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// vim:cindent:ts=2:et:sw=2:
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#ifndef nsSpaceManager_h___
#define nsSpaceManager_h___
#include "prclist.h"
#include "nsIntervalSet.h"
#include "nsISupports.h"
#include "nsCoord.h"
#include "nsRect.h"
class nsIPresShell;
class nsIFrame;
class nsVoidArray;
class nsISizeOfHandler;
struct nsSize;
#define NS_SPACE_MANAGER_CACHE_SIZE 4
/**
* Information about a particular trapezoid within a band. The space described
* by the trapezoid is in one of three states:
*
* - available
*
- occupied by one frame
*
- occupied by more than one frame
*
*/
struct nsBandTrapezoid {
enum State {Available, Occupied, OccupiedMultiple};
nscoord mTopY, mBottomY; // top and bottom y-coordinates
nscoord mTopLeftX, mBottomLeftX; // left edge x-coordinates
nscoord mTopRightX, mBottomRightX; // right edge x-coordinates
State mState; // state of the space
union {
nsIFrame* mFrame; // single frame occupying the space
const nsVoidArray* mFrames; // list of frames occupying the space
};
// Get the height of the trapezoid
nscoord GetHeight() const {return mBottomY - mTopY;}
// Get the bounding rect of the trapezoid
inline void GetRect(nsRect& aRect) const;
// Set the trapezoid from a rectangle
inline void operator=(const nsRect& aRect);
// Do these trapezoids have the same geometry, frame, and state?
inline PRBool Equals(const nsBandTrapezoid& aTrap) const;
// Do these trapezoids have the same geometry?
inline PRBool EqualGeometry(const nsBandTrapezoid& aTrap) const;
nsBandTrapezoid()
: mTopY(0),
mBottomY(0),
mTopLeftX(0),
mBottomLeftX(0),
mTopRightX(0),
mBottomRightX(0),
mFrame(nsnull)
{
}
};
inline void nsBandTrapezoid::GetRect(nsRect& aRect) const
{
aRect.x = PR_MIN(mTopLeftX, mBottomLeftX);
aRect.y = mTopY;
aRect.width = PR_MAX(mTopRightX, mBottomRightX);
if (NS_MAXSIZE != aRect.width) {
aRect.width -= aRect.x;
}
aRect.height = (NS_MAXSIZE == mBottomY) ? NS_MAXSIZE : mBottomY - mTopY;
}
inline void nsBandTrapezoid::operator=(const nsRect& aRect)
{
mTopLeftX = mBottomLeftX = aRect.x;
mTopRightX = mBottomRightX = aRect.XMost();
mTopY = aRect.y;
mBottomY = aRect.YMost();
}
inline PRBool nsBandTrapezoid::Equals(const nsBandTrapezoid& aTrap) const
{
return (
mTopLeftX == aTrap.mTopLeftX &&
mBottomLeftX == aTrap.mBottomLeftX &&
mTopRightX == aTrap.mTopRightX &&
mBottomRightX == aTrap.mBottomRightX &&
mTopY == aTrap.mTopY &&
mBottomY == aTrap.mBottomY &&
mState == aTrap.mState &&
mFrame == aTrap.mFrame
);
}
inline PRBool nsBandTrapezoid::EqualGeometry(const nsBandTrapezoid& aTrap) const
{
return (
mTopLeftX == aTrap.mTopLeftX &&
mBottomLeftX == aTrap.mBottomLeftX &&
mTopRightX == aTrap.mTopRightX &&
mBottomRightX == aTrap.mBottomRightX &&
mTopY == aTrap.mTopY &&
mBottomY == aTrap.mBottomY
);
}
/**
* Structure used for describing the space within a band.
* @see #GetBandData()
*/
struct nsBandData {
PRInt32 mCount; // [out] actual number of trapezoids in the band data
PRInt32 mSize; // [in] the size of the array (number of trapezoids)
nsBandTrapezoid* mTrapezoids; // [out] array of length 'size'
};
/**
* Class for dealing with bands of available space. The space manager
* defines a coordinate space with an origin at (0, 0) that grows down
* and to the right.
*/
class nsSpaceManager {
public:
nsSpaceManager(nsIPresShell* aPresShell, nsIFrame* aFrame);
~nsSpaceManager();
void* operator new(size_t aSize) CPP_THROW_NEW;
void operator delete(void* aPtr, size_t aSize);
static void Shutdown();
/*
* Get the frame that's associated with the space manager. This frame
* created the space manager, and the world coordinate space is
* relative to this frame.
