Ejemplo n.º 1
0
float RootInlineBox::placeEllipsis(const AtomicString& ellipsisStr,  bool ltr, float blockLeftEdge, float blockRightEdge, float ellipsisWidth, InlineBox* markupBox)
{
    if (!gEllipsisBoxMap)
        gEllipsisBoxMap = new EllipsisBoxMap();

    // Create an ellipsis box.
    auto newEllipsisBox = std::make_unique<EllipsisBox>(blockFlow(), ellipsisStr, this, ellipsisWidth - (markupBox ? markupBox->logicalWidth() : 0), logicalHeight(), y(), !prevRootBox(), isHorizontal(), markupBox);
    auto ellipsisBox = newEllipsisBox.get();

    gEllipsisBoxMap->add(this, std::move(newEllipsisBox));
    setHasEllipsisBox(true);

    // FIXME: Do we need an RTL version of this?
    if (ltr && (x() + logicalWidth() + ellipsisWidth) <= blockRightEdge) {
        ellipsisBox->setX(x() + logicalWidth());
        return logicalWidth() + ellipsisWidth;
    }

    // Now attempt to find the nearest glyph horizontally and place just to the right (or left in RTL)
    // of that glyph.  Mark all of the objects that intersect the ellipsis box as not painting (as being
    // truncated).
    bool foundBox = false;
    float truncatedWidth = 0;
    float position = placeEllipsisBox(ltr, blockLeftEdge, blockRightEdge, ellipsisWidth, truncatedWidth, foundBox);
    ellipsisBox->setX(position);
    return truncatedWidth;
}
LayoutUnit RenderMathMLFraction::horizontalOffset(RenderBox& child, MathMLFractionElement::FractionAlignment align)
{
    switch (align) {
    case MathMLFractionElement::FractionAlignmentRight:
        return LayoutUnit(logicalWidth() - child.logicalWidth());
    case MathMLFractionElement::FractionAlignmentCenter:
        return LayoutUnit((logicalWidth() - child.logicalWidth()) / 2);
    case MathMLFractionElement::FractionAlignmentLeft:
        return LayoutUnit(0);
    }

    ASSERT_NOT_REACHED();
    return LayoutUnit(0);
}
void RenderMathMLPadded::layoutBlock(bool relayoutChildren, LayoutUnit)
{
    ASSERT(needsLayout());

    if (!relayoutChildren && simplifiedLayout())
        return;

    // We first layout our children as a normal <mrow> element.
    LayoutUnit contentAscent, contentDescent, contentWidth;
    contentAscent = contentDescent = 0;
    RenderMathMLRow::computeLineVerticalStretch(contentAscent, contentDescent);
    RenderMathMLRow::layoutRowItems(contentAscent, contentDescent);
    contentWidth = logicalWidth();

    // We parse the mpadded attributes using the content metrics as the default value.
    LayoutUnit width = contentWidth;
    LayoutUnit ascent = contentAscent;
    LayoutUnit descent = contentDescent;
    LayoutUnit lspace = 0;
    LayoutUnit voffset = 0;
    resolveAttributes(width, ascent, descent, lspace, voffset);

    // Align children on the new baseline and shift them by (lspace, -voffset)
    LayoutPoint contentLocation(lspace, ascent - contentAscent - voffset);
    for (auto* child = firstChildBox(); child; child = child->nextSiblingBox())
        child->setLocation(child->location() + contentLocation);

    // Set the final metrics.
    setLogicalWidth(width);
    m_ascent = ascent;
    setLogicalHeight(ascent + descent);

    clearNeedsLayout();
}
Ejemplo n.º 4
0
VisiblePosition RenderReplaced::positionForPoint(const LayoutPoint& point, const RenderRegion* region)
{
    // FIXME: This code is buggy if the replaced element is relative positioned.
    InlineBox* box = inlineBoxWrapper();
    const RootInlineBox* rootBox = box ? &box->root() : 0;
    
    LayoutUnit top = rootBox ? rootBox->selectionTop() : logicalTop();
    LayoutUnit bottom = rootBox ? rootBox->selectionBottom() : logicalBottom();
    
    LayoutUnit blockDirectionPosition = isHorizontalWritingMode() ? point.y() + y() : point.x() + x();
    LayoutUnit lineDirectionPosition = isHorizontalWritingMode() ? point.x() + x() : point.y() + y();
    
    if (blockDirectionPosition < top)
        return createVisiblePosition(caretMinOffset(), DOWNSTREAM); // coordinates are above
    
    if (blockDirectionPosition >= bottom)
        return createVisiblePosition(caretMaxOffset(), DOWNSTREAM); // coordinates are below
    
    if (element()) {
        if (lineDirectionPosition <= logicalLeft() + (logicalWidth() / 2))
            return createVisiblePosition(0, DOWNSTREAM);
        return createVisiblePosition(1, DOWNSTREAM);
    }

    return RenderBox::positionForPoint(point, region);
}
Ejemplo n.º 5
0
void EllipsisBox::paint(PaintInfo& paintInfo, const LayoutPoint& paintOffset, LayoutUnit lineTop, LayoutUnit lineBottom)
{
    GraphicsContext* context = paintInfo.context;
    RenderStyle* style = renderer().style(isFirstLineStyle());
    const Font& font = style->font();
    FloatPoint boxOrigin = locationIncludingFlipping();
    boxOrigin.moveBy(FloatPoint(paintOffset));
    if (!isHorizontal())
        boxOrigin.move(0, -virtualLogicalHeight());
    FloatRect boxRect(boxOrigin, LayoutSize(logicalWidth(), virtualLogicalHeight()));
    GraphicsContextStateSaver stateSaver(*context);
    if (!isHorizontal())
        context->concatCTM(InlineTextBox::rotation(boxRect, InlineTextBox::Clockwise));
    FloatPoint textOrigin(boxOrigin.x(), boxOrigin.y() + font.fontMetrics().ascent());

    bool isPrinting = renderer().document().printing();
    bool haveSelection = !isPrinting && paintInfo.phase != PaintPhaseTextClip && selectionState() != RenderObject::SelectionNone;

    if (haveSelection)
        paintSelection(context, boxOrigin, style, font);
    else if (paintInfo.phase == PaintPhaseSelection)
        return;

