Source/core/rendering/shapes/ShapeOutsideInfo.cpp - platform/external/chromium_org/third_party/WebKit - Git at Google

 /*
  * Copyright (C) 2012 Adobe Systems Incorporated. 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 THE COPYRIGHT HOLDER “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 THE COPYRIGHT HOLDER 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 "core/rendering/shapes/ShapeOutsideInfo.h"

 #include "core/inspector/ConsoleMessage.h"
 #include "core/rendering/FloatingObjects.h"
 #include "core/rendering/RenderBlockFlow.h"
 #include "core/rendering/RenderBox.h"
 #include "core/rendering/RenderImage.h"
 #include "platform/LengthFunctions.h"
 #include "public/platform/Platform.h"

 namespace blink {

 CSSBoxType referenceBox(const ShapeValue& shapeValue)
 {
     if (shapeValue.cssBox() == BoxMissing)
         return MarginBox;
     return shapeValue.cssBox();
 }

 void ShapeOutsideInfo::setReferenceBoxLogicalSize(LayoutSize newReferenceBoxLogicalSize)
 {
     bool isHorizontalWritingMode = m_renderer.containingBlock()->style()->isHorizontalWritingMode();
     switch (referenceBox(*m_renderer.style()->shapeOutside())) {
     case MarginBox:
         if (isHorizontalWritingMode)
             newReferenceBoxLogicalSize.expand(m_renderer.marginWidth(), m_renderer.marginHeight());
         else
             newReferenceBoxLogicalSize.expand(m_renderer.marginHeight(), m_renderer.marginWidth());
         break;
     case BorderBox:
         break;
     case PaddingBox:
         if (isHorizontalWritingMode)
             newReferenceBoxLogicalSize.shrink(m_renderer.borderWidth(), m_renderer.borderHeight());
         else
             newReferenceBoxLogicalSize.shrink(m_renderer.borderHeight(), m_renderer.borderWidth());
         break;
     case ContentBox:
         if (isHorizontalWritingMode)
             newReferenceBoxLogicalSize.shrink(m_renderer.borderAndPaddingWidth(), m_renderer.borderAndPaddingHeight());
         else
             newReferenceBoxLogicalSize.shrink(m_renderer.borderAndPaddingHeight(), m_renderer.borderAndPaddingWidth());
         break;
     case BoxMissing:
         ASSERT_NOT_REACHED();
         break;
     }

     if (m_referenceBoxLogicalSize == newReferenceBoxLogicalSize)
         return;
     markShapeAsDirty();
     m_referenceBoxLogicalSize = newReferenceBoxLogicalSize;
 }

 static bool checkShapeImageOrigin(Document& document, const StyleImage& styleImage)
 {
     if (styleImage.isGeneratedImage())
         return true;

     ASSERT(styleImage.cachedImage());
     ImageResource& imageResource = *(styleImage.cachedImage());
     if (imageResource.isAccessAllowed(document.securityOrigin()))
         return true;

     const KURL& url = imageResource.url();
     String urlString = url.isNull() ? "''" : url.elidedString();
     document.addConsoleMessage(ConsoleMessage::create(SecurityMessageSource, ErrorMessageLevel, "Unsafe attempt to load URL " + urlString + "."));

     return false;
 }

 static LayoutRect getShapeImageMarginRect(const RenderBox& renderBox, const LayoutSize& referenceBoxLogicalSize)
 {
     LayoutPoint marginBoxOrigin(-renderBox.marginLogicalLeft() - renderBox.borderAndPaddingLogicalLeft(), -renderBox.marginBefore() - renderBox.borderBefore() - renderBox.paddingBefore());
     LayoutSize marginBoxSizeDelta(renderBox.marginLogicalWidth() + renderBox.borderAndPaddingLogicalWidth(), renderBox.marginLogicalHeight() + renderBox.borderAndPaddingLogicalHeight());
     return LayoutRect(marginBoxOrigin, referenceBoxLogicalSize + marginBoxSizeDelta);
 }

 static bool isValidRasterShapeRect(const LayoutRect& rect)
 {
     static double maxImageSizeBytes = 0;
     if (!maxImageSizeBytes) {
         size_t size32MaxBytes =  0xFFFFFFFF / 4; // Some platforms don't limit maxDecodedImageBytes.
         maxImageSizeBytes = std::min(size32MaxBytes, Platform::current()->maxDecodedImageBytes());
     }
     return (rect.width().toFloat() * rect.height().toFloat() * 4.0) < maxImageSizeBytes;
 }

