/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * 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/. * * This file incorporates work covered by the following license notice: * * 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 . */ #include #include #include #include #include #include #include #include #include #include #include #define HATCH_MAXPOINTS 1024 extern "C" { static int HatchCmpFnc( const void* p1, const void* p2 ) { const long nX1 = static_cast(p1)->X(); const long nX2 = static_cast(p2)->X(); const long nY1 = static_cast(p1)->Y(); const long nY2 = static_cast(p2)->Y(); return ( nX1 > nX2 ? 1 : nX1 == nX2 ? nY1 > nY2 ? 1: nY1 == nY2 ? 0 : -1 : -1 ); } } void OutputDevice::DrawHatch( const tools::PolyPolygon& rPolyPoly, const Hatch& rHatch ) { assert(!is_double_buffered_window()); Hatch aHatch( rHatch ); if ( mnDrawMode & ( DrawModeFlags::BlackLine | DrawModeFlags::WhiteLine | DrawModeFlags::GrayLine | DrawModeFlags::SettingsLine ) ) { Color aColor( rHatch.GetColor() ); if ( mnDrawMode & DrawModeFlags::BlackLine ) aColor = COL_BLACK; else if ( mnDrawMode & DrawModeFlags::WhiteLine ) aColor = COL_WHITE; else if ( mnDrawMode & DrawModeFlags::GrayLine ) { const sal_uInt8 cLum = aColor.GetLuminance(); aColor = Color( cLum, cLum, cLum ); } else if( mnDrawMode & DrawModeFlags::SettingsLine ) { aColor = GetSettings().GetStyleSettings().GetFontColor(); } aHatch.SetColor( aColor ); } if( mpMetaFile ) mpMetaFile->AddAction( new MetaHatchAction( rPolyPoly, aHatch ) ); if( !IsDeviceOutputNecessary() || ImplIsRecordLayout() ) return; if( !mpGraphics && !AcquireGraphics() ) return; if( mbInitClipRegion ) InitClipRegion(); if( mbOutputClipped ) return; if( rPolyPoly.Count() ) { tools::PolyPolygon aPolyPoly( LogicToPixel( rPolyPoly ) ); GDIMetaFile* pOldMetaFile = mpMetaFile; bool bOldMap = mbMap; aPolyPoly.Optimize( PolyOptimizeFlags::NO_SAME ); aHatch.SetDistance( ImplLogicWidthToDevicePixel( aHatch.GetDistance() ) ); mpMetaFile = nullptr; EnableMapMode( false ); Push( PushFlags::LINECOLOR ); SetLineColor( aHatch.GetColor() ); InitLineColor(); DrawHatch( aPolyPoly, aHatch, false ); Pop(); EnableMapMode( bOldMap ); mpMetaFile = pOldMetaFile; } if( mpAlphaVDev ) mpAlphaVDev->DrawHatch( rPolyPoly, rHatch ); } void OutputDevice::AddHatchActions( const tools::PolyPolygon& rPolyPoly, const Hatch& rHatch, GDIMetaFile& rMtf ) { tools::PolyPolygon aPolyPoly( rPolyPoly ); aPolyPoly.Optimize( PolyOptimizeFlags::NO_SAME | PolyOptimizeFlags::CLOSE ); if( aPolyPoly.Count() ) { GDIMetaFile* pOldMtf = mpMetaFile; mpMetaFile = &rMtf; mpMetaFile->AddAction( new MetaPushAction( PushFlags::ALL ) ); mpMetaFile->AddAction( new MetaLineColorAction( rHatch.GetColor(), true ) ); DrawHatch( aPolyPoly, rHatch, true ); mpMetaFile->AddAction( new MetaPopAction() ); mpMetaFile = pOldMtf; } } void OutputDevice::DrawHatch( const tools::PolyPolygon& rPolyPoly, const Hatch& rHatch, bool bMtf ) { assert(!is_double_buffered_window()); if(rPolyPoly.Count()) { // #i115630# DrawHatch does not work with beziers included in the polypolygon, take care of that bool bIsCurve(false); for(sal_uInt16 a(0); !bIsCurve && a < rPolyPoly.Count(); a++) { if(rPolyPoly[a].HasFlags()) { bIsCurve = true; } } if(bIsCurve) { OSL_ENSURE(false, "DrawHatch does *not* support curves, falling back to AdaptiveSubdivide()..."); tools::PolyPolygon