Source/WebCore/rendering/SimpleLineLayoutFunctions.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2013 Apple Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
  * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
  * THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "config.h"
 #include "SimpleLineLayoutFunctions.h"

 #include "BidiRun.h"
 #include "BidiRunList.h"
 #include "EventRegion.h"
 #include "FontCache.h"
 #include "Frame.h"
 #include "GraphicsContext.h"
 #include "HitTestLocation.h"
 #include "HitTestRequest.h"
 #include "HitTestResult.h"
 #include "InlineTextBox.h"
 #include "LineInfo.h"
 #include "PaintInfo.h"
 #include "RenderBlockFlow.h"
 #include "RenderChildIterator.h"
 #include "RenderIterator.h"
 #include "RenderStyle.h"
 #include "RenderText.h"
 #include "RenderView.h"
 #include "Settings.h"
 #include "SimpleLineLayoutFlowContents.h"
 #include "SimpleLineLayoutResolver.h"
 #include "Text.h"
 #include "TextDecorationPainter.h"
 #include "TextPaintStyle.h"
 #include "TextPainter.h"
 #include <wtf/text/TextStream.h>

 #if ENABLE(TREE_DEBUGGING)
 #include <stdio.h>
 #endif

 namespace WebCore {
 namespace SimpleLineLayout {

 FloatRect computeOverflow(const RenderBlockFlow& flow, const FloatRect& layoutRect)
 {
     auto overflowRect = layoutRect;
     auto viewportSize = flow.frame().view() ? flow.frame().view()->size() : IntSize();
     auto strokeOverflow = std::ceil(flow.style().computedStrokeWidth(viewportSize));
     overflowRect.inflate(strokeOverflow);

     auto letterSpacing = flow.style().fontCascade().letterSpacing();
     if (letterSpacing >= 0)
         return overflowRect;
     // Last letter's negative spacing shrinks layout rect. Push it to visual overflow.
     overflowRect.expand(-letterSpacing, 0);
     return overflowRect;
 }

 void paintFlow(const RenderBlockFlow& flow, const Layout& layout, PaintInfo& paintInfo, const LayoutPoint& paintOffset)
 {
     if (paintInfo.phase == PaintPhase::EventRegion) {
         if (!flow.visibleToHitTesting())
             return;
         auto paintRect = paintInfo.rect;
         paintRect.moveBy(-paintOffset);
         for (auto run : layout.runResolver().rangeForRect(paintRect)) {
             FloatRect visualOverflowRect = computeOverflow(flow, run.rect());
             paintInfo.eventRegionContext->unite(enclosingIntRect(visualOverflowRect), flow.style());
         }
         return;
     }

     if (paintInfo.phase != PaintPhase::Foreground)
         return;

     auto& style = flow.style();
     if (style.visibility() != Visibility::Visible)
         return;

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

     std::unique_ptr<ShadowData> debugShadow = nullptr;
     if (flow.settings().simpleLineLayoutDebugBordersEnabled()) {
         debugShadow = makeUnique<ShadowData>(IntPoint(0, 0), 10, 20, ShadowStyle::Normal, true, Color(0, 255, 0, 200));
         textPainter.setShadow(debugShadow.get());
     }

     Optional<TextDecorationPainter> textDecorationPainter;
     if (!style.textDecorationsInEffect().isEmpty()) {
         const RenderText* textRenderer = childrenOfType<RenderText>(flow).first();
         if (textRenderer) {
             textDecorationPainter.emplace(paintInfo.context(), style.textDecorationsInEffect(), *textRenderer, false, style.fontCascade());
         }
     }

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

     auto& resolver = layout.runResolver();
     float deviceScaleFactor = flow.document().deviceScaleFactor();
     for (auto run : resolver.rangeForRect(paintRect)) {
         if (run.start() == run.end())
             continue;

         FloatRect rect = run.rect();
         FloatRect visualOverflowRect = computeOverflow(flow, rect);
         if (paintRect.y() > visualOverflowRect.maxY() || paintRect.maxY() < visualOverflowRect.y())
             continue;

