

    setIsAlphaImage(true);

    FloatRect imageRect(FloatPoint(), filter->sourceImage()->size());
    filterContext->save();
    filterContext->clipToImageBuffer(filter->sourceImage(), imageRect);
    filterContext->fillRect(imageRect, Color::black, DeviceColorSpace);
    filterContext->restore();
}
Exemplo n.º 4
0
void SourceAlpha::apply()
{
    GraphicsContext* filterContext = effectContext();
    Filter* filter = this->filter();
    if (!filterContext || !filter->sourceImage())
        return;

    setIsAlphaImage(true);

    FloatRect imageRect(FloatPoint(), absolutePaintRect().size());
    filterContext->save();
    filterContext->clipToImageBuffer(filter->sourceImage(), imageRect);
    filterContext->fillRect(imageRect, Color::black, ColorSpaceDeviceRGB);
    filterContext->restore();
}
Exemplo n.º 5
0
void SVGRenderingContext::clipToImageBuffer(GraphicsContext& context, const AffineTransform& absoluteTransform, const FloatRect& targetRect, std::unique_ptr<ImageBuffer>& imageBuffer, bool safeToClear)
{
    if (!imageBuffer)
        return;

    FloatRect absoluteTargetRect = calculateImageBufferRect(targetRect, absoluteTransform);

    // The mask image has been created in the absolute coordinate space, as the image should not be scaled.
    // So the actual masking process has to be done in the absolute coordinate space as well.
    context.concatCTM(absoluteTransform.inverse().valueOr(AffineTransform()));
    context.clipToImageBuffer(*imageBuffer, absoluteTargetRect);
    context.concatCTM(absoluteTransform);

    // When nesting resources, with objectBoundingBox as content unit types, there's no use in caching the
    // resulting image buffer as the parent resource already caches the result.
    if (safeToClear && !currentContentTransformation().isIdentity())
        imageBuffer.reset();
}
void CanvasRenderingContext2D::drawTextInternal(const String& text, float x, float y, bool fill, float /*maxWidth*/, bool /*useMaxWidth*/)
{
    GraphicsContext* c = drawingContext();
    if (!c)
        return;
    if (!state().m_invertibleCTM)
        return;
    
    const Font& font = accessFont();

    // FIXME: Handle maxWidth.
    // FIXME: Need to turn off font smoothing.

    bool rtl = canvas()->computedStyle() ? canvas()->computedStyle()->direction() == RTL : false;
    bool override = canvas()->computedStyle() ? canvas()->computedStyle()->unicodeBidi() == Override : false;

    unsigned length = text.length();
    const UChar* string = text.characters();
    TextRun textRun(string, length, 0, 0, 0, rtl, override, false, false);

    // Draw the item text at the correct point.
    FloatPoint location(x, y);
    switch (state().m_textBaseline) {
        case TopTextBaseline:
        case HangingTextBaseline:
            location.setY(y + font.ascent());
            break;
        case BottomTextBaseline:
        case IdeographicTextBaseline:
            location.setY(y - font.descent());
            break;
        case MiddleTextBaseline:
            location.setY(y - font.descent() + font.height() / 2);
            break;
        case AlphabeticTextBaseline:
        default:
             // Do nothing.
            break;
    }
    
    float width = font.width(TextRun(text, false, 0, 0, rtl, override));

    TextAlign align = state().m_textAlign;
    if (align == StartTextAlign)
         align = rtl ? RightTextAlign : LeftTextAlign;
    else if (align == EndTextAlign)
        align = rtl ? LeftTextAlign : RightTextAlign;
    
    switch (align) {
        case CenterTextAlign:
            location.setX(location.x() - width / 2);
            break;
        case RightTextAlign:
            location.setX(location.x() - width);
            break;
        default:
            break;
    }
    
    // The slop built in to this mask rect matches the heuristic used in FontCGWin.cpp for GDI text.
    FloatRect textRect = FloatRect(location.x() - font.height() / 2, location.y() - font.ascent() - font.lineGap(),
                                   width + font.height(), font.lineSpacing());
    if (!fill)
        textRect.inflate(c->strokeThickness() / 2);

    if (fill)
        canvas()->willDraw(textRect);
    else {
        // When stroking text, pointy miters can extend outside of textRect, so we
        // punt and dirty the whole canvas.
        canvas()->willDraw(FloatRect(0, 0, canvas()->width(), canvas()->height()));
    }
    
#if PLATFORM(CG)
    CanvasStyle* drawStyle = fill ? state().m_fillStyle.get() : state().m_strokeStyle.get();
    if (drawStyle->canvasGradient() || drawStyle->canvasPattern()) {
        // FIXME: The rect is not big enough for miters on stroked text.
        IntRect maskRect = enclosingIntRect(textRect);

        OwnPtr<ImageBuffer> maskImage = ImageBuffer::create(maskRect.size());

        GraphicsContext* maskImageContext = maskImage->context();

        if (fill)
            maskImageContext->setFillColor(Color::black, DeviceColorSpace);
        else {
            maskImageContext->setStrokeColor(Color::black, DeviceColorSpace);
            maskImageContext->setStrokeThickness(c->strokeThickness());
        }

        maskImageContext->setTextDrawingMode(fill ? cTextFill : cTextStroke);
        maskImageContext->translate(-maskRect.x(), -maskRect.y());
        
        maskImageContext->drawBidiText(font, textRun, location);
        
        c->save();
        c->clipToImageBuffer(maskRect, maskImage.get());
        drawStyle->applyFillColor(c);
        c->fillRect(maskRect);
        c->restore();

        return;
    }
#endif

    c->setTextDrawingMode(fill ? cTextFill : cTextStroke);
    c->drawBidiText(font, textRun, location);
}