/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_tools.hxx" #define _SV_POLY2_CXX #define POLY_CLIP_INT 0 #define POLY_CLIP_UNION 1 #define POLY_CLIP_DIFF 2 #define POLY_CLIP_XOR 3 #include #include #include #include #include #include #include #include #include // --------------- // - PolyPolygon - // --------------- DBG_NAME( PolyPolygon ) // ----------------------------------------------------------------------- ImplPolyPolygon::ImplPolyPolygon( sal_uInt16 nInitSize ) { mnRefCount = 1; mnCount = nInitSize; mnSize = nInitSize; mnResize = 16; mpPolyAry = new SVPPOLYGON[ nInitSize ]; } // ----------------------------------------------------------------------- ImplPolyPolygon::ImplPolyPolygon( const ImplPolyPolygon& rImplPolyPoly ) { mnRefCount = 1; mnCount = rImplPolyPoly.mnCount; mnSize = rImplPolyPoly.mnSize; mnResize = rImplPolyPoly.mnResize; if ( rImplPolyPoly.mpPolyAry ) { mpPolyAry = new SVPPOLYGON[mnSize]; for ( sal_uInt16 i = 0; i < mnCount; i++ ) mpPolyAry[i] = new Polygon( *rImplPolyPoly.mpPolyAry[i] ); } else mpPolyAry = NULL; } // ----------------------------------------------------------------------- ImplPolyPolygon::~ImplPolyPolygon() { if ( mpPolyAry ) { for ( sal_uInt16 i = 0; i < mnCount; i++ ) delete mpPolyAry[i]; delete[] mpPolyAry; } } // ======================================================================= PolyPolygon::PolyPolygon( sal_uInt16 nInitSize, sal_uInt16 nResize ) { DBG_CTOR( PolyPolygon, NULL ); if ( nInitSize > MAX_POLYGONS ) nInitSize = MAX_POLYGONS; else if ( !nInitSize ) nInitSize = 1; if ( nResize > MAX_POLYGONS ) nResize = MAX_POLYGONS; else if ( !nResize ) nResize = 1; mpImplPolyPolygon = new ImplPolyPolygon( nInitSize, nResize ); } // ----------------------------------------------------------------------- PolyPolygon::PolyPolygon( const Polygon& rPoly ) { DBG_CTOR( PolyPolygon, NULL ); if ( rPoly.GetSize() ) { mpImplPolyPolygon = new ImplPolyPolygon( 1 ); mpImplPolyPolygon->mpPolyAry[0] = new Polygon( rPoly ); } else mpImplPolyPolygon = new ImplPolyPolygon( 16, 16 ); } // ----------------------------------------------------------------------- PolyPolygon::PolyPolygon( const PolyPolygon& rPolyPoly ) { DBG_CTOR( PolyPolygon, NULL ); DBG_CHKOBJ( &rPolyPoly, PolyPolygon, NULL ); DBG_ASSERT( rPolyPoly.mpImplPolyPolygon->mnRefCount < 0xFFFFFFFE, "PolyPolygon: RefCount overflow" ); mpImplPolyPolygon = rPolyPoly.mpImplPolyPolygon; mpImplPolyPolygon->mnRefCount++; } // ----------------------------------------------------------------------- PolyPolygon::~PolyPolygon() { DBG_DTOR( PolyPolygon, NULL ); if ( mpImplPolyPolygon->mnRefCount > 1 ) mpImplPolyPolygon->mnRefCount--; else delete mpImplPolyPolygon; } // ----------------------------------------------------------------------- void PolyPolygon::Insert( const Polygon& rPoly, sal_uInt16 nPos ) { DBG_CHKTHIS( PolyPolygon, NULL ); if ( mpImplPolyPolygon->mnCount >= MAX_POLYGONS ) return; if ( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } if ( nPos > mpImplPolyPolygon->mnCount ) nPos = mpImplPolyPolygon->mnCount; if ( !mpImplPolyPolygon->mpPolyAry ) mpImplPolyPolygon->mpPolyAry = new SVPPOLYGON[mpImplPolyPolygon->mnSize]; else if ( mpImplPolyPolygon->mnCount == mpImplPolyPolygon->mnSize ) { sal_uInt16 nOldSize = mpImplPolyPolygon->mnSize; sal_uInt16 nNewSize = nOldSize + mpImplPolyPolygon->mnResize; SVPPOLYGON* pNewAry; if ( nNewSize >= MAX_POLYGONS ) nNewSize = MAX_POLYGONS; pNewAry = new SVPPOLYGON[nNewSize]; memcpy( pNewAry, mpImplPolyPolygon->mpPolyAry, nPos*sizeof(SVPPOLYGON) ); memcpy( pNewAry+nPos+1, mpImplPolyPolygon->mpPolyAry+nPos, (nOldSize-nPos)*sizeof(SVPPOLYGON) ); delete[] mpImplPolyPolygon->mpPolyAry; mpImplPolyPolygon->mpPolyAry = pNewAry; mpImplPolyPolygon->mnSize = nNewSize; } else if ( nPos < mpImplPolyPolygon->mnCount ) { memmove( mpImplPolyPolygon->mpPolyAry+nPos+1, mpImplPolyPolygon->mpPolyAry+nPos, (mpImplPolyPolygon->mnCount-nPos)*sizeof(SVPPOLYGON) ); } mpImplPolyPolygon->mpPolyAry[nPos] = new Polygon( rPoly ); mpImplPolyPolygon->mnCount++; } // ----------------------------------------------------------------------- void PolyPolygon::Remove( sal_uInt16 nPos ) { DBG_CHKTHIS( PolyPolygon, NULL ); DBG_ASSERT( nPos < Count(), "PolyPolygon::Remove(): nPos >= nSize" ); if ( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } delete mpImplPolyPolygon->mpPolyAry[nPos]; mpImplPolyPolygon->mnCount--; memmove( mpImplPolyPolygon->mpPolyAry+nPos, mpImplPolyPolygon->mpPolyAry+nPos+1, (mpImplPolyPolygon->mnCount-nPos)*sizeof(SVPPOLYGON) ); } // ----------------------------------------------------------------------- void PolyPolygon::Replace( const Polygon& rPoly, sal_uInt16 nPos ) { DBG_CHKTHIS( PolyPolygon, NULL ); DBG_ASSERT( nPos < Count(), "PolyPolygon::Replace(): nPos >= nSize" ); if ( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } delete mpImplPolyPolygon->mpPolyAry[nPos]; mpImplPolyPolygon->mpPolyAry[nPos] = new Polygon( rPoly ); } // ----------------------------------------------------------------------- const Polygon& PolyPolygon::GetObject( sal_uInt16 nPos ) const { DBG_CHKTHIS( PolyPolygon, NULL ); DBG_ASSERT( nPos < Count(), "PolyPolygon::GetObject(): nPos >= nSize" ); return *(mpImplPolyPolygon->mpPolyAry[nPos]); } // ----------------------------------------------------------------------- sal_Bool PolyPolygon::IsRect() const { sal_Bool bIsRect = sal_False; if ( Count() == 1 ) bIsRect = mpImplPolyPolygon->mpPolyAry[ 0 ]->IsRect(); return bIsRect; } // ----------------------------------------------------------------------- void PolyPolygon::Clear() { DBG_CHKTHIS( PolyPolygon, NULL ); if ( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( mpImplPolyPolygon->mnResize, mpImplPolyPolygon->mnResize ); } else { if ( mpImplPolyPolygon->mpPolyAry ) { for ( sal_uInt16 i = 0; i < mpImplPolyPolygon->mnCount; i++ ) delete mpImplPolyPolygon->mpPolyAry[i]; delete[] mpImplPolyPolygon->mpPolyAry; mpImplPolyPolygon->mpPolyAry = NULL; mpImplPolyPolygon->mnCount = 0; mpImplPolyPolygon->mnSize = mpImplPolyPolygon->mnResize; } } } // ----------------------------------------------------------------------- void PolyPolygon::Optimize( sal_uIntPtr nOptimizeFlags, const PolyOptimizeData* pData ) { DBG_CHKTHIS( PolyPolygon, NULL ); if(nOptimizeFlags && Count()) { // #115630# ImplDrawHatch does not work with beziers included in the polypolygon, take care of that bool bIsCurve(false); for(sal_uInt16 a(0); !bIsCurve && a < Count(); a++) { if((*this)[a].HasFlags()) { bIsCurve = true; } } if(bIsCurve) { OSL_ENSURE(false, "Optimize does *not* support curves, falling back to AdaptiveSubdivide()..."); PolyPolygon aPolyPoly; AdaptiveSubdivide(aPolyPoly); aPolyPoly.Optimize(nOptimizeFlags, pData); *this = aPolyPoly; } else { double fArea; const sal_Bool bEdges = ( nOptimizeFlags & POLY_OPTIMIZE_EDGES ) == POLY_OPTIMIZE_EDGES; sal_uInt16 nPercent = 0; if( bEdges ) { const Rectangle aBound( GetBoundRect() ); fArea = ( aBound.GetWidth() + aBound.GetHeight() ) * 0.5; nPercent = pData ? pData->GetPercentValue() : 50; nOptimizeFlags &= ~POLY_OPTIMIZE_EDGES; } // watch for ref counter if( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } // Optimize polygons for( sal_uInt16 i = 0, nPolyCount = mpImplPolyPolygon->mnCount; i < nPolyCount; i++ ) { if( bEdges ) { mpImplPolyPolygon->mpPolyAry[ i ]->Optimize( POLY_OPTIMIZE_NO_SAME ); Polygon::ImplReduceEdges( *( mpImplPolyPolygon->mpPolyAry[ i ] ), fArea, nPercent ); } if( nOptimizeFlags ) mpImplPolyPolygon->mpPolyAry[ i ]->Optimize( nOptimizeFlags, pData ); } } } } // ----------------------------------------------------------------------- void PolyPolygon::AdaptiveSubdivide( PolyPolygon& rResult, const double d ) const { DBG_CHKTHIS( PolyPolygon, NULL ); rResult.Clear(); Polygon aPolygon; for( sal_uInt16 i = 0; i < mpImplPolyPolygon->mnCount; i++ ) { mpImplPolyPolygon->mpPolyAry[ i ]->AdaptiveSubdivide( aPolygon, d ); rResult.Insert( aPolygon ); } } // ----------------------------------------------------------------------- void PolyPolygon::GetIntersection( const PolyPolygon& rPolyPoly, PolyPolygon& rResult ) const { ImplDoOperation( rPolyPoly, rResult, POLY_CLIP_INT ); } // ----------------------------------------------------------------------- void PolyPolygon::GetUnion( const PolyPolygon& rPolyPoly, PolyPolygon& rResult ) const { ImplDoOperation( rPolyPoly, rResult, POLY_CLIP_UNION ); } // ----------------------------------------------------------------------- void PolyPolygon::GetDifference( const PolyPolygon& rPolyPoly, PolyPolygon& rResult ) const { ImplDoOperation( rPolyPoly, rResult, POLY_CLIP_DIFF ); } // ----------------------------------------------------------------------- void PolyPolygon::GetXOR( const PolyPolygon& rPolyPoly, PolyPolygon& rResult ) const { ImplDoOperation( rPolyPoly, rResult, POLY_CLIP_XOR ); } // ----------------------------------------------------------------------- void PolyPolygon::ImplDoOperation( const PolyPolygon& rPolyPoly, PolyPolygon& rResult, sal_uIntPtr nOperation ) const { // Convert to B2DPolyPolygon, temporarily. It might be // advantageous in the future, to