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/*
 * Copyright (C) 2000 Lars Knoll (knoll@kde.org)
 *           (C) 2000 Antti Koivisto (koivisto@kde.org)
 *           (C) 2000 Dirk Mueller (mueller@kde.org)
 *           (C) 2004 Allan Sandfeld Jensen (kde@carewolf.com)
 * Copyright (C) 2003, 2004, 2005, 2006, 2007, 2008, 2009 Apple 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 RenderObject_h
#define RenderObject_h

#include "CachedResourceClient.h"
#include "Document.h"
#include "Element.h"
#include "FloatQuad.h"
#include "RenderObjectChildList.h"
#include "RenderStyle.h"
#include "TextAffinity.h"
#include "TransformationMatrix.h"
#include <wtf/UnusedParam.h>

namespace WebCore {

class AnimationController;
class HitTestResult;
class InlineBox;
class InlineFlowBox;
class OverlapTestRequestClient;
class Position;
class RenderBoxModelObject;
class RenderInline;
class RenderBlock;
class RenderFlow;
class RenderLayer;
class RenderTheme;
class TransformState;
class VisiblePosition;

/*
 *  The painting of a layer occurs in three distinct phases.  Each phase involves
 *  a recursive descent into the layer's render objects. The first phase is the background phase.
 *  The backgrounds and borders of all blocks are painted.  Inlines are not painted at all.
 *  Floats must paint above block backgrounds but entirely below inline content that can overlap them.
 *  In the foreground phase, all inlines are fully painted.  Inline replaced elements will get all
 *  three phases invoked on them during this phase.
 */

enum PaintPhase {
    PaintPhaseBlockBackground,
    PaintPhaseChildBlockBackground,
    PaintPhaseChildBlockBackgrounds,
    PaintPhaseFloat,
    PaintPhaseForeground,
    PaintPhaseOutline,
    PaintPhaseChildOutlines,
    PaintPhaseSelfOutline,
    PaintPhaseSelection,
    PaintPhaseCollapsedTableBorders,
    PaintPhaseTextClip,
    PaintPhaseMask
};

enum PaintRestriction {
    PaintRestrictionNone,
    PaintRestrictionSelectionOnly,
    PaintRestrictionSelectionOnlyBlackText
};

enum HitTestFilter {
    HitTestAll,
    HitTestSelf,
    HitTestDescendants
};

enum HitTestAction {
    HitTestBlockBackground,
    HitTestChildBlockBackground,
    HitTestChildBlockBackgrounds,
    HitTestFloat,
    HitTestForeground
};

// Sides used when drawing borders and outlines.  This is in RenderObject rather than RenderBoxModelObject since outlines can
// be drawn by SVG around bounding boxes.
enum BoxSide {
    BSTop,
    BSBottom,
    BSLeft,
    BSRight
};

const int caretWidth = 1;

#if ENABLE(DASHBOARD_SUPPORT)
struct DashboardRegionValue {
    bool operator==(const DashboardRegionValue& o) const
    {
        return type == o.type && bounds == o.bounds && clip == o.clip && label == o.label;
    }
    bool operator!=(const DashboardRegionValue& o) const
    {
        return !(*this == o);
    }

    String label;
    IntRect bounds;
    IntRect clip;
    int type;
};
#endif

// Base class for all rendering tree objects.
class RenderObject : public CachedResourceClient {
    friend class RenderBlock;
    friend class RenderBox;
    friend class RenderLayer;
    friend class RenderObjectChildList;
    friend class RenderSVGContainer;
public:
    // Anonymous objects should pass the document as their node, and they will then automatically be
    // marked as anonymous in the constructor.
    RenderObject(Node*);
    virtual ~RenderObject();

    RenderTheme* theme() const;

    virtual const char* renderName() const = 0;

    RenderObject* parent() const { return m_parent; }
    bool isDescendantOf(const RenderObject*) const;

    RenderObject* previousSibling() const { return m_previous; }
    RenderObject* nextSibling() const { return m_next; }

    RenderObject* firstChild() const
    {
        if (const RenderObjectChildList* children = virtualChildren())
            return children->firstChild();
        return 0;
    }
    RenderObject* lastChild() const
    {
        if (const RenderObjectChildList* children = virtualChildren())
            return children->lastChild();
        return 0;
    }
    virtual RenderObjectChildList* virtualChildren() { return 0; }
    virtual const RenderObjectChildList* virtualChildren() const { return 0; }

    RenderObject* nextInPreOrder() const;
    RenderObject* nextInPreOrder(RenderObject* stayWithin) const;
    RenderObject* nextInPreOrderAfterChildren() const;
    RenderObject* nextInPreOrderAfterChildren(RenderObject* stayWithin) const;
    RenderObject* previousInPreOrder() const;
    RenderObject* childAt(unsigned) const;

    RenderObject* firstLeafChild() const;
    RenderObject* lastLeafChild() const;