    TextPainter::Style textStyle = TextPainter::textPaintingStyle(renderer(), style, paintInfo.forceBlackText(), isPrinting);
    if (haveSelection)
        textStyle = TextPainter::selectionPaintingStyle(renderer(), true, paintInfo.forceBlackText(), isPrinting, textStyle);

    TextRun textRun = constructTextRun(&renderer(), font, m_str, style, TextRun::AllowTrailingExpansion);
    TextPainter textPainter(context, font, textRun, textOrigin, boxRect, isHorizontal());
    textPainter.paint(0, m_str.length(), m_str.length(), textStyle);

    paintMarkupBox(paintInfo, paintOffset, lineTop, lineBottom, style);
}
Ejemplo n.º 6
0
PositionWithAffinity LayoutReplaced::positionForPoint(const LayoutPoint& point)
{
    // FIXME: This code is buggy if the replaced element is relative positioned.
    InlineBox* box = inlineBoxWrapper();
    RootInlineBox* rootBox = box ? &box->root() : 0;

    LayoutUnit top = rootBox ? rootBox->selectionTop() : logicalTop();
    LayoutUnit bottom = rootBox ? rootBox->selectionBottom() : logicalBottom();

    LayoutUnit blockDirectionPosition = isHorizontalWritingMode() ? point.y() + location().y() : point.x() + location().x();
    LayoutUnit lineDirectionPosition = isHorizontalWritingMode() ? point.x() + location().x() : point.y() + location().y();

    if (blockDirectionPosition < top)
        return createPositionWithAffinity(caretMinOffset()); // coordinates are above

    if (blockDirectionPosition >= bottom)
        return createPositionWithAffinity(caretMaxOffset()); // coordinates are below

    if (node()) {
        if (lineDirectionPosition <= logicalLeft() + (logicalWidth() / 2))
            return createPositionWithAffinity(0);
        return createPositionWithAffinity(1);
    }

    return LayoutBox::positionForPoint(point);
}
bool LayoutMultiColumnFlowThread::needsNewWidth() const
{
    LayoutUnit newWidth;
    unsigned dummyColumnCount; // We only care if used column-width changes.
    calculateColumnCountAndWidth(newWidth, dummyColumnCount);
    return newWidth != logicalWidth();
}
Ejemplo n.º 8
0
void EllipsisBox::paint(PaintInfo& paintInfo, const LayoutPoint& paintOffset, LayoutUnit lineTop, LayoutUnit lineBottom)
{
    GraphicsContext* context = paintInfo.context;
    RenderStyle* style = m_renderer->style(isFirstLineStyle());
    Color styleTextColor = style->visitedDependentColor(CSSPropertyWebkitTextFillColor);
    if (styleTextColor != context->fillColor())
        context->setFillColor(styleTextColor, style->colorSpace());

    Color textColor = styleTextColor;
    const Font& font = style->font();
    if (selectionState() != RenderObject::SelectionNone) {
        paintSelection(context, paintOffset, style, font);

        // Select the correct color for painting the text.
        Color foreground = paintInfo.forceBlackText() ? Color::black : renderer()->selectionForegroundColor();
        if (foreground.isValid() && foreground != styleTextColor)
            context->setFillColor(foreground, style->colorSpace());
    }

    const ShadowData* shadow = style->textShadow();
    bool hasShadow = shadow;
    if (hasShadow) {
        // FIXME: it would be better if we could get the shadows top-to-bottom from the style.
        Vector<const ShadowData*, 4> shadows;
        do {
            shadows.append(shadow);
        } while ((shadow = shadow->next()));

        DrawLooper drawLooper;
        drawLooper.addUnmodifiedContent();
        for (int i = shadows.size() - 1; i >= 0; i--) {
            shadow = shadows[i];
            int shadowX = isHorizontal() ? shadow->x() : shadow->y();
            int shadowY = isHorizontal() ? shadow->y() : -shadow->x();
            FloatSize offset(shadowX, shadowY);
            drawLooper.addShadow(offset, shadow->blur(), shadow->color(),
                DrawLooper::ShadowRespectsTransforms, DrawLooper::ShadowIgnoresAlpha);
        }
        context->setDrawLooper(drawLooper);
    }

    // FIXME: Why is this always LTR? Fix by passing correct text run flags below.
    FloatPoint boxOrigin(paintOffset);
    boxOrigin.move(x(), y());
    FloatRect boxRect(boxOrigin, LayoutSize(logicalWidth(), logicalHeight()));
    FloatPoint textOrigin(boxOrigin.x(), boxOrigin.y() + style->fontMetrics().ascent());
    TextRun textRun = RenderBlock::constructTextRun(renderer(), font, m_str, style, TextRun::AllowTrailingExpansion);
    TextRunPaintInfo textRunPaintInfo(textRun);
    textRunPaintInfo.bounds = boxRect;
    context->drawText(font, textRunPaintInfo, textOrigin);

    // Restore the regular fill color.
    if (styleTextColor != context->fillColor())
        context->setFillColor(styleTextColor, style->colorSpace());

    if (hasShadow)
        context->clearDrawLooper();

    paintMarkupBox(paintInfo, paintOffset, lineTop, lineBottom, style);
}
Ejemplo n.º 9
0
void RenderFlowThread::updateRegionsFlowThreadPortionRect()
{
    LayoutUnit logicalHeight = 0;
    for (RenderRegionList::iterator iter = m_regionList.begin(); iter != m_regionList.end(); ++iter) {
        RenderRegion* region = *iter;

        LayoutUnit regionLogicalWidth = region->pageLogicalWidth();
        LayoutUnit regionLogicalHeight = region->logicalHeightOfAllFlowThreadContent();

        LayoutRect regionRect(style()->direction() == LTR ? LayoutUnit() : logicalWidth() - regionLogicalWidth, logicalHeight, regionLogicalWidth, regionLogicalHeight);

