Source/core/rendering/RenderBoxModelObject.h - platform/external/chromium_org/third_party/WebKit - Git at Google

 /*
  * Copyright (C) 1999 Lars Knoll (knoll@kde.org)
  *           (C) 1999 Antti Koivisto (koivisto@kde.org)
  * Copyright (C) 2003, 2006, 2007, 2009 Apple Inc. All rights reserved.
  * Copyright (C) 2010 Google Inc. All rights reserved.
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Library General Public
  * License as published by the Free Software Foundation; either
  * version 2 of the License, or (at your option) any later version.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Library General Public License for more details.
  *
  * You should have received a copy of the GNU Library General Public License
  * along with this library; see the file COPYING.LIB.  If not, write to
  * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  * Boston, MA 02110-1301, USA.
  *
  */

 #ifndef RenderBoxModelObject_h
 #define RenderBoxModelObject_h

 #include "core/platform/graphics/LayoutRect.h"
 #include "core/rendering/RenderLayerModelObject.h"
 #include "core/rendering/style/ShadowData.h"

 namespace WebCore {

 // Modes for some of the line-related functions.
 enum LinePositionMode { PositionOnContainingLine, PositionOfInteriorLineBoxes };
 enum LineDirectionMode { HorizontalLine, VerticalLine };
 typedef unsigned BorderEdgeFlags;

 enum BackgroundBleedAvoidance {
     BackgroundBleedNone,
     BackgroundBleedShrinkBackground,
     BackgroundBleedUseTransparencyLayer,
     BackgroundBleedBackgroundOverBorder
 };

 enum ContentChangeType {
     ImageChanged,
     MaskImageChanged,
     CanvasChanged,
     CanvasPixelsChanged,
     VideoChanged,
     FullScreenChanged
 };

 class KeyframeList;
 class StickyPositionViewportConstraints;

 // This class is the base for all objects that adhere to the CSS box model as described
 // at http://www.w3.org/TR/CSS21/box.html

 class RenderBoxModelObject : public RenderLayerModelObject {
 public:
     RenderBoxModelObject(ContainerNode*);
     virtual ~RenderBoxModelObject();

     LayoutSize relativePositionOffset() const;
     LayoutSize relativePositionLogicalOffset() const { return style()->isHorizontalWritingMode() ? relativePositionOffset() : relativePositionOffset().transposedSize(); }

     void computeStickyPositionConstraints(StickyPositionViewportConstraints&, const FloatRect& viewportRect) const;
     LayoutSize stickyPositionOffset() const;
     LayoutSize stickyPositionLogicalOffset() const { return style()->isHorizontalWritingMode() ? stickyPositionOffset() : stickyPositionOffset().transposedSize(); }

     LayoutSize offsetForInFlowPosition() const;

     // IE extensions. Used to calculate offsetWidth/Height.  Overridden by inlines (RenderFlow)
     // to return the remaining width on a given line (and the height of a single line).
     virtual LayoutUnit offsetLeft() const;
     virtual LayoutUnit offsetTop() const;
     virtual LayoutUnit offsetWidth() const = 0;
     virtual LayoutUnit offsetHeight() const = 0;

     int pixelSnappedOffsetLeft() const { return roundToInt(offsetLeft()); }
     int pixelSnappedOffsetTop() const { return roundToInt(offsetTop()); }
     virtual int pixelSnappedOffsetWidth() const;
     virtual int pixelSnappedOffsetHeight() const;

     virtual void updateFromStyle() OVERRIDE;

     virtual bool requiresLayer() const OVERRIDE { return isRoot() || isPositioned() || createsGroup() || hasClipPath() || hasTransform() || hasHiddenBackface() || hasReflection() || style()->specifiesColumns(); }

     // This will work on inlines to return the bounding box of all of the lines' border boxes.
     virtual IntRect borderBoundingBox() const = 0;

     // These return the CSS computed padding values.
     LayoutUnit computedCSSPaddingTop() const { return computedCSSPadding(style()->paddingTop()); }
     LayoutUnit computedCSSPaddingBottom() const { return computedCSSPadding(style()->paddingBottom()); }
     LayoutUnit computedCSSPaddingLeft() const { return computedCSSPadding(style()->paddingLeft()); }
     LayoutUnit computedCSSPaddingRight() const { return computedCSSPadding(style()->paddingRight()); }
     LayoutUnit computedCSSPaddingBefore() const { return computedCSSPadding(style()->paddingBefore()); }
     LayoutUnit computedCSSPaddingAfter() const { return computedCSSPadding(style()->paddingAfter()); }
     LayoutUnit computedCSSPaddingStart() const { return computedCSSPadding(style()->paddingStart()); }
     LayoutUnit computedCSSPaddingEnd() const { return computedCSSPadding(style()->paddingEnd()); }