 PassOwnPtr<Shape> ShapeOutsideInfo::createShapeForImage(StyleImage* styleImage, float shapeImageThreshold, WritingMode writingMode, float margin) const
 {
     const IntSize& imageSize = m_renderer.calculateImageIntrinsicDimensions(styleImage, roundedIntSize(m_referenceBoxLogicalSize), RenderImage::ScaleByEffectiveZoom);
     styleImage->setContainerSizeForRenderer(&m_renderer, imageSize, m_renderer.style()->effectiveZoom());

     const LayoutRect& marginRect = getShapeImageMarginRect(m_renderer, m_referenceBoxLogicalSize);
     const LayoutRect& imageRect = (m_renderer.isRenderImage())
         ? toRenderImage(m_renderer).replacedContentRect()
         : LayoutRect(LayoutPoint(), imageSize);

     if (!isValidRasterShapeRect(marginRect) || !isValidRasterShapeRect(imageRect)) {
         m_renderer.document().addConsoleMessage(ConsoleMessage::create(RenderingMessageSource, ErrorMessageLevel, "The shape-outside image is too large."));
         return Shape::createEmptyRasterShape(writingMode, margin);
     }

     ASSERT(!styleImage->isPendingImage());
     RefPtr<Image> image = styleImage->image(const_cast<RenderBox*>(&m_renderer), imageSize);

     return Shape::createRasterShape(image.get(), shapeImageThreshold, imageRect, marginRect, writingMode, margin);
 }

 const Shape& ShapeOutsideInfo::computedShape() const
 {
     if (Shape* shape = m_shape.get())
         return *shape;

     TemporaryChange<bool> isInComputingShape(m_isComputingShape, true);

     const RenderStyle& style = *m_renderer.style();
     ASSERT(m_renderer.containingBlock());
     const RenderStyle& containingBlockStyle = *m_renderer.containingBlock()->style();

     WritingMode writingMode = containingBlockStyle.writingMode();
     LayoutUnit maximumValue = m_renderer.containingBlock() ? m_renderer.containingBlock()->contentWidth() : LayoutUnit();
     float margin = floatValueForLength(m_renderer.style()->shapeMargin(), maximumValue.toFloat());

     float shapeImageThreshold = style.shapeImageThreshold();
     ASSERT(style.shapeOutside());
     const ShapeValue& shapeValue = *style.shapeOutside();

     switch (shapeValue.type()) {
     case ShapeValue::Shape:
         ASSERT(shapeValue.shape());
         m_shape = Shape::createShape(shapeValue.shape(), m_referenceBoxLogicalSize, writingMode, margin);
         break;
     case ShapeValue::Image:
         ASSERT(shapeValue.isImageValid());
         m_shape = createShapeForImage(shapeValue.image(), shapeImageThreshold, writingMode, margin);
         break;
     case ShapeValue::Box: {
         const RoundedRect& shapeRect = style.getRoundedBorderFor(LayoutRect(LayoutPoint(), m_referenceBoxLogicalSize), m_renderer.view());
         m_shape = Shape::createLayoutBoxShape(shapeRect, writingMode, margin);
         break;
     }
     }

     ASSERT(m_shape);
     return *m_shape;
 }

 inline LayoutUnit borderBeforeInWritingMode(const RenderBox& renderer, WritingMode writingMode)
 {
     switch (writingMode) {
     case TopToBottomWritingMode: return renderer.borderTop();
     case BottomToTopWritingMode: return renderer.borderBottom();
     case LeftToRightWritingMode: return renderer.borderLeft();
     case RightToLeftWritingMode: return renderer.borderRight();
     }