        // When a flow thread has more than one auto logical height region,
        // we have to take into account the override logical content height value,
        // if computed for an auto logical height region, and use it to set the height
        // for the region rect. This way, the regions in the chain following the auto
        // logical height region, will be able to fragment the right part of their
        // associated flow thread content (and compute their overrideComputedLogicalHeight properly).
        if (view()->normalLayoutPhase()) {
            ASSERT(region->hasOverrideHeight() || !region->hasAutoLogicalHeight());
            if (region->hasOverrideHeight())
                regionLogicalHeight = region->overrideLogicalContentHeight();

            regionRect.setHeight(regionLogicalHeight);
        }

        region->setFlowThreadPortionRect(isHorizontalWritingMode() ? regionRect : regionRect.transposedRect());
        logicalHeight += regionLogicalHeight;
    }
}
Ejemplo n.º 10
0
void EllipsisBox::paint(PaintInfo& paintInfo, const LayoutPoint& paintOffset, LayoutUnit lineTop, LayoutUnit lineBottom)
{
    GraphicsContext* context = paintInfo.context;
    RenderStyle* style = renderer().style(isFirstLineStyle());

    const Font& font = style->font();
    FloatPoint boxOrigin = locationIncludingFlipping();
    boxOrigin.moveBy(FloatPoint(paintOffset));
    if (!isHorizontal())
        boxOrigin.move(0, -virtualLogicalHeight());
    FloatRect boxRect(boxOrigin, LayoutSize(logicalWidth(), virtualLogicalHeight()));
    GraphicsContextStateSaver stateSaver(*context);
    if (!isHorizontal())
        context->concatCTM(InlineTextBox::rotation(boxRect, InlineTextBox::Clockwise));
    FloatPoint textOrigin = FloatPoint(boxOrigin.x(), boxOrigin.y() + font.fontMetrics().ascent());

    Color styleTextColor = renderer().resolveColor(style, CSSPropertyWebkitTextFillColor);
    if (styleTextColor != context->fillColor())
        context->setFillColor(styleTextColor);

    if (selectionState() != RenderObject::SelectionNone) {
        paintSelection(context, boxOrigin, style, font);

        // Select the correct color for painting the text.
        Color foreground = paintInfo.forceBlackText() ? Color::black : renderer().selectionForegroundColor();
        if (foreground != styleTextColor)
            context->setFillColor(foreground);
    }

    // Text shadows are disabled when printing. http://crbug.com/258321
    const ShadowList* shadowList = context->printing() ? 0 : style->textShadow();
    bool hasShadow = shadowList;
    if (hasShadow) {
        OwnPtr<DrawLooperBuilder> drawLooperBuilder = DrawLooperBuilder::create();
        for (size_t i = shadowList->shadows().size(); i--; ) {
            const ShadowData& shadow = shadowList->shadows()[i];
            float shadowX = isHorizontal() ? shadow.x() : shadow.y();
            float shadowY = isHorizontal() ? shadow.y() : -shadow.x();
            FloatSize offset(shadowX, shadowY);
            drawLooperBuilder->addShadow(offset, shadow.blur(), shadow.color(),
                DrawLooperBuilder::ShadowRespectsTransforms, DrawLooperBuilder::ShadowIgnoresAlpha);
        }
        drawLooperBuilder->addUnmodifiedContent();
        context->setDrawLooper(drawLooperBuilder.release());
    }

    TextRun textRun = RenderBlockFlow::constructTextRun(&renderer(), font, m_str, style, TextRun::AllowTrailingExpansion);
    TextRunPaintInfo textRunPaintInfo(textRun);
    textRunPaintInfo.bounds = boxRect;
    context->drawText(font, textRunPaintInfo, textOrigin);

    // Restore the regular fill color.
    if (styleTextColor != context->fillColor())
        context->setFillColor(styleTextColor);

    if (hasShadow)
        context->clearDrawLooper();

    paintMarkupBox(paintInfo, paintOffset, lineTop, lineBottom, style);
}
Ejemplo n.º 11
0
void RenderView::layout()
{
    StackStats::LayoutCheckPoint layoutCheckPoint;
    if (!document().paginated())
        setPageLogicalHeight(0);

    if (shouldUsePrintingLayout())
        m_minPreferredLogicalWidth = m_maxPreferredLogicalWidth = logicalWidth();

    // Use calcWidth/Height to get the new width/height, since this will take the full page zoom factor into account.
    bool relayoutChildren = !shouldUsePrintingLayout() && (width() != viewWidth() || height() != viewHeight());
    if (relayoutChildren) {
        setChildNeedsLayout(MarkOnlyThis);
        for (RenderObject* child = firstChild(); child; child = child->nextSibling()) {
            if (!child->isBox())
                continue;
            RenderBox& box = toRenderBox(*child);
            if (box.hasRelativeLogicalHeight()
                || box.hasViewportPercentageLogicalHeight()
                || box.style()->logicalHeight().isPercent()
                || box.style()->logicalMinHeight().isPercent()
                || box.style()->logicalMaxHeight().isPercent()
                || box.style()->logicalHeight().isViewportPercentage()
                || box.style()->logicalMinHeight().isViewportPercentage()
                || box.style()->logicalMaxHeight().isViewportPercentage()
#if ENABLE(SVG)
                || box.isSVGRoot()
#endif
                )
                box.setChildNeedsLayout(MarkOnlyThis);
        }
    }

    ASSERT(!m_layoutState);
    if (!needsLayout())
        return;

    m_layoutState = std::make_unique<LayoutState>();
    bool isSeamlessAncestorInFlowThread = initializeLayoutState(*m_layoutState);

    m_pageLogicalHeightChanged = false;

    if (checkTwoPassLayoutForAutoHeightRegions())
        layoutContentInAutoLogicalHeightRegions(*m_layoutState);
    else
        layoutContent(*m_layoutState);

    layoutContentToComputeOverflowInRegions(*m_layoutState);

#ifndef NDEBUG
    checkLayoutState(*m_layoutState);
#endif
    m_layoutState = nullptr;
    clearNeedsLayout();
    
    if (isSeamlessAncestorInFlowThread)
        flowThreadController().setCurrentRenderFlowThread(0);
}
Ejemplo n.º 12
0
void RenderView::layout()
{
    StackStats::LayoutCheckPoint layoutCheckPoint;
    if (!document()->paginated())
        setPageLogicalHeight(0);

    if (shouldUsePrintingLayout())
        m_minPreferredLogicalWidth = m_maxPreferredLogicalWidth = logicalWidth();

