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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef CellData_h__
#define CellData_h__
#include "nsISupports.h"
#include "nsITableCellLayout.h" // for MAX_COLSPAN / MAX_ROWSPAN
#include "nsCoord.h"
#include "mozilla/gfx/Types.h"
#include "mozilla/WritingModes.h"
#include <stdint.h>
class nsTableCellFrame;
class nsCellMap;
class BCCellData;
/**
* Data stored by nsCellMap to rationalize rowspan and colspan cells.
*/
class CellData
{
public:
/** Initialize the mOrigCell pointer
* @param aOrigCell the table cell frame which will be stored in mOrigCell.
*/
void Init(nsTableCellFrame* aCellFrame);
/** does a cell originate from here
* @return is true if a cell corresponds to this cellmap entry
*/
bool IsOrig() const;
/** is the celldata valid
* @return is true if no cell originates and the cell is not spanned by
* a row- or colspan. mBits are 0 in this case and mOrigCell is
* nullptr
*/
bool IsDead() const;
/** is the entry spanned by row- or a colspan
* @return is true if the entry is spanned by a row- or colspan
*/
bool IsSpan() const;
/** is the entry spanned by rowspan
* @return is true if the entry is spanned by a rowspan
*/
bool IsRowSpan() const;
/** is the entry spanned by a zero rowspan
* zero rowspans span all cells starting from the originating cell down to
* the end of the rowgroup or a cell originating in the same column
* @return is true if the entry is spanned by a zero rowspan
*/
bool IsZeroRowSpan() const;
/** mark the current entry as spanned by a zero rowspan
* @param aIsZero if true mark the entry as covered by a zero rowspan
*/
void SetZeroRowSpan(bool aIsZero);
/** get the distance from the current entry to the corresponding origin of the rowspan
* @return containing the distance in the column to the originating cell
*/
uint32_t GetRowSpanOffset() const;
/** set the distance from the current entry to the corresponding origin of the rowspan
* @param the distance in the column to the originating cell
*/
void SetRowSpanOffset(uint32_t aSpan);
/** is the entry spanned by colspan
* @return is true if the entry is spanned by a colspan
*/
bool IsColSpan() const;
/** get the distance from the current entry to the corresponding origin of the colspan
* @return containing the distance in the row to the originating cell
*/
uint32_t GetColSpanOffset() const;
/** set the distance from the current entry to the corresponding origin of the colspan
* @param the distance in the column to the originating cell
*/
void SetColSpanOffset(uint32_t aSpan);
/** is the entry spanned by a row- and a colspan
* @return is true if the entry is spanned by a row- and a colspan
*/
bool IsOverlap() const;
/** mark the current entry as spanned by a row- and a colspan
* @param aOverlap if true mark the entry as covered by a row- and a colspan
*/
void SetOverlap(bool aOverlap);
/** get the table cell frame for this entry
* @return a pointer to the cellframe, this will be nullptr when the entry
* is only a spanned entry
*/
nsTableCellFrame* GetCellFrame() const;
private:
friend class nsCellMap;
friend class BCCellData;
/** constructor.
* @param aOrigCell the table cell frame which will be stored in mOrigCell.
*/
explicit CellData(nsTableCellFrame* aOrigCell); // implemented in nsCellMap.cpp
/** destructor */
~CellData(); // implemented in nsCellMap.cpp
protected:
// this union relies on the assumption that an object (not primitive type) does
// not start on an odd bit boundary. If mSpan is 0 then mOrigCell is in effect
// and the data does not represent a span. If mSpan is 1, then mBits is in
// effect and the data represents a span.
// mBits must match the size of mOrigCell on both 32- and 64-bit platforms.
union {
nsTableCellFrame* mOrigCell;
uintptr_t mBits;
};
};
// Border Collapsing Cell Data
enum BCBorderOwner
{
eTableOwner = 0,
eColGroupOwner = 1,
eAjaColGroupOwner = 2, // col group to the left
eColOwner = 3,
eAjaColOwner = 4, // col to the left
eRowGroupOwner = 5,
eAjaRowGroupOwner = 6, // row group above
eRowOwner = 7,
eAjaRowOwner = 8, // row above
eCellOwner = 9,
eAjaCellOwner = 10 // cell to the top or to the left
};
typedef uint16_t BCPixelSize;
// These are the max sizes that are stored. If they are exceeded, then the max is stored and
// the actual value is computed when needed.