have a PolyPolygon adaptor that // just simulates a B2DPolyPolygon here... basegfx::B2DPolyPolygon aMergePolyPolygonA( getB2DPolyPolygon() ); basegfx::B2DPolyPolygon aMergePolyPolygonB( rPolyPoly.getB2DPolyPolygon() ); // normalize the two polypolygons before. Force properly oriented // polygons. aMergePolyPolygonA = basegfx::tools::prepareForPolygonOperation( aMergePolyPolygonA ); aMergePolyPolygonB = basegfx::tools::prepareForPolygonOperation( aMergePolyPolygonB ); switch( nOperation ) { // All code extracted from svx/source/svdraw/svedtv2.cxx // ----------------------------------------------------- case POLY_CLIP_UNION: { // merge A and B (OR) aMergePolyPolygonA = basegfx::tools::solvePolygonOperationOr(aMergePolyPolygonA, aMergePolyPolygonB); break; } case POLY_CLIP_DIFF: { // substract B from A (DIFF) aMergePolyPolygonA = basegfx::tools::solvePolygonOperationDiff(aMergePolyPolygonA, aMergePolyPolygonB); break; } case POLY_CLIP_XOR: { // compute XOR between poly A and B aMergePolyPolygonA = basegfx::tools::solvePolygonOperationXor(aMergePolyPolygonA, aMergePolyPolygonB); break; } default: case POLY_CLIP_INT: { // cut poly 1 against polys 2..n (AND) aMergePolyPolygonA = basegfx::tools::solvePolygonOperationAnd(aMergePolyPolygonA, aMergePolyPolygonB); break; } } rResult = PolyPolygon( aMergePolyPolygonA ); } // ----------------------------------------------------------------------- sal_uInt16 PolyPolygon::Count() const { DBG_CHKTHIS( PolyPolygon, NULL ); return mpImplPolyPolygon->mnCount; } // ----------------------------------------------------------------------- void PolyPolygon::Move( long nHorzMove, long nVertMove ) { DBG_CHKTHIS( PolyPolygon, NULL ); // Diese Abfrage sollte man fuer die DrawEngine durchfuehren if( nHorzMove || nVertMove ) { // Referenzcounter beruecksichtigen if ( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } // Punkte verschieben sal_uInt16 nPolyCount = mpImplPolyPolygon->mnCount; for ( sal_uInt16 i = 0; i < nPolyCount; i++ ) mpImplPolyPolygon->mpPolyAry[i]->Move( nHorzMove, nVertMove ); } } // ----------------------------------------------------------------------- void PolyPolygon::Translate( const Point& rTrans ) { DBG_CHKTHIS( PolyPolygon, NULL ); // Referenzcounter beruecksichtigen if( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } // Punkte verschieben for ( sal_uInt16 i = 0, nCount = mpImplPolyPolygon->mnCount; i < nCount; i++ ) mpImplPolyPolygon->mpPolyAry[ i ]->Translate( rTrans ); } // ----------------------------------------------------------------------- void PolyPolygon::Scale( double fScaleX, double fScaleY ) { DBG_CHKTHIS( PolyPolygon, NULL ); // Referenzcounter beruecksichtigen if( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } // Punkte verschieben for ( sal_uInt16 i = 0, nCount = mpImplPolyPolygon->mnCount; i < nCount; i++ ) mpImplPolyPolygon->mpPolyAry[ i ]->Scale( fScaleX, fScaleY ); } // ----------------------------------------------------------------------- void PolyPolygon::Rotate( const Point& rCenter, sal_uInt16 