Vector<FloatQuad> collectAbsoluteQuads(const RenderObject& renderer, const Layout& layout, bool* wasFixed)
{
    Vector<FloatQuad> quads;
    auto resolver = runResolver(downcast<RenderBlockFlow>(*renderer.parent()), layout);
    for (auto run : resolver.rangeForRenderer(renderer))
        quads.append(renderer.localToAbsoluteQuad(FloatQuad(run.rect()), UseTransforms, wasFixed));
    return quads;
}
Exemplo n.º 2
0
IntPoint computeTextFirstRunLocation(const RenderText& textRenderer, const Layout& layout)
{
    auto resolver = runResolver(toRenderBlockFlow(*textRenderer.parent()), layout);
    auto begin = resolver.begin();
    if (begin == resolver.end())
        return IntPoint();
    return flooredIntPoint((*begin).rect().location());
}
IntPoint computeFirstRunLocation(const RenderObject& renderer, const Layout& layout)
{
    auto resolver = runResolver(downcast<RenderBlockFlow>(*renderer.parent()), layout);
    auto range = resolver.rangeForRenderer(renderer);
    auto begin = range.begin();
    if (begin == range.end())
        return IntPoint(0, 0);
    return flooredIntPoint((*begin).rect().location());
}
Vector<IntRect> collectAbsoluteRects(const RenderObject& renderer, const Layout& layout, const LayoutPoint& accumulatedOffset)
{
    Vector<IntRect> rects;
    auto resolver = runResolver(downcast<RenderBlockFlow>(*renderer.parent()), layout);
    for (auto run : resolver.rangeForRenderer(renderer)) {
        FloatRect rect = run.rect();
        rects.append(enclosingIntRect(FloatRect(accumulatedOffset + rect.location(), rect.size())));
    }
    return rects;
}
void paintFlow(const RenderBlockFlow& flow, const Layout& layout, PaintInfo& paintInfo, const LayoutPoint& paintOffset)
{
    if (paintInfo.phase != PaintPhaseForeground)
        return;

    RenderStyle& style = flow.style();
    if (style.visibility() != VISIBLE)
        return;

    bool debugBordersEnabled = flow.frame().settings().simpleLineLayoutDebugBordersEnabled();

    TextPainter textPainter(paintInfo.context());
    textPainter.setFont(style.fontCascade());
    textPainter.setTextPaintStyle(computeTextPaintStyle(flow.frame(), style, paintInfo));

    Optional<TextDecorationPainter> textDecorationPainter;
    if (style.textDecorationsInEffect() != TextDecorationNone) {
        const RenderText* textRenderer = childrenOfType<RenderText>(flow).first();
        if (textRenderer) {
            textDecorationPainter = TextDecorationPainter(paintInfo.context(), style.textDecorationsInEffect(), *textRenderer, false);
            textDecorationPainter->setFont(style.fontCascade());
            textDecorationPainter->setBaseline(style.fontMetrics().ascent());
        }
    }

    LayoutRect paintRect = paintInfo.rect;
    paintRect.moveBy(-paintOffset);

    auto resolver = runResolver(flow, layout);
    float strokeOverflow = std::ceil(flow.style().textStrokeWidth());
    float deviceScaleFactor = flow.document().deviceScaleFactor();
    for (auto run : resolver.rangeForRect(paintRect)) {
        if (run.start() == run.end())
            continue;

        FloatRect rect = run.rect();
        FloatRect visualOverflowRect = rect;
        visualOverflowRect.inflate(strokeOverflow);
        if (paintRect.y() > visualOverflowRect.maxY() || paintRect.maxY() < visualOverflowRect.y())
            continue;