aPolyPoly; rPolyPoly.AdaptiveSubdivide(aPolyPoly); DrawHatch(aPolyPoly, rHatch, bMtf); } else { tools::Rectangle aRect( rPolyPoly.GetBoundRect() ); const long nLogPixelWidth = ImplDevicePixelToLogicWidth( 1 ); const long nWidth = ImplDevicePixelToLogicWidth( std::max( ImplLogicWidthToDevicePixel( rHatch.GetDistance() ), 3L ) ); std::unique_ptr pPtBuffer(new Point[ HATCH_MAXPOINTS ]); Point aPt1, aPt2, aEndPt1; Size aInc; // Single hatch aRect.AdjustLeft( -nLogPixelWidth ); aRect.AdjustTop( -nLogPixelWidth ); aRect.AdjustRight(nLogPixelWidth ); aRect.AdjustBottom(nLogPixelWidth ); CalcHatchValues( aRect, nWidth, rHatch.GetAngle(), aPt1, aPt2, aInc, aEndPt1 ); do { DrawHatchLine( tools::Line( aPt1, aPt2 ), rPolyPoly, pPtBuffer.get(), bMtf ); aPt1.AdjustX(aInc.Width() ); aPt1.AdjustY(aInc.Height() ); aPt2.AdjustX(aInc.Width() ); aPt2.AdjustY(aInc.Height() ); } while( ( aPt1.X() <= aEndPt1.X() ) && ( aPt1.Y() <= aEndPt1.Y() ) ); if( ( rHatch.GetStyle() == HatchStyle::Double ) || ( rHatch.GetStyle() == HatchStyle::Triple ) ) { // Double hatch CalcHatchValues( aRect, nWidth, rHatch.GetAngle() + 900, aPt1, aPt2, aInc, aEndPt1 ); do { DrawHatchLine( tools::Line( aPt1, aPt2 ), rPolyPoly, pPtBuffer.get(), bMtf ); aPt1.AdjustX(aInc.Width() ); aPt1.AdjustY(aInc.Height() ); aPt2.AdjustX(aInc.Width() ); aPt2.AdjustY(aInc.Height() ); } while( ( aPt1.X() <= aEndPt1.X() ) && ( aPt1.Y() <= aEndPt1.Y() ) ); if( rHatch.GetStyle() == HatchStyle::Triple ) { // Triple hatch CalcHatchValues( aRect, nWidth, rHatch.GetAngle() + 450, aPt1, aPt2, aInc, aEndPt1 ); do { DrawHatchLine( tools::Line( aPt1, aPt2 ), rPolyPoly, pPtBuffer.get(), bMtf ); aPt1.AdjustX(aInc.Width() ); aPt1.AdjustY(aInc.Height() ); aPt2.AdjustX(aInc.Width() ); aPt2.AdjustY(aInc.Height() ); } while( ( aPt1.X() <= aEndPt1.X() ) && ( aPt1.Y() <= aEndPt1.Y() ) ); } } } } } void OutputDevice::CalcHatchValues( const tools::Rectangle& rRect, long nDist, sal_uInt16 nAngle10, Point& rPt1, Point& rPt2, Size& rInc, Point& rEndPt1 ) { Point aRef; long nAngle = nAngle10 % 1800; long nOffset = 0; if( nAngle > 900 ) nAngle -= 1800; aRef = ( !IsRefPoint() ? rRect.TopLeft() : GetRefPoint() ); if( 0 == nAngle ) { rInc = Size( 0, nDist ); rPt1 = rRect.TopLeft(); rPt2 = rRect.TopRight(); rEndPt1 = rRect.BottomLeft(); if( aRef.Y() <= rRect.Top() ) nOffset = ( ( rRect.Top() - aRef.Y() ) % nDist ); else nOffset = ( nDist - ( ( aRef.Y() - rRect.Top() ) % nDist ) ); rPt1.AdjustY( -nOffset ); rPt2.AdjustY( -nOffset ); } else if( 900 == nAngle ) { rInc = Size( nDist, 0 ); rPt1 = rRect.TopLeft(); rPt2 = rRect.BottomLeft(); rEndPt1 = rRect.TopRight(); if( aRef.X() <= rRect.Left() ) nOffset = ( rRect.Left() - aRef.X() ) % nDist; else nOffset = nDist - ( ( aRef.X() - rRect.Left() ) % nDist ); rPt1.AdjustX( -nOffset ); rPt2.AdjustX( -nOffset ); } else if( nAngle >= -450 && nAngle <= 450 ) { const double fAngle = F_PI1800 * labs( nAngle ); const double fTan = tan( fAngle ); const long nYOff = FRound( ( rRect.Right() - rRect.Left() ) * fTan ); long nPY; nDist = FRound( nDist / cos( fAngle ) ); rInc = Size( 0, nDist ); if( nAngle > 0 ) { rPt1 = rRect.TopLeft(); rPt2 = Point( rRect.Right(), rRect.Top() - nYOff ); rEndPt1 = Point( rRect.Left(), rRect.Bottom() + nYOff ); nPY = FRound( aRef.Y() - ( ( rPt1.X() - aRef.X() ) * fTan ) ); } else { rPt1 = rRect.TopRight(); rPt2 = Point( rRect.Left(), rRect.Top() - nYOff ); rEndPt1 = Point( rRect.Right(), rRect.Bottom() + nYOff ); nPY = FRound( aRef.Y() + ( ( rPt1.X() - aRef.X() ) * fTan ) ); } if( nPY <= rPt1.Y() ) nOffset = ( rPt1.Y() - nPY ) % nDist; else nOffset = nDist - ( ( nPY - rPt1.Y() ) % nDist ); rPt1.AdjustY( -nOffset ); rPt2.AdjustY( -nOffset ); } else { const double fAngle = F_PI1800 * labs( nAngle ); const double fTan = tan( fAngle ); const long nXOff = FRound( ( rRect.Bottom() - rRect.Top() ) / fTan ); long nPX; nDist = FRound( nDist / sin( fAngle ) ); rInc = Size( nDist, 0 ); if( nAngle > 0 ) { rPt1 = rRect.TopLeft(); rPt2 = Point( rRect.Left() - nXOff, rRect.Bottom() ); rEndPt1 = Point( rRect.Right() + nXOff, rRect.Top() ); nPX = FRound( aRef.X() - ( ( rPt1.Y() - aRef.Y() ) / fTan ) ); } else { rPt1 = rRect.BottomLeft(); rPt2 = Point( rRect.Left() - nXOff, rRect.Top() ); rEndPt1 = Point( rRect.Right() + nXOff, rRect.Bottom() ); nPX = FRound( aRef.X() + ( ( rPt1.Y() - aRef.Y() ) / fTan ) ); } if( nPX <= rPt1.X() ) nOffset = ( rPt1.X() - nPX ) % nDist; else nOffset = nDist - ( ( nPX - rPt1.X() ) % nDist ); rPt1.AdjustX( -nOffset ); rPt2.AdjustX( -nOffset ); } } void OutputDevice::DrawHatchLine( const tools::Line& rLine, const tools::PolyPolygon& rPolyPoly, Point* pPtBuffer, bool bMtf ) { assert(!is_double_buffered_window()); double fX, fY; long nAdd, nPCounter = 0; for( long nPoly = 0, nPolyCount = rPolyPoly.Count(); nPoly < nPolyCount; nPoly++ ) { const tools::Polygon& rPoly = rPolyPoly[ static_cast(nPoly) ]; if( rPoly.GetSize() > 1 ) { tools::Line aCurSegment( rPoly[ 0 ], Point() ); for( long i = 1, nCount = rPoly.GetSize(); i <= nCount; i++ ) { aCurSegment.SetEnd( rPoly[ static_cast( i % nCount ) ] ); nAdd = 0; if( rLine.Intersection( aCurSegment, fX, fY ) ) { if( ( fabs( fX - aCurSegment.GetStart().X() ) <= 0.0000001 ) && ( fabs( fY - aCurSegment.GetStart().Y() ) <= 0.0000001 ) ) { const tools::Line aPrevSegment( rPoly[ static_cast( ( i > 1 ) ? ( i - 2 ) : ( nCount - 1 ) ) ], aCurSegment.GetStart() ); const double fPrevDistance = rLine.GetDistance( aPrevSegment.GetStart() ); const double fCurDistance = rLine.GetDistance( aCurSegment.GetEnd() ); if( ( fPrevDistance <= 0.0 && fCurDistance > 0.0 ) || ( fPrevDistance > 0.0 && fCurDistance < 0.0 ) ) { nAdd = 1; } } else if( ( fabs( fX - aCurSegment.GetEnd().X() ) <= 0.0000001 ) && ( fabs( fY - aCurSegment.GetEnd().Y() ) <= 0.0000001 ) ) { const tools::Line aNextSegment( aCurSegment.GetEnd(), rPoly[ static_cast( ( i + 1 ) % nCount ) ] ); if( ( fabs( rLine.GetDistance( aNextSegment.GetEnd() ) ) <= 0.0000001 ) && ( rLine.GetDistance( aCurSegment.GetStart() ) > 0.0 ) ) { nAdd = 1; } } else nAdd = 1; if( nAdd ) pPtBuffer[ nPCounter++ ] = Point( FRound( fX ), FRound( fY ) ); } aCurSegment.SetStart( aCurSegment.GetEnd() ); } } } if( nPCounter > 1 ) { qsort( pPtBuffer, nPCounter, sizeof( Point ), HatchCmpFnc ); if( nPCounter & 1 ) nPCounter--; if( bMtf ) { for( long i = 0; i < nPCounter; i += 2 ) mpMetaFile->AddAction( new MetaLineAction( pPtBuffer[ i ], pPtBuffer[ i + 1 ] ) ); } else { for( long i = 0; i < nPCounter; i += 2 ) DrawHatchLine_DrawLine(pPtBuffer[i], pPtBuffer[i+1]); } } } void OutputDevice::DrawHatchLine_DrawLine(const Point& rStartPoint, const Point& rEndPoint) { Point aPt1{ImplLogicToDevicePixel(rStartPoint)}, aPt2{ImplLogicToDevicePixel(rEndPoint)}; mpGraphics->DrawLine(aPt1.X(), aPt1.Y(), aPt2.X(), aPt2.Y(), this); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */