/************************************************************************* * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * Copyright 2000, 2010 Oracle and/or its affiliates. * * OpenOffice.org - a multi-platform office productivity suite * * This file is part of OpenOffice.org. * * OpenOffice.org is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 3 * only, as published by the Free Software Foundation. * * OpenOffice.org 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 Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_svx.hxx" #include #include #include #include #include namespace svx { namespace frame { // ============================================================================ Cell::Cell() : mnAddLeft( 0 ), mnAddRight( 0 ), mnAddTop( 0 ), mnAddBottom( 0 ), mbMergeOrig( false ), mbOverlapX( false ), mbOverlapY( false ) { } void Cell::MirrorSelfX( bool bMirrorStyles, bool bSwapDiag ) { std::swap( maLeft, maRight ); std::swap( mnAddLeft, mnAddRight ); if( bMirrorStyles ) { maLeft.MirrorSelf(); maRight.MirrorSelf(); } if( bSwapDiag ) { std::swap( maTLBR, maBLTR ); if( bMirrorStyles ) { maTLBR.MirrorSelf(); maBLTR.MirrorSelf(); } } } void Cell::MirrorSelfY( bool bMirrorStyles, bool bSwapDiag ) { std::swap( maTop, maBottom ); std::swap( mnAddTop, mnAddBottom ); if( bMirrorStyles ) { maTop.MirrorSelf(); maBottom.MirrorSelf(); } if( bSwapDiag ) std::swap( maTLBR, maBLTR ); /* Do not mirror diagonal styles, because they are oriented vertical. Therefore swapping the styles is sufficient for correct behaviour. */ } // ---------------------------------------------------------------------------- void lclRecalcCoordVec( LongVec& rCoords, const LongVec& rSizes ) { DBG_ASSERT( rCoords.size() == rSizes.size() + 1, "lclRecalcCoordVec - inconsistent vectors" ); LongVec::iterator aCIt = rCoords.begin(); LongVec::const_iterator aSIt = rSizes.begin(), aSEnd = rSizes.end(); for( ; aSIt != aSEnd; ++aCIt, ++aSIt ) *(aCIt + 1) = *aCIt + *aSIt; } void lclSetMergedRange( CellVec& rCells, size_t nWidth, size_t nFirstCol, size_t nFirstRow, size_t nLastCol, size_t nLastRow ) { for( size_t nCol = nFirstCol; nCol <= nLastCol; ++nCol ) { for( size_t nRow = nFirstRow; nRow <= nLastRow; ++nRow ) { Cell& rCell = rCells[ nRow * nWidth + nCol ]; rCell.mbMergeOrig = false; rCell.mbOverlapX = nCol > nFirstCol; rCell.mbOverlapY = nRow > nFirstRow; } } rCells[ nFirstRow * nWidth + nFirstCol ].mbMergeOrig = true; } // ---------------------------------------------------------------------------- static const Style OBJ_STYLE_NONE; static const Cell OBJ_CELL_NONE; const bool DIAG_DBL_CLIP_DEFAULT = false; // ============================================================================ ArrayImpl::ArrayImpl( size_t nWidth, size_t nHeight, bool bDiagDblClip ) : mnWidth( nWidth ), mnHeight( nHeight ), mnFirstClipCol( 0 ), mnFirstClipRow( 0 ), mnLastClipCol( nWidth - 1 ), mnLastClipRow( nHeight - 1 ), mbXCoordsDirty( false ), mbYCoordsDirty( false ), mbDiagDblClip( bDiagDblClip ) { // default-construct all vectors maCells.resize( mnWidth * mnHeight ); maWidths.resize( mnWidth, 0L ); maHeights.resize( mnHeight, 0L ); maXCoords.resize( mnWidth + 1, 0L ); maYCoords.resize( mnHeight + 1, 0L ); } const Cell& ArrayImpl::GetCell( size_t nCol, size_t nRow ) const { return IsValidPos( nCol, nRow ) ? maCells[ GetIndex( nCol, nRow ) ] : OBJ_CELL_NONE; } Cell& ArrayImpl::GetCellAcc( size_t nCol, size_t nRow ) { static Cell aDummy; return IsValidPos( nCol, nRow ) ? maCells[ GetIndex( nCol, nRow ) ] : aDummy; } size_t ArrayImpl::GetMergedFirstCol( size_t nCol, size_t nRow ) const { size_t nFirstCol = nCol; while( (nFirstCol > 0) && GetCell( nFirstCol, nRow ).mbOverlapX ) --nFirstCol; return nFirstCol; } size_t ArrayImpl::GetMergedFirstRow( size_t nCol, size_t nRow ) const { size_t nFirstRow = nRow; while( (nFirstRow > 0) && GetCell( nCol, nFirstRow ).mbOverlapY ) --nFirstRow; return nFirstRow; } size_t ArrayImpl::GetMergedLastCol( size_t nCol, size_t nRow ) const { size_t nLastCol = nCol + 1; while( (nLastCol < mnWidth) && GetCell( nLastCol, nRow ).mbOverlapX ) ++nLastCol; return nLastCol - 1; } size_t ArrayImpl::GetMergedLastRow( size_t nCol, size_t nRow ) const { size_t nLastRow = nRow + 1; while( (nLastRow < mnHeight) && GetCell( nCol, nLastRow ).mbOverlapY ) ++nLastRow; return nLastRow - 1; } const Cell& ArrayImpl::GetMergedOriginCell( size_t nCol, size_t nRow ) const { return GetCell( GetMergedFirstCol( nCol, nRow ), GetMergedFirstRow( nCol, nRow ) ); } Cell& ArrayImpl::GetMergedOriginCellAcc( size_t nCol, size_t nRow ) { return GetCellAcc( GetMergedFirstCol( nCol, nRow ), GetMergedFirstRow( nCol, nRow ) ); } bool ArrayImpl::IsMergedOverlappedLeft( size_t nCol, size_t nRow ) const { const Cell& rCell = GetCell( nCol, nRow ); return rCell.mbOverlapX || (rCell.mnAddLeft > 0); } bool ArrayImpl::IsMergedOverlappedRight( size_t nCol, size_t nRow ) const { return GetCell( nCol + 1, nRow ).mbOverlapX || (GetCell( nCol, nRow ).mnAddRight > 0); } bool ArrayImpl::IsMergedOverlappedTop( size_t nCol, size_t nRow ) const { const Cell& rCell = GetCell( nCol, nRow ); return rCell.mbOverlapY || (rCell.mnAddTop > 0); } bool ArrayImpl::IsMergedOverlappedBottom( size_t nCol, size_t nRow ) const { return GetCell( nCol, nRow + 1 ).mbOverlapY || (GetCell( nCol, nRow ).mnAddBottom > 0); } bool ArrayImpl::IsColInClipRange( size_t nCol ) const { return (mnFirstClipCol <= nCol) && (nCol <= mnLastClipCol); } bool ArrayImpl::IsRowInClipRange( size_t nRow ) const { return (mnFirstClipRow <= nRow) && (nRow <= mnLastClipRow); } bool ArrayImpl::IsInClipRange( size_t nCol, size_t nRow ) const { return IsColInClipRange( nCol ) && IsRowInClipRange( nRow ); } long ArrayImpl::GetColPosition( size_t nCol ) const { if( mbXCoordsDirty ) { lclRecalcCoordVec( maXCoords, maWidths ); mbXCoordsDirty = false; } return maXCoords[ nCol ]; } long ArrayImpl::GetRowPosition( size_t nRow ) const { if( mbYCoordsDirty ) { lclRecalcCoordVec( maYCoords, maHeights ); mbYCoordsDirty = false; } return maYCoords[ nRow ]; } long ArrayImpl::GetColWidth( size_t nFirstCol, size_t nLastCol ) const { return GetColPosition( nLastCol + 1 ) - GetColPosition( nFirstCol ); } long ArrayImpl::GetRowHeight( size_t nFirstRow, size_t nLastRow ) const { return GetRowPosition( nLastRow + 1 ) - GetRowPosition( nFirstRow ); } double ArrayImpl::GetHorDiagAngle( size_t nCol, size_t nRow, bool bSimple ) const { double fAngle = 0.0; if( IsValidPos( nCol, nRow ) ) { if( bSimple || !GetCell( nCol, nRow ).IsMerged() ) { fAngle = frame::GetHorDiagAngle( maWidths[ nCol ] + 1, maHeights[ nRow ] + 1 ); } else { // return correct angle for each cell in the merged range size_t nFirstCol = GetMergedFirstCol( nCol, nRow ); size_t nFirstRow = GetMergedFirstRow( nCol, nRow ); const Cell& rCell = GetCell( nFirstCol, nFirstRow ); long nWidth = GetColWidth( nFirstCol, GetMergedLastCol( nCol, nRow ) ) + rCell.mnAddLeft + rCell.mnAddRight; long nHeight = GetRowHeight( nFirstRow, GetMergedLastRow( nCol, nRow ) ) + rCell.mnAddTop + rCell.mnAddBottom; fAngle = frame::GetHorDiagAngle( nWidth + 1, nHeight + 1 ); } } return fAngle; } double ArrayImpl::GetVerDiagAngle( size_t nCol, size_t nRow, bool bSimple ) const { double fAngle = GetHorDiagAngle( nCol, nRow, bSimple ); return (fAngle > 0.0) ? (F_PI2 - fAngle) : 0.0; } // ============================================================================ class MergedCellIterator { public: explicit MergedCellIterator( const Array& rArray, size_t nCol, size_t nRow ); inline bool Is() const { return (mnCol <= mnLastCol) && (mnRow <= mnLastRow); } inline size_t Col() const { return mnCol; } inline size_t Row() const { return mnRow; } MergedCellIterator& operator++(); private: size_t mnFirstCol; size_t mnFirstRow; size_t mnLastCol; size_t mnLastRow; size_t mnCol; size_t mnRow; }; // ---------------------------------------------------------------------------- MergedCellIterator::MergedCellIterator( const Array& rArray, size_t nCol, size_t nRow ) { DBG_ASSERT( rArray.IsMerged( nCol, nRow ), "svx::frame::MergedCellIterator::MergedCellIterator - not in merged range" ); rArray.GetMergedRange( mnFirstCol, mnFirstRow, mnLastCol, mnLastRow, nCol, nRow ); mnCol = mnFirstCol; mnRow = mnFirstRow; } MergedCellIterator& MergedCellIterator::operator++() { DBG_ASSERT( Is(), "svx::frame::MergedCellIterator::operator++() - already invalid" ); if( ++mnCol > mnLastCol ) { mnCol = mnFirstCol; ++mnRow; } return *this; } // ============================================================================ #define DBG_FRAME_ERROR( funcname, error ) DBG_ERRORFILE( "svx::frame::Array::" funcname " - " error ) #define DBG_FRAME_CHECK( cond, funcname, error ) DBG_ASSERT( cond, "svx::frame::Array::" funcname " - " error ) #define DBG_FRAME_CHECK_COL( col, funcname ) DBG_FRAME_CHECK( (col) < GetColCount(), funcname, "invalid column index" ) #define DBG_FRAME_CHECK_ROW( row, funcname ) DBG_FRAME_CHECK( (row) < GetRowCount(), funcname, "invalid row index" ) #define DBG_FRAME_CHECK_COLROW( col, row, funcname ) DBG_FRAME_CHECK( ((col) < GetColCount()) && ((row) < GetRowCount()), funcname, "invalid cell index" ) #define DBG_FRAME_CHECK_INDEX( index, funcname ) DBG_FRAME_CHECK( (index) < GetCellCount(), funcname, "invalid cell index" ) #define DBG_FRAME_CHECK_COL_1( col, funcname ) DBG_FRAME_CHECK( (col) <= GetColCount(), funcname, "invalid column index" ) #define DBG_FRAME_CHECK_ROW_1( row, funcname ) DBG_FRAME_CHECK( (row) <= GetRowCount(), funcname, "invalid row index" ) // ---------------------------------------------------------------------------- #define CELL( col, row ) mxImpl->GetCell( col, row ) #define CELLACC( col, row ) mxImpl->GetCellAcc( col, row ) #define ORIGCELL( col, row ) mxImpl->GetMergedOriginCell( col, row ) #define ORIGCELLACC( col, row ) mxImpl->GetMergedOriginCellAcc( col, row ) // ---------------------------------------------------------------------------- Array::Array() { Initialize( 0, 0 ); } Array::Array( size_t nWidth, size_t nHeight ) { Initialize( nWidth, nHeight ); } Array::~Array() { } // array size and column/row indexes ------------------------------------------ void Array::Initialize( size_t