    // Use calcWidth/Height to get the new width/height, since this will take the full page zoom factor into account.
    bool relayoutChildren = !shouldUsePrintingLayout() && (!m_frameView || width() != viewWidth() || height() != viewHeight());
    if (relayoutChildren) {
        setChildNeedsLayout(true, MarkOnlyThis);
        for (RenderObject* child = firstChild(); child; child = child->nextSibling()) {
            if ((child->isBox() && toRenderBox(child)->hasRelativeLogicalHeight())
                    || child->style()->logicalHeight().isPercent()
                    || child->style()->logicalMinHeight().isPercent()
                    || child->style()->logicalMaxHeight().isPercent())
                child->setChildNeedsLayout(true, MarkOnlyThis);
        }
    }

    ASSERT(!m_layoutState);
    if (!needsLayout())
        return;

    LayoutState state;
    // FIXME: May be better to push a clip and avoid issuing offscreen repaints.
    state.m_clipped = false;
    state.m_pageLogicalHeight = m_pageLogicalHeight;
    state.m_pageLogicalHeightChanged = m_pageLogicalHeightChanged;
    state.m_isPaginated = state.m_pageLogicalHeight;
    m_pageLogicalHeightChanged = false;
    m_layoutState = &state;

    m_layoutPhase = RenderViewNormalLayout;
    bool needsTwoPassLayoutForAutoLogicalHeightRegions = hasRenderNamedFlowThreads()
        && flowThreadController()->hasAutoLogicalHeightRegions()
        && flowThreadController()->hasRenderNamedFlowThreadsNeedingLayout();

    if (needsTwoPassLayoutForAutoLogicalHeightRegions)
        flowThreadController()->resetRegionsOverrideLogicalContentHeight();

    layoutContent(state);

    if (needsTwoPassLayoutForAutoLogicalHeightRegions) {
        m_layoutPhase = ConstrainedFlowThreadsLayoutInAutoLogicalHeightRegions;
        flowThreadController()->markAutoLogicalHeightRegionsForLayout();
        layoutContent(state);
    }

#ifndef NDEBUG
    checkLayoutState(state);
#endif
    m_layoutState = 0;
    setNeedsLayout(false);
}
Ejemplo n.º 13
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int LayoutTextControl::textBlockLogicalWidth() const {
    Element* innerEditor = innerEditorElement();
    ASSERT(innerEditor);

    LayoutUnit unitWidth = logicalWidth() - borderAndPaddingLogicalWidth();
    if (innerEditor->layoutObject())
        unitWidth -= innerEditor->layoutBox()->paddingStart() +
                     innerEditor->layoutBox()->paddingEnd();

    return unitWidth.toInt();
}
Ejemplo n.º 14
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bool RootInlineBox::lineCanAccommodateEllipsis(bool ltr, int blockEdge, int lineBoxEdge, int ellipsisWidth)
{
    // First sanity-check the unoverflowed width of the whole line to see if there is sufficient room.
    int delta = ltr ? lineBoxEdge - blockEdge : blockEdge - lineBoxEdge;
    if (logicalWidth() - delta < ellipsisWidth)
        return false;

    // Next iterate over all the line boxes on the line.  If we find a replaced element that intersects
    // then we refuse to accommodate the ellipsis.  Otherwise we're ok.
    return InlineFlowBox::canAccommodateEllipsis(ltr, blockEdge, ellipsisWidth);
}
Ejemplo n.º 15
0
int RenderTextControl::textBlockLogicalWidth() const
{
    TextControlInnerTextElement* innerText = innerTextElement();
    ASSERT(innerText);

    LayoutUnit unitWidth = logicalWidth() - borderAndPaddingLogicalWidth();
    if (innerText->renderer())
        unitWidth -= innerText->renderBox()->paddingStart() + innerText->renderBox()->paddingEnd();

    return unitWidth;
}
Ejemplo n.º 16
0
bool SVGInlineTextBox::nodeAtPoint(HitTestResult& result,
                                   const HitTestLocation& locationInContainer,
                                   const LayoutPoint& accumulatedOffset,
                                   LayoutUnit,
                                   LayoutUnit) {
  // FIXME: integrate with InlineTextBox::nodeAtPoint better.
  ASSERT(!isLineBreak());

  PointerEventsHitRules hitRules(PointerEventsHitRules::SVG_TEXT_HITTESTING,
                                 result.hitTestRequest(),
                                 getLineLayoutItem().style()->pointerEvents());
  bool isVisible =
      getLineLayoutItem().style()->visibility() == EVisibility::Visible;
  if (isVisible || !hitRules.requireVisible) {
    if (hitRules.canHitBoundingBox ||
        (hitRules.canHitStroke &&
         (getLineLayoutItem().style()->svgStyle().hasStroke() ||
          !hitRules.requireStroke)) ||
        (hitRules.canHitFill &&
         (getLineLayoutItem().style()->svgStyle().hasFill() ||
          !hitRules.requireFill))) {
      LayoutRect rect(topLeft(), LayoutSize(logicalWidth(), logicalHeight()));
      rect.moveBy(accumulatedOffset);
      if (locationInContainer.intersects(rect)) {
        LineLayoutSVGInlineText lineLayoutItem =
            LineLayoutSVGInlineText(this->getLineLayoutItem());
        const SimpleFontData* fontData =
            lineLayoutItem.scaledFont().primaryFont();
        DCHECK(fontData);
        if (!fontData)
          return false;

        DCHECK(lineLayoutItem.scalingFactor());
        float baseline = fontData->getFontMetrics().floatAscent() /
                         lineLayoutItem.scalingFactor();
        FloatPoint floatLocation = FloatPoint(locationInContainer.point());
        for (const SVGTextFragment& fragment : m_textFragments) {
          FloatQuad fragmentQuad = fragment.boundingQuad(baseline);
          if (fragmentQuad.containsPoint(floatLocation)) {
            lineLayoutItem.updateHitTestResult(
                result,
                locationInContainer.point() - toLayoutSize(accumulatedOffset));
            if (result.addNodeToListBasedTestResult(lineLayoutItem.node(),
                                                    locationInContainer,
                                                    rect) == StopHitTesting)
              return true;
          }
        }
      }
    }
  }
  return false;
}
Ejemplo n.º 17
0
IntRect RootInlineBox::computeCaretRect(float logicalLeftPosition, unsigned caretWidth, LayoutUnit* extraWidthToEndOfLine) const
{
    int height = selectionHeight();
    int top = selectionTop();

    // Distribute the caret's width to either side of the offset.
    float left = logicalLeftPosition;
    int caretWidthLeftOfOffset = caretWidth / 2;
    left -= caretWidthLeftOfOffset;
    int caretWidthRightOfOffset = caretWidth - caretWidthLeftOfOffset;
    left = roundf(left);

    float rootLeft = logicalLeft();
    float rootRight = logicalRight();

    if (extraWidthToEndOfLine)
        *extraWidthToEndOfLine = (logicalWidth() + rootLeft) - (left + caretWidth);

    const RenderStyle& blockStyle = blockFlow().style();

    bool rightAligned = false;
    switch (blockStyle.textAlign()) {
    case RIGHT:
    case WEBKIT_RIGHT:
        rightAligned = true;
        break;
    case LEFT:
    case WEBKIT_LEFT:
    case CENTER:
    case WEBKIT_CENTER:
        break;
    case JUSTIFY:
    case TASTART:
        rightAligned = !blockStyle.isLeftToRightDirection();
        break;
    case TAEND:
        rightAligned = blockStyle.isLeftToRightDirection();
        break;
    }

    float leftEdge = std::min<float>(0, rootLeft);
    float rightEdge = std::max<float>(blockFlow().logicalWidth(), rootRight);

    if (rightAligned) {
        left = std::max(left, leftEdge);
        left = std::min(left, rootRight - caretWidth);
    } else {
        left = std::min(left, rightEdge - caretWidthRightOfOffset);
        left = std::max(left, rootLeft);
    }
    return blockStyle.isHorizontalWritingMode() ? IntRect(left, top, caretWidth, height) : IntRect(top, left, height, caretWidth);
}
Ejemplo n.º 18
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void RenderView::layout()
{
    if (!document().paginated())
        setPageLogicalHeight(0);

    if (shouldUsePrintingLayout())
        m_minPreferredLogicalWidth = m_maxPreferredLogicalWidth = logicalWidth();

    SubtreeLayoutScope layoutScope(this);

    // Use calcWidth/Height to get the new width/height, since this will take the full page zoom factor into account.
    bool relayoutChildren = !shouldUsePrintingLayout() && (!m_frameView || width() != viewWidth() || height() != viewHeight());
    if (relayoutChildren) {
        layoutScope.setChildNeedsLayout(this);
        for (RenderObject* child = firstChild(); child; child = child->nextSibling()) {
            if (child->isSVGRoot())
                continue;

            if ((child->isBox() && toRenderBox(child)->hasRelativeLogicalHeight())
                    || child->style()->logicalHeight().isPercent()
                    || child->style()->logicalMinHeight().isPercent()
                    || child->style()->logicalMaxHeight().isPercent())
                layoutScope.setChildNeedsLayout(child);
        }

        if (document().svgExtensions())
            document().accessSVGExtensions()->invalidateSVGRootsWithRelativeLengthDescendents(&layoutScope);
    }

    ASSERT(!m_layoutState);
    if (!needsLayout())
        return;

    LayoutState state;
    initializeLayoutState(state);

    m_pageLogicalHeightChanged = false;
    m_layoutState = &state;

    layoutContent(state);

    if (m_frameView->partialLayout().isStopping()) {
        m_layoutState = 0;
        return;
    }

#ifndef NDEBUG
    checkLayoutState(state);
#endif
    m_layoutState = 0;
    clearNeedsLayout();
}
Ejemplo n.º 19
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int InlineTextBox::offsetForPosition(LayoutUnit lineOffset, bool includePartialGlyphs) const
{
    if (isLineBreak())
        return 0;

    if (lineOffset - logicalLeft() > logicalWidth())
        return isLeftToRightDirection() ? len() : 0;
    if (lineOffset - logicalLeft() < 0)
        return isLeftToRightDirection() ? 0 : len();

    LineLayoutText text = lineLayoutItem();
    const ComputedStyle& style = text.styleRef(isFirstLineStyle());
    const Font& font = style.font();
    return font.offsetForPosition(constructTextRun(style, font), (lineOffset - logicalLeft()).toFloat(), includePartialGlyphs);
}
Ejemplo n.º 20
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void RenderMathMLRoot::computePreferredLogicalWidths()
{
    ASSERT(preferredLogicalWidthsDirty() && needsLayout());
    
#ifndef NDEBUG
    // FIXME: Remove this once mathml stops modifying the render tree here.
    SetLayoutNeededForbiddenScope layoutForbiddenScope(this, false);
#endif
    
    computeChildrenPreferredLogicalHeights();
    
    int baseHeight = firstChild() ? roundToInt(preferredLogicalHeightAfterSizing(firstChild())) : style()->fontSize();
    
    int frontWidth = lroundf(gFrontWidthEms * style()->fontSize());
    
    // Base height above which the shape of the root changes
    float thresholdHeight = gThresholdBaseHeightEms * style()->fontSize();
    if (baseHeight > thresholdHeight && thresholdHeight) {
        float shift = min<float>((baseHeight - thresholdHeight) / thresholdHeight, 1.0f);
        m_overbarLeftPointShift = static_cast<int>(shift * gRadicalBottomPointXFront * frontWidth);
        m_intrinsicPaddingAfter = lroundf(gBigRootBottomPaddingEms * style()->fontSize());
    } else {
        m_overbarLeftPointShift = 0;
        m_intrinsicPaddingAfter = 0;
    }
    
    int rootPad = lroundf(gSpaceAboveEms * style()->fontSize());
    m_intrinsicPaddingBefore = rootPad;
    m_indexTop = 0;
    if (RenderBoxModelObject* index = this->index()) {
        m_intrinsicPaddingStart = roundToInt(index->maxPreferredLogicalWidth()) + m_overbarLeftPointShift;
        
        int indexHeight = roundToInt(preferredLogicalHeightAfterSizing(index));
        int partDipHeight = lroundf((1 - gRootRadicalDipLeftPointYPos) * baseHeight);
        int rootExtraTop = partDipHeight + indexHeight - (baseHeight + rootPad);
        if (rootExtraTop > 0)
            m_intrinsicPaddingBefore += rootExtraTop;
        else
            m_indexTop = - rootExtraTop;
    } else
        m_intrinsicPaddingStart = frontWidth;