     ASSERT_NOT_REACHED();
     return renderer.borderBefore();
 }

 inline LayoutUnit borderAndPaddingBeforeInWritingMode(const RenderBox& renderer, WritingMode writingMode)
 {
     switch (writingMode) {
     case TopToBottomWritingMode: return renderer.borderTop() + renderer.paddingTop();
     case BottomToTopWritingMode: return renderer.borderBottom() + renderer.paddingBottom();
     case LeftToRightWritingMode: return renderer.borderLeft() + renderer.paddingLeft();
     case RightToLeftWritingMode: return renderer.borderRight() + renderer.paddingRight();
     }

     ASSERT_NOT_REACHED();
     return renderer.borderAndPaddingBefore();
 }

 LayoutUnit ShapeOutsideInfo::logicalTopOffset() const
 {
     switch (referenceBox(*m_renderer.style()->shapeOutside())) {
     case MarginBox: return -m_renderer.marginBefore(m_renderer.containingBlock()->style());
     case BorderBox: return LayoutUnit();
     case PaddingBox: return borderBeforeInWritingMode(m_renderer, m_renderer.containingBlock()->style()->writingMode());
     case ContentBox: return borderAndPaddingBeforeInWritingMode(m_renderer, m_renderer.containingBlock()->style()->writingMode());
     case BoxMissing: break;
     }

     ASSERT_NOT_REACHED();
     return LayoutUnit();
 }

 inline LayoutUnit borderStartWithStyleForWritingMode(const RenderBox& renderer, const RenderStyle* style)
 {
     if (style->isHorizontalWritingMode()) {
         if (style->isLeftToRightDirection())
             return renderer.borderLeft();

         return renderer.borderRight();
     }
     if (style->isLeftToRightDirection())
         return renderer.borderTop();

     return renderer.borderBottom();
 }

 inline LayoutUnit borderAndPaddingStartWithStyleForWritingMode(const RenderBox& renderer, const RenderStyle* style)
 {
     if (style->isHorizontalWritingMode()) {
         if (style->isLeftToRightDirection())
             return renderer.borderLeft() + renderer.paddingLeft();

         return renderer.borderRight() + renderer.paddingRight();
     }
     if (style->isLeftToRightDirection())
         return renderer.borderTop() + renderer.paddingTop();

     return renderer.borderBottom() + renderer.paddingBottom();
 }

 LayoutUnit ShapeOutsideInfo::logicalLeftOffset() const
 {
     switch (referenceBox(*m_renderer.style()->shapeOutside())) {
     case MarginBox: return -m_renderer.marginStart(m_renderer.containingBlock()->style());
     case BorderBox: return LayoutUnit();
     case PaddingBox: return borderStartWithStyleForWritingMode(m_renderer, m_renderer.containingBlock()->style());
     case ContentBox: return borderAndPaddingStartWithStyleForWritingMode(m_renderer, m_renderer.containingBlock()->style());
     case BoxMissing: break;
     }

     ASSERT_NOT_REACHED();
     return LayoutUnit();
 }


 bool ShapeOutsideInfo::isEnabledFor(const RenderBox& box)
 {
     ShapeValue* shapeValue = box.style()->shapeOutside();
     if (!box.isFloating() || !shapeValue)
         return false;

     switch (shapeValue->type()) {
     case ShapeValue::Shape:
         return shapeValue->shape();
     case ShapeValue::Image:
         return shapeValue->isImageValid() && checkShapeImageOrigin(box.document(), *(shapeValue->image()));
     case ShapeValue::Box:
         return true;
     }

     return false;
 }
 ShapeOutsideDeltas ShapeOutsideInfo::computeDeltasForContainingBlockLine(const RenderBlockFlow& containingBlock, const FloatingObject& floatingObject, LayoutUnit lineTop, LayoutUnit lineHeight)
 {
     ASSERT(lineHeight >= 0);