    // The following six functions are used when the render tree hierarchy changes to make sure layers get
    // properly added and removed.  Since containership can be implemented by any subclass, and since a hierarchy
    // can contain a mixture of boxes and other object types, these functions need to be in the base class.
    RenderLayer* enclosingLayer() const;
    RenderLayer* enclosingSelfPaintingLayer() const;
    void addLayers(RenderLayer* parentLayer, RenderObject* newObject);
    void removeLayers(RenderLayer* parentLayer);
    void moveLayers(RenderLayer* oldParent, RenderLayer* newParent);
    RenderLayer* findNextLayer(RenderLayer* parentLayer, RenderObject* startPoint, bool checkParent = true);

    // Convenience function for getting to the nearest enclosing box of a RenderObject.
    RenderBox* enclosingBox() const;
    
    virtual bool isEmpty() const { return firstChild() == 0; }

#ifndef NDEBUG
    void setHasAXObject(bool flag) { m_hasAXObject = flag; }
    bool hasAXObject() const { return m_hasAXObject; }
    bool isSetNeedsLayoutForbidden() const { return m_setNeedsLayoutForbidden; }
    void setNeedsLayoutIsForbidden(bool flag) { m_setNeedsLayoutForbidden = flag; }
#endif

    // Obtains the nearest enclosing block (including this block) that contributes a first-line style to our inline
    // children.
    virtual RenderBlock* firstLineBlock() const;

    // Called when an object that was floating or positioned becomes a normal flow object
    // again.  We have to make sure the render tree updates as needed to accommodate the new
    // normal flow object.
    void handleDynamicFloatPositionChange();
    
    // RenderObject tree manipulation
    //////////////////////////////////////////
    virtual bool canHaveChildren() const { return virtualChildren(); }
    virtual bool isChildAllowed(RenderObject*, RenderStyle*) const { return true; }
    virtual void addChild(RenderObject* newChild, RenderObject* beforeChild = 0);
    virtual void addChildIgnoringContinuation(RenderObject* newChild, RenderObject* beforeChild = 0) { return addChild(newChild, beforeChild); }
    virtual void removeChild(RenderObject*);
    virtual bool createsAnonymousWrapper() const { return false; }
    //////////////////////////////////////////

protected:
    //////////////////////////////////////////
    // Helper functions. Dangerous to use!
    void setPreviousSibling(RenderObject* previous) { m_previous = previous; }
    void setNextSibling(RenderObject* next) { m_next = next; }
    void setParent(RenderObject* parent) { m_parent = parent; }
    //////////////////////////////////////////
private:
    void addAbsoluteRectForLayer(IntRect& result);
    void setLayerNeedsFullRepaint();

public:
#ifndef NDEBUG
    void showTreeForThis() const;
#endif

    static RenderObject* createObject(Node*, RenderStyle*);

    // Overloaded new operator.  Derived classes must override operator new
    // in order to allocate out of the RenderArena.
    void* operator new(size_t, RenderArena*) throw();

    // Overridden to prevent the normal delete from being called.
    void operator delete(void*, size_t);

private:
    // The normal operator new is disallowed on all render objects.
    void* operator new(size_t) throw();

public:
    RenderArena* renderArena() const { return document()->renderArena(); }

    virtual bool isApplet() const { return false; }
    virtual bool isBR() const { return false; }
    virtual bool isBlockFlow() const { return false; }
    virtual bool isBoxModelObject() const { return false; }
    virtual bool isCounter() const { return false; }
    virtual bool isFieldset() const { return false; }
    virtual bool isFrame() const { return false; }
    virtual bool isFrameSet() const { return false; }
    virtual bool isImage() const { return false; }
    virtual bool isInlineBlockOrInlineTable() const { return false; }
    virtual bool isListBox() const { return false; }
    virtual bool isListItem() const { return false; }
    virtual bool isListMarker() const { return false; }
    virtual bool isMedia() const { return false; }
    virtual bool isMenuList() const { return false; }
    virtual bool isRenderBlock() const { return false; }
    virtual bool isRenderButton() const { return false; }
    virtual bool isRenderImage() const { return false; }
    virtual bool isRenderInline() const { return false; }
    virtual bool isRenderPart() const { return false; }
    virtual bool isRenderView() const { return false; }
    virtual bool isSlider() const { return false; }
    virtual bool isTable() const { return false; }
    virtual bool isTableCell() const { return false; }
    virtual bool isTableCol() const { return false; }
    virtual bool isTableRow() const { return false; }
    virtual bool isTableSection() const { return false; }
    virtual bool isTextControl() const { return false; }
    virtual bool isTextArea() const { return false; }
    virtual bool isTextField() const { return false; }
    virtual bool isVideo() const { return false; }
    virtual bool isWidget() const { return false; }

    bool isRoot() const { return document()->documentElement() == m_node; }
    bool isBody() const;
    bool isHR() const;

    bool isHTMLMarquee() const;

    bool childrenInline() const { return m_childrenInline; }
    void setChildrenInline(bool b = true) { m_childrenInline = b; }
    bool hasColumns() const { return m_hasColumns; }
    void setHasColumns(bool b = true) { m_hasColumns = b; }
    bool cellWidthChanged() const { return m_cellWidthChanged; }
    void setCellWidthChanged(bool b = true) { m_cellWidthChanged = b; }

#if ENABLE(SVG)
    // FIXME: Until all SVG renders can be subclasses of RenderSVGModelObject we have
    // to add SVG renderer methods to RenderObject with an ASSERT_NOT_REACHED() default implementation.
    virtual bool isSVGRoot() const { return false; }
    virtual bool isSVGContainer() const { return false; }
    virtual bool isSVGHiddenContainer() const { return false; }
    virtual bool isRenderPath() const { return false; }
    virtual bool isSVGText() const { return false; }
    virtual bool isSVGImage() const { return false; }

    // Per SVG 1.1 objectBoundingBox ignores clipping, masking, filter effects, opacity and stroke-width.
    // This is used for all computation of objectBoundingBox relative units and by SVGLocateable::getBBox().
    // NOTE: Markers are not specifically ignored here by SVG 1.1 spec, but we ignore them
    // since stroke-width is ignored (and marker size can depend on stroke-width).
    // objectBoundingBox is returned local coordinates.
    // The name objectBoundingBox is taken from the SVG 1.1 spec.
    virtual FloatRect objectBoundingBox() const;

    // Returns the smallest rectangle enclosing all of the painted content
    // respecting clipping, masking, filters, opacity, stroke-width and markers
    virtual FloatRect repaintRectInLocalCoordinates() const;

    // FIXME: This accessor is deprecated and mostly around for SVGRenderTreeAsText.
    // This only returns the transform="" value from the element
    // most callsites want localToParentTransform() instead.
    virtual TransformationMatrix localTransform() const;

    // Returns the full transform mapping from local coordinates to local coords for the parent SVG renderer
    // This includes any viewport transforms and x/y offsets as well as the transform="" value off the element.
    virtual TransformationMatrix localToParentTransform() const;

    // Walks up the parent chain to create a transform which maps from local to document coords
    // NOTE: This method is deprecated!  It doesn't respect scroll offsets or repaint containers.
    // FIXME: This is only virtual so that RenderSVGHiddenContainer can override it to match old LayoutTest results.
    virtual TransformationMatrix absoluteTransform() const;

    // SVG uses FloatPoint precise hit testing, and passes the point in parent
    // coordinates instead of in repaint container coordinates.  Eventually the
    // rest of the rendering tree will move to a similar model.
    virtual bool nodeAtFloatPoint(const HitTestRequest&, HitTestResult&, const FloatPoint& pointInParent, HitTestAction);
#endif

    bool isAnonymous() const { return m_isAnonymous; }
    void setIsAnonymous(bool b) { m_isAnonymous = b; }
    bool isAnonymousBlock() const
    {
        return m_isAnonymous && style()->display() == BLOCK && style()->styleType() == NOPSEUDO && !isListMarker();
    }
    bool isInlineContinuation() const { return (node() ? node()->renderer() != this : false) && isRenderInline(); }
    bool isFloating() const { return m_floating; }
    bool isPositioned() const { return m_positioned; } // absolute or fixed positioning
    bool isRelPositioned() const { return m_relPositioned; } // relative positioning
    bool isText() const  { return m_isText; }
    bool isBox() const { return m_isBox; }
    bool isInline() const { return m_inline; }  // inline object
    bool isRunIn() const { return style()->display() == RUN_IN; } // run-in object
    bool isDragging() const { return m_isDragging; }
    bool isReplaced() const { return m_replaced; } // a "replaced" element (see CSS)
    
    bool hasLayer() const { return m_hasLayer; }
    
    bool hasBoxDecorations() const { return m_paintBackground; }
    bool mustRepaintBackgroundOrBorder() const;

    bool needsLayout() const { return m_needsLayout || m_normalChildNeedsLayout || m_posChildNeedsLayout || m_needsPositionedMovementLayout; }
    bool selfNeedsLayout() const { return m_needsLayout; }
    bool needsPositionedMovementLayout() const { return m_needsPositionedMovementLayout; }
    bool needsPositionedMovementLayoutOnly() const { return m_needsPositionedMovementLayout && !m_needsLayout && !m_normalChildNeedsLayout && !m_posChildNeedsLayout; }
    bool posChildNeedsLayout() const { return m_posChildNeedsLayout; }
    bool normalChildNeedsLayout() const { return m_normalChildNeedsLayout; }
    
    bool prefWidthsDirty() const { return m_prefWidthsDirty; }

    bool isSelectionBorder() const;

    bool hasClip() const { return isPositioned() && style()->hasClip(); }
    bool hasOverflowClip() const { return m_hasOverflowClip; }

    bool hasTransform() const { return m_hasTransform; }
    bool hasMask() const { return style() && style()->hasMask(); }

    void drawLineForBoxSide(GraphicsContext*, int x1, int y1, int x2, int y2, BoxSide,
                            Color, const Color& textcolor, EBorderStyle, int adjbw1, int adjbw2);
    void drawArcForBoxSide(GraphicsContext*, int x, int y, float thickness, IntSize radius, int angleStart,
                           int angleSpan, BoxSide, Color, const Color& textcolor, EBorderStyle, bool firstCorner);

public:
    // The pseudo element style can be cached or uncached.  Use the cached method if the pseudo element doesn't respect
    // any pseudo classes (and therefore has no concept of changing state).
    RenderStyle* getCachedPseudoStyle(PseudoId, RenderStyle* parentStyle = 0) const;
    PassRefPtr<RenderStyle> getUncachedPseudoStyle(PseudoId, RenderStyle* parentStyle = 0) const;
    
    virtual void updateDragState(bool dragOn);