nWidth, size_t nHeight ) { bool bDiagDblClip = mxImpl.get() ? mxImpl->mbDiagDblClip : DIAG_DBL_CLIP_DEFAULT; mxImpl.reset( new ArrayImpl( nWidth, nHeight, bDiagDblClip ) ); } void Array::Clear() { Initialize( mxImpl->mnWidth, mxImpl->mnHeight ); } size_t Array::GetColCount() const { return mxImpl->mnWidth; } size_t Array::GetRowCount() const { return mxImpl->mnHeight; } size_t Array::GetCellCount() const { return mxImpl->maCells.size(); } size_t Array::GetColFromIndex( size_t nCellIndex ) const { DBG_FRAME_CHECK_INDEX( nCellIndex, "GetColFromIndex" ); return mxImpl->mnWidth ? (nCellIndex % mxImpl->mnWidth) : 0; } size_t Array::GetRowFromIndex( size_t nCellIndex ) const { DBG_FRAME_CHECK_INDEX( nCellIndex, "GetRowFromIndex" ); return mxImpl->mnWidth ? (nCellIndex / mxImpl->mnWidth) : 0; } size_t Array::GetCellIndex( size_t nCol, size_t nRow, bool bRTL ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "GetCellIndex" ); if (bRTL) nCol = mxImpl->GetMirrorCol(nCol); return mxImpl->GetIndex( nCol, nRow ); } // cell border styles --------------------------------------------------------- void Array::SetCellStyleLeft( size_t nCol, size_t nRow, const Style& rStyle ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetCellStyleLeft" ); CELLACC( nCol, nRow ).maLeft = rStyle; } void Array::SetCellStyleRight( size_t nCol, size_t nRow, const Style& rStyle ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetCellStyleRight" ); CELLACC( nCol, nRow ).maRight = rStyle; } void Array::SetCellStyleTop( size_t nCol, size_t nRow, const Style& rStyle ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetCellStyleTop" ); CELLACC( nCol, nRow ).maTop = rStyle; } void Array::SetCellStyleBottom( size_t nCol, size_t nRow, const Style& rStyle ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetCellStyleBottom" ); CELLACC( nCol, nRow ).maBottom = rStyle; } void Array::SetCellStyleTLBR( size_t nCol, size_t nRow, const Style& rStyle ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetCellStyleTLBR" ); CELLACC( nCol, nRow ).maTLBR = rStyle; } void Array::SetCellStyleBLTR( size_t nCol, size_t nRow, const Style& rStyle ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetCellStyleBLTR" ); CELLACC( nCol, nRow ).maBLTR = rStyle; } void Array::SetCellStyleDiag( size_t nCol, size_t nRow, const Style& rTLBR, const Style& rBLTR ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetCellStyleDiag" ); Cell& rCell = CELLACC( nCol, nRow ); rCell.maTLBR = rTLBR; rCell.maBLTR = rBLTR; } void Array::SetColumnStyleLeft( size_t nCol, const Style& rStyle ) { DBG_FRAME_CHECK_COL( nCol, "SetColumnStyleLeft" ); for( size_t nRow = 0; nRow < mxImpl->mnHeight; ++nRow ) SetCellStyleLeft( nCol, nRow, rStyle ); } void Array::SetColumnStyleRight( size_t nCol, const Style& rStyle ) { DBG_FRAME_CHECK_COL( nCol, "SetColumnStyleRight" ); for( size_t nRow = 0; nRow < mxImpl->mnHeight; ++nRow ) SetCellStyleRight( nCol, nRow, rStyle ); } void Array::SetRowStyleTop( size_t nRow, const Style& rStyle ) { DBG_FRAME_CHECK_ROW( nRow, "SetRowStyleTop" ); for( size_t nCol = 0; nCol < mxImpl->mnWidth; ++nCol ) SetCellStyleTop( nCol, nRow, rStyle ); } void Array::SetRowStyleBottom( size_t nRow, const Style& rStyle ) { DBG_FRAME_CHECK_ROW( nRow, "SetRowStyleBottom" ); for( size_t nCol = 0; nCol < mxImpl->mnWidth; ++nCol ) SetCellStyleBottom( nCol, nRow, rStyle ); } const Style& Array::GetCellStyleLeft( size_t nCol, size_t nRow, bool bSimple ) const { // simple: always return own left style if( bSimple ) return CELL( nCol, nRow ).maLeft; // outside clipping rows or overlapped in merged cells: invisible if( !mxImpl->IsRowInClipRange( nRow ) || mxImpl->IsMergedOverlappedLeft( nCol, nRow ) ) return OBJ_STYLE_NONE; // left clipping border: always own left style if( nCol == mxImpl->mnFirstClipCol ) return ORIGCELL( nCol, nRow ).maLeft; // right clipping border: always right style of left neighbor cell if( nCol == mxImpl->mnLastClipCol + 1 ) return ORIGCELL( nCol - 1, nRow ).maRight; // outside clipping columns: invisible if( !mxImpl->IsColInClipRange( nCol ) ) return OBJ_STYLE_NONE; // inside clipping range: maximum of own left style and right style of left neighbor cell return std::max( ORIGCELL( nCol, nRow ).maLeft, ORIGCELL( nCol - 1, nRow ).maRight ); } const Style& Array::GetCellStyleRight( size_t nCol, size_t nRow, bool bSimple ) const { // simple: always return own right style if( bSimple ) return CELL( nCol, nRow ).maRight; // outside clipping rows or overlapped in merged cells: invisible if( !mxImpl->IsRowInClipRange( nRow ) || mxImpl->IsMergedOverlappedRight( nCol, nRow ) ) return OBJ_STYLE_NONE; // left clipping border: always left style of right neighbor cell if( nCol + 1 == mxImpl->mnFirstClipCol ) return ORIGCELL( nCol + 1, nRow ).maLeft; // right clipping border: always own right style if( nCol == mxImpl->mnLastClipCol ) return ORIGCELL( nCol, nRow ).maRight; // outside clipping columns: invisible if( !mxImpl->IsColInClipRange( nCol ) ) return OBJ_STYLE_NONE; // inside clipping range: maximum of own right style and left style of right