     LayoutUnit borderBoxTop = containingBlock.logicalTopForFloat(&floatingObject) + containingBlock.marginBeforeForChild(&m_renderer);
     LayoutUnit borderBoxLineTop = lineTop - borderBoxTop;

     if (isShapeDirty() || !m_shapeOutsideDeltas.isForLine(borderBoxLineTop, lineHeight)) {
         LayoutUnit referenceBoxLineTop = borderBoxLineTop - logicalTopOffset();
         LayoutUnit floatMarginBoxWidth = containingBlock.logicalWidthForFloat(&floatingObject);

         if (computedShape().lineOverlapsShapeMarginBounds(referenceBoxLineTop, lineHeight)) {
             LineSegment segment = computedShape().getExcludedInterval((borderBoxLineTop - logicalTopOffset()), std::min(lineHeight, shapeLogicalBottom() - borderBoxLineTop));
             if (segment.isValid) {
                 LayoutUnit logicalLeftMargin = containingBlock.style()->isLeftToRightDirection() ? containingBlock.marginStartForChild(&m_renderer) : containingBlock.marginEndForChild(&m_renderer);
                 LayoutUnit rawLeftMarginBoxDelta = segment.logicalLeft + logicalLeftOffset() + logicalLeftMargin;
                 LayoutUnit leftMarginBoxDelta = clampTo<LayoutUnit>(rawLeftMarginBoxDelta, LayoutUnit(), floatMarginBoxWidth);

                 LayoutUnit logicalRightMargin = containingBlock.style()->isLeftToRightDirection() ? containingBlock.marginEndForChild(&m_renderer) : containingBlock.marginStartForChild(&m_renderer);
                 LayoutUnit rawRightMarginBoxDelta = segment.logicalRight + logicalLeftOffset() - containingBlock.logicalWidthForChild(&m_renderer) - logicalRightMargin;
                 LayoutUnit rightMarginBoxDelta = clampTo<LayoutUnit>(rawRightMarginBoxDelta, -floatMarginBoxWidth, LayoutUnit());

                 m_shapeOutsideDeltas = ShapeOutsideDeltas(leftMarginBoxDelta, rightMarginBoxDelta, true, borderBoxLineTop, lineHeight);
                 return m_shapeOutsideDeltas;
             }
         }

         // Lines that do not overlap the shape should act as if the float
         // wasn't there for layout purposes. So we set the deltas to remove the
         // entire width of the float.
         m_shapeOutsideDeltas = ShapeOutsideDeltas(floatMarginBoxWidth, -floatMarginBoxWidth, false, borderBoxLineTop, lineHeight);
     }

     return m_shapeOutsideDeltas;
 }

 LayoutRect ShapeOutsideInfo::computedShapePhysicalBoundingBox() const
 {
     LayoutRect physicalBoundingBox = computedShape().shapeMarginLogicalBoundingBox();
     physicalBoundingBox.setX(physicalBoundingBox.x() + logicalLeftOffset());

     if (m_renderer.style()->slowIsFlippedBlocksWritingMode())
         physicalBoundingBox.setY(m_renderer.logicalHeight() - physicalBoundingBox.maxY());
     else
         physicalBoundingBox.setY(physicalBoundingBox.y() + logicalTopOffset());

     if (!m_renderer.style()->isHorizontalWritingMode())
         physicalBoundingBox = physicalBoundingBox.transposedRect();
     else
         physicalBoundingBox.setY(physicalBoundingBox.y() + logicalTopOffset());

     return physicalBoundingBox;
 }

 FloatPoint ShapeOutsideInfo::shapeToRendererPoint(FloatPoint point) const
 {
     FloatPoint result = FloatPoint(point.x() + logicalLeftOffset(), point.y() + logicalTopOffset());
     if (m_renderer.style()->slowIsFlippedBlocksWritingMode())
         result.setY(m_renderer.logicalHeight() - result.y());
     if (!m_renderer.style()->isHorizontalWritingMode())
         result = result.transposedPoint();
     return result;
 }

 FloatSize ShapeOutsideInfo::shapeToRendererSize(FloatSize size) const
 {
     if (!m_renderer.style()->isHorizontalWritingMode())
         return size.transposedSize();
     return size;
 }