    RenderView* view() const;

    // Returns true if this renderer is rooted, and optionally returns the hosting view (the root of the hierarchy).
    bool isRooted(RenderView** = 0);

    Node* node() const { return m_isAnonymous ? 0 : m_node; }
    Document* document() const { return m_node->document(); }
    void setNode(Node* node) { m_node = node; }

    bool hasOutlineAnnotation() const;
    bool hasOutline() const { return style()->hasOutline() || hasOutlineAnnotation(); }

   /**
     * returns the object containing this one. can be different from parent for
     * positioned elements
     */
    RenderObject* container() const;
    virtual RenderObject* hoverAncestor() const { return parent(); }

    // IE Extension that can be called on any RenderObject.  See the implementation for the details.
    RenderBoxModelObject* offsetParent() const;

    void markContainingBlocksForLayout(bool scheduleRelayout = true, RenderObject* newRoot = 0);
    void setNeedsLayout(bool b, bool markParents = true);
    void setChildNeedsLayout(bool b, bool markParents = true);
    void setNeedsPositionedMovementLayout();
    void setPrefWidthsDirty(bool, bool markParents = true);
    void invalidateContainerPrefWidths();
    
    void setNeedsLayoutAndPrefWidthsRecalc()
    {
        setNeedsLayout(true);
        setPrefWidthsDirty(true);
    }

    void setPositioned(bool b = true)  { m_positioned = b;  }
    void setRelPositioned(bool b = true) { m_relPositioned = b; }
    void setFloating(bool b = true) { m_floating = b; }
    void setInline(bool b = true) { m_inline = b; }
    void setHasBoxDecorations(bool b = true) { m_paintBackground = b; }
    void setIsText() { m_isText = true; }
    void setIsBox() { m_isBox = true; }
    void setReplaced(bool b = true) { m_replaced = b; }
    void setHasOverflowClip(bool b = true) { m_hasOverflowClip = b; }
    void setHasLayer(bool b = true) { m_hasLayer = b; }
    void setHasTransform(bool b = true) { m_hasTransform = b; }
    void setHasReflection(bool b = true) { m_hasReflection = b; }

    void scheduleRelayout();

    void updateFillImages(const FillLayer*, const FillLayer*);
    void updateImage(StyleImage*, StyleImage*);

    // for discussion of lineHeight see CSS2 spec
    virtual int lineHeight(bool firstLine, bool isRootLineBox = false) const;
    // for the vertical-align property of inline elements
    // the offset of baseline from the top of the object.
    virtual int baselinePosition(bool firstLine, bool isRootLineBox = false) const;

    typedef HashMap<OverlapTestRequestClient*, IntRect> OverlapTestRequestMap;

    /*
     * Paint the object and its children, clipped by (x|y|w|h).
     * (tx|ty) is the calculated position of the parent
     */
    struct PaintInfo {
        PaintInfo(GraphicsContext* newContext, const IntRect& newRect, PaintPhase newPhase, bool newForceBlackText,
                  RenderObject* newPaintingRoot, ListHashSet<RenderInline*>* newOutlineObjects,
                  OverlapTestRequestMap* overlapTestRequests = 0)
            : context(newContext)
            , rect(newRect)
            , phase(newPhase)
            , forceBlackText(newForceBlackText)
            , paintingRoot(newPaintingRoot)
            , outlineObjects(newOutlineObjects)
            , overlapTestRequests(overlapTestRequests)
        {
        }

        GraphicsContext* context;
        IntRect rect;
        PaintPhase phase;
        bool forceBlackText;
        RenderObject* paintingRoot; // used to draw just one element and its visual kids
        ListHashSet<RenderInline*>* outlineObjects; // used to list outlines that should be painted by a block with inline children
        OverlapTestRequestMap* overlapTestRequests;
    };

    virtual void paint(PaintInfo&, int tx, int ty);

    // Recursive function that computes the size and position of this object and all its descendants.
    virtual void layout();

    /* This function performs a layout only if one is needed. */
    void layoutIfNeeded() { if (needsLayout()) layout(); }

    // Called when a positioned object moves but doesn't necessarily change size.  A simplified layout is attempted
    // that just updates the object's position. If the size does change, the object remains dirty.
    virtual void tryLayoutDoingPositionedMovementOnly() { }
    
    // used for element state updates that cannot be fixed with a
    // repaint and do not need a relayout
    virtual void updateFromElement() { }