        TextRun textRun(run.text());
        textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
        // x position indicates the line offset from the rootbox. It's always 0 in case of simple line layout.
        textRun.setXPos(0);
        FloatPoint textOrigin = FloatPoint(rect.x() + paintOffset.x(), roundToDevicePixel(run.baselinePosition() + paintOffset.y(), deviceScaleFactor));
        textPainter.paintText(textRun, textRun.length(), rect, textOrigin);
        if (textDecorationPainter) {
            textDecorationPainter->setWidth(rect.width());
            textDecorationPainter->paintTextDecoration(textRun, textOrigin, rect.location() + paintOffset);
        }
        if (debugBordersEnabled)
            paintDebugBorders(paintInfo.context(), LayoutRect(run.rect()), paintOffset);
    }
}
Exemplo n.º 6
0
Vector<FloatQuad> collectTextAbsoluteQuads(const RenderText& textRenderer, const Layout& layout, bool* wasFixed)
{
    Vector<FloatQuad> quads;
    auto resolver = runResolver(toRenderBlockFlow(*textRenderer.parent()), layout);
    for (auto it = resolver.begin(), end = resolver.end(); it != end; ++it) {
        const auto& run = *it;
        auto rect = run.rect();
        quads.append(textRenderer.localToAbsoluteQuad(FloatQuad(rect), 0, wasFixed));
    }
    return quads;
}
Exemplo n.º 7
0
Vector<IntRect> collectTextAbsoluteRects(const RenderText& textRenderer, const Layout& layout, const LayoutPoint& accumulatedOffset)
{
    Vector<IntRect> rects;
    auto resolver = runResolver(toRenderBlockFlow(*textRenderer.parent()), layout);
    for (auto it = resolver.begin(), end = resolver.end(); it != end; ++it) {
        const auto& run = *it;
        auto rect = run.rect();
        rects.append(enclosingIntRect(FloatRect(accumulatedOffset + rect.location(), rect.size())));
    }
    return rects;
}
IntRect computeBoundingBox(const RenderObject& renderer, const Layout& layout)
{
    auto resolver = runResolver(downcast<RenderBlockFlow>(*renderer.parent()), layout);
    FloatRect boundingBoxRect;
    for (auto run : resolver.rangeForRenderer(renderer)) {
        FloatRect rect = run.rect();
        if (boundingBoxRect == FloatRect())
            boundingBoxRect = rect;
        else
            boundingBoxRect.uniteEvenIfEmpty(rect);
    }
    return enclosingIntRect(boundingBoxRect);
}
Exemplo n.º 9
0
void showLineLayoutForFlow(const RenderBlockFlow& flow, const Layout& layout, int depth)
{
    int printedCharacters = 0;
    printPrefix(printedCharacters, depth);

    fprintf(stderr, "SimpleLineLayout (%u lines, %u runs) (%p)\n", layout.lineCount(), layout.runCount(), &layout);
    ++depth;

    auto resolver = runResolver(flow, layout);
    for (auto it = resolver.begin(), end = resolver.end(); it != end; ++it) {
        const auto& run = *it;
        LayoutRect r = run.rect();
        printPrefix(printedCharacters, depth);
        fprintf(stderr, "line %u run(%u, %u) (%.2f, %.2f) (%.2f, %.2f) \"%s\"\n", run.lineIndex(), run.start(), run.end(),
            r.x().toFloat(), r.y().toFloat(), r.width().toFloat(), r.height().toFloat(), run.text().toStringWithoutCopying().utf8().data());
    }
}
void showLineLayoutForFlow(const RenderBlockFlow& flow, const Layout& layout, int depth)
{
    int printedCharacters = 0;
    printPrefix(printedCharacters, depth);

    fprintf(stderr, "SimpleLineLayout (%u lines, %u runs) (%p)\n", layout.lineCount(), layout.runCount(), &layout);
    ++depth;