 } // namespace blink
	/*
	* Copyright (C) 2012 Adobe Systems Incorporated. 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 THE COPYRIGHT HOLDER “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 THE COPYRIGHT HOLDER 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 "core/rendering/shapes/ShapeOutsideInfo.h"

	#include "core/inspector/ConsoleMessage.h"
	#include "core/rendering/FloatingObjects.h"
	#include "core/rendering/RenderBlockFlow.h"
	#include "core/rendering/RenderBox.h"
	#include "core/rendering/RenderImage.h"
	#include "platform/LengthFunctions.h"
	#include "public/platform/Platform.h"

	namespace blink {

	CSSBoxType referenceBox(const ShapeValue& shapeValue)
	{
	if (shapeValue.cssBox() == BoxMissing)
	return MarginBox;
	return shapeValue.cssBox();
	}

	void ShapeOutsideInfo::setReferenceBoxLogicalSize(LayoutSize newReferenceBoxLogicalSize)
	{
	bool isHorizontalWritingMode = m_renderer.containingBlock()->style()->isHorizontalWritingMode();
	switch (referenceBox(*m_renderer.style()->shapeOutside())) {
	case MarginBox:
	if (isHorizontalWritingMode)
	newReferenceBoxLogicalSize.expand(m_renderer.marginWidth(), m_renderer.marginHeight());
	else
	newReferenceBoxLogicalSize.expand(m_renderer.marginHeight(), m_renderer.marginWidth());
	break;
	case BorderBox:
	break;
	case PaddingBox:
	if (isHorizontalWritingMode)
	newReferenceBoxLogicalSize.shrink(m_renderer.borderWidth(), m_renderer.borderHeight());
	else
	newReferenceBoxLogicalSize.shrink(m_renderer.borderHeight(), m_renderer.borderWidth());
	break;
	case ContentBox:
	if (isHorizontalWritingMode)
	newReferenceBoxLogicalSize.shrink(m_renderer.borderAndPaddingWidth(), m_renderer.borderAndPaddingHeight());
	else
	newReferenceBoxLogicalSize.shrink(m_renderer.borderAndPaddingHeight(), m_renderer.borderAndPaddingWidth());
	break;
	case BoxMissing:
	ASSERT_NOT_REACHED();
	break;
	}

	if (m_referenceBoxLogicalSize == newReferenceBoxLogicalSize)
	return;
	markShapeAsDirty();
	m_referenceBoxLogicalSize = newReferenceBoxLogicalSize;
	}

	static bool checkShapeImageOrigin(Document& document, const StyleImage& styleImage)
	{
	if (styleImage.isGeneratedImage())
	return true;

	ASSERT(styleImage.cachedImage());
	ImageResource& imageResource = *(styleImage.cachedImage());
	if (imageResource.isAccessAllowed(document.securityOrigin()))
	return true;

	const KURL& url = imageResource.url();
	String urlString = url.isNull() ? "''" : url.elidedString();
	document.addConsoleMessage(ConsoleMessage::create(SecurityMessageSource, ErrorMessageLevel, "Unsafe attempt to load URL " + urlString + "."));

	return false;
	}

	static LayoutRect getShapeImageMarginRect(const RenderBox& renderBox, const LayoutSize& referenceBoxLogicalSize)
	{
	LayoutPoint marginBoxOrigin(-renderBox.marginLogicalLeft() - renderBox.borderAndPaddingLogicalLeft(), -renderBox.marginBefore() - renderBox.borderBefore() - renderBox.paddingBefore());
	LayoutSize marginBoxSizeDelta(renderBox.marginLogicalWidth() + renderBox.borderAndPaddingLogicalWidth(), renderBox.marginLogicalHeight() + renderBox.borderAndPaddingLogicalHeight());
	return LayoutRect(marginBoxOrigin, referenceBoxLogicalSize + marginBoxSizeDelta);
	}

	static bool isValidRasterShapeRect(const LayoutRect& rect)
	{
	static double maxImageSizeBytes = 0;
	if (!maxImageSizeBytes) {
	size_t size32MaxBytes = 0xFFFFFFFF / 4; // Some platforms don't limit maxDecodedImageBytes.
	maxImageSizeBytes = std::min(size32MaxBytes, Platform::current()->maxDecodedImageBytes());
	}
	return (rect.width().toFloat() * rect.height().toFloat() * 4.0) < maxImageSizeBytes;
	}