#if ENABLE(DASHBOARD_SUPPORT)
    virtual void addDashboardRegions(Vector<DashboardRegionValue>&);
    void collectDashboardRegions(Vector<DashboardRegionValue>&);
#endif

    bool hitTest(const HitTestRequest&, HitTestResult&, const IntPoint&, int tx, int ty, HitTestFilter = HitTestAll);
    virtual bool nodeAtPoint(const HitTestRequest&, HitTestResult&, int x, int y, int tx, int ty, HitTestAction);
    virtual void updateHitTestResult(HitTestResult&, const IntPoint&);

    VisiblePosition positionForCoordinates(int x, int y);
    virtual VisiblePosition positionForPoint(const IntPoint&);
    VisiblePosition createVisiblePosition(int offset, EAffinity);
    VisiblePosition createVisiblePosition(const Position&);

    virtual void dirtyLinesFromChangedChild(RenderObject*);

    // Called to update a style that is allowed to trigger animations.
    // FIXME: Right now this will typically be called only when updating happens from the DOM on explicit elements.
    // We don't yet handle generated content animation such as first-letter or before/after (we'll worry about this later).
    void setAnimatableStyle(PassRefPtr<RenderStyle>);

    // Set the style of the object and update the state of the object accordingly.
    virtual void setStyle(PassRefPtr<RenderStyle>);

    // Updates only the local style ptr of the object.  Does not update the state of the object,
    // and so only should be called when the style is known not to have changed (or from setStyle).
    void setStyleInternal(PassRefPtr<RenderStyle>);

    // returns the containing block level element for this element.
    RenderBlock* containingBlock() const;

    // Convert the given local point to absolute coordinates
    // FIXME: Temporary. If useTransforms is true, take transforms into account. Eventually localToAbsolute() will always be transform-aware.
    FloatPoint localToAbsolute(FloatPoint localPoint = FloatPoint(), bool fixed = false, bool useTransforms = false) const;
    FloatPoint absoluteToLocal(FloatPoint, bool fixed = false, bool useTransforms = false) const;

    // Convert a local quad to absolute coordinates, taking transforms into account.
    FloatQuad localToAbsoluteQuad(const FloatQuad& quad, bool fixed = false) const
    {
        return localToContainerQuad(quad, 0, fixed);
    }
    // Convert a local quad into the coordinate system of container, taking transforms into account.
    FloatQuad localToContainerQuad(const FloatQuad&, RenderBoxModelObject* repaintContainer, bool fixed = false) const;

    // Return the offset from the container() renderer (excluding transforms)
    virtual IntSize offsetFromContainer(RenderObject*) const;
    
    virtual void absoluteRects(Vector<IntRect>&, int, int) { }
    // FIXME: useTransforms should go away eventually
    IntRect absoluteBoundingBoxRect(bool useTransforms = false);

    // Build an array of quads in absolute coords for line boxes
    virtual void absoluteQuads(Vector<FloatQuad>&) { }

    // the rect that will be painted if this object is passed as the paintingRoot
    IntRect paintingRootRect(IntRect& topLevelRect);

    virtual int minPrefWidth() const { return 0; }
    virtual int maxPrefWidth() const { return 0; }

    RenderStyle* style() const { return m_style.get(); }
    RenderStyle* firstLineStyle() const { return document()->usesFirstLineRules() ? firstLineStyleSlowCase() : style(); }
    RenderStyle* style(bool firstLine) const { return firstLine ? firstLineStyle() : style(); }
    
    // Anonymous blocks that are part of of a continuation chain will return their inline continuation's outline style instead.
    // This is typically only relevant when repainting.
    virtual RenderStyle* outlineStyleForRepaint() const { return style(); }
    
    void getTextDecorationColors(int decorations, Color& underline, Color& overline,
                                 Color& linethrough, bool quirksMode = false);

    // Return the RenderBox in the container chain which is responsible for painting this object, or 0
    // if painting is root-relative. This is the container that should be passed to the 'forRepaint'
    // methods.
    RenderBoxModelObject* containerForRepaint() const;
    // Actually do the repaint of rect r for this object which has been computed in the coordinate space
    // of repaintContainer. If repaintContainer is 0, repaint via the view.
    void repaintUsingContainer(RenderBoxModelObject* repaintContainer, const IntRect& r, bool immediate = false);
    
    // Repaint the entire object.  Called when, e.g., the color of a border changes, or when a border
    // style changes.
    void repaint(bool immediate = false);

    // Repaint a specific subrectangle within a given object.  The rect |r| is in the object's coordinate space.
    void repaintRectangle(const IntRect&, bool immediate = false);

    // Repaint only if our old bounds and new bounds are different.
    bool repaintAfterLayoutIfNeeded(RenderBoxModelObject* repaintContainer, const IntRect& oldBounds, const IntRect& oldOutlineBox);

    // Repaint only if the object moved.
    virtual void repaintDuringLayoutIfMoved(const IntRect& rect);

    // Called to repaint a block's floats.
    virtual void repaintOverhangingFloats(bool paintAllDescendants = false);

    bool checkForRepaintDuringLayout() const;