#define MAX_BORDER_WIDTH nscoord((1u << (sizeof(BCPixelSize) * 8)) - 1)
// The half of border on inline/block-axis start side
static inline BCPixelSize
BC_BORDER_START_HALF(BCPixelSize px) { return px - px / 2; }
// The half of border on inline/block-axis end side
static inline BCPixelSize
BC_BORDER_END_HALF(BCPixelSize px) { return px / 2; }
static inline nscoord
BC_BORDER_START_HALF_COORD(int32_t p2t, BCPixelSize px)
{ return BC_BORDER_START_HALF(px) * p2t; }
static inline nscoord
BC_BORDER_END_HALF_COORD(int32_t p2t, BCPixelSize px)
{ return BC_BORDER_END_HALF(px) * p2t; }
// BCData stores the bstart and istart border info and the corner connecting the two.
class BCData
{
public:
BCData();
~BCData();
nscoord GetIStartEdge(BCBorderOwner& aOwner,
bool& aStart) const;
void SetIStartEdge(BCBorderOwner aOwner,
nscoord aSize,
bool aStart);
nscoord GetBStartEdge(BCBorderOwner& aOwner,
bool& aStart) const;
void SetBStartEdge(BCBorderOwner aOwner,
nscoord aSize,
bool aStart);
BCPixelSize GetCorner(mozilla::LogicalSide& aCornerOwner,
bool& aBevel) const;
void SetCorner(BCPixelSize aSubSize,
mozilla::LogicalSide aOwner,
bool aBevel);
bool IsIStartStart() const;
void SetIStartStart(bool aValue);
bool IsBStartStart() const;
void SetBStartStart(bool aValue);
protected:
BCPixelSize mIStartSize; // size in pixels of iStart border
BCPixelSize mBStartSize; // size in pixels of bStart border
BCPixelSize mCornerSubSize; // size of the largest border not in the
// dominant plane (for example, if corner is
// owned by the segment to its bStart or bEnd,
// then the size is the max of the border
// sizes of the segments to its iStart or iEnd.
unsigned mIStartOwner: 4; // owner of iStart border
unsigned mBStartOwner: 4; // owner of bStart border
unsigned mIStartStart: 1; // set if this is the start of a block-dir border segment
unsigned mBStartStart: 1; // set if this is the start of an inline-dir border segment
unsigned mCornerSide: 2; // LogicalSide of the owner of the bStart-iStart corner relative to the corner
unsigned mCornerBevel: 1; // is the corner beveled (only two segments, perpendicular, not dashed or dotted).
};
// BCCellData entries replace CellData entries in the cell map if the border collapsing model is in
// effect. BCData for a row and col entry contains the left and top borders of cell at that row and
// col and the corner connecting the two. The right borders of the cells in the last col and the bottom
// borders of the last row are stored in separate BCData entries in the cell map.
class BCCellData : public CellData
{
public:
explicit BCCellData(nsTableCellFrame* aOrigCell);
~BCCellData();
BCData mData;
};
// The layout of a celldata is as follows. The top 10 bits are the colspan
// offset (which is enough to represent our allowed values 1-1000 for colspan).
// Then there are two bits of flags.
// XXXmats Then one unused bit that we should decide how to use in bug 862624.
// Then 16 bits of rowspan offset (which
// lets us represent numbers up to 65535. Then another 3 bits of flags.
// num bits to shift right to get right aligned col span
#define COL_SPAN_SHIFT 22
// num bits to shift right to get right aligned row span
#define ROW_SPAN_SHIFT 3
// the col offset to the data containing the original cell.
#define COL_SPAN_OFFSET (0x3FF << COL_SPAN_SHIFT)
// the row offset to the data containing the original cell
#define ROW_SPAN_OFFSET (0xFFFF << ROW_SPAN_SHIFT)
// And the flags
#define SPAN 0x00000001 // there a row or col span
#define ROW_SPAN 0x00000002 // there is a row span
#define ROW_SPAN_0 0x00000004 // the row span is 0
#define COL_SPAN (1 << (COL_SPAN_SHIFT - 2)) // there is a col span
#define OVERLAP (1 << (COL_SPAN_SHIFT - 1)) // there is a row span and
