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diff --git a/vcl/headless/svpgdi.cxx b/vcl/headless/svpgdi.cxx
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+/* -*- 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 <config_features.h>
+
+#include <memory>
+#include <numeric>
+
+#include <headless/svpgdi.hxx>
+#include <headless/svpbmp.hxx>
+#include <headless/svpframe.hxx>
+#include <headless/svpcairotextrender.hxx>
+#include <headless/CustomWidgetDraw.hxx>
+#include <saldatabasic.hxx>
+
+#include <sal/log.hxx>
+#include <tools/helpers.hxx>
+#include <o3tl/safeint.hxx>
+#include <vcl/BitmapTools.hxx>
+#include <vcl/sysdata.hxx>
+#include <vcl/gradient.hxx>
+#include <config_cairo_canvas.h>
+#include <basegfx/numeric/ftools.hxx>
+#include <basegfx/range/b2drange.hxx>
+#include <basegfx/range/b2ibox.hxx>
+#include <basegfx/range/b2irange.hxx>
+#include <basegfx/polygon/b2dpolypolygon.hxx>
+#include <basegfx/polygon/b2dpolypolygontools.hxx>
+#include <basegfx/polygon/b2dpolygon.hxx>
+#include <basegfx/polygon/b2dpolygontools.hxx>
+#include <basegfx/matrix/b2dhommatrix.hxx>
+#include <basegfx/utils/canvastools.hxx>
+#include <basegfx/utils/systemdependentdata.hxx>
+#include <basegfx/matrix/b2dhommatrixtools.hxx>
+#include <comphelper/lok.hxx>
+#include <unx/gendata.hxx>
+#include <dlfcn.h>
+
+#if ENABLE_CAIRO_CANVAS
+# if defined CAIRO_VERSION && CAIRO_VERSION < CAIRO_VERSION_ENCODE(1, 10, 0)
+# define CAIRO_OPERATOR_DIFFERENCE (static_cast<cairo_operator_t>(23))
+# endif
+#endif
+
+namespace
+{
+ basegfx::B2DRange getClipBox(cairo_t* cr)
+ {
+ double x1, y1, x2, y2;
+
+ cairo_clip_extents(cr, &x1, &y1, &x2, &y2);
+
+ // support B2DRange::isEmpty()
+ if(0.0 != x1 || 0.0 != y1 || 0.0 != x2 || 0.0 != y2)
+ {
+ return basegfx::B2DRange(x1, y1, x2, y2);
+ }
+
+ return basegfx::B2DRange();
+ }
+
+ basegfx::B2DRange getFillDamage(cairo_t* cr)
+ {
+ double x1, y1, x2, y2;
+
+ // this is faster than cairo_fill_extents, at the cost of some overdraw
+ cairo_path_extents(cr, &x1, &y1, &x2, &y2);
+
+ // support B2DRange::isEmpty()
+ if(0.0 != x1 || 0.0 != y1 || 0.0 != x2 || 0.0 != y2)
+ {
+ return basegfx::B2DRange(x1, y1, x2, y2);
+ }
+
+ return basegfx::B2DRange();
+ }
+
+ basegfx::B2DRange getClippedFillDamage(cairo_t* cr)
+ {
+ basegfx::B2DRange aDamageRect(getFillDamage(cr));
+ aDamageRect.intersect(getClipBox(cr));
+ return aDamageRect;
+ }
+
+ basegfx::B2DRange getStrokeDamage(cairo_t* cr)
+ {
+ double x1, y1, x2, y2;
+
+ // less accurate, but much faster
+ cairo_path_extents(cr, &x1, &y1, &x2, &y2);
+
+ // support B2DRange::isEmpty()
+ if(0.0 != x1 || 0.0 != y1 || 0.0 != x2 || 0.0 != y2)
+ {
+ return basegfx::B2DRange(x1, y1, x2, y2);
+ }
+
+ return basegfx::B2DRange();
+ }
+
+ basegfx::B2DRange getClippedStrokeDamage(cairo_t* cr)
+ {