         String textWithHyphen;
         if (run.hasHyphen())
             textWithHyphen = run.textWithHyphen();
         // x position indicates the line offset from the rootbox. It's always 0 in case of simple line layout.
         TextRun textRun { run.hasHyphen() ? textWithHyphen : run.text(), 0, run.expansion(), run.expansionBehavior() };
         textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
         FloatPoint textOrigin { rect.x() + paintOffset.x(), roundToDevicePixel(run.baselinePosition() + paintOffset.y(), deviceScaleFactor) };

         textPainter.setGlyphDisplayListIfNeeded(run.simpleRun(), paintInfo, style.fontCascade(), paintInfo.context(), textRun);
         textPainter.paint(textRun, rect, textOrigin);
         if (textDecorationPainter) {
             textDecorationPainter->setWidth(rect.width());
             textDecorationPainter->paintTextDecoration(textRun, textOrigin, rect.location() + paintOffset);
         }
     }
 }

 bool hitTestFlow(const RenderBlockFlow& flow, const Layout& layout, const HitTestRequest& request, HitTestResult& result, const HitTestLocation& locationInContainer, const LayoutPoint& accumulatedOffset, HitTestAction hitTestAction)
 {
     if (hitTestAction != HitTestForeground)
         return false;

     if (!layout.runCount())
         return false;

     auto& style = flow.style();
     if (style.visibility() != Visibility::Visible || style.pointerEvents() == PointerEvents::None)
         return false;

     LayoutRect rangeRect = locationInContainer.boundingBox();
     rangeRect.moveBy(-accumulatedOffset);
     auto resolver = lineResolver(layout.runResolver());
     auto range = resolver.rangeForRect(rangeRect);
     for (auto it = range.begin(), end = range.end(); it != end; ++it) {
         auto lineRect = *it;
         lineRect.moveBy(accumulatedOffset);
         auto& renderer = const_cast<RenderObject&>(it.renderer());
         if (!locationInContainer.intersects(lineRect))
             continue;
         renderer.updateHitTestResult(result, locationInContainer.point() - toLayoutSize(accumulatedOffset));
         if (result.addNodeToListBasedTestResult(renderer.node(), request, locationInContainer, lineRect) == HitTestProgress::Stop)
             return true;
     }
     return false;
 }

 void collectFlowOverflow(RenderBlockFlow& flow, const Layout& layout)
 {
     for (auto lineRect : lineResolver(layout.runResolver())) {
         LayoutRect visualOverflowRect = LayoutRect(computeOverflow(flow, lineRect));
         flow.addLayoutOverflow(LayoutRect(lineRect));
         flow.addVisualOverflow(visualOverflowRect);
     }
 }

 Vector<FloatQuad> collectAbsoluteQuads(const RenderObject& renderer, const Layout& layout, bool* wasFixed)
 {
     Vector<FloatQuad> quads;
     auto& resolver = layout.runResolver();
     for (auto run : resolver.rangeForRenderer(renderer))
         quads.append(renderer.localToAbsoluteQuad(FloatQuad(run.rect()), UseTransforms, wasFixed));
     return quads;
 }

 unsigned textOffsetForPoint(const LayoutPoint& point, const RenderText& renderer, const Layout& layout)
 {
     auto& flow = downcast<RenderBlockFlow>(*renderer.parent());
     ASSERT(flow.firstChild() == flow.lastChild());
     auto& resolver = layout.runResolver();
     auto it = resolver.runForPoint(point);
     if (it == resolver.end())
         return renderer.text().length();
     auto run = *it;
     auto& style = flow.style();
     TextRun textRun(run.text(), run.logicalLeft(), run.expansion(), run.expansionBehavior());
     textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
     return run.start() + style.fontCascade().offsetForPosition(textRun, point.x() - run.logicalLeft(), true);
 }

 Vector<FloatQuad> collectAbsoluteQuadsForRange(const RenderObject& renderer, unsigned start, unsigned end, const Layout& layout, bool* wasFixed)
 {
     auto& style = downcast<RenderBlockFlow>(*renderer.parent()).style();
     Vector<FloatQuad> quads;
     auto& resolver = layout.runResolver();
     for (auto run : resolver.rangeForRendererWithOffsets(renderer, start, end)) {
         // This run is fully contained.
         if (start <= run.start() && end >= run.end()) {
             quads.append(renderer.localToAbsoluteQuad(FloatQuad(run.rect()), UseTransforms, wasFixed));
             continue;
         }
         // Partially contained run.
         TextRun textRun(run.text(), run.logicalLeft(), run.expansion(), run.expansionBehavior());
         textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
         LayoutRect runRect(run.rect());
         // Special case empty ranges.
         if (start == end) {
             runRect.setWidth(0);
             quads.append(renderer.localToAbsoluteQuad(FloatQuad(runRect), UseTransforms, wasFixed));
             continue;
         }
         auto localStart = std::max(run.start(), start) - run.start();
         auto localEnd = std::min(run.end(), end) - run.start();
         ASSERT(localStart <= localEnd);
         style.fontCascade().adjustSelectionRectForText(textRun, runRect, localStart, localEnd);
         quads.append(renderer.localToAbsoluteQuad(FloatQuad(runRect), UseTransforms, wasFixed));
     }
     return quads;
 }