     // These functions are used during layout. Table cells
     // override them to include some extra intrinsic padding.
     virtual LayoutUnit paddingTop() const { return computedCSSPaddingTop(); }
     virtual LayoutUnit paddingBottom() const { return computedCSSPaddingBottom(); }
     virtual LayoutUnit paddingLeft() const { return computedCSSPaddingLeft(); }
     virtual LayoutUnit paddingRight() const { return computedCSSPaddingRight(); }
     virtual LayoutUnit paddingBefore() const { return computedCSSPaddingBefore(); }
     virtual LayoutUnit paddingAfter() const { return computedCSSPaddingAfter(); }
     virtual LayoutUnit paddingStart() const { return computedCSSPaddingStart(); }
     virtual LayoutUnit paddingEnd() const { return computedCSSPaddingEnd(); }

     virtual int borderTop() const { return style()->borderTopWidth(); }
     virtual int borderBottom() const { return style()->borderBottomWidth(); }
     virtual int borderLeft() const { return style()->borderLeftWidth(); }
     virtual int borderRight() const { return style()->borderRightWidth(); }
     virtual int borderBefore() const { return style()->borderBeforeWidth(); }
     virtual int borderAfter() const { return style()->borderAfterWidth(); }
     virtual int borderStart() const { return style()->borderStartWidth(); }
     virtual int borderEnd() const { return style()->borderEndWidth(); }

     LayoutUnit borderAndPaddingStart() const { return borderStart() + paddingStart(); }
     LayoutUnit borderAndPaddingBefore() const { return borderBefore() + paddingBefore(); }
     LayoutUnit borderAndPaddingAfter() const { return borderAfter() + paddingAfter(); }

     LayoutUnit borderAndPaddingHeight() const { return borderTop() + borderBottom() + paddingTop() + paddingBottom(); }
     LayoutUnit borderAndPaddingWidth() const { return borderLeft() + borderRight() + paddingLeft() + paddingRight(); }
     LayoutUnit borderAndPaddingLogicalHeight() const { return borderAndPaddingBefore() + borderAndPaddingAfter(); }
     LayoutUnit borderAndPaddingLogicalWidth() const { return borderStart() + borderEnd() + paddingStart() + paddingEnd(); }
     LayoutUnit borderAndPaddingLogicalLeft() const { return style()->isHorizontalWritingMode() ? borderLeft() + paddingLeft() : borderTop() + paddingTop(); }


     LayoutUnit borderLogicalLeft() const { return style()->isHorizontalWritingMode() ? borderLeft() : borderTop(); }
     LayoutUnit borderLogicalRight() const { return style()->isHorizontalWritingMode() ? borderRight() : borderBottom(); }

     LayoutUnit paddingLogicalLeft() const { return style()->isHorizontalWritingMode() ? paddingLeft() : paddingTop(); }
     LayoutUnit paddingLogicalRight() const { return style()->isHorizontalWritingMode() ? paddingRight() : paddingBottom(); }

     virtual LayoutUnit marginTop() const = 0;
     virtual LayoutUnit marginBottom() const = 0;
     virtual LayoutUnit marginLeft() const = 0;
     virtual LayoutUnit marginRight() const = 0;
     virtual LayoutUnit marginBefore(const RenderStyle* otherStyle = 0) const = 0;
     virtual LayoutUnit marginAfter(const RenderStyle* otherStyle = 0) const = 0;
     virtual LayoutUnit marginStart(const RenderStyle* otherStyle = 0) const = 0;
     virtual LayoutUnit marginEnd(const RenderStyle* otherStyle = 0) const = 0;
     LayoutUnit marginHeight() const { return marginTop() + marginBottom(); }
     LayoutUnit marginWidth() const { return marginLeft() + marginRight(); }
     LayoutUnit marginLogicalHeight() const { return marginBefore() + marginAfter(); }
     LayoutUnit marginLogicalWidth() const { return marginStart() + marginEnd(); }

     bool hasInlineDirectionBordersPaddingOrMargin() const { return hasInlineDirectionBordersOrPadding() || marginStart()|| marginEnd(); }
     bool hasInlineDirectionBordersOrPadding() const { return borderStart() || borderEnd() || paddingStart()|| paddingEnd(); }

     virtual LayoutUnit containingBlockLogicalWidthForContent() const;

     virtual void childBecameNonInline(RenderObject* /*child*/) { }

     void paintBorder(const PaintInfo&, const LayoutRect&, const RenderStyle*, BackgroundBleedAvoidance = BackgroundBleedNone, bool includeLogicalLeftEdge = true, bool includeLogicalRightEdge = true);
     bool paintNinePieceImage(GraphicsContext*, const LayoutRect&, const RenderStyle*, const NinePieceImage&, CompositeOperator = CompositeSourceOver);
     void paintBoxShadow(const PaintInfo&, const LayoutRect&, const RenderStyle*, ShadowStyle, bool includeLogicalLeftEdge = true, bool includeLogicalRightEdge = true);
     void paintFillLayerExtended(const PaintInfo&, const Color&, const FillLayer*, const LayoutRect&, BackgroundBleedAvoidance, InlineFlowBox* = 0, const LayoutSize& = LayoutSize(), CompositeOperator = CompositeSourceOver, RenderObject* backgroundObject = 0);

     virtual bool boxShadowShouldBeAppliedToBackground(BackgroundBleedAvoidance, InlineFlowBox* = 0) const;