    RenderMathMLBlock::computePreferredLogicalWidths();
    
    // Shrink our logical width to its probable value now without triggering unnecessary relayout of our children.
    ASSERT(needsLayout() && logicalWidth() >= maxPreferredLogicalWidth());
    setLogicalWidth(maxPreferredLogicalWidth());
}
Ejemplo n.º 21
0
VisiblePosition RenderTextLineBoxes::positionForPoint(const RenderText& renderer, const LayoutPoint& point) const
{
    if (!m_first || !renderer.textLength())
        return renderer.createVisiblePosition(0, DOWNSTREAM);

    LayoutUnit pointLineDirection = m_first->isHorizontal() ? point.x() : point.y();
    LayoutUnit pointBlockDirection = m_first->isHorizontal() ? point.y() : point.x();
    bool blocksAreFlipped = renderer.style().isFlippedBlocksWritingMode();

    InlineTextBox* lastBox = nullptr;
    for (auto box = m_first; box; box = box->nextTextBox()) {
        if (box->isLineBreak() && !box->prevLeafChild() && box->nextLeafChild() && !box->nextLeafChild()->isLineBreak())
            box = box->nextTextBox();

        auto& rootBox = box->root();
        LayoutUnit top = std::min(rootBox.selectionTop(), rootBox.lineTop());
        if (pointBlockDirection > top || (!blocksAreFlipped && pointBlockDirection == top)) {
            LayoutUnit bottom = rootBox.selectionBottom();
            if (rootBox.nextRootBox())
                bottom = std::min(bottom, rootBox.nextRootBox()->lineTop());

            if (pointBlockDirection < bottom || (blocksAreFlipped && pointBlockDirection == bottom)) {
                ShouldAffinityBeDownstream shouldAffinityBeDownstream;
#if PLATFORM(IOS)
                if (pointLineDirection != box->logicalLeft() && point.x() < box->x() + box->logicalWidth()) {
                    int half = box->x() + box->logicalWidth() / 2;
                    EAffinity affinity = point.x() < half ? DOWNSTREAM : VP_UPSTREAM_IF_POSSIBLE;
                    return renderer.createVisiblePosition(box->offsetForPosition(pointLineDirection) + box->start(), affinity);
                }
#endif
                if (lineDirectionPointFitsInBox(pointLineDirection, *box, shouldAffinityBeDownstream))
                    return createVisiblePositionAfterAdjustingOffsetForBiDi(*box, box->offsetForPosition(pointLineDirection), shouldAffinityBeDownstream);
            }
        }
        lastBox = box;
    }

    if (lastBox) {
        ShouldAffinityBeDownstream shouldAffinityBeDownstream;
        lineDirectionPointFitsInBox(pointLineDirection, *lastBox, shouldAffinityBeDownstream);
        return createVisiblePositionAfterAdjustingOffsetForBiDi(*lastBox, lastBox->offsetForPosition(pointLineDirection) + lastBox->start(), shouldAffinityBeDownstream);
    }
    return renderer.createVisiblePosition(0, DOWNSTREAM);
}
Ejemplo n.º 22
0
void EllipsisBox::paint(PaintInfo& paintInfo, const LayoutPoint& paintOffset, LayoutUnit lineTop, LayoutUnit lineBottom)
{
    GraphicsContext* context = paintInfo.context;
    RenderStyle* style = renderer().style(isFirstLineStyle());

    const Font& font = style->font();
    FloatPoint boxOrigin = locationIncludingFlipping();
    boxOrigin.moveBy(FloatPoint(paintOffset));
    FloatRect boxRect(boxOrigin, LayoutSize(logicalWidth(), virtualLogicalHeight()));
    GraphicsContextStateSaver stateSaver(*context);
    FloatPoint textOrigin = FloatPoint(boxOrigin.x(), boxOrigin.y() + font.fontMetrics().ascent());

    Color styleTextColor = renderer().resolveColor(style, CSSPropertyWebkitTextFillColor);
    if (styleTextColor != context->fillColor())
        context->setFillColor(styleTextColor);

    if (selectionState() != RenderObject::SelectionNone) {
        paintSelection(context, boxOrigin, style, font);

        // Select the correct color for painting the text.
        Color foreground = paintInfo.forceBlackText() ? Color::black : renderer().selectionForegroundColor();
        if (foreground != styleTextColor)
            context->setFillColor(foreground);
    }

    const ShadowList* shadowList = style->textShadow();
    bool hasShadow = shadowList;
    if (hasShadow)
        context->setDrawLooper(shadowList->createDrawLooper(DrawLooperBuilder::ShadowIgnoresAlpha));

    TextRun textRun = constructTextRun(&renderer(), font, m_str, style, TextRun::AllowTrailingExpansion);
    TextRunPaintInfo textRunPaintInfo(textRun);
    textRunPaintInfo.bounds = boxRect;
    context->drawText(font, textRunPaintInfo, textOrigin);

    // Restore the regular fill color.
    if (styleTextColor != context->fillColor())
        context->setFillColor(styleTextColor);

    if (hasShadow)
        context->clearDrawLooper();

    paintMarkupBox(paintInfo, paintOffset, lineTop, lineBottom, style);
}
Ejemplo n.º 23
0
void RenderView::layout()
{
    if (!document()->paginated())
        setPageLogicalHeight(0);

    if (shouldUsePrintingLayout())
        m_minPreferredLogicalWidth = m_maxPreferredLogicalWidth = logicalWidth();

    // Use calcWidth/Height to get the new width/height, since this will take the full page zoom factor into account.
    bool relayoutChildren = !shouldUsePrintingLayout() && (!m_frameView || width() != viewWidth() || height() != viewHeight());
    if (relayoutChildren) {
        setChildNeedsLayout(true, MarkOnlyThis);
        for (RenderObject* child = firstChild(); child; child = child->nextSibling()) {
            if ((child->isBox() && toRenderBox(child)->hasRelativeLogicalHeight())
                    || child->style()->logicalHeight().isPercent()
                    || child->style()->logicalMinHeight().isPercent()
                    || child->style()->logicalMaxHeight().isPercent())
                child->setChildNeedsLayout(true, MarkOnlyThis);
        }
    }