+ basegfx::B2DRange aDamageRect(getStrokeDamage(cr));
+ aDamageRect.intersect(getClipBox(cr));
+ return aDamageRect;
+ }
+}
+
+bool SvpSalGraphics::blendBitmap( const SalTwoRect&, const SalBitmap& /*rBitmap*/ )
+{
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::blendBitmap case");
+ return false;
+}
+
+bool SvpSalGraphics::blendAlphaBitmap( const SalTwoRect&, const SalBitmap&, const SalBitmap&, const SalBitmap& )
+{
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::blendAlphaBitmap case");
+ return false;
+}
+
+namespace
+{
+ cairo_format_t getCairoFormat(const BitmapBuffer& rBuffer)
+ {
+ cairo_format_t nFormat;
+#ifdef HAVE_CAIRO_FORMAT_RGB24_888
+ assert(rBuffer.mnBitCount == 32 || rBuffer.mnBitCount == 24 || rBuffer.mnBitCount == 1);
+#else
+ assert(rBuffer.mnBitCount == 32 || rBuffer.mnBitCount == 1);
+#endif
+
+ if (rBuffer.mnBitCount == 32)
+ nFormat = CAIRO_FORMAT_ARGB32;
+#ifdef HAVE_CAIRO_FORMAT_RGB24_888
+ else if (rBuffer.mnBitCount == 24)
+ nFormat = CAIRO_FORMAT_RGB24_888;
+#endif
+ else
+ nFormat = CAIRO_FORMAT_A1;
+ return nFormat;
+ }
+
+ void Toggle1BitTransparency(const BitmapBuffer& rBuf)
+ {
+ assert(rBuf.maPalette.GetBestIndex(BitmapColor(COL_BLACK)) == 0);
+ // TODO: make upper layers use standard alpha
+ if (getCairoFormat(rBuf) == CAIRO_FORMAT_A1)
+ {
+ const int nImageSize = rBuf.mnHeight * rBuf.mnScanlineSize;
+ unsigned char* pDst = rBuf.mpBits;
+ for (int i = nImageSize; --i >= 0; ++pDst)
+ *pDst = ~*pDst;
+ }
+ }
+
+ std::unique_ptr<BitmapBuffer> FastConvert24BitRgbTo32BitCairo(const BitmapBuffer* pSrc)
+ {
+ if (pSrc == nullptr)
+ return nullptr;
+
+ assert(pSrc->mnFormat == SVP_24BIT_FORMAT);
+ const long nWidth = pSrc->mnWidth;
+ const long nHeight = pSrc->mnHeight;
+ std::unique_ptr<BitmapBuffer> pDst(new BitmapBuffer);
+ pDst->mnFormat = (ScanlineFormat::N32BitTcArgb | ScanlineFormat::TopDown);
+ pDst->mnWidth = nWidth;
+ pDst->mnHeight = nHeight;
+ pDst->mnBitCount = 32;
+ pDst->maColorMask = pSrc->maColorMask;
+ pDst->maPalette = pSrc->maPalette;
+
+ long nScanlineBase;
+ const bool bFail = o3tl::checked_multiply<long>(pDst->mnBitCount, nWidth, nScanlineBase);
+ if (bFail)
+ {
+ SAL_WARN("vcl.gdi", "checked multiply failed");
+ pDst->mpBits = nullptr;
+ return nullptr;
+ }
+
+ pDst->mnScanlineSize = AlignedWidth4Bytes(nScanlineBase);
+ if (pDst->mnScanlineSize < nScanlineBase/8)
+ {
+ SAL_WARN("vcl.gdi", "scanline calculation wraparound");
+ pDst->mpBits = nullptr;
+ return nullptr;
+ }
+
+ try
+ {
+ pDst->mpBits = new sal_uInt8[ pDst->mnScanlineSize * nHeight ];
+ }
+ catch (const std::bad_alloc&)
+ {
+ // memory exception, clean up
+ pDst->mpBits = nullptr;
+ return nullptr;
+ }
+
+ for (long y = 0; y < nHeight; ++y)
+ {
+ sal_uInt8* pS = pSrc->mpBits + y * pSrc->mnScanlineSize;
+ sal_uInt8* pD = pDst->mpBits + y * pDst->mnScanlineSize;