 void simpleLineLayoutWillBeDeleted(const Layout& layout)
 {
     for (unsigned i = 0; i < layout.runCount(); ++i)
         TextPainter::removeGlyphDisplayList(layout.runAt(i));
 }

 bool canUseForLineBoxTree(RenderBlockFlow& flow, const Layout& layout)
 {
     // Line breaking requires some context that SLL can't provide at the moment (see RootInlineBox::setLineBreakInfo).
     if (layout.lineCount() > 1)
         return false;

     if (layout.isPaginated())
         return false;

     if (flow.style().preserveNewline())
         return false;

     if (!flow.firstChild())
         return false;

     for (auto& child : childrenOfType<RenderObject>(flow)) {
         if (!is<RenderText>(child))
             return false;
         // Simple line layout iterator can't handle renderers with zero length properly.
         if (!downcast<RenderText>(child).length())
             return false;
     }
     return true;
 }

 static void initializeInlineTextBox(RenderBlockFlow& flow, InlineTextBox& inlineTextBox, const RunResolver::Run& run)
 {
     inlineTextBox.setLogicalLeft(run.logicalLeft());
     inlineTextBox.setLogicalTop(run.rect().y());
     inlineTextBox.setLogicalWidth(run.logicalRight() - run.logicalLeft());
     auto overflowRect = computeOverflow(const_cast<RenderBlockFlow&>(flow), run.rect());
     if (overflowRect != run.rect())
         inlineTextBox.setLogicalOverflowRect(LayoutRect(overflowRect));

     inlineTextBox.setHasHyphen(run.hasHyphen());
     inlineTextBox.setExpansionWithoutGrowing(run.expansion());

     auto expansionBehavior = run.expansionBehavior();
     inlineTextBox.setCanHaveLeadingExpansion(expansionBehavior & AllowLeadingExpansion);
     inlineTextBox.setCanHaveTrailingExpansion(expansionBehavior & AllowTrailingExpansion);
     if (expansionBehavior & ForceTrailingExpansion)
         inlineTextBox.setForceTrailingExpansion();
     if (expansionBehavior & ForceLeadingExpansion)
         inlineTextBox.setForceLeadingExpansion();
 }

 void generateLineBoxTree(RenderBlockFlow& flow, const Layout& layout)
 {
     ASSERT(!flow.complexLineLayout()->lineBoxes().firstLineBox());
     if (!layout.runCount())
         return;

     Ref<BidiContext> bidiContext = BidiContext::create(0, U_LEFT_TO_RIGHT);
     auto& resolver = layout.runResolver();
     unsigned lineIndex = 0;
     while (true) {
         auto range = resolver.rangeForLine(lineIndex++);
         if (range.begin() == range.end())
             break;

         // Generate bidi runs out of simple line layout runs.
         BidiRunList<BidiRun> bidiRuns;
         for (auto it = range.begin(); it != range.end(); ++it) {
             auto run = *it;
             bidiRuns.appendRun(makeUnique<BidiRun>(run.localStart(), run.localEnd(), const_cast<RenderObject&>(run.renderer()), bidiContext.ptr(), U_LEFT_TO_RIGHT));
         }

         LineInfo lineInfo;
         lineInfo.setFirstLine(!flow.complexLineLayout()->lineBoxes().firstLineBox());
         // FIXME: This is needed for flow boxes -but we don't have them yet.
         // lineInfo.setLastLine(lastLine);
         lineInfo.setEmpty(!bidiRuns.runCount());
         bidiRuns.setLogicallyLastRun(bidiRuns.lastRun());
         auto* root = flow.complexLineLayout()->constructLine(bidiRuns, lineInfo);
         bidiRuns.clear();
         if (!root)
             continue;

         auto& rootLineBox = *root;
         auto it = range.begin();
         float lineWidth = 0;
         // Set the geometry for the inlineboxes.
         for (auto* inlineBox = rootLineBox.firstChild(); inlineBox && it != range.end(); inlineBox = inlineBox->nextOnLine(), ++it) {
             auto run = *it;
             initializeInlineTextBox(flow, downcast<InlineTextBox>(*inlineBox), run);
             lineWidth += inlineBox->logicalWidth();
         }