    ASSERT(!m_layoutState);
    LayoutState state;
    // FIXME: May be better to push a clip and avoid issuing offscreen repaints.
    state.m_clipped = false;
    state.m_pageLogicalHeight = m_pageLogicalHeight;
    state.m_pageLogicalHeightChanged = m_pageLogicalHeightChanged;
    state.m_isPaginated = state.m_pageLogicalHeight;
    m_pageLogicalHeightChanged = false;
    m_layoutState = &state;

    if (needsLayout()) {
        RenderBlock::layout();
        if (hasRenderNamedFlowThreads())
            flowThreadController()->layoutRenderNamedFlowThreads();
    }

    ASSERT(layoutDelta() == LayoutSize());
    ASSERT(m_layoutStateDisableCount == 0);
    ASSERT(m_layoutState == &state);
    m_layoutState = 0;
    setNeedsLayout(false);
}
Ejemplo n.º 24
0
void RenderFlowThread::updateRegionsFlowThreadPortionRect()
{
    LayoutUnit logicalHeight = 0;
    // FIXME: Optimize not to clear the interval all the time. This implies manually managing the tree nodes lifecycle.
    m_multiColumnSetIntervalTree.clear();
    m_multiColumnSetIntervalTree.initIfNeeded();
    for (RenderMultiColumnSetList::iterator iter = m_multiColumnSetList.begin(); iter != m_multiColumnSetList.end(); ++iter) {
        RenderMultiColumnSet* columnSet = *iter;

        LayoutUnit columnSetLogicalWidth = columnSet->pageLogicalWidth();
        LayoutUnit columnSetLogicalHeight = std::min<LayoutUnit>(RenderFlowThread::maxLogicalHeight() - logicalHeight, columnSet->logicalHeightOfAllFlowThreadContent());

        LayoutRect columnSetRect(style()->direction() == LTR ? LayoutUnit() : logicalWidth() - columnSetLogicalWidth, logicalHeight, columnSetLogicalWidth, columnSetLogicalHeight);

        columnSet->setFlowThreadPortionRect(isHorizontalWritingMode() ? columnSetRect : columnSetRect.transposedRect());

        m_multiColumnSetIntervalTree.add(MultiColumnSetIntervalTree::createInterval(logicalHeight, logicalHeight + columnSetLogicalHeight, columnSet));

        logicalHeight += columnSetLogicalHeight;
    }
}
Ejemplo n.º 25
0
void RenderMultiColumnSet::updateLogicalWidth()
{
    RenderMultiColumnFlowThread* flowThread = multiColumnFlowThread();
    setComputedColumnWidthAndCount(flowThread->columnWidth(), flowThread->columnCount());

    // FIXME: When we add regions support, we'll start it off at the width of the multi-column
    // block in that particular region.
    setLogicalWidth(parentBox()->contentLogicalWidth());

    // If we overflow, increase our logical width.
    unsigned colCount = columnCount();
    LayoutUnit colGap = columnGap();
    LayoutUnit minimumContentLogicalWidth = colCount * computedColumnWidth() + (colCount - 1) * colGap;
    LayoutUnit currentContentLogicalWidth = contentLogicalWidth();
    LayoutUnit delta = max(LayoutUnit(), minimumContentLogicalWidth - currentContentLogicalWidth);
    if (!delta)
        return;

    // Increase our logical width by the delta.
    setLogicalWidth(logicalWidth() + delta);
}
void RenderMultiColumnSet::updateLogicalWidth()
{
    RenderMultiColumnBlock* parentBlock = toRenderMultiColumnBlock(parent());
    setComputedColumnWidthAndCount(parentBlock->columnWidth(), parentBlock->columnCount()); // FIXME: This will eventually vary if we are contained inside regions.
    
    // FIXME: When we add regions support, we'll start it off at the width of the multi-column
    // block in that particular region.
    setLogicalWidth(parentBox()->contentLogicalWidth());

    // If we overflow, increase our logical width.
    unsigned colCount = columnCount();
    if (!colCount)
        return;
    
    LayoutUnit colGap = columnGap();
    LayoutUnit minimumContentLogicalWidth = colCount * computedColumnWidth() + (colCount - 1) * colGap;
    LayoutUnit currentContentLogicalWidth = contentLogicalWidth();
    LayoutUnit delta = max(LayoutUnit(), minimumContentLogicalWidth - currentContentLogicalWidth);
    if (!delta)
        return;

    // Increase our logical width by the delta.
    setLogicalWidth(logicalWidth() + delta);
}
Ejemplo n.º 27
0
void RenderMultiColumnSet::setFlowThreadPortionRect(const LayoutRect& rect)
{
    RenderRegion::setFlowThreadPortionRect(rect);
    
    // Mutate the dimensions of the column set once our flow portion is set if the flow portion has more columns
    // than can fit inside our current dimensions.
    unsigned colCount = columnCount();
    if (!colCount)
        return;
    
    LayoutUnit colGap = columnGap();
    LayoutUnit minimumContentLogicalWidth = colCount * computedColumnWidth() + (colCount - 1) * colGap;
    LayoutUnit currentContentLogicalWidth = contentLogicalWidth();
    LayoutUnit delta = max(LayoutUnit(), minimumContentLogicalWidth - currentContentLogicalWidth);
    if (!delta)
        return;

    // Increase our logical width by the delta.
    setLogicalWidth(logicalWidth() + delta);
    
    // Shift our position left by the delta if we are RTL.
    if (!style()->isLeftToRightDirection())
        setLogicalLeft(logicalLeft() - delta);
}
Ejemplo n.º 28
0
LayoutUnit InlineTextBox::placeEllipsisBox(bool flowIsLTR, LayoutUnit visibleLeftEdge, LayoutUnit visibleRightEdge, LayoutUnit ellipsisWidth, LayoutUnit &truncatedWidth, bool& foundBox)
{
    if (foundBox) {
        setTruncation(cFullTruncation);
        return -1;
    }