     // Overridden by subclasses to determine line height and baseline position.
     virtual LayoutUnit lineHeight(bool firstLine, LineDirectionMode, LinePositionMode = PositionOnContainingLine) const = 0;
     virtual int baselinePosition(FontBaseline, bool firstLine, LineDirectionMode, LinePositionMode = PositionOnContainingLine) const = 0;

     virtual void mapAbsoluteToLocalPoint(MapCoordinatesFlags, TransformState&) const OVERRIDE;
     virtual const RenderObject* pushMappingToContainer(const RenderLayerModelObject* ancestorToStopAt, RenderGeometryMap&) const OVERRIDE;

     void highQualityRepaintTimerFired(Timer<RenderBoxModelObject>*);

     virtual void setSelectionState(SelectionState s);

     bool canHaveBoxInfoInRegion() const { return !isFloating() && !isReplaced() && !isInline() && !hasColumns() && !isTableCell() && isRenderBlock() && !isRenderSVGBlock(); }

     void contentChanged(ContentChangeType);
     bool hasAcceleratedCompositing() const;

     bool startTransition(double, CSSPropertyID, const RenderStyle* fromStyle, const RenderStyle* toStyle);
     void transitionPaused(double timeOffset, CSSPropertyID);
     void transitionFinished(CSSPropertyID);

     bool startAnimation(double timeOffset, const CSSAnimationData*, const KeyframeList& keyframes);
     void animationPaused(double timeOffset, const String& name);
     void animationFinished(const String& name);

     void suspendAnimations(double time = 0);

     virtual void computeLayerHitTestRects(LayerHitTestRects&) const OVERRIDE;

 protected:
     virtual void willBeDestroyed();

     class BackgroundImageGeometry {
     public:
         IntPoint destOrigin() const { return m_destOrigin; }
         void setDestOrigin(const IntPoint& destOrigin)
         {
             m_destOrigin = destOrigin;
         }

         IntRect destRect() const { return m_destRect; }
         void setDestRect(const IntRect& destRect)
         {
             m_destRect = destRect;
         }

         // Returns the phase relative to the destination rectangle.
         IntPoint relativePhase() const;

         IntPoint phase() const { return m_phase; }
         void setPhase(const IntPoint& phase)
         {
             m_phase = phase;
         }

         IntSize tileSize() const { return m_tileSize; }
         void setTileSize(const IntSize& tileSize)
         {
             m_tileSize = tileSize;
         }

         void setPhaseX(int x) { m_phase.setX(x); }
         void setPhaseY(int y) { m_phase.setY(y); }

         void setNoRepeatX(int xOffset);
         void setNoRepeatY(int yOffset);

         void useFixedAttachment(const IntPoint& attachmentPoint);

         void clip(const IntRect&);
     private:
         IntRect m_destRect;
         IntPoint m_destOrigin;
         IntPoint m_phase;
         IntSize m_tileSize;
     };

     LayoutPoint adjustedPositionRelativeToOffsetParent(const LayoutPoint&) const;

     void calculateBackgroundImageGeometry(const FillLayer*, const LayoutRect& paintRect, BackgroundImageGeometry&, RenderObject* = 0);
     void getBorderEdgeInfo(class BorderEdge[], const RenderStyle*, bool includeLogicalLeftEdge = true, bool includeLogicalRightEdge = true) const;
     bool borderObscuresBackgroundEdge(const FloatSize& contextScale) const;
     bool borderObscuresBackground() const;
     RoundedRect backgroundRoundedRectAdjustedForBleedAvoidance(GraphicsContext*, const LayoutRect&, BackgroundBleedAvoidance, InlineFlowBox*, const LayoutSize&, bool includeLogicalLeftEdge, bool includeLogicalRightEdge) const;
     LayoutRect borderInnerRectAdjustedForBleedAvoidance(GraphicsContext*, const LayoutRect&, BackgroundBleedAvoidance) const;

     bool shouldPaintAtLowQuality(GraphicsContext*, Image*, const void*, const LayoutSize&);

     RenderBoxModelObject* continuation() const;
     void setContinuation(RenderBoxModelObject*);

     LayoutRect localCaretRectForEmptyElement(LayoutUnit width, LayoutUnit textIndentOffset);

     static bool shouldAntialiasLines(GraphicsContext*);

     static void clipRoundedInnerRect(GraphicsContext*, const LayoutRect&, const RoundedRect& clipRect);

     bool hasAutoHeightOrContainingBlockWithAutoHeight() const;

 public:
     // For RenderBlocks and RenderInlines with m_style->styleType() == FIRST_LETTER, this tracks their remaining text fragments
     RenderObject* firstLetterRemainingText() const;
     void setFirstLetterRemainingText(RenderObject*);