*
* You can use QueryInterface() on this frame to get any additional
* interfaces.
*/
nsIFrame* GetFrame() const { return mFrame; }
/**
* Translate the current origin by the specified (dx, dy). This
* creates a new local coordinate space relative to the current
* coordinate space.
*/
void Translate(nscoord aDx, nscoord aDy) { mX += aDx; mY += aDy; }
/**
* Returns the current translation from local coordinate space to
* world coordinate space. This represents the accumulated calls to
* Translate().
*/
void GetTranslation(nscoord& aX, nscoord& aY) const { aX = mX; aY = mY; }
/**
* Returns the y-most of the bottommost band or 0 if there are no bands.
*
* @return PR_TRUE if there are bands and PR_FALSE if there are no bands
*/
PRBool YMost(nscoord& aYMost) const;
/**
* Returns a band starting at the specified y-offset. The band data
* indicates which parts of the band are available, and which parts
* are unavailable
*
* The band data that is returned is in the coordinate space of the
* local coordinate system.
*
* The local coordinate space origin, the y-offset, and the max size
* describe a rectangle that's used to clip the underlying band of
* available space, i.e.
* {0, aYOffset, aMaxSize.width, aMaxSize.height} in the local
* coordinate space
*
* @param aYOffset the y-offset of where the band begins. The coordinate is
* relative to the upper-left corner of the local coordinate space
* @param aMaxSize the size to use to constrain the band data
* @param aBandData [in,out] used to return the list of trapezoids that
* describe the available space and the unavailable space
* @return NS_OK if successful and NS_ERROR_FAILURE if the band data is not
* not large enough. The 'count' member of the band data struct
* indicates how large the array of trapezoids needs to be
*/
nsresult GetBandData(nscoord aYOffset,
const nsSize& aMaxSize,
nsBandData& aBandData) const;
/**
* Add a rectangular region of unavailable space. The space is
* relative to the local coordinate system.
*
* The region is tagged with a frame
*
* @param aFrame the frame used to identify the region. Must not be NULL
* @param aUnavailableSpace the bounding rect of the unavailable space
* @return NS_OK if successful
* NS_ERROR_FAILURE if there is already a region tagged with aFrame
*/
nsresult AddRectRegion(nsIFrame* aFrame,
const nsRect& aUnavailableSpace);
/**
* Resize the rectangular region associated with aFrame by the specified
* deltas. The height change always applies to the bottom edge or the existing
* rect. You specify whether the width change applies to the left or right edge
*
* Returns NS_OK if successful, NS_ERROR_INVALID_ARG if there is no region
* tagged with aFrame
*/
enum AffectedEdge {LeftEdge, RightEdge};
nsresult ResizeRectRegion(nsIFrame* aFrame,
nscoord aDeltaWidth,
nscoord aDeltaHeight,
AffectedEdge aEdge = RightEdge);
/**
* Offset the region associated with aFrame by the specified amount.
*
* Returns NS_OK if successful, NS_ERROR_INVALID_ARG if there is no region
* tagged with aFrame
*/
nsresult OffsetRegion(nsIFrame* aFrame, nscoord dx, nscoord dy);
/**
* Remove the region associated with aFrane.
*
* Returns NS_OK if successful and NS_ERROR_INVALID_ARG if there is no region
* tagged with aFrame
*/
nsresult RemoveRegion(nsIFrame* aFrame);
/**
* Clears the list of regions representing the unavailable space.
*/
void ClearRegions();
/**
* Methods for dealing with the propagation of float damage during
* reflow.
*/
PRBool HasFloatDamage()
{
return !mFloatDamage.IsEmpty();
}
void IncludeInDamage(nscoord aIntervalBegin, nscoord aIntervalEnd)
{
mFloatDamage.IncludeInterval(aIntervalBegin + mY, aIntervalEnd + mY);
}
PRBool IntersectsDamage(nscoord aIntervalBegin, nscoord aIntervalEnd)
{
return mFloatDamage.Intersects(aIntervalBegin + mY, aIntervalEnd + mY);
}
/**
* Pushes the current state of the space manager onto a state stack.
*/
void PushState();
/**
* Restores the space manager to the state at the top of the state stack,
* then pops this state off the stack.