         // Finish setting up the rootline.
         auto iter = range.begin();
         auto firstRun = *iter;
         rootLineBox.setLogicalLeft(firstRun.logicalLeft());
         rootLineBox.setLogicalWidth(lineWidth);
         auto lineTop = firstRun.rect().y();
         auto lineHeight = firstRun.rect().height();
         rootLineBox.setLogicalTop(lineTop);
         rootLineBox.setLineTopBottomPositions(LayoutUnit(lineTop), LayoutUnit(lineTop + lineHeight), LayoutUnit(lineTop), LayoutUnit(lineTop + lineHeight));
     }
 }

 #if ENABLE(TREE_DEBUGGING)
 static void printPrefix(TextStream& stream, int& printedCharacters, int depth)
 {
     stream << "-------- --";
     printedCharacters = 0;
     while (++printedCharacters <= depth * 2)
         stream << " ";
 }

 void outputLineLayoutForFlow(TextStream& stream, const RenderBlockFlow&, const Layout& layout, int depth)
 {
     int printedCharacters = 0;
     printPrefix(stream, printedCharacters, depth);

     stream << "SimpleLineLayout (" << layout.lineCount() << " lines, " << layout.runCount() << " runs) (" << &layout << ")";
     stream.nextLine();
     ++depth;

     for (auto run : layout.runResolver()) {
         FloatRect rect = run.rect();
         printPrefix(stream, printedCharacters, depth);
         if (run.start() < run.end()) {
             stream << "line " << run.lineIndex() << " run(" << run.start() << ", " << run.end() << ") " << rect << " \"" << run.text().toStringWithoutCopying().utf8().data() << "\"";
         } else {
             ASSERT(run.start() == run.end());
             stream << "line break " << run.lineIndex() << " run(" << run.start() << ", " << run.end() << ") " << rect;
         }
     }
     stream.nextLine();
 }
 #endif

 }
 }
	/*
	* Copyright (C) 2013 Apple Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
	* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
	* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
	* THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "config.h"
	#include "SimpleLineLayoutFunctions.h"

	#include "BidiRun.h"
	#include "BidiRunList.h"
	#include "EventRegion.h"
	#include "FontCache.h"
	#include "Frame.h"
	#include "GraphicsContext.h"
	#include "HitTestLocation.h"
	#include "HitTestRequest.h"
	#include "HitTestResult.h"
	#include "InlineTextBox.h"
	#include "LineInfo.h"
	#include "PaintInfo.h"
	#include "RenderBlockFlow.h"
	#include "RenderChildIterator.h"
	#include "RenderIterator.h"
	#include "RenderStyle.h"
	#include "RenderText.h"
	#include "RenderView.h"
	#include "Settings.h"
	#include "SimpleLineLayoutFlowContents.h"
	#include "SimpleLineLayoutResolver.h"
	#include "Text.h"
	#include "TextDecorationPainter.h"
	#include "TextPaintStyle.h"
	#include "TextPainter.h"
	#include <wtf/text/TextStream.h>

	#if ENABLE(TREE_DEBUGGING)
	#include <stdio.h>
	#endif

	namespace WebCore {
	namespace SimpleLineLayout {

	FloatRect computeOverflow(const RenderBlockFlow& flow, const FloatRect& layoutRect)
	{
	auto overflowRect = layoutRect;
	auto viewportSize = flow.frame().view() ? flow.frame().view()->size() : IntSize();
	auto strokeOverflow = std::ceil(flow.style().computedStrokeWidth(viewportSize));
	overflowRect.inflate(strokeOverflow);

	auto letterSpacing = flow.style().fontCascade().letterSpacing();
	if (letterSpacing >= 0)
	return overflowRect;
	// Last letter's negative spacing shrinks layout rect. Push it to visual overflow.
	overflowRect.expand(-letterSpacing, 0);
	return overflowRect;
	}

	void paintFlow(const RenderBlockFlow& flow, const Layout& layout, PaintInfo& paintInfo, const LayoutPoint& paintOffset)
	{
	if (paintInfo.phase == PaintPhase::EventRegion) {
	if (!flow.visibleToHitTesting())
	return;
	auto paintRect = paintInfo.rect;
	paintRect.moveBy(-paintOffset);
	for (auto run : layout.runResolver().rangeForRect(paintRect)) {
	FloatRect visualOverflowRect = computeOverflow(flow, run.rect());
	paintInfo.eventRegionContext->unite(enclosingIntRect(visualOverflowRect), flow.style());
	}
	return;
	}

	if (paintInfo.phase != PaintPhase::Foreground)
	return;

	auto& style = flow.style();
	if (style.visibility() != Visibility::Visible)
	return;

