/* -*- 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 nsCellMap_h__ #define nsCellMap_h__ #include "nscore.h" #include "celldata.h" #include "nsTArray.h" #include "nsTArray.h" #include "nsCOMPtr.h" #include "nsAlgorithm.h" #include "nsAutoPtr.h" #include "nsRect.h" #include #undef DEBUG_TABLE_CELLMAP class nsTableCellFrame; class nsTableRowFrame; class nsTableRowGroupFrame; class nsTableFrame; class nsCellMap; class nsPresContext; class nsCellMapColumnIterator; struct nsColInfo { int32_t mNumCellsOrig; // number of cells originating in the col int32_t mNumCellsSpan; // number of cells spanning into the col via colspans (not rowspans) nsColInfo(); nsColInfo(int32_t aNumCellsOrig, int32_t aNumCellsSpan); }; enum Corner { eTopLeft = 0, eTopRight = 1, eBottomRight = 2, eBottomLeft = 3 }; struct BCInfo { nsTArray mRightBorders; nsTArray mBottomBorders; BCData mLowerRightCorner; }; class nsTableCellMap { public: nsTableCellMap(nsTableFrame& aTableFrame, bool aBorderCollapse); /** destructor * NOT VIRTUAL BECAUSE THIS CLASS SHOULD **NEVER** BE SUBCLASSED */ ~nsTableCellMap(); void RemoveGroupCellMap(nsTableRowGroupFrame* aRowGroup); void InsertGroupCellMap(nsTableRowGroupFrame* aNewRowGroup, nsTableRowGroupFrame*& aPrevRowGroup); /** * Get the nsCellMap for the given row group. If aStartHint is non-null, * will start looking with that cellmap and only fall back to starting at the * beginning of the list if that doesn't find us the right nsCellMap. * Otherwise, just start at the beginning. * * aRowGroup must not be null. */ nsCellMap* GetMapFor(const nsTableRowGroupFrame* aRowGroup, nsCellMap* aStartHint) const; /** synchronize the cellmaps with the rowgroups again **/ void Synchronize(nsTableFrame* aTableFrame); nsTableCellFrame* GetCellFrame(int32_t aRowIndex, int32_t aColIndex, CellData& aData, bool aUseRowIfOverlap) const; /** return the CellData for the cell at (aRowIndex, aColIndex) */ CellData* GetDataAt(int32_t aRowIndex, int32_t aColIndex) const; // this function creates a col if needed nsColInfo* GetColInfoAt(int32_t aColIndex); /** append the cellFrame at the end of the row at aRowIndex and return the col index */ CellData* AppendCell(nsTableCellFrame& aCellFrame, int32_t aRowIndex, bool aRebuildIfNecessary, nsIntRect& aDamageArea); void InsertCells(nsTArray& aCellFrames, int32_t aRowIndex, int32_t aColIndexBefore, nsIntRect& aDamageArea); void RemoveCell(nsTableCellFrame* aCellFrame, int32_t aRowIndex, nsIntRect& aDamageArea); /** Remove the previously gathered column information */ void ClearCols(); void InsertRows(nsTableRowGroupFrame* aRowGroup, nsTArray& aRows, int32_t aFirstRowIndex, bool aConsiderSpans, nsIntRect& aDamageArea); void RemoveRows(int32_t aFirstRowIndex, int32_t aNumRowsToRemove, bool aConsiderSpans, nsIntRect& aDamageArea); int32_t GetNumCellsOriginatingInRow(int32_t aRowIndex) const; int32_t GetNumCellsOriginatingInCol(int32_t aColIndex) const; /** indicate whether the row has more than one cell that either originates * or is spanned from the rows above */ bool HasMoreThanOneCell(int32_t aRowIndex) const; int32_t GetEffectiveRowSpan(int32_t aRowIndex, int32_t aColIndex) const; int32_t GetEffectiveColSpan(int32_t aRowIndex, int32_t aColIndex) const; /** return the total number of columns in the table represented by this CellMap */ int32_t GetColCount() const; /** return the actual number of rows in the table represented by this CellMap */ int32_t GetRowCount() const; nsTableCellFrame* GetCellInfoAt(int32_t aRowX, int32_t aColX, bool* aOriginates = nullptr, int32_t* aColSpan = nullptr) const; /** * Returns the index at the given row and column coordinates. * * @see nsITableLayout::GetIndexByRowAndColumn() * * @param aRow [in] the row coordinate * @param aColumn [in] the column coordinate * @returns the index for the cell */ int32_t GetIndexByRowAndColumn(int32_t