    // Returns the rect that should be repainted whenever this object changes.  The rect is in the view's
    // coordinate space.  This method deals with outlines and overflow.
    IntRect absoluteClippedOverflowRect()
    {
        return clippedOverflowRectForRepaint(0);
    }
    virtual IntRect clippedOverflowRectForRepaint(RenderBoxModelObject* repaintContainer);    
    virtual IntRect rectWithOutlineForRepaint(RenderBoxModelObject* repaintContainer, int outlineWidth);

    // Given a rect in the object's coordinate space, compute a rect suitable for repainting
    // that rect in view coordinates.
    void computeAbsoluteRepaintRect(IntRect& r, bool fixed = false)
    {
        return computeRectForRepaint(0, r, fixed);
    }
    // Given a rect in the object's coordinate space, compute a rect suitable for repainting
    // that rect in the coordinate space of repaintContainer.
    virtual void computeRectForRepaint(RenderBoxModelObject* repaintContainer, IntRect&, bool fixed = false);

    virtual unsigned int length() const { return 1; }

    bool isFloatingOrPositioned() const { return (isFloating() || isPositioned()); }

    bool isTransparent() const { return style()->opacity() < 1.0f; }
    float opacity() const { return style()->opacity(); }

    bool hasReflection() const { return m_hasReflection; }

    // Applied as a "slop" to dirty rect checks during the outline painting phase's dirty-rect checks.
    int maximalOutlineSize(PaintPhase) const;

    void setHasMarkupTruncation(bool b = true) { m_hasMarkupTruncation = b; }
    bool hasMarkupTruncation() const { return m_hasMarkupTruncation; }

    enum SelectionState {
        SelectionNone, // The object is not selected.
        SelectionStart, // The object either contains the start of a selection run or is the start of a run
        SelectionInside, // The object is fully encompassed by a selection run
        SelectionEnd, // The object either contains the end of a selection run or is the end of a run
        SelectionBoth // The object contains an entire run or is the sole selected object in that run
    };

    // The current selection state for an object.  For blocks, the state refers to the state of the leaf
    // descendants (as described above in the SelectionState enum declaration).
    SelectionState selectionState() const { return static_cast<SelectionState>(m_selectionState);; }

    // Sets the selection state for an object.
    virtual void setSelectionState(SelectionState state) { m_selectionState = state; }

    // A single rectangle that encompasses all of the selected objects within this object.  Used to determine the tightest
    // possible bounding box for the selection.
    IntRect selectionRect(bool clipToVisibleContent = true) { return selectionRectForRepaint(0, clipToVisibleContent); }
    virtual IntRect selectionRectForRepaint(RenderBoxModelObject* /*repaintContainer*/, bool /*clipToVisibleContent*/ = true) { return IntRect(); }

    // Whether or not an object can be part of the leaf elements of the selection.
    virtual bool canBeSelectionLeaf() const { return false; }

    // Whether or not a block has selected children.
    bool hasSelectedChildren() const { return m_selectionState != SelectionNone; }

    // Obtains the selection colors that should be used when painting a selection.
    Color selectionBackgroundColor() const;
    Color selectionForegroundColor() const;

    // Whether or not a given block needs to paint selection gaps.
    virtual bool shouldPaintSelectionGaps() const { return false; }

    Node* draggableNode(bool dhtmlOK, bool uaOK, int x, int y, bool& dhtmlWillDrag) const;

    /**
     * Returns the local coordinates of the caret within this render object.
     * @param caretOffset zero-based offset determining position within the render object.
     * @param extraWidthToEndOfLine optional out arg to give extra width to end of line -
     * useful for character range rect computations
     */
    virtual IntRect localCaretRect(InlineBox*, int caretOffset, int* extraWidthToEndOfLine = 0);

    virtual void calcVerticalMargins() { }
    bool isTopMarginQuirk() const { return m_topMarginQuirk; }
    bool isBottomMarginQuirk() const { return m_bottomMarginQuirk; }
    void setTopMarginQuirk(bool b = true) { m_topMarginQuirk = b; }
    void setBottomMarginQuirk(bool b = true) { m_bottomMarginQuirk = b; }

    // When performing a global document tear-down, the renderer of the document is cleared.  We use this
    // as a hook to detect the case of document destruction and don't waste time doing unnecessary work.
    bool documentBeingDestroyed() const;

    virtual void destroy();

    // Virtual function helpers for CSS3 Flexible Box Layout
    virtual bool isFlexibleBox() const { return false; }
    virtual bool isFlexingChildren() const { return false; }
    virtual bool isStretchingChildren() const { return false; }

    virtual int caretMinOffset() const;
    virtual int caretMaxOffset() const;
    virtual unsigned caretMaxRenderedOffset() const;

    virtual int previousOffset(int current) const;
    virtual int previousOffsetForBackwardDeletion(int current) const;
    virtual int nextOffset(int current) const;

    virtual void imageChanged(CachedImage*, const IntRect* = 0);
    virtual void imageChanged(WrappedImagePtr, const IntRect* = 0) { }
    virtual bool willRenderImage(CachedImage*);

    void selectionStartEnd(int& spos, int& epos) const;