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

	std::unique_ptr<ShadowData> debugShadow = nullptr;
	if (flow.settings().simpleLineLayoutDebugBordersEnabled()) {
	debugShadow = makeUnique<ShadowData>(IntPoint(0, 0), 10, 20, ShadowStyle::Normal, true, Color(0, 255, 0, 200));
	textPainter.setShadow(debugShadow.get());
	}

	Optional<TextDecorationPainter> textDecorationPainter;
	if (!style.textDecorationsInEffect().isEmpty()) {
	const RenderText* textRenderer = childrenOfType<RenderText>(flow).first();
	if (textRenderer) {
	textDecorationPainter.emplace(paintInfo.context(), style.textDecorationsInEffect(), *textRenderer, false, style.fontCascade());
	}
	}

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

	auto& resolver = layout.runResolver();
	float deviceScaleFactor = flow.document().deviceScaleFactor();
	for (auto run : resolver.rangeForRect(paintRect)) {
	if (run.start() == run.end())
	continue;

	FloatRect rect = run.rect();
	FloatRect visualOverflowRect = computeOverflow(flow, rect);
	if (paintRect.y() > visualOverflowRect.maxY() \|\| paintRect.maxY() < visualOverflowRect.y())
	continue;

	String textWithHyphen;
	if (run.hasHyphen())
	textWithHyphen = run.textWithHyphen();
	// x position indicates the line offset from the rootbox. It's always 0 in case of simple line layout.
	TextRun textRun { run.hasHyphen() ? textWithHyphen : run.text(), 0, run.expansion(), run.expansionBehavior() };
	textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
	FloatPoint textOrigin { rect.x() + paintOffset.x(), roundToDevicePixel(run.baselinePosition() + paintOffset.y(), deviceScaleFactor) };

	textPainter.setGlyphDisplayListIfNeeded(run.simpleRun(), paintInfo, style.fontCascade(), paintInfo.context(), textRun);
	textPainter.paint(textRun, rect, textOrigin);
	if (textDecorationPainter) {
	textDecorationPainter->setWidth(rect.width());
	textDecorationPainter->paintTextDecoration(textRun, textOrigin, rect.location() + paintOffset);
	}
	}
	}

	bool hitTestFlow(const RenderBlockFlow& flow, const Layout& layout, const HitTestRequest& request, HitTestResult& result, const HitTestLocation& locationInContainer, const LayoutPoint& accumulatedOffset, HitTestAction hitTestAction)
	{
	if (hitTestAction != HitTestForeground)
	return false;

	if (!layout.runCount())
	return false;

	auto& style = flow.style();
	if (style.visibility() != Visibility::Visible \|\| style.pointerEvents() == PointerEvents::None)
	return false;

	LayoutRect rangeRect = locationInContainer.boundingBox();
	rangeRect.moveBy(-accumulatedOffset);
	auto resolver = lineResolver(layout.runResolver());
	auto range = resolver.rangeForRect(rangeRect);
	for (auto it = range.begin(), end = range.end(); it != end; ++it) {
	auto lineRect = *it;
	lineRect.moveBy(accumulatedOffset);
	auto& renderer = const_cast<RenderObject&>(it.renderer());
	if (!locationInContainer.intersects(lineRect))
	continue;
	renderer.updateHitTestResult(result, locationInContainer.point() - toLayoutSize(accumulatedOffset));
	if (result.addNodeToListBasedTestResult(renderer.node(), request, locationInContainer, lineRect) == HitTestProgress::Stop)
	return true;
	}
	return false;
	}

	void collectFlowOverflow(RenderBlockFlow& flow, const Layout& layout)
	{
	for (auto lineRect : lineResolver(layout.runResolver())) {
	LayoutRect visualOverflowRect = LayoutRect(computeOverflow(flow, lineRect));
	flow.addLayoutOverflow(LayoutRect(lineRect));
	flow.addVisualOverflow(visualOverflowRect);
	}
	}