aRow, int32_t aColumn) const; /** * Retrieves the row and column coordinates for the given index. * * @see nsITableLayout::GetRowAndColumnByIndex() * * @param aIndex [in] the index for which coordinates are to be retrieved * @param aRow [out] the row coordinate to be returned * @param aColumn [out] the column coordinate to be returned */ void GetRowAndColumnByIndex(int32_t aIndex, int32_t *aRow, int32_t *aColumn) const; void AddColsAtEnd(uint32_t aNumCols); void RemoveColsAtEnd(); bool RowIsSpannedInto(int32_t aRowIndex, int32_t aNumEffCols) const; bool RowHasSpanningCells(int32_t aRowIndex, int32_t aNumEffCols) const; void RebuildConsideringCells(nsCellMap* aCellMap, nsTArray* aCellFrames, int32_t aRowIndex, int32_t aColIndex, bool aInsert, nsIntRect& aDamageArea); protected: /** * Rebuild due to rows being inserted or deleted with cells spanning * into or out of the rows. This function can only handle insertion * or deletion but NOT both. So either aRowsToInsert must be null * or aNumRowsToRemove must be 0. * * // XXXbz are both allowed to happen? That'd be a no-op... */ void RebuildConsideringRows(nsCellMap* aCellMap, int32_t aStartRowIndex, nsTArray* aRowsToInsert, int32_t aNumRowsToRemove, nsIntRect& aDamageArea); public: void ExpandZeroColSpans(); void ResetTopStart(uint8_t aSide, nsCellMap& aCellMap, uint32_t aYPos, uint32_t aXPos, bool aIsLowerRight = false); void SetBCBorderEdge(mozilla::Side aEdge, nsCellMap& aCellMap, uint32_t aCellMapStart, uint32_t aYPos, uint32_t aXPos, uint32_t aLength, BCBorderOwner aOwner, nscoord aSize, bool aChanged); void SetBCBorderCorner(::Corner aCorner, nsCellMap& aCellMap, uint32_t aCellMapStart, uint32_t aYPos, uint32_t aXPos, mozilla::Side aOwner, nscoord aSubSize, bool aBevel, bool aIsBottomRight = false); /** dump a representation of the cell map to stdout for debugging */ #ifdef DEBUG void Dump(char* aString = nullptr) const; #endif protected: BCData* GetRightMostBorder(int32_t aRowIndex); BCData* GetBottomMostBorder(int32_t aColIndex); friend class nsCellMap; friend class BCMapCellIterator; friend class BCPaintBorderIterator; friend class nsCellMapColumnIterator; /** Insert a row group cellmap after aPrevMap, if aPrefMap is null insert it * at the beginning, the ordering of the cellmap corresponds to the ordering of * rowgroups once OrderRowGroups has been called */ void InsertGroupCellMap(nsCellMap* aPrevMap, nsCellMap& aNewMap); void DeleteRightBottomBorders(); nsTableFrame& mTableFrame; nsAutoTArray mCols; nsCellMap* mFirstMap; // border collapsing info BCInfo* mBCInfo; }; /** nsCellMap is a support class for nsTablePart. * It maintains an Rows x Columns grid onto which the cells of the table are mapped. * This makes processing of rowspan and colspan attributes much easier. * Each cell is represented by a CellData object. * * @see CellData * @see nsTableFrame::AddCellToMap * @see nsTableFrame::GrowCellMap * @see nsTableFrame::BuildCellIntoMap * * mRows is an array of rows. Each row is an array of cells. a cell * can be null. */ class nsCellMap { public: /** constructor * @param aRowGroupFrame the row group frame this is a cellmap for * @param aIsBC whether the table is doing border-collapse */ nsCellMap(nsTableRowGroupFrame* aRowGroupFrame, bool aIsBC); /** destructor * NOT VIRTUAL BECAUSE THIS CLASS SHOULD **NEVER** BE SUBCLASSED */ ~nsCellMap(); static void Init(); static void Shutdown(); nsCellMap* GetNextSibling() const; void SetNextSibling(nsCellMap* aSibling); nsTableRowGroupFrame* GetRowGroup() const; nsTableCellFrame* GetCellFrame(int32_t aRowIndex, int32_t aColIndex, CellData& aData, bool aUseRowSpanIfOverlap) const; /** * Returns highest cell index within the cell map. * * @param aColCount [in] the number of columns in the table */ int32_t GetHighestIndex(int32_t aColCount); /** * Returns the index of the given row and column coordinates. * * @see nsITableLayout::GetIndexByRowAndColumn() * * @param aColCount [in] the number of columns in the table * @param aRow [in] the row coordinate * @param aColumn [in] the column coordinate */ int32_t GetIndexByRowAndColumn(int32_t aColCount, int32_t aRow, int32_t aColumn) const; /** * Get the row and column coordinates at the given index. * * @see nsITableLayout::GetRowAndColumnByIndex() * * @param aColCount [in] the number of columns in the table * @param aIndex [in] the index for which coordinates are to be retrieved * @param aRow [out] the row coordinate to be returned * @param aColumn [out] the column coordinate to be returned */ void GetRowAndColumnByIndex(int32_t aColCount, int32_t aIndex, int32_t *aRow, int32_t *aColumn) const; /** append the cellFrame at an empty or dead cell or finally at the end of * the row at aRowIndex and return a pointer to the celldata entry in the * cellmap * * @param aMap - reference to the table cell map * @param aCellFrame - a pointer to the cellframe which will be appended * to the row * @param aRowIndex - to this row the celldata entry will be added * @param aRebuildIfNecessay - if a cell spans into a row below it might be * necesserary to rebuild the cellmap as this rowspan * might overlap another cell. * @param aDamageArea - area in cellmap coordinates which have been updated. * @param aColToBeginSearch - if not null contains the column number where * the search for a empty or dead cell in the * row should start * @return - a pointer to the celldata entry inserted into * the cellmap */ CellData* AppendCell(nsTableCellMap& aMap, nsTableCellFrame* aCellFrame, int32_t aRowIndex, bool aRebuildIfNecessary, int32_t aRgFirstRowIndex, nsIntRect& aDamageArea, int32_t* aBeginSearchAtCol = nullptr); /** Function to be called when a cell is added at a location which is spanned * to by a zero colspan. We handle this situation by collapsing the zero * colspan, since there is really no good way to deal with it (trying to * increase the number of columns to hold the new cell would just mean the * zero colspan needs to expand). * @param aMap - reference to the table cell map * @param aOrigData - zero colspanned cell that will be collapsed * @param aRowIndex - row where the first collision appears * @param aColIndex - column where the first collision appears **/ void CollapseZeroColSpan(nsTableCellMap& aMap, CellData* aOrigData, int32_t aRowIndex, int32_t aColIndex); void InsertCells(nsTableCellMap& aMap, nsTArray& aCellFrames, int32_t aRowIndex, int32_t aColIndexBefore, int32_t aRgFirstRowIndex, nsIntRect& aDamageArea); void RemoveCell(nsTableCellMap& aMap, nsTableCellFrame* aCellFrame, int32_t aRowIndex, int32_t aRgFirstRowIndex, nsIntRect& aDamageArea); void InsertRows(nsTableCellMap& aMap, nsTArray& aRows, int32_t aFirstRowIndex, bool aConsiderSpans, int32_t aRgFirstRowIndex, nsIntRect& aDamageArea); void RemoveRows(nsTableCellMap& aMap, int32_t aFirstRowIndex, int32_t aNumRowsToRemove, bool aConsiderSpans, int32_t aRgFirstRowIndex, nsIntRect& aDamageArea); int32_t GetNumCellsOriginatingInRow(int32_t aRowIndex) const; int32_t GetNumCellsOriginatingInCol(int32_t aColIndex) const; /** return the number of rows in the table represented by this CellMap */ int32_t GetRowCount(bool aConsiderDeadRowSpanRows = false) const; nsTableCellFrame* GetCellInfoAt(const nsTableCellMap& aMap, int32_t aRowX, int32_t aColX, bool* aOriginates = nullptr, int32_t* aColSpan = nullptr) const; bool RowIsSpannedInto(int32_t aRowIndex, int32_t aNumEffCols) const; bool RowHasSpanningCells(int32_t aRowIndex, int32_t aNumEffCols) const; void ExpandZeroColSpans(nsTableCellMap& aMap); /** indicate whether the row has more than one cell that either originates * or is spanned from the rows above */ bool HasMoreThanOneCell(int32_t aRowIndex) const; /* Get the rowspan for a cell starting at aRowIndex and aColIndex. * If aGetEffective is true the size will not exceed the last content based * row. Cells can have a specified rowspan that extends below the last * content based row. This is legitimate considering incr. reflow where the * content rows will arive later. */ int32_t GetRowSpan(int32_t aRowIndex, int32_t aColIndex, bool aGetEffective) const; int32_t GetEffectiveColSpan(const nsTableCellMap& aMap, int32_t aRowIndex, int32_t aColIndex, bool& aIsZeroColSpan) const; typedef nsTArray CellDataArray; /** dump a representation of the cell map to stdout for debugging */ #ifdef DEBUG void Dump(bool aIsBorderCollapse) const; #endif protected: friend class nsTableCellMap; friend class BCMapCellIterator; friend class BCPaintBorderIterator; friend class nsTableFrame; friend class nsCellMapColumnIterator; /** * Increase the number of rows in this cellmap by aNumRows. Put the * new rows at aRowIndex. If aRowIndex is -1, put them at the end. */ bool Grow(nsTableCellMap& aMap, int32_t aNumRows, int32_t aRowIndex = -1); void GrowRow(CellDataArray& aRow, int32_t aNumCols); /** assign aCellData to the cell at (aRow,aColumn) */ void SetDataAt(nsTableCellMap& aMap, CellData& aCellData, int32_t aMapRowIndex, int32_t aColIndex); CellData* GetDataAt(int32_t aMapRowIndex, int32_t aColIndex) const; int32_t GetNumCellsIn(int32_t aColIndex) const; void ExpandWithRows(nsTableCellMap& aMap, nsTArray& aRowFrames, int32_t aStartRowIndex, int32_t aRgFirstRowIndex, nsIntRect& aDamageArea); void ExpandWithCells(nsTableCellMap& aMap, nsTArray& aCellFrames, int32_t aRowIndex, int32_t aColIndex, int32_t aRowSpan, bool aRowSpanIsZero, int32_t aRgFirstRowIndex, nsIntRect& aDamageArea); void ShrinkWithoutRows(nsTableCellMap& aMap, int32_t aFirstRowIndex, int32_t aNumRowsToRemove, int32_t aRgFirstRowIndex, nsIntRect& aDamageArea); void ShrinkWithoutCell(nsTableCellMap& aMap, nsTableCellFrame& aCellFrame, int32_t aRowIndex, int32_t aColIndex, int32_t aRgFirstRowIndex, nsIntRect& aDamageArea); /** * Rebuild due to rows being inserted or deleted with cells spanning * into or out of the rows. This function can only handle insertion * or deletion but NOT both. So either aRowsToInsert must be null * or aNumRowsToRemove must be 0. * * // XXXbz are both allowed to happen? That'd be a no-op... */ void RebuildConsideringRows(nsTableCellMap& aMap, int32_t aStartRowIndex, nsTArray* aRowsToInsert, int32_t aNumRowsToRemove); void RebuildConsideringCells(nsTableCellMap& aMap, int32_t aNumOrigCols, nsTArray* aCellFrames, int32_t aRowIndex, int32_t aColIndex, bool aInsert); bool CellsSpanOut(nsTArray& aNewRows) const; /** If a cell spans out of the area defined by aStartRowIndex, aEndRowIndex * and aStartColIndex, aEndColIndex the cellmap changes are more severe so * the corresponding routines needs to be called. This is also necessary if * cells outside spans into this region. * @aStartRowIndex - y start index * @aEndRowIndex - y end index * @param aStartColIndex - x start index * @param aEndColIndex - x end index * @return - true if a cell span crosses the border of the region */ bool CellsSpanInOrOut(int32_t aStartRowIndex, int32_t aEndRowIndex, int32_t aStartColIndex, int32_t aEndColIndex) const; void ExpandForZeroSpan(nsTableCellFrame* aCellFrame, int32_t aNumColsInTable); bool CreateEmptyRow(int32_t aRowIndex, int32_t aNumCols); int32_t GetRowSpanForNewCell(nsTableCellFrame* aCellFrameToAdd, int32_t aRowIndex, bool& aIsZeroRowSpan) const; int32_t GetColSpanForNewCell(nsTableCellFrame& aCellFrameToAdd, bool& aIsZeroColSpan) const; // Destroy a CellData struct. This will handle the case of aData // actually being a BCCellData properly. void DestroyCellData(CellData* aData); // Allocate a CellData struct. This will handle needing to create a // BCCellData properly. // @param aOrigCell the