// col span but not by
// same cell
inline nsTableCellFrame* CellData::GetCellFrame() const
{
if (SPAN != (SPAN & mBits)) {
return mOrigCell;
}
return nullptr;
}
inline void CellData::Init(nsTableCellFrame* aCellFrame)
{
mOrigCell = aCellFrame;
}
inline bool CellData::IsOrig() const
{
return ((nullptr != mOrigCell) && (SPAN != (SPAN & mBits)));
}
inline bool CellData::IsDead() const
{
return (0 == mBits);
}
inline bool CellData::IsSpan() const
{
return (SPAN == (SPAN & mBits));
}
inline bool CellData::IsRowSpan() const
{
return (SPAN == (SPAN & mBits)) &&
(ROW_SPAN == (ROW_SPAN & mBits));
}
inline bool CellData::IsZeroRowSpan() const
{
return (SPAN == (SPAN & mBits)) &&
(ROW_SPAN == (ROW_SPAN & mBits)) &&
(ROW_SPAN_0 == (ROW_SPAN_0 & mBits));
}
inline void CellData::SetZeroRowSpan(bool aIsZeroSpan)
{
if (SPAN == (SPAN & mBits)) {
if (aIsZeroSpan) {
mBits |= ROW_SPAN_0;
}
else {
mBits &= ~ROW_SPAN_0;
}
}
}
inline uint32_t CellData::GetRowSpanOffset() const
{
if ((SPAN == (SPAN & mBits)) && ((ROW_SPAN == (ROW_SPAN & mBits)))) {
return (uint32_t)((mBits & ROW_SPAN_OFFSET) >> ROW_SPAN_SHIFT);
}
return 0;
}
inline void CellData::SetRowSpanOffset(uint32_t aSpan)
{
mBits &= ~ROW_SPAN_OFFSET;
mBits |= (aSpan << ROW_SPAN_SHIFT);
mBits |= SPAN;
mBits |= ROW_SPAN;
}
inline bool CellData::IsColSpan() const
{
return (SPAN == (SPAN & mBits)) &&
(COL_SPAN == (COL_SPAN & mBits));
}
inline uint32_t CellData::GetColSpanOffset() const
{
if ((SPAN == (SPAN & mBits)) && ((COL_SPAN == (COL_SPAN & mBits)))) {
return (uint32_t)((mBits & COL_SPAN_OFFSET) >> COL_SPAN_SHIFT);
}
return 0;
}
inline void CellData::SetColSpanOffset(uint32_t aSpan)
{
mBits &= ~COL_SPAN_OFFSET;
mBits |= (aSpan << COL_SPAN_SHIFT);
mBits |= SPAN;
mBits |= COL_SPAN;
}
inline bool CellData::IsOverlap() const
{
return (SPAN == (SPAN & mBits)) && (OVERLAP == (OVERLAP & mBits));
}
inline void CellData::SetOverlap(bool aOverlap)
{
if (SPAN == (SPAN & mBits)) {
if (aOverlap) {
mBits |= OVERLAP;
}
else {
mBits &= ~OVERLAP;
}
}
}
inline BCData::BCData()
{
mIStartOwner = mBStartOwner = eCellOwner;
mIStartStart = mBStartStart = 1;
mIStartSize = mCornerSubSize = mBStartSize = 0;
mCornerSide = mozilla::eLogicalSideBStart;
mCornerBevel = false;
}
inline BCData::~BCData()
{
}
inline nscoord BCData::GetIStartEdge(BCBorderOwner& aOwner,
bool& aStart) const
{
aOwner = (BCBorderOwner)mIStartOwner;
aStart = (bool)mIStartStart;
return (nscoord)mIStartSize;
}
inline void BCData::SetIStartEdge(BCBorderOwner aOwner,
nscoord aSize,
bool aStart)
{
mIStartOwner = aOwner;
mIStartSize = (aSize > MAX_BORDER_WIDTH) ? MAX_BORDER_WIDTH : aSize;
mIStartStart = aStart;
}
inline nscoord BCData::GetBStartEdge(BCBorderOwner& aOwner,
bool& aStart) const
{
aOwner = (BCBorderOwner)mBStartOwner;
aStart = (bool)mBStartStart;
return (nscoord)mBStartSize;
}
inline void BCData::SetBStartEdge(BCBorderOwner aOwner,
nscoord aSize,
bool aStart)
{
mBStartOwner = aOwner;
mBStartSize = (aSize > MAX_BORDER_WIDTH) ? MAX_BORDER_WIDTH : aSize;
mBStartStart = aStart;
}
inline BCPixelSize BCData::GetCorner(mozilla::LogicalSide& aOwnerSide,
bool& aBevel) const
{
aOwnerSide = mozilla::LogicalSide(mCornerSide);
aBevel = (bool)mCornerBevel;
return mCornerSubSize;
}
inline void BCData::SetCorner(BCPixelSize aSubSize,
mozilla::LogicalSide aOwnerSide,
bool aBevel)
{
mCornerSubSize = aSubSize;
mCornerSide = aOwnerSide;
mCornerBevel = aBevel;
}
inline bool BCData::IsIStartStart() const
{
return (bool)mIStartStart;
}
inline void BCData::SetIStartStart(bool aValue)
{
mIStartStart = aValue;
}
inline bool BCData::IsBStartStart() const
{
return (bool)mBStartStart;
}
inline void BCData::SetBStartStart(bool aValue)
{
mBStartStart = aValue;
}
#endif
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