	PassOwnPtr<Shape> ShapeOutsideInfo::createShapeForImage(StyleImage* styleImage, float shapeImageThreshold, WritingMode writingMode, float margin) const
	{
	const IntSize& imageSize = m_renderer.calculateImageIntrinsicDimensions(styleImage, roundedIntSize(m_referenceBoxLogicalSize), RenderImage::ScaleByEffectiveZoom);
	styleImage->setContainerSizeForRenderer(&m_renderer, imageSize, m_renderer.style()->effectiveZoom());

	const LayoutRect& marginRect = getShapeImageMarginRect(m_renderer, m_referenceBoxLogicalSize);
	const LayoutRect& imageRect = (m_renderer.isRenderImage())
	? toRenderImage(m_renderer).replacedContentRect()
	: LayoutRect(LayoutPoint(), imageSize);

	if (!isValidRasterShapeRect(marginRect) \|\| !isValidRasterShapeRect(imageRect)) {
	m_renderer.document().addConsoleMessage(ConsoleMessage::create(RenderingMessageSource, ErrorMessageLevel, "The shape-outside image is too large."));
	return Shape::createEmptyRasterShape(writingMode, margin);
	}

	ASSERT(!styleImage->isPendingImage());
	RefPtr<Image> image = styleImage->image(const_cast<RenderBox*>(&m_renderer), imageSize);

	return Shape::createRasterShape(image.get(), shapeImageThreshold, imageRect, marginRect, writingMode, margin);
	}

	const Shape& ShapeOutsideInfo::computedShape() const
	{
	if (Shape* shape = m_shape.get())
	return *shape;

	TemporaryChange<bool> isInComputingShape(m_isComputingShape, true);

	const RenderStyle& style = *m_renderer.style();
	ASSERT(m_renderer.containingBlock());
	const RenderStyle& containingBlockStyle = *m_renderer.containingBlock()->style();

	WritingMode writingMode = containingBlockStyle.writingMode();
	LayoutUnit maximumValue = m_renderer.containingBlock() ? m_renderer.containingBlock()->contentWidth() : LayoutUnit();
	float margin = floatValueForLength(m_renderer.style()->shapeMargin(), maximumValue.toFloat());

	float shapeImageThreshold = style.shapeImageThreshold();
	ASSERT(style.shapeOutside());
	const ShapeValue& shapeValue = *style.shapeOutside();

	switch (shapeValue.type()) {
	case ShapeValue::Shape:
	ASSERT(shapeValue.shape());
	m_shape = Shape::createShape(shapeValue.shape(), m_referenceBoxLogicalSize, writingMode, margin);
	break;
	case ShapeValue::Image:
	ASSERT(shapeValue.isImageValid());
	m_shape = createShapeForImage(shapeValue.image(), shapeImageThreshold, writingMode, margin);
	break;
	case ShapeValue::Box: {
	const RoundedRect& shapeRect = style.getRoundedBorderFor(LayoutRect(LayoutPoint(), m_referenceBoxLogicalSize), m_renderer.view());
	m_shape = Shape::createLayoutBoxShape(shapeRect, writingMode, margin);
	break;
	}
	}

	ASSERT(m_shape);
	return *m_shape;
	}

	inline LayoutUnit borderBeforeInWritingMode(const RenderBox& renderer, WritingMode writingMode)
	{
	switch (writingMode) {
	case TopToBottomWritingMode: return renderer.borderTop();
	case BottomToTopWritingMode: return renderer.borderBottom();
	case LeftToRightWritingMode: return renderer.borderLeft();
	case RightToLeftWritingMode: return renderer.borderRight();
	}