     // These functions are only used internally to manipulate the render tree structure via remove/insert/appendChildNode.
     // Since they are typically called only to move objects around within anonymous blocks (which only have layers in
     // the case of column spans), the default for fullRemoveInsert is false rather than true.
     void moveChildTo(RenderBoxModelObject* toBoxModelObject, RenderObject* child, RenderObject* beforeChild, bool fullRemoveInsert = false);
     void moveChildTo(RenderBoxModelObject* toBoxModelObject, RenderObject* child, bool fullRemoveInsert = false)
     {
         moveChildTo(toBoxModelObject, child, 0, fullRemoveInsert);
     }
     void moveAllChildrenTo(RenderBoxModelObject* toBoxModelObject, bool fullRemoveInsert = false)
     {
         moveAllChildrenTo(toBoxModelObject, 0, fullRemoveInsert);
     }
     void moveAllChildrenTo(RenderBoxModelObject* toBoxModelObject, RenderObject* beforeChild, bool fullRemoveInsert = false)
     {
         moveChildrenTo(toBoxModelObject, firstChild(), 0, beforeChild, fullRemoveInsert);
     }
     // Move all of the kids from |startChild| up to but excluding |endChild|. 0 can be passed as the |endChild| to denote
     // that all the kids from |startChild| onwards should be moved.
     void moveChildrenTo(RenderBoxModelObject* toBoxModelObject, RenderObject* startChild, RenderObject* endChild, bool fullRemoveInsert = false)
     {
         moveChildrenTo(toBoxModelObject, startChild, endChild, 0, fullRemoveInsert);
     }
     void moveChildrenTo(RenderBoxModelObject* toBoxModelObject, RenderObject* startChild, RenderObject* endChild, RenderObject* beforeChild, bool fullRemoveInsert = false);

 private:
     LayoutUnit computedCSSPadding(Length) const;
     virtual bool isBoxModelObject() const OVERRIDE FINAL { return true; }

     virtual LayoutRect frameRectForStickyPositioning() const = 0;

     IntSize calculateFillTileSize(const FillLayer*, const IntSize& scaledPositioningAreaSize) const;

     enum ScaleByEffectiveZoomOrNot { ScaleByEffectiveZoom, DoNotScaleByEffectiveZoom };
     IntSize calculateImageIntrinsicDimensions(StyleImage*, const IntSize& scaledPositioningAreaSize, ScaleByEffectiveZoomOrNot) const;

     RoundedRect getBackgroundRoundedRect(const LayoutRect&, InlineFlowBox*, LayoutUnit inlineBoxWidth, LayoutUnit inlineBoxHeight,
         bool includeLogicalLeftEdge, bool includeLogicalRightEdge) const;

     bool fixedBackgroundPaintsInLocalCoordinates() const;

     void clipBorderSidePolygon(GraphicsContext*, const RoundedRect& outerBorder, const RoundedRect& innerBorder,
                                BoxSide, bool firstEdgeMatches, bool secondEdgeMatches);
     void clipBorderSideForComplexInnerPath(GraphicsContext*, const RoundedRect&, const RoundedRect&, BoxSide, const class BorderEdge[]);
     void paintOneBorderSide(GraphicsContext*, const RenderStyle*, const RoundedRect& outerBorder, const RoundedRect& innerBorder,
                                 const IntRect& sideRect, BoxSide, BoxSide adjacentSide1, BoxSide adjacentSide2, const class BorderEdge[],
                                 const Path*, BackgroundBleedAvoidance, bool includeLogicalLeftEdge, bool includeLogicalRightEdge, bool antialias, const Color* overrideColor = 0);
     void paintTranslucentBorderSides(GraphicsContext*, const RenderStyle*, const RoundedRect& outerBorder, const RoundedRect& innerBorder, const IntPoint& innerBorderAdjustment,
         const class BorderEdge[], BorderEdgeFlags, BackgroundBleedAvoidance, bool includeLogicalLeftEdge, bool includeLogicalRightEdge, bool antialias = false);
     void paintBorderSides(GraphicsContext*, const RenderStyle*, const RoundedRect& outerBorder, const RoundedRect& innerBorder,
         const IntPoint& innerBorderAdjustment, const class BorderEdge[], BorderEdgeFlags, BackgroundBleedAvoidance,
         bool includeLogicalLeftEdge, bool includeLogicalRightEdge, bool antialias = false, const Color* overrideColor = 0);
     void drawBoxSideFromPath(GraphicsContext*, const LayoutRect&, const Path&, const class BorderEdge[],
                             float thickness, float drawThickness, BoxSide, const RenderStyle*,
                             Color, EBorderStyle, BackgroundBleedAvoidance, bool includeLogicalLeftEdge, bool includeLogicalRightEdge);
 };

 inline RenderBoxModelObject* toRenderBoxModelObject(RenderObject* object)
 {
     ASSERT_WITH_SECURITY_IMPLICATION(!object || object->isBoxModelObject());
     return static_cast<RenderBoxModelObject*>(object);
 }

 inline const RenderBoxModelObject* toRenderBoxModelObject(const RenderObject* object)
 {
     ASSERT_WITH_SECURITY_IMPLICATION(!object || object->isBoxModelObject());
     return static_cast<const RenderBoxModelObject*>(object);
 }

 // This will catch anyone doing an unnecessary cast.
 void toRenderBoxModelObject(const RenderBoxModelObject*);

 } // namespace WebCore

 #endif // RenderBoxModelObject_h
	/*
	* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
	* (C) 1999 Antti Koivisto (koivisto@kde.org)
	* Copyright (C) 2003, 2006, 2007, 2009 Apple Inc. All rights reserved.
	* Copyright (C) 2010 Google Inc. All rights reserved.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*
	*/

	#ifndef RenderBoxModelObject_h
	#define RenderBoxModelObject_h

	#include "core/platform/graphics/LayoutRect.h"
	#include "core/rendering/RenderLayerModelObject.h"
	#include "core/rendering/style/ShadowData.h"

	namespace WebCore {

	// Modes for some of the line-related functions.
	enum LinePositionMode { PositionOnContainingLine, PositionOfInteriorLineBoxes };
	enum LineDirectionMode { HorizontalLine, VerticalLine };
	typedef unsigned BorderEdgeFlags;

	enum BackgroundBleedAvoidance {
	BackgroundBleedNone,
	BackgroundBleedShrinkBackground,
	BackgroundBleedUseTransparencyLayer,
	BackgroundBleedBackgroundOverBorder
	};

	enum ContentChangeType {
	ImageChanged,
	MaskImageChanged,
	CanvasChanged,
	CanvasPixelsChanged,
	VideoChanged,
	FullScreenChanged
	};

	class KeyframeList;
	class StickyPositionViewportConstraints;

	// This class is the base for all objects that adhere to the CSS box model as described
	// at http://www.w3.org/TR/CSS21/box.html

	class RenderBoxModelObject : public RenderLayerModelObject {
	public:
	RenderBoxModelObject(ContainerNode*);
	virtual ~RenderBoxModelObject();

	LayoutSize relativePositionOffset() const;
	LayoutSize relativePositionLogicalOffset() const { return style()->isHorizontalWritingMode() ? relativePositionOffset() : relativePositionOffset().transposedSize(); }

	void computeStickyPositionConstraints(StickyPositionViewportConstraints&, const FloatRect& viewportRect) const;
	LayoutSize stickyPositionOffset() const;
	LayoutSize stickyPositionLogicalOffset() const { return style()->isHorizontalWritingMode() ? stickyPositionOffset() : stickyPositionOffset().transposedSize(); }

	LayoutSize offsetForInFlowPosition() const;

	// IE extensions. Used to calculate offsetWidth/Height. Overridden by inlines (RenderFlow)
	// to return the remaining width on a given line (and the height of a single line).
	virtual LayoutUnit offsetLeft() const;
	virtual LayoutUnit offsetTop() const;
	virtual LayoutUnit offsetWidth() const = 0;
	virtual LayoutUnit offsetHeight() const = 0;

	int pixelSnappedOffsetLeft() const { return roundToInt(offsetLeft()); }
	int pixelSnappedOffsetTop() const { return roundToInt(offsetTop()); }
	virtual int pixelSnappedOffsetWidth() const;
	virtual int pixelSnappedOffsetHeight() const;

	virtual void updateFromStyle() OVERRIDE;

	virtual bool requiresLayer() const OVERRIDE { return isRoot() \|\| isPositioned() \|\| createsGroup() \|\| hasClipPath() \|\| hasTransform() \|\| hasHiddenBackface() \|\| hasReflection() \|\| style()->specifiesColumns(); }

	// This will work on inlines to return the bounding box of all of the lines' border boxes.
	virtual IntRect borderBoundingBox() const = 0;

	// These return the CSS computed padding values.
	LayoutUnit computedCSSPaddingTop() const { return computedCSSPadding(style()->paddingTop()); }
	LayoutUnit computedCSSPaddingBottom() const { return computedCSSPadding(style()->paddingBottom()); }
	LayoutUnit computedCSSPaddingLeft() const { return computedCSSPadding(style()->paddingLeft()); }
	LayoutUnit computedCSSPaddingRight() const { return computedCSSPadding(style()->paddingRight()); }
	LayoutUnit computedCSSPaddingBefore() const { return computedCSSPadding(style()->paddingBefore()); }
	LayoutUnit computedCSSPaddingAfter() const { return computedCSSPadding(style()->paddingAfter()); }
	LayoutUnit computedCSSPaddingStart() const { return computedCSSPadding(style()->paddingStart()); }
	LayoutUnit computedCSSPaddingEnd() const { return computedCSSPadding(style()->paddingEnd()); }