    RenderObject* paintingRootForChildren(PaintInfo& paintInfo) const
    {
        // if we're the painting root, kids draw normally, and see root of 0
        return (!paintInfo.paintingRoot || paintInfo.paintingRoot == this) ? 0 : paintInfo.paintingRoot;
    }

    bool shouldPaintWithinRoot(PaintInfo& paintInfo) const
    {
        return !paintInfo.paintingRoot || paintInfo.paintingRoot == this;
    }

    bool hasOverrideSize() const { return m_hasOverrideSize; }
    void setHasOverrideSize(bool b) { m_hasOverrideSize = b; }
    
    void remove() { if (parent()) parent()->removeChild(this); }

    AnimationController* animation() const;

    bool visibleToHitTesting() const { return style()->visibility() == VISIBLE && style()->pointerEvents() != PE_NONE; }

    // Map points and quads through elements, potentially via 3d transforms. You should never need to call these directly; use
    // localToAbsolute/absoluteToLocal methods instead.
    virtual void mapLocalToContainer(RenderBoxModelObject* repaintContainer, bool useTransforms, bool fixed, TransformState&) const;
    virtual void mapAbsoluteToLocalPoint(bool fixed, bool useTransforms, TransformState&) const;

    bool shouldUseTransformFromContainer(const RenderObject* container) const;
    void getTransformFromContainer(const RenderObject* container, const IntSize& offsetInContainer, TransformationMatrix&) const;
    
    virtual void addFocusRingRects(GraphicsContext*, int /*tx*/, int /*ty*/) { };

    IntRect absoluteOutlineBounds() const
    {
        return outlineBoundsForRepaint(0);
    }

    bool replacedHasOverflow() const { return m_replacedHasOverflow; }
    void setReplacedHasOverflow(bool b = true) { m_replacedHasOverflow = b; }
    
protected:
    // Overrides should call the superclass at the end
    virtual void styleWillChange(StyleDifference, const RenderStyle* newStyle);
    // Overrides should call the superclass at the start
    virtual void styleDidChange(StyleDifference, const RenderStyle* oldStyle);

    void paintOutline(GraphicsContext*, int tx, int ty, int w, int h, const RenderStyle*);
    void addPDFURLRect(GraphicsContext*, const IntRect&);

    virtual IntRect viewRect() const;

    void adjustRectForOutlineAndShadow(IntRect&) const;

    void arenaDelete(RenderArena*, void* objectBase);

    virtual IntRect outlineBoundsForRepaint(RenderBoxModelObject* /*repaintContainer*/) const { return IntRect(); }

    class LayoutRepainter {
    public:
        LayoutRepainter(RenderObject& object, bool checkForRepaint, const IntRect* oldBounds = 0)
            : m_object(object)
            , m_repaintContainer(0)
            , m_checkForRepaint(checkForRepaint)
        {
            if (m_checkForRepaint) {
                m_repaintContainer = m_object.containerForRepaint();
                m_oldBounds = oldBounds ? *oldBounds : m_object.clippedOverflowRectForRepaint(m_repaintContainer);
                m_oldOutlineBox = m_object.outlineBoundsForRepaint(m_repaintContainer);
            }
        }
        
        // Return true if it repainted.
        bool repaintAfterLayout()
        {
            return m_checkForRepaint ? m_object.repaintAfterLayoutIfNeeded(m_repaintContainer, m_oldBounds, m_oldOutlineBox) : false;
        }
        
        bool checkForRepaint() const { return m_checkForRepaint; }
        
    private:
        RenderObject& m_object;
        RenderBoxModelObject* m_repaintContainer;
        IntRect m_oldBounds;
        IntRect m_oldOutlineBox;
        bool m_checkForRepaint;
    };
    
private:
    RenderStyle* firstLineStyleSlowCase() const;
    StyleDifference adjustStyleDifference(StyleDifference, unsigned contextSensitiveProperties) const;
    
    RefPtr<RenderStyle> m_style;

    Node* m_node;

    RenderObject* m_parent;
    RenderObject* m_previous;
    RenderObject* m_next;

#ifndef NDEBUG
    bool m_hasAXObject;
    bool m_setNeedsLayoutForbidden : 1;
#endif

    // 32 bits have been used here. THERE ARE NO FREE BITS AVAILABLE.
    bool m_needsLayout               : 1;
    bool m_needsPositionedMovementLayout :1;
    bool m_normalChildNeedsLayout    : 1;
    bool m_posChildNeedsLayout       : 1;
    bool m_prefWidthsDirty           : 1;
    bool m_floating                  : 1;

    bool m_positioned                : 1;
    bool m_relPositioned             : 1;
    bool m_paintBackground           : 1; // if the box has something to paint in the
                                          // background painting phase (background, border, etc)

    bool m_isAnonymous               : 1;
    bool m_isText                    : 1;
    bool m_isBox                     : 1;
    bool m_inline                    : 1;
    bool m_replaced                  : 1;
    bool m_isDragging                : 1;

    bool m_hasLayer                  : 1;
    bool m_hasOverflowClip           : 1;
    bool m_hasTransform              : 1;
    bool m_hasReflection             : 1;

    bool m_hasOverrideSize           : 1;
    
public:
    bool m_hasCounterNodeMap         : 1;
    bool m_everHadLayout             : 1;

private:
    // These bitfields are moved here from subclasses to pack them together
    // from RenderBlock
    bool m_childrenInline : 1;
    bool m_topMarginQuirk : 1;
    bool m_bottomMarginQuirk : 1;
    bool m_hasMarkupTruncation : 1;
    unsigned m_selectionState : 3; // SelectionState
    bool m_hasColumns : 1;
    