	ASSERT_NOT_REACHED();
	return renderer.borderBefore();
	}

	inline LayoutUnit borderAndPaddingBeforeInWritingMode(const RenderBox& renderer, WritingMode writingMode)
	{
	switch (writingMode) {
	case TopToBottomWritingMode: return renderer.borderTop() + renderer.paddingTop();
	case BottomToTopWritingMode: return renderer.borderBottom() + renderer.paddingBottom();
	case LeftToRightWritingMode: return renderer.borderLeft() + renderer.paddingLeft();
	case RightToLeftWritingMode: return renderer.borderRight() + renderer.paddingRight();
	}

	ASSERT_NOT_REACHED();
	return renderer.borderAndPaddingBefore();
	}

	LayoutUnit ShapeOutsideInfo::logicalTopOffset() const
	{
	switch (referenceBox(*m_renderer.style()->shapeOutside())) {
	case MarginBox: return -m_renderer.marginBefore(m_renderer.containingBlock()->style());
	case BorderBox: return LayoutUnit();
	case PaddingBox: return borderBeforeInWritingMode(m_renderer, m_renderer.containingBlock()->style()->writingMode());
	case ContentBox: return borderAndPaddingBeforeInWritingMode(m_renderer, m_renderer.containingBlock()->style()->writingMode());
	case BoxMissing: break;
	}

	ASSERT_NOT_REACHED();
	return LayoutUnit();
	}

	inline LayoutUnit borderStartWithStyleForWritingMode(const RenderBox& renderer, const RenderStyle* style)
	{
	if (style->isHorizontalWritingMode()) {
	if (style->isLeftToRightDirection())
	return renderer.borderLeft();

	return renderer.borderRight();
	}
	if (style->isLeftToRightDirection())
	return renderer.borderTop();

	return renderer.borderBottom();
	}

	inline LayoutUnit borderAndPaddingStartWithStyleForWritingMode(const RenderBox& renderer, const RenderStyle* style)
	{
	if (style->isHorizontalWritingMode()) {
	if (style->isLeftToRightDirection())
	return renderer.borderLeft() + renderer.paddingLeft();

	return renderer.borderRight() + renderer.paddingRight();
	}
	if (style->isLeftToRightDirection())
	return renderer.borderTop() + renderer.paddingTop();

	return renderer.borderBottom() + renderer.paddingBottom();
	}

	LayoutUnit ShapeOutsideInfo::logicalLeftOffset() const
	{
	switch (referenceBox(*m_renderer.style()->shapeOutside())) {
	case MarginBox: return -m_renderer.marginStart(m_renderer.containingBlock()->style());
	case BorderBox: return LayoutUnit();
	case PaddingBox: return borderStartWithStyleForWritingMode(m_renderer, m_renderer.containingBlock()->style());
	case ContentBox: return borderAndPaddingStartWithStyleForWritingMode(m_renderer, m_renderer.containingBlock()->style());
	case BoxMissing: break;
	}

	ASSERT_NOT_REACHED();
	return LayoutUnit();
	}


	bool ShapeOutsideInfo::isEnabledFor(const RenderBox& box)
	{
	ShapeValue* shapeValue = box.style()->shapeOutside();
	if (!box.isFloating() \|\| !shapeValue)
	return false;

	switch (shapeValue->type()) {
	case ShapeValue::Shape:
	return shapeValue->shape();
	case ShapeValue::Image:
	return shapeValue->isImageValid() && checkShapeImageOrigin(box.document(), *(shapeValue->image()));
	case ShapeValue::Box:
	return true;
	}

	return false;
	}
	ShapeOutsideDeltas ShapeOutsideInfo::computeDeltasForContainingBlockLine(const RenderBlockFlow& containingBlock, const FloatingObject& floatingObject, LayoutUnit lineTop, LayoutUnit lineHeight)
	{
	ASSERT(lineHeight >= 0);