	// These functions are used during layout. Table cells
	// override them to include some extra intrinsic padding.
	virtual LayoutUnit paddingTop() const { return computedCSSPaddingTop(); }
	virtual LayoutUnit paddingBottom() const { return computedCSSPaddingBottom(); }
	virtual LayoutUnit paddingLeft() const { return computedCSSPaddingLeft(); }
	virtual LayoutUnit paddingRight() const { return computedCSSPaddingRight(); }
	virtual LayoutUnit paddingBefore() const { return computedCSSPaddingBefore(); }
	virtual LayoutUnit paddingAfter() const { return computedCSSPaddingAfter(); }
	virtual LayoutUnit paddingStart() const { return computedCSSPaddingStart(); }
	virtual LayoutUnit paddingEnd() const { return computedCSSPaddingEnd(); }

	virtual int borderTop() const { return style()->borderTopWidth(); }
	virtual int borderBottom() const { return style()->borderBottomWidth(); }
	virtual int borderLeft() const { return style()->borderLeftWidth(); }
	virtual int borderRight() const { return style()->borderRightWidth(); }
	virtual int borderBefore() const { return style()->borderBeforeWidth(); }
	virtual int borderAfter() const { return style()->borderAfterWidth(); }
	virtual int borderStart() const { return style()->borderStartWidth(); }
	virtual int borderEnd() const { return style()->borderEndWidth(); }

	LayoutUnit borderAndPaddingStart() const { return borderStart() + paddingStart(); }
	LayoutUnit borderAndPaddingBefore() const { return borderBefore() + paddingBefore(); }
	LayoutUnit borderAndPaddingAfter() const { return borderAfter() + paddingAfter(); }

	LayoutUnit borderAndPaddingHeight() const { return borderTop() + borderBottom() + paddingTop() + paddingBottom(); }
	LayoutUnit borderAndPaddingWidth() const { return borderLeft() + borderRight() + paddingLeft() + paddingRight(); }
	LayoutUnit borderAndPaddingLogicalHeight() const { return borderAndPaddingBefore() + borderAndPaddingAfter(); }
	LayoutUnit borderAndPaddingLogicalWidth() const { return borderStart() + borderEnd() + paddingStart() + paddingEnd(); }
	LayoutUnit borderAndPaddingLogicalLeft() const { return style()->isHorizontalWritingMode() ? borderLeft() + paddingLeft() : borderTop() + paddingTop(); }


	LayoutUnit borderLogicalLeft() const { return style()->isHorizontalWritingMode() ? borderLeft() : borderTop(); }
	LayoutUnit borderLogicalRight() const { return style()->isHorizontalWritingMode() ? borderRight() : borderBottom(); }

	LayoutUnit paddingLogicalLeft() const { return style()->isHorizontalWritingMode() ? paddingLeft() : paddingTop(); }
	LayoutUnit paddingLogicalRight() const { return style()->isHorizontalWritingMode() ? paddingRight() : paddingBottom(); }

	virtual LayoutUnit marginTop() const = 0;
	virtual LayoutUnit marginBottom() const = 0;
	virtual LayoutUnit marginLeft() const = 0;
	virtual LayoutUnit marginRight() const = 0;
	virtual LayoutUnit marginBefore(const RenderStyle* otherStyle = 0) const = 0;
	virtual LayoutUnit marginAfter(const RenderStyle* otherStyle = 0) const = 0;
	virtual LayoutUnit marginStart(const RenderStyle* otherStyle = 0) const = 0;
	virtual LayoutUnit marginEnd(const RenderStyle* otherStyle = 0) const = 0;
	LayoutUnit marginHeight() const { return marginTop() + marginBottom(); }
	LayoutUnit marginWidth() const { return marginLeft() + marginRight(); }
	LayoutUnit marginLogicalHeight() const { return marginBefore() + marginAfter(); }
	LayoutUnit marginLogicalWidth() const { return marginStart() + marginEnd(); }

	bool hasInlineDirectionBordersPaddingOrMargin() const { return hasInlineDirectionBordersOrPadding() \|\| marginStart()\|\| marginEnd(); }
	bool hasInlineDirectionBordersOrPadding() const { return borderStart() \|\| borderEnd() \|\| paddingStart()\|\| paddingEnd(); }

	virtual LayoutUnit containingBlockLogicalWidthForContent() const;

	virtual void childBecameNonInline(RenderObject* /child/) { }

	void paintBorder(const PaintInfo&, const LayoutRect&, const RenderStyle*, BackgroundBleedAvoidance = BackgroundBleedNone, bool includeLogicalLeftEdge = true, bool includeLogicalRightEdge = true);
	bool paintNinePieceImage(GraphicsContext, const LayoutRect&, const RenderStyle, const NinePieceImage&, CompositeOperator = CompositeSourceOver);
	void paintBoxShadow(const PaintInfo&, const LayoutRect&, const RenderStyle*, ShadowStyle, bool includeLogicalLeftEdge = true, bool includeLogicalRightEdge = true);
	void paintFillLayerExtended(const PaintInfo&, const Color&, const FillLayer, const LayoutRect&, BackgroundBleedAvoidance, InlineFlowBox = 0, const LayoutSize& = LayoutSize(), CompositeOperator = CompositeSourceOver, RenderObject* backgroundObject = 0);

	virtual bool boxShadowShouldBeAppliedToBackground(BackgroundBleedAvoidance, InlineFlowBox* = 0) const;