    // from RenderTableCell
    bool m_cellWidthChanged : 1;

    // from RenderReplaced
    bool m_replacedHasOverflow : 1;

private:
    // Store state between styleWillChange and styleDidChange
    static bool s_affectsParentBlock;
};

inline bool RenderObject::documentBeingDestroyed() const
{
    return !document()->renderer();
}

inline void RenderObject::setNeedsLayout(bool b, bool markParents)
{
    bool alreadyNeededLayout = m_needsLayout;
    m_needsLayout = b;
    if (b) {
        ASSERT(!isSetNeedsLayoutForbidden());
        if (!alreadyNeededLayout) {
            if (markParents)
                markContainingBlocksForLayout();
            if (hasLayer())
                setLayerNeedsFullRepaint();
        }
    } else {
        m_everHadLayout = true;
        m_posChildNeedsLayout = false;
        m_normalChildNeedsLayout = false;
        m_needsPositionedMovementLayout = false;
    }
}

inline void RenderObject::setChildNeedsLayout(bool b, bool markParents)
{
    bool alreadyNeededLayout = m_normalChildNeedsLayout;
    m_normalChildNeedsLayout = b;
    if (b) {
        ASSERT(!isSetNeedsLayoutForbidden());
        if (!alreadyNeededLayout && markParents)
            markContainingBlocksForLayout();
    } else {
        m_posChildNeedsLayout = false;
        m_normalChildNeedsLayout = false;
        m_needsPositionedMovementLayout = false;
    }
}

inline void RenderObject::setNeedsPositionedMovementLayout()
{
    bool alreadyNeededLayout = needsLayout();
    m_needsPositionedMovementLayout = true;
    if (!alreadyNeededLayout) {
        markContainingBlocksForLayout();
        if (hasLayer())
            setLayerNeedsFullRepaint();
    }
}

inline bool objectIsRelayoutBoundary(const RenderObject *obj) 
{
    // FIXME: In future it may be possible to broaden this condition in order to improve performance.
    // Table cells are excluded because even when their CSS height is fixed, their height()
    // may depend on their contents.
    return obj->isTextControl()
        || (obj->hasOverflowClip() && !obj->style()->width().isIntrinsicOrAuto() && !obj->style()->height().isIntrinsicOrAuto() && !obj->style()->height().isPercent() && !obj->isTableCell())
#if ENABLE(SVG)
           || obj->isSVGRoot()
#endif
           ;
}

inline void RenderObject::markContainingBlocksForLayout(bool scheduleRelayout, RenderObject* newRoot)
{
    ASSERT(!scheduleRelayout || !newRoot);

    RenderObject* o = container();
    RenderObject* last = this;

    while (o) {
        // Don't mark the outermost object of an unrooted subtree. That object will be 
        // marked when the subtree is added to the document.
        RenderObject* container = o->container();
        if (!container && !o->isRenderView())
            return;
        if (!last->isText() && (last->style()->position() == FixedPosition || last->style()->position() == AbsolutePosition)) {
            if ((last->style()->top().isAuto() && last->style()->bottom().isAuto()) || last->style()->top().isStatic()) {
                RenderObject* parent = last->parent();
                if (!parent->normalChildNeedsLayout()) {
                    parent->setChildNeedsLayout(true, false);
                    if (parent != newRoot)
                        parent->markContainingBlocksForLayout(scheduleRelayout, newRoot);
                }
            }
            if (o->m_posChildNeedsLayout)
                return;
            o->m_posChildNeedsLayout = true;
            ASSERT(!o->isSetNeedsLayoutForbidden());
        } else {
            if (o->m_normalChildNeedsLayout)
                return;
            o->m_normalChildNeedsLayout = true;
            ASSERT(!o->isSetNeedsLayoutForbidden());
        }

        if (o == newRoot)
            return;

        last = o;
        if (scheduleRelayout && objectIsRelayoutBoundary(last))
            break;
        o = container;
    }

    if (scheduleRelayout)
        last->scheduleRelayout();
}

inline void makeMatrixRenderable(TransformationMatrix& matrix)
{
#if !ENABLE(3D_RENDERING)
    matrix.makeAffine();
#else
    UNUSED_PARAM(matrix);
#endif
}

} // namespace WebCore

#ifndef NDEBUG
// Outside the WebCore namespace for ease of invocation from gdb.
void showTree(const WebCore::RenderObject*);
#endif

#endif // RenderObject_h