nAngle10 ) { DBG_CHKTHIS( PolyPolygon, NULL ); nAngle10 %= 3600; if( nAngle10 ) { const double fAngle = F_PI1800 * nAngle10; Rotate( rCenter, sin( fAngle ), cos( fAngle ) ); } } // ----------------------------------------------------------------------- void PolyPolygon::Rotate( const Point& rCenter, double fSin, double fCos ) { DBG_CHKTHIS( PolyPolygon, NULL ); // Referenzcounter beruecksichtigen if( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } // Punkte verschieben for ( sal_uInt16 i = 0, nCount = mpImplPolyPolygon->mnCount; i < nCount; i++ ) mpImplPolyPolygon->mpPolyAry[ i ]->Rotate( rCenter, fSin, fCos ); } // ----------------------------------------------------------------------- void PolyPolygon::SlantX( long nYRef, double fSin, double fCos ) { DBG_CHKTHIS( PolyPolygon, NULL ); // Referenzcounter beruecksichtigen if( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } // Punkte verschieben for ( sal_uInt16 i = 0, nCount = mpImplPolyPolygon->mnCount; i < nCount; i++ ) mpImplPolyPolygon->mpPolyAry[ i ]->SlantX( nYRef, fSin, fCos ); } // ----------------------------------------------------------------------- void PolyPolygon::SlantY( long nXRef, double fSin, double fCos ) { DBG_CHKTHIS( PolyPolygon, NULL ); // Referenzcounter beruecksichtigen if( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } // Punkte verschieben for ( sal_uInt16 i = 0, nCount = mpImplPolyPolygon->mnCount; i < nCount; i++ ) mpImplPolyPolygon->mpPolyAry[ i ]->SlantY( nXRef, fSin, fCos ); } // ----------------------------------------------------------------------- void PolyPolygon::Distort( const Rectangle& rRefRect, const Polygon& rDistortedRect ) { DBG_CHKTHIS( PolyPolygon, NULL ); // Referenzcounter beruecksichtigen if( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } // Punkte verschieben for ( sal_uInt16 i = 0, nCount = mpImplPolyPolygon->mnCount; i < nCount; i++ ) mpImplPolyPolygon->mpPolyAry[ i ]->Distort( rRefRect, rDistortedRect ); } // ----------------------------------------------------------------------- void PolyPolygon::Clip( const Rectangle& rRect ) { // Polygon-Clippen sal_uInt16 nPolyCount = mpImplPolyPolygon->mnCount; sal_uInt16 i; if ( !nPolyCount ) return; // Referenzcounter beruecksichtigen if ( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } // Erst jedes Polygon Clippen und dann die leeren entfernen for ( i = 0; i < nPolyCount; i++ ) mpImplPolyPolygon->mpPolyAry[i]->Clip( rRect ); while ( nPolyCount ) { if ( GetObject( nPolyCount-1 ).GetSize() <= 2 ) Remove( nPolyCount-1 ); nPolyCount--; } } // ----------------------------------------------------------------------- Rectangle PolyPolygon::GetBoundRect() const { DBG_CHKTHIS( PolyPolygon, NULL ); long nXMin=0, nXMax=0, nYMin=0, nYMax=0; sal_Bool bFirst = sal_True; sal_uInt16 nPolyCount = mpImplPolyPolygon->mnCount; for ( sal_uInt16 n = 0; n < nPolyCount; n++ ) { const Polygon* pPoly = mpImplPolyPolygon->mpPolyAry[n]; const Point* pAry = pPoly->GetConstPointAry(); sal_uInt16 nPointCount = pPoly->GetSize(); for ( sal_uInt16 i = 0; i < nPointCount; i++ ) { const Point* pPt = &pAry[ i ]; if ( bFirst ) { nXMin = nXMax = pPt->X(); nYMin = nYMax = pPt->Y(); bFirst = sal_False; } else { if ( pPt->X() < nXMin ) nXMin = pPt->X(); if ( pPt->X() > nXMax ) nXMax = pPt->X(); if ( pPt->Y() < nYMin ) nYMin = pPt->Y(); if ( pPt->Y() > nYMax ) nYMax = pPt->Y(); } } } if ( !bFirst ) return Rectangle( nXMin, nYMin, nXMax, nYMax ); else return Rectangle(); } // ----------------------------------------------------------------------- Polygon& PolyPolygon::operator[]( sal_uInt16 nPos ) { DBG_CHKTHIS( PolyPolygon, NULL ); DBG_ASSERT( nPos < Count(), "PolyPolygon::[](): nPos >= nSize" ); if ( mpImplPolyPolygon->mnRefCount > 1 ) { mpImplPolyPolygon->mnRefCount--; mpImplPolyPolygon = new ImplPolyPolygon( *mpImplPolyPolygon ); } return *(mpImplPolyPolygon->mpPolyAry[nPos]); } // ----------------------------------------------------------------------- PolyPolygon& PolyPolygon::operator=( const PolyPolygon& rPolyPoly ) { DBG_CHKTHIS( PolyPolygon, NULL ); DBG_CHKOBJ( &rPolyPoly, PolyPolygon, NULL ); DBG_ASSERT( rPolyPoly.mpImplPolyPolygon->mnRefCount < 0xFFFFFFFE, "PolyPolygon: RefCount overflow" ); rPolyPoly.mpImplPolyPolygon->mnRefCount++; if ( mpImplPolyPolygon->mnRefCount > 1 ) mpImplPolyPolygon->mnRefCount--; else delete mpImplPolyPolygon; mpImplPolyPolygon = rPolyPoly.mpImplPolyPolygon; return *this; } // ----------------------------------------------------------------------- sal_Bool PolyPolygon::operator==( const PolyPolygon& rPolyPoly ) const { DBG_CHKTHIS( PolyPolygon, NULL ); DBG_CHKOBJ( &rPolyPoly, PolyPolygon, NULL ); if ( rPolyPoly.mpImplPolyPolygon == mpImplPolyPolygon ) return sal_True; else return sal_False; } // ----------------------------------------------------------------------- sal_Bool PolyPolygon::IsEqual( const PolyPolygon& rPolyPoly ) const { sal_Bool bIsEqual = sal_True; if ( Count() != rPolyPoly.Count() ) bIsEqual = sal_False; else { sal_uInt16 i; for ( i = 0; i < Count(); i++ ) { if (!GetObject( i ).IsEqual( rPolyPoly.GetObject( i ) ) ) { bIsEqual = sal_False; break; } } } return bIsEqual; } // ----------------------------------------------------------------------- SvStream& operator>>( SvStream& rIStream, PolyPolygon& rPolyPoly ) { DBG_CHKOBJ( &rPolyPoly, PolyPolygon, NULL ); DBG_ASSERTWARNING( rIStream.GetVersion(), "PolyPolygon::>> - Solar-Version not set on rIStream" ); Polygon* pPoly; sal_uInt16 nPolyCount; // Anzahl der Polygone einlesen rIStream >> nPolyCount; // Daten anlegen if( nPolyCount ) { // Referenzcounter beruecksichtigen if ( rPolyPoly.mpImplPolyPolygon->mnRefCount > 1 ) rPolyPoly.mpImplPolyPolygon->mnRefCount--; else delete rPolyPoly.mpImplPolyPolygon; rPolyPoly.mpImplPolyPolygon = new ImplPolyPolygon( nPolyCount ); for ( sal_uInt16 i = 0; i < nPolyCount; i++ ) { pPoly = new Polygon; rIStream >> *pPoly; rPolyPoly.mpImplPolyPolygon->mpPolyAry[i] = pPoly; } } else rPolyPoly = PolyPolygon(); return rIStream; } // ----------------------------------------------------------------------- SvStream& operator<<( SvStream& rOStream, const