	// Overridden by subclasses to determine line height and baseline position.
	virtual LayoutUnit lineHeight(bool firstLine, LineDirectionMode, LinePositionMode = PositionOnContainingLine) const = 0;
	virtual int baselinePosition(FontBaseline, bool firstLine, LineDirectionMode, LinePositionMode = PositionOnContainingLine) const = 0;

	virtual void mapAbsoluteToLocalPoint(MapCoordinatesFlags, TransformState&) const OVERRIDE;
	virtual const RenderObject* pushMappingToContainer(const RenderLayerModelObject* ancestorToStopAt, RenderGeometryMap&) const OVERRIDE;

	void highQualityRepaintTimerFired(Timer<RenderBoxModelObject>*);

	virtual void setSelectionState(SelectionState s);

	bool canHaveBoxInfoInRegion() const { return !isFloating() && !isReplaced() && !isInline() && !hasColumns() && !isTableCell() && isRenderBlock() && !isRenderSVGBlock(); }

	void contentChanged(ContentChangeType);
	bool hasAcceleratedCompositing() const;

	bool startTransition(double, CSSPropertyID, const RenderStyle* fromStyle, const RenderStyle* toStyle);
	void transitionPaused(double timeOffset, CSSPropertyID);
	void transitionFinished(CSSPropertyID);

	bool startAnimation(double timeOffset, const CSSAnimationData*, const KeyframeList& keyframes);
	void animationPaused(double timeOffset, const String& name);
	void animationFinished(const String& name);

	void suspendAnimations(double time = 0);

	virtual void computeLayerHitTestRects(LayerHitTestRects&) const OVERRIDE;

	protected:
	virtual void willBeDestroyed();

	class BackgroundImageGeometry {
	public:
	IntPoint destOrigin() const { return m_destOrigin; }
	void setDestOrigin(const IntPoint& destOrigin)
	{
	m_destOrigin = destOrigin;
	}

	IntRect destRect() const { return m_destRect; }
	void setDestRect(const IntRect& destRect)
	{
	m_destRect = destRect;
	}

	// Returns the phase relative to the destination rectangle.
	IntPoint relativePhase() const;

	IntPoint phase() const { return m_phase; }
	void setPhase(const IntPoint& phase)
	{
	m_phase = phase;
	}

	IntSize tileSize() const { return m_tileSize; }
	void setTileSize(const IntSize& tileSize)
	{
	m_tileSize = tileSize;
	}

	void setPhaseX(int x) { m_phase.setX(x); }
	void setPhaseY(int y) { m_phase.setY(y); }

	void setNoRepeatX(int xOffset);
	void setNoRepeatY(int yOffset);

	void useFixedAttachment(const IntPoint& attachmentPoint);

	void clip(const IntRect&);
	private:
	IntRect m_destRect;
	IntPoint m_destOrigin;
	IntPoint m_phase;
	IntSize m_tileSize;
	};

	LayoutPoint adjustedPositionRelativeToOffsetParent(const LayoutPoint&) const;

	void calculateBackgroundImageGeometry(const FillLayer, const LayoutRect& paintRect, BackgroundImageGeometry&, RenderObject = 0);
	void getBorderEdgeInfo(class BorderEdge[], const RenderStyle*, bool includeLogicalLeftEdge = true, bool includeLogicalRightEdge = true) const;
	bool borderObscuresBackgroundEdge(const FloatSize& contextScale) const;
	bool borderObscuresBackground() const;
	RoundedRect backgroundRoundedRectAdjustedForBleedAvoidance(GraphicsContext, const LayoutRect&, BackgroundBleedAvoidance, InlineFlowBox, const LayoutSize&, bool includeLogicalLeftEdge, bool includeLogicalRightEdge) const;
	LayoutRect borderInnerRectAdjustedForBleedAvoidance(GraphicsContext*, const LayoutRect&, BackgroundBleedAvoidance) const;

	bool shouldPaintAtLowQuality(GraphicsContext, Image, const void*, const LayoutSize&);

	RenderBoxModelObject* continuation() const;
	void setContinuation(RenderBoxModelObject*);

	LayoutRect localCaretRectForEmptyElement(LayoutUnit width, LayoutUnit textIndentOffset);

	static bool shouldAntialiasLines(GraphicsContext*);

	static void clipRoundedInnerRect(GraphicsContext*, const LayoutRect&, const RoundedRect& clipRect);

	bool hasAutoHeightOrContainingBlockWithAutoHeight() const;

	public:
	// For RenderBlocks and RenderInlines with m_style->styleType() == FIRST_LETTER, this tracks their remaining text fragments
	RenderObject* firstLetterRemainingText() const;
	void setFirstLetterRemainingText(RenderObject*);