neighbor cell return std::max( ORIGCELL( nCol, nRow ).maRight, ORIGCELL( nCol + 1, nRow ).maLeft ); } const Style& Array::GetCellStyleTop( size_t nCol, size_t nRow, bool bSimple ) const { // simple: always return own top style if( bSimple ) return CELL( nCol, nRow ).maTop; // outside clipping columns or overlapped in merged cells: invisible if( !mxImpl->IsColInClipRange( nCol ) || mxImpl->IsMergedOverlappedTop( nCol, nRow ) ) return OBJ_STYLE_NONE; // top clipping border: always own top style if( nRow == mxImpl->mnFirstClipRow ) return ORIGCELL( nCol, nRow ).maTop; // bottom clipping border: always bottom style of top neighbor cell if( nRow == mxImpl->mnLastClipRow + 1 ) return ORIGCELL( nCol, nRow - 1 ).maBottom; // outside clipping rows: invisible if( !mxImpl->IsRowInClipRange( nRow ) ) return OBJ_STYLE_NONE; // inside clipping range: maximum of own top style and bottom style of top neighbor cell return std::max( ORIGCELL( nCol, nRow ).maTop, ORIGCELL( nCol, nRow - 1 ).maBottom ); } const Style& Array::GetCellStyleBottom( size_t nCol, size_t nRow, bool bSimple ) const { // simple: always return own bottom style if( bSimple ) return CELL( nCol, nRow ).maBottom; // outside clipping columns or overlapped in merged cells: invisible if( !mxImpl->IsColInClipRange( nCol ) || mxImpl->IsMergedOverlappedBottom( nCol, nRow ) ) return OBJ_STYLE_NONE; // top clipping border: always top style of bottom neighbor cell if( nRow + 1 == mxImpl->mnFirstClipRow ) return ORIGCELL( nCol, nRow + 1 ).maTop; // bottom clipping border: always own bottom style if( nRow == mxImpl->mnLastClipRow ) return ORIGCELL( nCol, nRow ).maBottom; // outside clipping rows: invisible if( !mxImpl->IsRowInClipRange( nRow ) ) return OBJ_STYLE_NONE; // inside clipping range: maximum of own bottom style and top style of bottom neighbor cell return std::max( ORIGCELL( nCol, nRow ).maBottom, ORIGCELL( nCol, nRow + 1 ).maTop ); } const Style& Array::GetCellStyleTLBR( size_t nCol, size_t nRow, bool bSimple ) const { return bSimple ? CELL( nCol, nRow ).maTLBR : (mxImpl->IsInClipRange( nCol, nRow ) ? ORIGCELL( nCol, nRow ).maTLBR : OBJ_STYLE_NONE); } const Style& Array::GetCellStyleBLTR( size_t nCol, size_t nRow, bool bSimple ) const { return bSimple ? CELL( nCol, nRow ).maBLTR : (mxImpl->IsInClipRange( nCol, nRow ) ? ORIGCELL( nCol, nRow ).maBLTR : OBJ_STYLE_NONE); } const Style& Array::GetCellStyleTL( size_t nCol, size_t nRow ) const { // not in clipping range: always invisible if( !mxImpl->IsInClipRange( nCol, nRow ) ) return OBJ_STYLE_NONE; // return style only for top-left cell size_t nFirstCol = mxImpl->GetMergedFirstCol( nCol, nRow ); size_t nFirstRow = mxImpl->GetMergedFirstRow( nCol, nRow ); return ((nCol == nFirstCol) && (nRow == nFirstRow)) ? CELL( nFirstCol, nFirstRow ).maTLBR : OBJ_STYLE_NONE; } const Style& Array::GetCellStyleBR( size_t nCol, size_t nRow ) const { // not in clipping range: always invisible if( !mxImpl->IsInClipRange( nCol, nRow ) ) return OBJ_STYLE_NONE; // return style only for bottom-right cell size_t nLastCol = mxImpl->GetMergedLastCol( nCol, nRow ); size_t nLastRow = mxImpl->GetMergedLastRow( nCol, nRow ); return ((nCol == nLastCol) && (nRow == nLastRow)) ? CELL( mxImpl->GetMergedFirstCol( nCol, nRow ), mxImpl->GetMergedFirstRow( nCol, nRow ) ).maTLBR : OBJ_STYLE_NONE; } const Style& Array::GetCellStyleBL( size_t nCol, size_t nRow ) const { // not in clipping range: always invisible if( !mxImpl->IsInClipRange( nCol, nRow ) ) return OBJ_STYLE_NONE; // return style only for bottom-left cell size_t nFirstCol = mxImpl->GetMergedFirstCol( nCol, nRow ); size_t nLastRow = mxImpl->GetMergedLastRow( nCol, nRow ); return ((nCol == nFirstCol) && (nRow == nLastRow)) ? CELL( nFirstCol, mxImpl->GetMergedFirstRow( nCol, nRow ) ).maBLTR : OBJ_STYLE_NONE; } const Style& Array::GetCellStyleTR( size_t nCol, size_t nRow ) const { // not in clipping range: always invisible if( !mxImpl->IsInClipRange( nCol, nRow ) ) return OBJ_STYLE_NONE; // return style only for top-right cell size_t nFirstRow = mxImpl->GetMergedFirstRow( nCol, nRow ); size_t nLastCol = mxImpl->GetMergedLastCol( nCol, nRow ); return ((nCol == nLastCol) && (nRow == nFirstRow)) ? CELL( mxImpl->GetMergedFirstCol( nCol, nRow ), nFirstRow ).maBLTR : OBJ_STYLE_NONE; } // cell merging --------------------------------------------------------------- void Array::SetMergedRange( size_t nFirstCol, size_t nFirstRow, size_t nLastCol, size_t nLastRow ) { DBG_FRAME_CHECK_COLROW( nFirstCol, nFirstRow, "SetMergedRange" ); DBG_FRAME_CHECK_COLROW( nLastCol, nLastRow, "SetMergedRange" ); #if OSL_DEBUG_LEVEL >= 2 { bool bFound = false; for( size_t nCurrCol = nFirstCol; !bFound && (nCurrCol <= nLastCol); ++nCurrCol ) for( size_t nCurrRow = nFirstRow; !bFound && (nCurrRow <= nLastRow); ++nCurrRow ) bFound = CELL( nCurrCol, nCurrRow ).IsMerged(); DBG_FRAME_CHECK( !bFound, "SetMergedRange", "overlapping merged ranges" ); } #endif if( mxImpl->IsValidPos( nFirstCol, nFirstRow ) && mxImpl->IsValidPos( nLastCol, nLastRow ) ) lclSetMergedRange( mxImpl->maCells, mxImpl->mnWidth, nFirstCol, nFirstRow, nLastCol, nLastRow ); } void Array::RemoveMergedRange( size_t nCol, size_t nRow ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "RemoveMergedRange" ); for( MergedCellIterator aIt( *this, nCol, nRow ); aIt.Is(); ++aIt ) { Cell& rCell = CELLACC( aIt.Col(), aIt.Row() ); rCell.mbMergeOrig = rCell.mbOverlapX = rCell.mbOverlapY = false; rCell.mnAddLeft = rCell.mnAddRight = rCell.mnAddTop = rCell.mnAddBottom = 0; } } void Array::SetAddMergedLeftSize( size_t nCol, size_t nRow, long nAddSize ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetAddMergedLeftSize" ); DBG_FRAME_CHECK( mxImpl->GetMergedFirstCol( nCol, nRow ) == 0, "SetAddMergedLeftSize", "additional border inside array" ); for( MergedCellIterator aIt( *this, nCol, nRow ); aIt.Is(); ++aIt ) CELLACC( aIt.Col(), aIt.Row() ).mnAddLeft = nAddSize; } void Array::SetAddMergedRightSize( size_t nCol, size_t nRow, long nAddSize ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetAddMergedRightSize" ); DBG_FRAME_CHECK( mxImpl->GetMergedLastCol( nCol, nRow ) + 1 == mxImpl->mnWidth, "SetAddMergedRightSize", "additional border inside array" ); for( MergedCellIterator aIt( *this, nCol, nRow ); aIt.Is(); ++aIt ) CELLACC( aIt.Col(), aIt.Row() ).mnAddRight = nAddSize; } void Array::SetAddMergedTopSize( size_t nCol, size_t nRow, long nAddSize ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetAddMergedTopSize" ); DBG_FRAME_CHECK( mxImpl->GetMergedFirstRow( nCol, nRow ) == 0, "SetAddMergedTopSize", "additional border inside array" ); for( MergedCellIterator aIt( *this, nCol, nRow ); aIt.Is(); ++aIt ) CELLACC( aIt.Col(), aIt.Row() ).mnAddTop = nAddSize; } void Array::SetAddMergedBottomSize( size_t nCol, size_t nRow, long nAddSize ) { DBG_FRAME_CHECK_COLROW( nCol, nRow, "SetAddMergedBottomSize" ); DBG_FRAME_CHECK( mxImpl->GetMergedLastRow( nCol, nRow ) + 1 == mxImpl->mnHeight, "SetAddMergedBottomSize", "additional border inside array" ); for( MergedCellIterator aIt( *this, nCol, nRow ); aIt.Is(); ++aIt ) CELLACC( aIt.Col(), aIt.Row() ).mnAddBottom = nAddSize; } bool Array::IsMerged( size_t nCol, size_t nRow ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "IsMerged" ); return CELL( nCol, nRow ).IsMerged(); } bool Array::IsMergedOrigin( size_t nCol, size_t nRow ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "IsMergedOrigin" ); return CELL( nCol, nRow ).mbMergeOrig; } bool Array::IsMergedOverlapped( size_t nCol, size_t nRow ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "IsMergedOverlapped" ); return CELL( nCol, nRow ).IsOverlapped(); } bool Array::IsMergedOverlappedLeft( size_t nCol, size_t nRow ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "IsMergedOverlappedLeft" ); return mxImpl->IsMergedOverlappedLeft( nCol, nRow ); } bool Array::IsMergedOverlappedRight( size_t nCol, size_t nRow ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "IsMergedOverlappedRight" ); return mxImpl->IsMergedOverlappedRight( nCol, nRow ); } bool Array::IsMergedOverlappedTop( size_t nCol, size_t nRow ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "IsMergedOverlappedTop" ); return mxImpl->IsMergedOverlappedTop( nCol, nRow ); } bool Array::IsMergedOverlappedBottom( size_t nCol, size_t nRow ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "IsMergedOverlappedBottom" ); return mxImpl->IsMergedOverlappedBottom( nCol, nRow ); } void Array::GetMergedOrigin( size_t& rnFirstCol, size_t& rnFirstRow, size_t nCol, size_t nRow ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "GetMergedOrigin" ); rnFirstCol = mxImpl->GetMergedFirstCol( nCol, nRow ); rnFirstRow = mxImpl->GetMergedFirstRow( nCol, nRow ); } void Array::GetMergedSize( size_t& rnWidth, size_t& rnHeight, size_t nCol, size_t nRow ) const { size_t nFirstCol, nFirstRow, nLastCol, nLastRow; GetMergedRange( nFirstCol, nFirstRow, nLastCol, nLastRow, nCol, nRow ); rnWidth = nLastCol - nFirstCol + 1; rnHeight = nLastRow - nFirstRow + 1; } void Array::GetMergedRange( size_t& rnFirstCol, size_t& rnFirstRow, size_t& rnLastCol, size_t& rnLastRow, size_t nCol, size_t nRow ) const { GetMergedOrigin( rnFirstCol, rnFirstRow, nCol, nRow ); rnLastCol = mxImpl->GetMergedLastCol( nCol, nRow ); rnLastRow = mxImpl->GetMergedLastRow( nCol, nRow ); } // clipping ------------------------------------------------------------------- void Array::SetClipRange( size_t nFirstCol, size_t nFirstRow, size_t nLastCol, size_t nLastRow ) { DBG_FRAME_CHECK_COLROW( nFirstCol, nFirstRow, "SetClipRange" ); DBG_FRAME_CHECK_COLROW( nLastCol, nLastRow, "SetClipRange" ); mxImpl->mnFirstClipCol = nFirstCol; mxImpl->mnFirstClipRow = nFirstRow; mxImpl->mnLastClipCol = nLastCol; mxImpl->mnLastClipRow = nLastRow; } void Array::RemoveClipRange() { if( !mxImpl->maCells.empty() ) SetClipRange( 0, 0, mxImpl->mnWidth - 1, mxImpl->mnHeight - 1 ); } bool Array::IsInClipRange( size_t nCol, size_t nRow ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "IsInClipRange" ); return mxImpl->IsInClipRange( nCol, nRow ); } Rectangle Array::GetClipRangeRectangle() const { return Rectangle( mxImpl->GetColPosition( mxImpl->mnFirstClipCol ), mxImpl->GetRowPosition( mxImpl->mnFirstClipRow ), mxImpl->GetColPosition( mxImpl->mnLastClipCol + 1 ), mxImpl->GetRowPosition( mxImpl->mnLastClipRow + 1 ) ); } // cell coordinates ----------------------------------------------------------- void Array::SetXOffset( long nXOffset ) { mxImpl->maXCoords[ 0 ] = nXOffset; mxImpl->mbXCoordsDirty = true; } void Array::SetYOffset( long nYOffset ) { mxImpl->maYCoords[ 0 ] = nYOffset; mxImpl->mbYCoordsDirty = true; } void Array::SetColWidth( size_t nCol, long nWidth ) { DBG_FRAME_CHECK_COL( nCol, "SetColWidth" ); mxImpl->maWidths[ nCol ] = nWidth; mxImpl->mbXCoordsDirty = true; } void Array::SetRowHeight( size_t nRow, long nHeight ) { DBG_FRAME_CHECK_ROW( nRow, "SetRowHeight" ); mxImpl->maHeights[ nRow ] = nHeight; mxImpl->mbYCoordsDirty = true; } void Array::SetAllColWidths( long nWidth ) { std::fill( mxImpl->maWidths.begin(), mxImpl->maWidths.end(), nWidth ); mxImpl->mbXCoordsDirty = true; } void Array::SetAllRowHeights( long nHeight ) { std::fill( mxImpl->maHeights.begin(), mxImpl->maHeights.end(), nHeight ); mxImpl->mbYCoordsDirty = true; } long Array::GetColPosition( size_t nCol ) const { DBG_FRAME_CHECK_COL_1( nCol, "GetColPosition" ); return mxImpl->GetColPosition( nCol ); } long Array::GetRowPosition( size_t nRow ) const { DBG_FRAME_CHECK_ROW_1( nRow, "GetRowPosition" ); return mxImpl->GetRowPosition( nRow ); } long Array::GetColWidth( size_t nCol ) const { DBG_FRAME_CHECK_COL( nCol, "GetColWidth" ); return mxImpl->maWidths[ nCol ]; } long Array::GetColWidth( size_t nFirstCol, size_t nLastCol ) const { DBG_FRAME_CHECK_COL( nFirstCol, "GetColWidth" ); DBG_FRAME_CHECK_COL( nLastCol, "GetColWidth" ); return GetColPosition( nLastCol + 1 ) - GetColPosition( nFirstCol ); } long Array::GetRowHeight( size_t nRow ) const { DBG_FRAME_CHECK_ROW( nRow, "GetRowHeight" ); return mxImpl->maHeights[ nRow ]; } long Array::GetRowHeight( size_t nFirstRow, size_t nLastRow ) const { DBG_FRAME_CHECK_ROW( nFirstRow, "GetRowHeight" ); DBG_FRAME_CHECK_ROW( nLastRow, "GetRowHeight" ); return GetRowPosition( nLastRow + 1 ) - GetRowPosition( nFirstRow ); } long Array::GetWidth() const { return GetColPosition( mxImpl->mnWidth ) - GetColPosition( 0 ); } long Array::GetHeight() const { return GetRowPosition( mxImpl->mnHeight ) - GetRowPosition( 0 ); } Point Array::GetCellPosition( size_t nCol, size_t nRow, bool bSimple ) const { size_t nFirstCol = bSimple ? nCol : mxImpl->GetMergedFirstCol( nCol, nRow ); size_t nFirstRow = bSimple ? nRow : mxImpl->GetMergedFirstRow( nCol, nRow ); return Point( GetColPosition( nFirstCol ), GetRowPosition( nFirstRow ) ); } Size Array::GetCellSize( size_t nCol, size_t nRow, bool bSimple ) const { size_t nFirstCol = bSimple ? nCol : mxImpl->GetMergedFirstCol( nCol, nRow ); size_t nFirstRow = bSimple ? nRow : mxImpl->GetMergedFirstRow( nCol, nRow ); size_t nLastCol = bSimple ? nCol : mxImpl->GetMergedLastCol( nCol, nRow ); size_t nLastRow = bSimple ? nRow : mxImpl->GetMergedLastRow( nCol, nRow ); return Size( GetColWidth( nFirstCol, nLastCol ) + 1, GetRowHeight( nFirstRow, nLastRow ) + 1 ); } Rectangle Array::GetCellRect( size_t nCol, size_t nRow, bool bSimple ) const { Rectangle aRect( GetCellPosition( nCol, nRow, bSimple ), GetCellSize( nCol, nRow, bSimple ) ); // adjust rectangle for partly visible merged cells const Cell& rCell = CELL( nCol, nRow ); if( !bSimple && rCell.IsMerged() ) { aRect.Left() -= rCell.mnAddLeft; aRect.Right() += rCell.mnAddRight; aRect.Top() -= rCell.mnAddTop; aRect.Bottom() += rCell.mnAddBottom; } return aRect; } // diagonal frame borders ----------------------------------------------------- double Array::GetHorDiagAngle( size_t nCol, size_t nRow, bool bSimple ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "GetHorDiagAngle" ); return mxImpl->GetHorDiagAngle( nCol, nRow, bSimple ); } double Array::GetVerDiagAngle( size_t nCol, size_t nRow, bool bSimple ) const { DBG_FRAME_CHECK_COLROW( nCol, nRow, "GetVerDiagAngle" ); return mxImpl->GetVerDiagAngle( nCol, nRow, bSimple ); } void Array::SetUseDiagDoubleClipping( bool bSet ) { mxImpl->mbDiagDblClip = bSet; } bool Array::GetUseDiagDoubleClipping() const { return mxImpl->mbDiagDblClip; } // mirroring ------------------------------------------------------------------ void Array::MirrorSelfX( bool bMirrorStyles, bool bSwapDiag ) { CellVec aNewCells; aNewCells.reserve( GetCellCount() ); size_t nCol, nRow; for( nRow = 0; nRow < mxImpl->mnHeight; ++nRow ) { for( nCol = 0; nCol < mxImpl->mnWidth; ++nCol ) { aNewCells.push_back( CELL( mxImpl->GetMirrorCol( nCol ), nRow ) ); aNewCells.back().MirrorSelfX( bMirrorStyles, bSwapDiag ); } } for( nRow = 0; nRow < mxImpl->mnHeight; ++nRow ) { for( nCol = 0; nCol < mxImpl->mnWidth; ++nCol ) { if( CELL( nCol, nRow ).mbMergeOrig ) { size_t nLastCol = mxImpl->GetMergedLastCol( nCol, nRow ); size_t nLastRow = mxImpl->GetMergedLastRow( nCol, nRow ); lclSetMergedRange( aNewCells, mxImpl->mnWidth, mxImpl->GetMirrorCol( nLastCol ), nRow, mxImpl->GetMirrorCol( nCol ), nLastRow ); } } } mxImpl->maCells.swap( aNewCells ); std::reverse( mxImpl->maWidths.begin(), mxImpl->maWidths.end() ); mxImpl->mbXCoordsDirty = true; } void Array::MirrorSelfY( bool bMirrorStyles, bool bSwapDiag ) { CellVec aNewCells; aNewCells.reserve( GetCellCount() ); size_t nCol, nRow; for( nRow = 0; nRow < mxImpl->mnHeight; ++nRow ) { for( nCol = 0; nCol < mxImpl->mnWidth; ++nCol ) { aNewCells.push_back( CELL( nCol, mxImpl->GetMirrorRow( nRow ) ) ); aNewCells.back().MirrorSelfY( bMirrorStyles, bSwapDiag ); } } for( nRow = 0; nRow < mxImpl->mnHeight; ++nRow ) { for( nCol = 0; nCol < mxImpl->mnWidth; ++nCol ) { if( CELL( nCol, nRow ).mbMergeOrig ) { size_t nLastCol = mxImpl->GetMergedLastCol( nCol, nRow ); size_t nLastRow = mxImpl->GetMergedLastRow( nCol, nRow ); lclSetMergedRange( aNewCells, mxImpl->mnWidth, nCol, mxImpl->GetMirrorRow( nLastRow ), nLastCol, mxImpl->GetMirrorRow( nRow ) ); } } } mxImpl->maCells.swap( aNewCells ); std::reverse( mxImpl->maHeights.begin(), mxImpl->maHeights.end() ); mxImpl->mbYCoordsDirty = true; } // drawing -------------------------------------------------------------------- void Array::DrawCell( OutputDevice& rDev, size_t nCol, size_t nRow, const Color* pForceColor ) const { DrawRange( rDev, nCol, nRow, nCol, nRow, pForceColor ); } void Array::DrawRange( OutputDevice& rDev, size_t nFirstCol, size_t nFirstRow, size_t nLastCol, size_t nLastRow, const Color* pForceColor ) const { DBG_FRAME_CHECK_COLROW( nFirstCol, nFirstRow, "DrawRange" ); DBG_FRAME_CHECK_COLROW( nLastCol, nLastRow, "DrawRange" ); size_t nCol, nRow; // *** diagonal frame borders *** // set clipping region to clip partly visible merged cells rDev.Push( PUSH_CLIPREGION ); rDev.IntersectClipRegion( GetClipRangeRectangle() ); for( nRow = nFirstRow; nRow <= nLastRow; ++nRow ) { for( nCol = nFirstCol; nCol <= nLastCol; ++nCol ) { const Cell& rCell = CELL( nCol, nRow ); bool bOverlapX = rCell.mbOverlapX; bool bOverlapY = rCell.mbOverlapY; bool bFirstCol = nCol == nFirstCol; bool bFirstRow = nRow == nFirstRow; if( (!bOverlapX && !bOverlapY) || (bFirstCol && bFirstRow) || (!bOverlapY && bFirstCol) || (!bOverlapX && bFirstRow) ) { Rectangle aRect( GetCellRect( nCol, nRow ) ); if( (aRect.GetWidth() > 1) && (aRect.GetHeight() > 1) ) { size_t _nFirstCol = mxImpl->GetMergedFirstCol( nCol, nRow ); size_t _nFirstRow = mxImpl->GetMergedFirstRow( nCol, nRow ); size_t _nLastCol = mxImpl->GetMergedLastCol( nCol, nRow ); size_t _nLastRow = mxImpl->GetMergedLastRow( nCol, nRow ); DrawDiagFrameBorders( rDev, aRect, GetCellStyleTLBR( _nFirstCol, _nFirstRow, true ), GetCellStyleBLTR( _nFirstCol, _nFirstRow, true ), GetCellStyleLeft( _nFirstCol, _nFirstRow ), GetCellStyleTop( _nFirstCol, _nFirstRow ), GetCellStyleRight( _nLastCol, _nLastRow ), GetCellStyleBottom( _nLastCol, _nLastRow ), GetCellStyleLeft( _nFirstCol, _nLastRow ), GetCellStyleBottom( _nFirstCol, _nLastRow ), GetCellStyleRight( _nLastCol, _nFirstRow ), GetCellStyleTop( _nLastCol, _nFirstRow ), pForceColor, mxImpl->mbDiagDblClip ); } } } } rDev.Pop(); // clip region // *** horizontal frame borders *** for( nRow = nFirstRow; nRow <= nLastRow + 1; ++nRow ) { double fAngle = mxImpl->GetHorDiagAngle( nFirstCol, nRow ); double fTAngle = mxImpl->GetHorDiagAngle( nFirstCol, nRow - 1 ); // *Start*** variables store the data of the left end of the cached frame border Point aStartPos( mxImpl->GetColPosition( nFirstCol ), mxImpl->GetRowPosition( nRow ) ); const Style* pStart = &GetCellStyleTop( nFirstCol, nRow ); DiagStyle aStartLFromTR( GetCellStyleBL( nFirstCol, nRow - 1 ), fTAngle ); const Style* pStartLFromT = &GetCellStyleLeft( nFirstCol, nRow - 1 ); const Style* pStartLFromL = &GetCellStyleTop( nFirstCol - 1, nRow ); const Style* pStartLFromB = &GetCellStyleLeft( nFirstCol, nRow ); DiagStyle aStartLFromBR( GetCellStyleTL( nFirstCol, nRow ), fAngle ); // *End*** variables store the data of the right end of the cached frame border DiagStyle aEndRFromTL( GetCellStyleBR( nFirstCol, nRow - 1 ), fTAngle ); const Style* pEndRFromT = &GetCellStyleRight( nFirstCol, nRow - 1 ); const Style* pEndRFromR = &GetCellStyleTop( nFirstCol + 1, nRow ); const Style* pEndRFromB = &GetCellStyleRight( nFirstCol, nRow ); DiagStyle aEndRFromBL( GetCellStyleTR( nFirstCol, nRow ), fAngle ); for( nCol = nFirstCol + 1; nCol <= nLastCol; ++nCol ) { fAngle = mxImpl->GetHorDiagAngle( nCol, nRow ); fTAngle = mxImpl->GetHorDiagAngle( nCol, nRow - 1 ); const Style& rCurr = *pEndRFromR; DiagStyle aLFromTR( GetCellStyleBL( nCol, nRow - 1 ), fTAngle ); const Style& rLFromT = *pEndRFromT; const Style& rLFromL = *pStart; const Style& rLFromB = *pEndRFromB; DiagStyle aLFromBR( GetCellStyleTL( nCol, nRow ), fAngle ); DiagStyle aRFromTL( GetCellStyleBR( nCol, nRow - 1 ), fTAngle ); const Style& rRFromT = GetCellStyleRight( nCol, nRow - 1 ); const Style& rRFromR = GetCellStyleTop( nCol + 1, nRow ); const Style& rRFromB = GetCellStyleRight( nCol, nRow ); DiagStyle aRFromBL( GetCellStyleTR( nCol, nRow ), fAngle ); // check if current frame border can be connected to cached frame border if( !CheckFrameBorderConnectable( *pStart, rCurr, aEndRFromTL, rLFromT, aLFromTR, aEndRFromBL, rLFromB, aLFromBR ) ) { // draw previous frame border Point aEndPos( mxImpl->GetColPosition( nCol ), aStartPos.Y() ); if( pStart->Prim() && (aStartPos.X() <= aEndPos.X()) ) DrawHorFrameBorder( rDev, aStartPos, aEndPos, *pStart, aStartLFromTR, *pStartLFromT, *pStartLFromL, *pStartLFromB, aStartLFromBR, aEndRFromTL, *pEndRFromT, *pEndRFromR, *pEndRFromB, aEndRFromBL, pForceColor ); // re-init "*Start***" variables aStartPos = aEndPos; pStart = &rCurr; aStartLFromTR = aLFromTR; pStartLFromT = &rLFromT; pStartLFromL = &rLFromL; pStartLFromB = &rLFromB; aStartLFromBR = aLFromBR; } // store current styles in "*End***" variables aEndRFromTL = aRFromTL; pEndRFromT = &rRFromT; pEndRFromR = &rRFromR; pEndRFromB = &rRFromB; aEndRFromBL = aRFromBL; } // draw last frame border Point aEndPos( mxImpl->GetColPosition( nCol ), aStartPos.Y() ); if( pStart->Prim() && (aStartPos.X() <= aEndPos.X()) ) DrawHorFrameBorder( rDev, aStartPos, aEndPos, *pStart, aStartLFromTR, *pStartLFromT, *pStartLFromL, *pStartLFromB, aStartLFromBR, aEndRFromTL, *pEndRFromT, *pEndRFromR, *pEndRFromB, aEndRFromBL, pForceColor ); } // *** vertical frame borders *** for( nCol = nFirstCol; nCol <= nLastCol + 1; ++nCol ) { double fAngle = mxImpl->GetVerDiagAngle( nCol, nFirstRow ); double fLAngle = mxImpl->GetVerDiagAngle( nCol - 1, nFirstRow ); // *Start*** variables store the data of the top end of the cached frame border Point aStartPos( mxImpl->GetColPosition( nCol ), mxImpl->GetRowPosition( nFirstRow ) ); const Style* pStart = &GetCellStyleLeft( nCol, nFirstRow ); DiagStyle aStartTFromBL( GetCellStyleTR( nCol - 1, nFirstRow ), fLAngle ); const Style* pStartTFromL = &GetCellStyleTop( nCol - 1, nFirstRow ); const Style* pStartTFromT = &GetCellStyleLeft( nCol, nFirstRow - 1 ); const Style* pStartTFromR = &GetCellStyleTop( nCol, nFirstRow ); DiagStyle aStartTFromBR( GetCellStyleTL( nCol, nFirstRow ), fAngle ); // *End*** variables store the data of the bottom end of the cached frame border DiagStyle aEndBFromTL( GetCellStyleBR( nCol - 1, nFirstRow ), fLAngle ); const Style* pEndBFromL = &GetCellStyleBottom( nCol - 1, nFirstRow ); const Style* pEndBFromB = &GetCellStyleLeft( nCol, nFirstRow + 1 ); const Style* pEndBFromR = &GetCellStyleBottom( nCol, nFirstRow ); DiagStyle aEndBFromTR( GetCellStyleBL( nCol, nFirstRow ), fAngle ); for( nRow = nFirstRow + 1; nRow <= nLastRow; ++nRow ) { fAngle = mxImpl->GetVerDiagAngle( nCol, nRow ); fLAngle = mxImpl->GetVerDiagAngle( nCol - 1, nRow ); const Style& rCurr = *pEndBFromB; DiagStyle aTFromBL( GetCellStyleTR( nCol - 1, nRow ), fLAngle ); const Style& rTFromL = *pEndBFromL; const Style& rTFromT = *pStart; const Style& rTFromR = *pEndBFromR; DiagStyle aTFromBR( GetCellStyleTL( nCol, nRow ), fAngle ); DiagStyle aBFromTL( GetCellStyleBR( nCol - 1, nRow ), fLAngle ); const Style& rBFromL = GetCellStyleBottom( nCol - 1, nRow ); const Style& rBFromB = GetCellStyleLeft( nCol, nRow + 1 ); const Style& rBFromR = GetCellStyleBottom( nCol, nRow ); DiagStyle aBFromTR( GetCellStyleBL( nCol, nRow ), fAngle ); // check if current frame border can be connected to cached frame border if( !CheckFrameBorderConnectable( *pStart, rCurr, aEndBFromTL, rTFromL, aTFromBL, aEndBFromTR, rTFromR, aTFromBR ) ) { // draw previous frame border Point aEndPos( aStartPos.X(), mxImpl->GetRowPosition( nRow ) ); if( pStart->Prim() && (aStartPos.Y() <= aEndPos.Y()) ) DrawVerFrameBorder( rDev, aStartPos, aEndPos, *pStart, aStartTFromBL, *pStartTFromL, *pStartTFromT, *pStartTFromR, aStartTFromBR, aEndBFromTL, *pEndBFromL, *pEndBFromB, *pEndBFromR, aEndBFromTR, pForceColor ); // re-init "*Start***" variables aStartPos = aEndPos; pStart = &rCurr; aStartTFromBL = aTFromBL; pStartTFromL = &rTFromL; pStartTFromT = &rTFromT; pStartTFromR = &rTFromR; aStartTFromBR = aTFromBR; } // store current styles in "*End***" variables aEndBFromTL = aBFromTL; pEndBFromL = &rBFromL; pEndBFromB = &rBFromB; pEndBFromR = &rBFromR; aEndBFromTR = aBFromTR; } // draw last frame border Point aEndPos( aStartPos.X(), mxImpl->GetRowPosition( nRow ) ); if( pStart->Prim() && (aStartPos.Y() <= aEndPos.Y()) ) DrawVerFrameBorder( rDev, aStartPos, aEndPos, *pStart, aStartTFromBL, *pStartTFromL, *pStartTFromT, *pStartTFromR, aStartTFromBR, aEndBFromTL, *pEndBFromL, *pEndBFromB, *pEndBFromR, aEndBFromTR, pForceColor ); } } void Array::DrawArray( OutputDevice& rDev, const Color* pForceColor ) const { if( mxImpl->mnWidth && mxImpl->mnHeight ) DrawRange( rDev, 0, 0, mxImpl->mnWidth - 1, mxImpl->mnHeight - 1, pForceColor ); } // ---------------------------------------------------------------------------- #undef ORIGCELLACC #undef ORIGCELL #undef CELLACC #undef CELL // ---------------------------------------------------------------------------- #undef DBG_FRAME_CHECK_ROW_1 #undef DBG_FRAME_CHECK_COL_1 #undef DBG_FRAME_CHECK_INDEX #undef DBG_FRAME_CHECK_COLROW #undef DBG_FRAME_CHECK_ROW #undef DBG_FRAME_CHECK_COL #undef DBG_FRAME_CHECK #undef DBG_FRAME_ERROR // ============================================================================ } // namespace frame } // namespace svx