PolyPolygon& rPolyPoly ) { DBG_CHKOBJ( &rPolyPoly, PolyPolygon, NULL ); DBG_ASSERTWARNING( rOStream.GetVersion(), "PolyPolygon::<< - Solar-Version not set on rOStream" ); // Anzahl der Polygone rausschreiben sal_uInt16 nPolyCount = rPolyPoly.mpImplPolyPolygon->mnCount; rOStream << nPolyCount; // Die einzelnen Polygone ausgeben for ( sal_uInt16 i = 0; i < nPolyCount; i++ ) rOStream << *(rPolyPoly.mpImplPolyPolygon->mpPolyAry[i]); return rOStream; } // ----------------------------------------------------------------------- void PolyPolygon::Read( SvStream& rIStream ) { VersionCompat aCompat( rIStream, STREAM_READ ); DBG_CHKTHIS( PolyPolygon, NULL ); DBG_ASSERTWARNING( rIStream.GetVersion(), "PolyPolygon::>> - Solar-Version not set on rIStream" ); Polygon* pPoly; sal_uInt16 nPolyCount; // Anzahl der Polygone einlesen rIStream >> nPolyCount; // Daten anlegen if( nPolyCount ) { // Referenzcounter beruecksichtigen if ( mpImplPolyPolygon->mnRefCount > 1 ) mpImplPolyPolygon->mnRefCount--; else delete mpImplPolyPolygon; mpImplPolyPolygon = new ImplPolyPolygon( nPolyCount ); for ( sal_uInt16 i = 0; i < nPolyCount; i++ ) { pPoly = new Polygon; pPoly->ImplRead( rIStream ); mpImplPolyPolygon->mpPolyAry[i] = pPoly; } } else *this = PolyPolygon(); } // ----------------------------------------------------------------------- void PolyPolygon::Write( SvStream& rOStream ) const { VersionCompat aCompat( rOStream, STREAM_WRITE, 1 ); DBG_CHKTHIS( PolyPolygon, NULL ); DBG_ASSERTWARNING( rOStream.GetVersion(), "PolyPolygon::<< - Solar-Version not set on rOStream" ); // Anzahl der Polygone rausschreiben sal_uInt16 nPolyCount = mpImplPolyPolygon->mnCount; rOStream << nPolyCount; // Die einzelnen Polygone ausgeben for ( sal_uInt16 i = 0; i < nPolyCount; i++ ) mpImplPolyPolygon->mpPolyAry[i]->ImplWrite( rOStream );; } // ----------------------------------------------------------------------- // convert to basegfx::B2DPolyPolygon and return basegfx::B2DPolyPolygon PolyPolygon::getB2DPolyPolygon() const { basegfx::B2DPolyPolygon aRetval; for(sal_uInt16 a(0); a < mpImplPolyPolygon->mnCount; a++) { Polygon* pCandidate = mpImplPolyPolygon->mpPolyAry[a]; aRetval.append(pCandidate->getB2DPolygon()); } return aRetval; } // ----------------------------------------------------------------------- // constructor to convert from basegfx::B2DPolyPolygon PolyPolygon::PolyPolygon(const basegfx::B2DPolyPolygon& rPolyPolygon) { DBG_CTOR( PolyPolygon, NULL ); const sal_uInt16 nCount(sal_uInt16(rPolyPolygon.count())); DBG_ASSERT(sal_uInt32(nCount) == rPolyPolygon.count(), "PolyPolygon::PolyPolygon: Too many sub-polygons in given basegfx::B2DPolyPolygon (!)"); if ( nCount ) { mpImplPolyPolygon = new ImplPolyPolygon( nCount ); for(sal_uInt16 a(0); a < nCount; a++) { basegfx::B2DPolygon aCandidate(rPolyPolygon.getB2DPolygon(sal_uInt32(a))); mpImplPolyPolygon->mpPolyAry[a] = new Polygon( aCandidate ); } } else { mpImplPolyPolygon = new ImplPolyPolygon( 16, 16 ); } } // eof