	Vector<FloatQuad> collectAbsoluteQuads(const RenderObject& renderer, const Layout& layout, bool* wasFixed)
	{
	Vector<FloatQuad> quads;
	auto& resolver = layout.runResolver();
	for (auto run : resolver.rangeForRenderer(renderer))
	quads.append(renderer.localToAbsoluteQuad(FloatQuad(run.rect()), UseTransforms, wasFixed));
	return quads;
	}

	unsigned textOffsetForPoint(const LayoutPoint& point, const RenderText& renderer, const Layout& layout)
	{
	auto& flow = downcast<RenderBlockFlow>(*renderer.parent());
	ASSERT(flow.firstChild() == flow.lastChild());
	auto& resolver = layout.runResolver();
	auto it = resolver.runForPoint(point);
	if (it == resolver.end())
	return renderer.text().length();
	auto run = *it;
	auto& style = flow.style();
	TextRun textRun(run.text(), run.logicalLeft(), run.expansion(), run.expansionBehavior());
	textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
	return run.start() + style.fontCascade().offsetForPosition(textRun, point.x() - run.logicalLeft(), true);
	}

	Vector<FloatQuad> collectAbsoluteQuadsForRange(const RenderObject& renderer, unsigned start, unsigned end, const Layout& layout, bool* wasFixed)
	{
	auto& style = downcast<RenderBlockFlow>(*renderer.parent()).style();
	Vector<FloatQuad> quads;
	auto& resolver = layout.runResolver();
	for (auto run : resolver.rangeForRendererWithOffsets(renderer, start, end)) {
	// This run is fully contained.
	if (start <= run.start() && end >= run.end()) {
	quads.append(renderer.localToAbsoluteQuad(FloatQuad(run.rect()), UseTransforms, wasFixed));
	continue;
	}
	// Partially contained run.
	TextRun textRun(run.text(), run.logicalLeft(), run.expansion(), run.expansionBehavior());
	textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
	LayoutRect runRect(run.rect());
	// Special case empty ranges.
	if (start == end) {
	runRect.setWidth(0);
	quads.append(renderer.localToAbsoluteQuad(FloatQuad(runRect), UseTransforms, wasFixed));
	continue;
	}
	auto localStart = std::max(run.start(), start) - run.start();
	auto localEnd = std::min(run.end(), end) - run.start();
	ASSERT(localStart <= localEnd);
	style.fontCascade().adjustSelectionRectForText(textRun, runRect, localStart, localEnd);
	quads.append(renderer.localToAbsoluteQuad(FloatQuad(runRect), UseTransforms, wasFixed));
	}
	return quads;
	}

	void simpleLineLayoutWillBeDeleted(const Layout& layout)
	{
	for (unsigned i = 0; i < layout.runCount(); ++i)
	TextPainter::removeGlyphDisplayList(layout.runAt(i));
	}

	bool canUseForLineBoxTree(RenderBlockFlow& flow, const Layout& layout)
	{
	// Line breaking requires some context that SLL can't provide at the moment (see RootInlineBox::setLineBreakInfo).
	if (layout.lineCount() > 1)
	return false;

	if (layout.isPaginated())
	return false;

	if (flow.style().preserveNewline())
	return false;

	if (!flow.firstChild())
	return false;

	for (auto& child : childrenOfType<RenderObject>(flow)) {
	if (!is<RenderText>(child))
	return false;
	// Simple line layout iterator can't handle renderers with zero length properly.
	if (!downcast<RenderText>(child).length())
	return false;
	}
	return true;
	}

	static void initializeInlineTextBox(RenderBlockFlow& flow, InlineTextBox& inlineTextBox, const RunResolver::Run& run)
	{
	inlineTextBox.setLogicalLeft(run.logicalLeft());
	inlineTextBox.setLogicalTop(run.rect().y());
	inlineTextBox.setLogicalWidth(run.logicalRight() - run.logicalLeft());
	auto overflowRect = computeOverflow(const_cast<RenderBlockFlow&>(flow), run.rect());
	if (overflowRect != run.rect())
	inlineTextBox.setLogicalOverflowRect(LayoutRect(overflowRect));

	inlineTextBox.setHasHyphen(run.hasHyphen());
	inlineTextBox.setExpansionWithoutGrowing(run.expansion());