    // For LTR this is the left edge of the box, for RTL, the right edge in parent coordinates.
    LayoutUnit ellipsisX = flowIsLTR ? visibleRightEdge - ellipsisWidth : visibleLeftEdge + ellipsisWidth;

    // Criteria for full truncation:
    // LTR: the left edge of the ellipsis is to the left of our text run.
    // RTL: the right edge of the ellipsis is to the right of our text run.
    bool ltrFullTruncation = flowIsLTR && ellipsisX <= logicalLeft();
    bool rtlFullTruncation = !flowIsLTR && ellipsisX >= logicalLeft() + logicalWidth();
    if (ltrFullTruncation || rtlFullTruncation) {
        // Too far.  Just set full truncation, but return -1 and let the ellipsis just be placed at the edge of the box.
        setTruncation(cFullTruncation);
        foundBox = true;
        return -1;
    }

    bool ltrEllipsisWithinBox = flowIsLTR && (ellipsisX < logicalRight());
    bool rtlEllipsisWithinBox = !flowIsLTR && (ellipsisX > logicalLeft());
    if (ltrEllipsisWithinBox || rtlEllipsisWithinBox) {
        foundBox = true;

        // The inline box may have different directionality than it's parent.  Since truncation
        // behavior depends both on both the parent and the inline block's directionality, we
        // must keep track of these separately.
        bool ltr = isLeftToRightDirection();
        if (ltr != flowIsLTR) {
            // Width in pixels of the visible portion of the box, excluding the ellipsis.
            int visibleBoxWidth = visibleRightEdge - visibleLeftEdge  - ellipsisWidth;
            ellipsisX = ltr ? logicalLeft() + visibleBoxWidth : logicalRight() - visibleBoxWidth;
        }

        int offset = offsetForPosition(ellipsisX, false);
        if (offset == 0) {
            // No characters should be laid out.  Set ourselves to full truncation and place the ellipsis at the min of our start
            // and the ellipsis edge.
            setTruncation(cFullTruncation);
            truncatedWidth += ellipsisWidth;
            return std::min(ellipsisX, logicalLeft());
        }

        // Set the truncation index on the text run.
        setTruncation(offset);

        // If we got here that means that we were only partially truncated and we need to return the pixel offset at which
        // to place the ellipsis.
        LayoutUnit widthOfVisibleText = lineLayoutItem().width(m_start, offset, textPos(), flowIsLTR ? LTR : RTL, isFirstLineStyle());

        // The ellipsis needs to be placed just after the last visible character.
        // Where "after" is defined by the flow directionality, not the inline
        // box directionality.
        // e.g. In the case of an LTR inline box truncated in an RTL flow then we can
        // have a situation such as |Hello| -> |...He|
        truncatedWidth += widthOfVisibleText + ellipsisWidth;
        if (flowIsLTR)
            return logicalLeft() + widthOfVisibleText;
        return logicalRight() - widthOfVisibleText - ellipsisWidth;
    }
    truncatedWidth += logicalWidth();
    return -1;
}
Ejemplo n.º 29
0
float InlineBox::placeEllipsisBox(bool, float, float, float, float& truncatedWidth, bool&)
{
    // Use -1 to mean "we didn't set the position."
    truncatedWidth += logicalWidth();
    return -1;
}
Ejemplo n.º 30
0
void RenderFlowThread::layout()
{
    m_pageLogicalHeightChanged = m_regionsInvalidated && everHadLayout();
    if (m_regionsInvalidated) {
        m_regionsInvalidated = false;
        m_hasValidRegions = false;
        m_regionsHaveUniformLogicalWidth = true;
        m_regionsHaveUniformLogicalHeight = true;
        m_regionRangeMap.clear();
        LayoutUnit previousRegionLogicalWidth = 0;
        LayoutUnit previousRegionLogicalHeight = 0;
        if (hasRegions()) {
            for (RenderRegionList::iterator iter = m_regionList.begin(); iter != m_regionList.end(); ++iter) {
                RenderRegion* region = *iter;
                if (!region->isValid())
                    continue;
                ASSERT(!region->needsLayout());
                
                region->deleteAllRenderBoxRegionInfo();

                LayoutUnit regionLogicalWidth = region->pageLogicalWidth();
                LayoutUnit regionLogicalHeight = region->pageLogicalHeight();

                if (!m_hasValidRegions)
                    m_hasValidRegions = true;
                else {
                    if (m_regionsHaveUniformLogicalWidth && previousRegionLogicalWidth != regionLogicalWidth)
                        m_regionsHaveUniformLogicalWidth = false;
                    if (m_regionsHaveUniformLogicalHeight && previousRegionLogicalHeight != regionLogicalHeight)
                        m_regionsHaveUniformLogicalHeight = false;
                }

                previousRegionLogicalWidth = regionLogicalWidth;
            }
            
            updateLogicalWidth(); // Called to get the maximum logical width for the region.
            
            LayoutUnit logicalHeight = 0;
            for (RenderRegionList::iterator iter = m_regionList.begin(); iter != m_regionList.end(); ++iter) {
                RenderRegion* region = *iter;
                if (!region->isValid())
                    continue;
                    
                LayoutUnit regionLogicalWidth = region->pageLogicalWidth();
                LayoutUnit regionLogicalHeight = region->logicalHeightOfAllFlowThreadContent();
    
                LayoutRect regionRect(style()->direction() == LTR ? ZERO_LAYOUT_UNIT : logicalWidth() - regionLogicalWidth, logicalHeight, regionLogicalWidth, regionLogicalHeight);
                region->setFlowThreadPortionRect(isHorizontalWritingMode() ? regionRect : regionRect.transposedRect());
                logicalHeight += regionLogicalHeight;
            }
        }
    }

    CurrentRenderFlowThreadMaintainer currentFlowThreadSetter(this);
    RenderBlock::layout();

    m_pageLogicalHeightChanged = false;

    if (lastRegion())
        lastRegion()->expandToEncompassFlowThreadContentsIfNeeded();

    if (shouldDispatchRegionLayoutUpdateEvent())
        dispatchRegionLayoutUpdateEvent();
}