originating cell to pass to the celldata constructor CellData* AllocCellData(nsTableCellFrame* aOrigCell); /** an array containing, for each row, the CellDatas for the cells * in that row. It can be larger than mContentRowCount due to row spans * extending beyond the table */ // XXXbz once we have auto TArrays, we should probably use them here. nsTArray mRows; /** the number of rows in the table (content) which is not indentical to the * number of rows in the cell map due to row spans extending beyond the end * of thetable (dead rows) or empty tr tags */ int32_t mContentRowCount; // the row group that corresponds to this map nsTableRowGroupFrame* mRowGroupFrame; // the next row group cell map nsCellMap* mNextSibling; // Whether this is a BC cellmap or not bool mIsBC; // Prescontext to deallocate and allocate celldata nsRefPtr mPresContext; }; /** * A class for iterating the cells in a given column. Must be given a * non-null nsTableCellMap and a column number valid for that cellmap. */ class nsCellMapColumnIterator { public: nsCellMapColumnIterator(const nsTableCellMap* aMap, int32_t aCol) : mMap(aMap), mCurMap(aMap->mFirstMap), mCurMapStart(0), mCurMapRow(0), mCol(aCol), mFoundCells(0) { NS_PRECONDITION(aMap, "Must have map"); NS_PRECONDITION(mCol < aMap->GetColCount(), "Invalid column"); mOrigCells = aMap->GetNumCellsOriginatingInCol(mCol); if (mCurMap) { mCurMapContentRowCount = mCurMap->GetRowCount(); uint32_t rowArrayLength = mCurMap->mRows.Length(); mCurMapRelevantRowCount = std::min(mCurMapContentRowCount, rowArrayLength); if (mCurMapRelevantRowCount == 0 && mOrigCells > 0) { // This row group is useless; advance! AdvanceRowGroup(); } } #ifdef DEBUG else { NS_ASSERTION(mOrigCells == 0, "Why no rowgroups?"); } #endif } nsTableCellFrame* GetNextFrame(int32_t* aRow, int32_t* aColSpan); private: void AdvanceRowGroup(); // Advance the row; aIncrement is considered to be a cell's rowspan, // so if 0 is passed in we'll advance to the next rowgroup. void IncrementRow(int32_t aIncrement); const nsTableCellMap* mMap; const nsCellMap* mCurMap; // mCurMapStart is the row in the entire nsTableCellMap where // mCurMap starts. This is used to compute row indices to pass to // nsTableCellMap::GetDataAt, so must be a _content_ row index. uint32_t mCurMapStart; // In steady-state mCurMapRow is the row in our current nsCellMap // that we'll use the next time GetNextFrame() is called. Due to // the way we skip over rowspans, the entry in mCurMapRow and mCol // is either null, dead, originating, or a colspan. In particular, // it cannot be a rowspan or overlap entry. uint32_t mCurMapRow; const int32_t mCol; uint32_t mOrigCells; uint32_t mFoundCells; // The number of content rows in mCurMap. This may be bigger than the number // of "relevant" rows, or it might be smaller. uint32_t mCurMapContentRowCount; // The number of "relevant" rows in mCurMap. That is, the number of rows // which might have an originating cell in them. Once mCurMapRow reaches // mCurMapRelevantRowCount, we should move to the next map. uint32_t mCurMapRelevantRowCount; }; /* ----- inline methods ----- */ inline int32_t nsTableCellMap::GetColCount() const { return mCols.Length(); } inline nsCellMap* nsCellMap::GetNextSibling() const { return mNextSibling; } inline void nsCellMap::SetNextSibling(nsCellMap* aSibling) { mNextSibling = aSibling; } inline nsTableRowGroupFrame* nsCellMap::GetRowGroup() const { return mRowGroupFrame; } inline int32_t nsCellMap::GetRowCount(bool aConsiderDeadRowSpanRows) const { int32_t rowCount = (aConsiderDeadRowSpanRows) ? mRows.Length() : mContentRowCount; return rowCount; } // nsColInfo inline nsColInfo::nsColInfo() :mNumCellsOrig(0), mNumCellsSpan(0) {} inline nsColInfo::nsColInfo(int32_t aNumCellsOrig, int32_t aNumCellsSpan) :mNumCellsOrig(aNumCellsOrig), mNumCellsSpan(aNumCellsSpan) {} #endif