	auto expansionBehavior = run.expansionBehavior();
	inlineTextBox.setCanHaveLeadingExpansion(expansionBehavior & AllowLeadingExpansion);
	inlineTextBox.setCanHaveTrailingExpansion(expansionBehavior & AllowTrailingExpansion);
	if (expansionBehavior & ForceTrailingExpansion)
	inlineTextBox.setForceTrailingExpansion();
	if (expansionBehavior & ForceLeadingExpansion)
	inlineTextBox.setForceLeadingExpansion();
	}

	void generateLineBoxTree(RenderBlockFlow& flow, const Layout& layout)
	{
	ASSERT(!flow.complexLineLayout()->lineBoxes().firstLineBox());
	if (!layout.runCount())
	return;

	Ref<BidiContext> bidiContext = BidiContext::create(0, U_LEFT_TO_RIGHT);
	auto& resolver = layout.runResolver();
	unsigned lineIndex = 0;
	while (true) {
	auto range = resolver.rangeForLine(lineIndex++);
	if (range.begin() == range.end())
	break;

	// Generate bidi runs out of simple line layout runs.
	BidiRunList<BidiRun> bidiRuns;
	for (auto it = range.begin(); it != range.end(); ++it) {
	auto run = *it;
	bidiRuns.appendRun(makeUnique<BidiRun>(run.localStart(), run.localEnd(), const_cast<RenderObject&>(run.renderer()), bidiContext.ptr(), U_LEFT_TO_RIGHT));
	}

	LineInfo lineInfo;
	lineInfo.setFirstLine(!flow.complexLineLayout()->lineBoxes().firstLineBox());
	// FIXME: This is needed for flow boxes -but we don't have them yet.
	// lineInfo.setLastLine(lastLine);
	lineInfo.setEmpty(!bidiRuns.runCount());
	bidiRuns.setLogicallyLastRun(bidiRuns.lastRun());
	auto* root = flow.complexLineLayout()->constructLine(bidiRuns, lineInfo);
	bidiRuns.clear();
	if (!root)
	continue;

	auto& rootLineBox = *root;
	auto it = range.begin();
	float lineWidth = 0;
	// Set the geometry for the inlineboxes.
	for (auto* inlineBox = rootLineBox.firstChild(); inlineBox && it != range.end(); inlineBox = inlineBox->nextOnLine(), ++it) {
	auto run = *it;
	initializeInlineTextBox(flow, downcast<InlineTextBox>(*inlineBox), run);
	lineWidth += inlineBox->logicalWidth();
	}

	// Finish setting up the rootline.
	auto iter = range.begin();
	auto firstRun = *iter;
	rootLineBox.setLogicalLeft(firstRun.logicalLeft());
	rootLineBox.setLogicalWidth(lineWidth);
	auto lineTop = firstRun.rect().y();
	auto lineHeight = firstRun.rect().height();
	rootLineBox.setLogicalTop(lineTop);
	rootLineBox.setLineTopBottomPositions(LayoutUnit(lineTop), LayoutUnit(lineTop + lineHeight), LayoutUnit(lineTop), LayoutUnit(lineTop + lineHeight));
	}
	}

	#if ENABLE(TREE_DEBUGGING)
	static void printPrefix(TextStream& stream, int& printedCharacters, int depth)
	{
	stream << "-------- --";
	printedCharacters = 0;
	while (++printedCharacters <= depth * 2)
	stream << " ";
	}

	void outputLineLayoutForFlow(TextStream& stream, const RenderBlockFlow&, const Layout& layout, int depth)
	{
	int printedCharacters = 0;
	printPrefix(stream, printedCharacters, depth);

	stream << "SimpleLineLayout (" << layout.lineCount() << " lines, " << layout.runCount() << " runs) (" << &layout << ")";
	stream.nextLine();
	++depth;

	for (auto run : layout.runResolver()) {
	FloatRect rect = run.rect();
	printPrefix(stream, printedCharacters, depth);
	if (run.start() < run.end()) {
	stream << "line " << run.lineIndex() << " run(" << run.start() << ", " << run.end() << ") " << rect << " \"" << run.text().toStringWithoutCopying().utf8().data() << "\"";
	} else {
	ASSERT(run.start() == run.end());
	stream << "line break " << run.lineIndex() << " run(" << run.start() << ", " << run.end() << ") " << rect;
	}
	}
	stream.nextLine();
	}
	#endif

	}
	}