	// These functions are only used internally to manipulate the render tree structure via remove/insert/appendChildNode.
	// Since they are typically called only to move objects around within anonymous blocks (which only have layers in
	// the case of column spans), the default for fullRemoveInsert is false rather than true.
	void moveChildTo(RenderBoxModelObject* toBoxModelObject, RenderObject* child, RenderObject* beforeChild, bool fullRemoveInsert = false);
	void moveChildTo(RenderBoxModelObject* toBoxModelObject, RenderObject* child, bool fullRemoveInsert = false)
	{
	moveChildTo(toBoxModelObject, child, 0, fullRemoveInsert);
	}
	void moveAllChildrenTo(RenderBoxModelObject* toBoxModelObject, bool fullRemoveInsert = false)
	{
	moveAllChildrenTo(toBoxModelObject, 0, fullRemoveInsert);
	}
	void moveAllChildrenTo(RenderBoxModelObject* toBoxModelObject, RenderObject* beforeChild, bool fullRemoveInsert = false)
	{
	moveChildrenTo(toBoxModelObject, firstChild(), 0, beforeChild, fullRemoveInsert);
	}
	// Move all of the kids from \|startChild\| up to but excluding \|endChild\|. 0 can be passed as the \|endChild\| to denote
	// that all the kids from \|startChild\| onwards should be moved.
	void moveChildrenTo(RenderBoxModelObject* toBoxModelObject, RenderObject* startChild, RenderObject* endChild, bool fullRemoveInsert = false)
	{
	moveChildrenTo(toBoxModelObject, startChild, endChild, 0, fullRemoveInsert);
	}
	void moveChildrenTo(RenderBoxModelObject* toBoxModelObject, RenderObject* startChild, RenderObject* endChild, RenderObject* beforeChild, bool fullRemoveInsert = false);

	private:
	LayoutUnit computedCSSPadding(Length) const;
	virtual bool isBoxModelObject() const OVERRIDE FINAL { return true; }

	virtual LayoutRect frameRectForStickyPositioning() const = 0;

	IntSize calculateFillTileSize(const FillLayer*, const IntSize& scaledPositioningAreaSize) const;

	enum ScaleByEffectiveZoomOrNot { ScaleByEffectiveZoom, DoNotScaleByEffectiveZoom };
	IntSize calculateImageIntrinsicDimensions(StyleImage*, const IntSize& scaledPositioningAreaSize, ScaleByEffectiveZoomOrNot) const;

	RoundedRect getBackgroundRoundedRect(const LayoutRect&, InlineFlowBox*, LayoutUnit inlineBoxWidth, LayoutUnit inlineBoxHeight,
	bool includeLogicalLeftEdge, bool includeLogicalRightEdge) const;

	bool fixedBackgroundPaintsInLocalCoordinates() const;

	void clipBorderSidePolygon(GraphicsContext*, const RoundedRect& outerBorder, const RoundedRect& innerBorder,
	BoxSide, bool firstEdgeMatches, bool secondEdgeMatches);
	void clipBorderSideForComplexInnerPath(GraphicsContext*, const RoundedRect&, const RoundedRect&, BoxSide, const class BorderEdge[]);
	void paintOneBorderSide(GraphicsContext, const RenderStyle, const RoundedRect& outerBorder, const RoundedRect& innerBorder,
	const IntRect& sideRect, BoxSide, BoxSide adjacentSide1, BoxSide adjacentSide2, const class BorderEdge[],
	const Path, BackgroundBleedAvoidance, bool includeLogicalLeftEdge, bool includeLogicalRightEdge, bool antialias, const Color overrideColor = 0);
	void paintTranslucentBorderSides(GraphicsContext, const RenderStyle, const RoundedRect& outerBorder, const RoundedRect& innerBorder, const IntPoint& innerBorderAdjustment,
	const class BorderEdge[], BorderEdgeFlags, BackgroundBleedAvoidance, bool includeLogicalLeftEdge, bool includeLogicalRightEdge, bool antialias = false);
	void paintBorderSides(GraphicsContext, const RenderStyle, const RoundedRect& outerBorder, const RoundedRect& innerBorder,
	const IntPoint& innerBorderAdjustment, const class BorderEdge[], BorderEdgeFlags, BackgroundBleedAvoidance,
	bool includeLogicalLeftEdge, bool includeLogicalRightEdge, bool antialias = false, const Color* overrideColor = 0);
	void drawBoxSideFromPath(GraphicsContext*, const LayoutRect&, const Path&, const class BorderEdge[],
	float thickness, float drawThickness, BoxSide, const RenderStyle*,
	Color, EBorderStyle, BackgroundBleedAvoidance, bool includeLogicalLeftEdge, bool includeLogicalRightEdge);
	};

	inline RenderBoxModelObject* toRenderBoxModelObject(RenderObject* object)
	{
	ASSERT_WITH_SECURITY_IMPLICATION(!object \|\| object->isBoxModelObject());
	return static_cast<RenderBoxModelObject*>(object);
	}

	inline const RenderBoxModelObject* toRenderBoxModelObject(const RenderObject* object)
	{
	ASSERT_WITH_SECURITY_IMPLICATION(!object \|\| object->isBoxModelObject());
	return static_cast<const RenderBoxModelObject*>(object);
	}

	// This will catch anyone doing an unnecessary cast.
	void toRenderBoxModelObject(const RenderBoxModelObject*);

	} // namespace WebCore

	#endif // RenderBoxModelObject_h