	LayoutUnit borderBoxTop = containingBlock.logicalTopForFloat(&floatingObject) + containingBlock.marginBeforeForChild(&m_renderer);
	LayoutUnit borderBoxLineTop = lineTop - borderBoxTop;

	if (isShapeDirty() \|\| !m_shapeOutsideDeltas.isForLine(borderBoxLineTop, lineHeight)) {
	LayoutUnit referenceBoxLineTop = borderBoxLineTop - logicalTopOffset();
	LayoutUnit floatMarginBoxWidth = containingBlock.logicalWidthForFloat(&floatingObject);

	if (computedShape().lineOverlapsShapeMarginBounds(referenceBoxLineTop, lineHeight)) {
	LineSegment segment = computedShape().getExcludedInterval((borderBoxLineTop - logicalTopOffset()), std::min(lineHeight, shapeLogicalBottom() - borderBoxLineTop));
	if (segment.isValid) {
	LayoutUnit logicalLeftMargin = containingBlock.style()->isLeftToRightDirection() ? containingBlock.marginStartForChild(&m_renderer) : containingBlock.marginEndForChild(&m_renderer);
	LayoutUnit rawLeftMarginBoxDelta = segment.logicalLeft + logicalLeftOffset() + logicalLeftMargin;
	LayoutUnit leftMarginBoxDelta = clampTo<LayoutUnit>(rawLeftMarginBoxDelta, LayoutUnit(), floatMarginBoxWidth);

	LayoutUnit logicalRightMargin = containingBlock.style()->isLeftToRightDirection() ? containingBlock.marginEndForChild(&m_renderer) : containingBlock.marginStartForChild(&m_renderer);
	LayoutUnit rawRightMarginBoxDelta = segment.logicalRight + logicalLeftOffset() - containingBlock.logicalWidthForChild(&m_renderer) - logicalRightMargin;
	LayoutUnit rightMarginBoxDelta = clampTo<LayoutUnit>(rawRightMarginBoxDelta, -floatMarginBoxWidth, LayoutUnit());

	m_shapeOutsideDeltas = ShapeOutsideDeltas(leftMarginBoxDelta, rightMarginBoxDelta, true, borderBoxLineTop, lineHeight);
	return m_shapeOutsideDeltas;
	}
	}

	// Lines that do not overlap the shape should act as if the float
	// wasn't there for layout purposes. So we set the deltas to remove the
	// entire width of the float.
	m_shapeOutsideDeltas = ShapeOutsideDeltas(floatMarginBoxWidth, -floatMarginBoxWidth, false, borderBoxLineTop, lineHeight);
	}

	return m_shapeOutsideDeltas;
	}

	LayoutRect ShapeOutsideInfo::computedShapePhysicalBoundingBox() const
	{
	LayoutRect physicalBoundingBox = computedShape().shapeMarginLogicalBoundingBox();
	physicalBoundingBox.setX(physicalBoundingBox.x() + logicalLeftOffset());

	if (m_renderer.style()->slowIsFlippedBlocksWritingMode())
	physicalBoundingBox.setY(m_renderer.logicalHeight() - physicalBoundingBox.maxY());
	else
	physicalBoundingBox.setY(physicalBoundingBox.y() + logicalTopOffset());

	if (!m_renderer.style()->isHorizontalWritingMode())
	physicalBoundingBox = physicalBoundingBox.transposedRect();
	else
	physicalBoundingBox.setY(physicalBoundingBox.y() + logicalTopOffset());

	return physicalBoundingBox;
	}

	FloatPoint ShapeOutsideInfo::shapeToRendererPoint(FloatPoint point) const
	{
	FloatPoint result = FloatPoint(point.x() + logicalLeftOffset(), point.y() + logicalTopOffset());
	if (m_renderer.style()->slowIsFlippedBlocksWritingMode())
	result.setY(m_renderer.logicalHeight() - result.y());
	if (!m_renderer.style()->isHorizontalWritingMode())
	result = result.transposedPoint();
	return result;
	}

	FloatSize ShapeOutsideInfo::shapeToRendererSize(FloatSize size) const
	{
	if (!m_renderer.style()->isHorizontalWritingMode())
	return size.transposedSize();
	return size;
	}

	} // namespace blink