*/
void PopState();
#ifdef DEBUG
/**
* Dump the state of the spacemanager out to a file
*/
nsresult List(FILE* out);
void SizeOf(nsISizeOfHandler* aHandler, PRUint32* aResult) const;
#endif
protected:
// Structure that maintains information about the region associated
// with a particular frame
struct FrameInfo {
nsIFrame* const mFrame;
nsRect mRect; // rectangular region
FrameInfo* mNext;
FrameInfo(nsIFrame* aFrame, const nsRect& aRect);
#ifdef NS_BUILD_REFCNT_LOGGING
~FrameInfo();
#endif
};
// Structure that stores the current state of a frame manager for
// Save/Restore purposes.
struct SpaceManagerState {
nscoord mX, mY;
nsIFrame *mLastFrame;
SpaceManagerState *mNext;
SpaceManagerState() : mX(0), mY(0), mLastFrame(nsnull), mNext(nsnull) {}
~SpaceManagerState() {}
};
public:
// Doubly linked list of band rects
struct BandRect : PRCListStr {
nscoord mLeft, mTop;
nscoord mRight, mBottom;
PRIntn mNumFrames; // number of frames occupying this rect
union {
nsIFrame* mFrame; // single frame occupying the space
nsVoidArray* mFrames; // list of frames occupying the space
};
BandRect(nscoord aLeft, nscoord aTop,
nscoord aRight, nscoord aBottom,
nsIFrame*);
BandRect(nscoord aLeft, nscoord aTop,
nscoord aRight, nscoord aBottom,
nsVoidArray*);
~BandRect();
// List operations
BandRect* Next() const {return (BandRect*)PR_NEXT_LINK(this);}
BandRect* Prev() const {return (BandRect*)PR_PREV_LINK(this);}
void InsertBefore(BandRect* aBandRect) {PR_INSERT_BEFORE(aBandRect, this);}
void InsertAfter(BandRect* aBandRect) {PR_INSERT_AFTER(aBandRect, this);}
void Remove() {PR_REMOVE_LINK(this);}
// Split the band rect into two vertically, with this band rect becoming
// the top part, and a new band rect being allocated and returned for the
// bottom part
//
// Does not insert the new band rect into the linked list
BandRect* SplitVertically(nscoord aBottom);
// Split the band rect into two horizontally, with this band rect becoming
// the left part, and a new band rect being allocated and returned for the
// right part
//
// Does not insert the new band rect into the linked list
BandRect* SplitHorizontally(nscoord aRight);
// Accessor functions
PRBool IsOccupiedBy(const nsIFrame*) const;
void AddFrame(const nsIFrame*);
void RemoveFrame(const nsIFrame*);
PRBool HasSameFrameList(const BandRect* aBandRect) const;
PRInt32 Length() const;
};
// Circular linked list of band rects
struct BandList : BandRect {
BandList();
// Accessors
PRBool IsEmpty() const {return PR_CLIST_IS_EMPTY((PRCListStr*)this);}
BandRect* Head() const {return (BandRect*)PR_LIST_HEAD(this);}
BandRect* Tail() const {return (BandRect*)PR_LIST_TAIL(this);}
// Operations
void Append(BandRect* aBandRect) {PR_APPEND_LINK(aBandRect, this);}
// Remove and delete all the band rects in the list
void Clear();
};
protected:
nsIFrame* const mFrame; // frame associated with the space manager
nscoord mX, mY; // translation from local to global coordinate space
BandList mBandList; // header/sentinel for circular linked list of band rects
FrameInfo* mFrameInfoMap;
nsIntervalSet mFloatDamage;
SpaceManagerState *mSavedStates;
protected:
FrameInfo* GetFrameInfoFor(nsIFrame* aFrame);
FrameInfo* CreateFrameInfo(nsIFrame* aFrame, const nsRect& aRect);
void DestroyFrameInfo(FrameInfo*);
void ClearFrameInfo();
void ClearBandRects();
BandRect* GetNextBand(const BandRect* aBandRect) const;
void DivideBand(BandRect* aBand, nscoord aBottom);
PRBool CanJoinBands(BandRect* aBand, BandRect* aPrevBand);
PRBool JoinBands(BandRect* aBand, BandRect* aPrevBand);
void AddRectToBand(BandRect* aBand, BandRect* aBandRect);
void InsertBandRect(BandRect* aBandRect);
nsresult GetBandAvailableSpace(const BandRect* aBand,
nscoord aY,
const nsSize& aMaxSize,
nsBandData& aAvailableSpace) const;
private:
static PRInt32 sCachedSpaceManagerCount;
static void* sCachedSpaceManagers[NS_SPACE_MANAGER_CACHE_SIZE];
nsSpaceManager(const nsSpaceManager&); // no implementation
void operator=(const nsSpaceManager&); // no implementation
};
#endif /* nsSpaceManager_h___ */