    for (auto run : runResolver(flow, layout)) {
        FloatRect rect = run.rect();
        printPrefix(printedCharacters, depth);
        if (run.start() < run.end()) {
            fprintf(stderr, "line %u run(%u, %u) (%.2f, %.2f) (%.2f, %.2f) \"%s\"\n", run.lineIndex(), run.start(), run.end(),
                rect.x(), rect.y(), rect.width(), rect.height(), run.text().toStringWithoutCopying().utf8().data());
        } else {
            ASSERT(run.start() == run.end());
            fprintf(stderr, "line break %u run(%u, %u) (%.2f, %.2f) (%.2f, %.2f)\n", run.lineIndex(), run.start(), run.end(), rect.x(), rect.y(), rect.width(), rect.height());
        }
    }
}
void paintFlow(const RenderBlockFlow& flow, const Layout& layout, PaintInfo& paintInfo, const LayoutPoint& paintOffset)
{
    if (paintInfo.phase != PaintPhaseForeground)
        return;

    RenderStyle& style = flow.style();
    if (style.visibility() != VISIBLE)
        return;

    RenderText& textRenderer = toRenderText(*flow.firstChild());
    ASSERT(!textRenderer.firstTextBox());

    bool debugBordersEnabled = flow.frame().settings().simpleLineLayoutDebugBordersEnabled();

    GraphicsContext& context = *paintInfo.context;

    const Font& font = style.font();
    TextPaintStyle textPaintStyle = computeTextPaintStyle(textRenderer, style, paintInfo);
    GraphicsContextStateSaver stateSaver(context, textPaintStyle.strokeWidth > 0);

    updateGraphicsContext(context, textPaintStyle);
    LayoutRect paintRect = paintInfo.rect;
    paintRect.moveBy(-paintOffset);

    auto resolver = runResolver(flow, layout);
    auto range = resolver.rangeForRect(paintRect);
    for (auto it = range.begin(), end = range.end(); it != end; ++it) {
        const auto& run = *it;
        if (!run.rect().intersects(paintRect))
            continue;
        TextRun textRun(run.text());
        textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
        FloatPoint textOrigin = run.baseline() + paintOffset;
        textOrigin.setY(roundToDevicePixel(LayoutUnit(textOrigin.y()), flow.document().deviceScaleFactor()));
        context.drawText(font, textRun, textOrigin);
        if (debugBordersEnabled)
            paintDebugBorders(context, run.rect(), paintOffset);
    }
}
void paintFlow(const RenderBlockFlow& flow, const Layout& layout, PaintInfo& paintInfo, const LayoutPoint& paintOffset)
{
    if (paintInfo.phase != PaintPhaseForeground)
        return;

    RenderStyle& style = flow.style();
    if (style.visibility() != VISIBLE)
        return;

    bool debugBordersEnabled = flow.frame().settings().simpleLineLayoutDebugBordersEnabled();

    GraphicsContext& context = paintInfo.context();
    const FontCascade& font = style.fontCascade();
    TextPaintStyle textPaintStyle = computeTextPaintStyle(flow.frame(), style, paintInfo);
    GraphicsContextStateSaver stateSaver(context, textPaintStyle.strokeWidth > 0);

    updateGraphicsContext(context, textPaintStyle);
    LayoutRect paintRect = paintInfo.rect;
    paintRect.moveBy(-paintOffset);

    auto resolver = runResolver(flow, layout);
    float strokeOverflow = ceilf(flow.style().textStrokeWidth());
    float deviceScaleFactor = flow.document().deviceScaleFactor();
    for (const auto& run : resolver.rangeForRect(paintRect)) {
        FloatRect rect = run.rect();
        rect.inflate(strokeOverflow);
        if (!rect.intersects(paintRect) || run.start() == run.end())
            continue;
        TextRun textRun(run.text());
        textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
        // x position indicates the line offset from the rootbox. It's always 0 in case of simple line layout.
        textRun.setXPos(0);
        FloatPoint textOrigin = FloatPoint(rect.x() + paintOffset.x(), roundToDevicePixel(run.baselinePosition() + paintOffset.y(), deviceScaleFactor));
        context.drawText(font, textRun, textOrigin);
        if (debugBordersEnabled)
            paintDebugBorders(context, LayoutRect(run.rect()), paintOffset);
    }
}