+ for (long x = 0; x < nWidth; ++x)
+ {
+#if defined(ANDROID) && !HAVE_FEATURE_ANDROID_LOK
+ static_assert((SVP_CAIRO_FORMAT & ~ScanlineFormat::TopDown) == ScanlineFormat::N32BitTcRgba, "Expected SVP_CAIRO_FORMAT set to N32BitTcBgra");
+ static_assert((SVP_24BIT_FORMAT & ~ScanlineFormat::TopDown) == ScanlineFormat::N24BitTcRgb, "Expected SVP_24BIT_FORMAT set to N24BitTcRgb");
+ pD[0] = pS[0];
+ pD[1] = pS[1];
+ pD[2] = pS[2];
+ pD[3] = 0xff; // Alpha
+#elif defined OSL_BIGENDIAN
+ static_assert((SVP_CAIRO_FORMAT & ~ScanlineFormat::TopDown) == ScanlineFormat::N32BitTcArgb, "Expected SVP_CAIRO_FORMAT set to N32BitTcBgra");
+ static_assert((SVP_24BIT_FORMAT & ~ScanlineFormat::TopDown) == ScanlineFormat::N24BitTcRgb, "Expected SVP_24BIT_FORMAT set to N24BitTcRgb");
+ pD[0] = 0xff; // Alpha
+ pD[1] = pS[0];
+ pD[2] = pS[1];
+ pD[3] = pS[2];
+#else
+ static_assert((SVP_CAIRO_FORMAT & ~ScanlineFormat::TopDown) == ScanlineFormat::N32BitTcBgra, "Expected SVP_CAIRO_FORMAT set to N32BitTcBgra");
+ static_assert((SVP_24BIT_FORMAT & ~ScanlineFormat::TopDown) == ScanlineFormat::N24BitTcBgr, "Expected SVP_24BIT_FORMAT set to N24BitTcBgr");
+ pD[0] = pS[0];
+ pD[1] = pS[1];
+ pD[2] = pS[2];
+ pD[3] = 0xff; // Alpha
+#endif
+
+ pS += 3;
+ pD += 4;
+ }
+ }
+
+ return pDst;
+ }
+
+ // check for env var that decides for using downscale pattern
+ static const char* pDisableDownScale(getenv("SAL_DISABLE_CAIRO_DOWNSCALE"));
+ static bool bDisableDownScale(nullptr != pDisableDownScale);
+
+ class SurfaceHelper
+ {
+ private:
+ cairo_surface_t* pSurface;
+ std::unordered_map<unsigned long long, cairo_surface_t*> maDownscaled;
+
+ SurfaceHelper(const SurfaceHelper&) = delete;
+ SurfaceHelper& operator=(const SurfaceHelper&) = delete;
+
+ cairo_surface_t* implCreateOrReuseDownscale(
+ unsigned long nTargetWidth,
+ unsigned long nTargetHeight)
+ {
+ const unsigned long nSourceWidth(cairo_image_surface_get_width(pSurface));
+ const unsigned long nSourceHeight(cairo_image_surface_get_height(pSurface));
+
+ // zoomed in, need to stretch at paint, no pre-scale useful
+ if(nTargetWidth >= nSourceWidth || nTargetHeight >= nSourceHeight)
+ {
+ return pSurface;
+ }
+
+ // calculate downscale factor
+ unsigned long nWFactor(1);
+ unsigned long nW((nSourceWidth + 1) / 2);
+ unsigned long nHFactor(1);
+ unsigned long nH((nSourceHeight + 1) / 2);
+
+ while(nW > nTargetWidth && nW > 1)
+ {
+ nW = (nW + 1) / 2;
+ nWFactor *= 2;
+ }
+
+ while(nH > nTargetHeight && nH > 1)
+ {
+ nH = (nH + 1) / 2;
+ nHFactor *= 2;
+ }
+
+ if(1 == nWFactor && 1 == nHFactor)
+ {
+ // original size *is* best binary size, use it
+ return pSurface;
+ }
+
+ // go up one scale again - look for no change
+ nW = (1 == nWFactor) ? nTargetWidth : nW * 2;
+ nH = (1 == nHFactor) ? nTargetHeight : nH * 2;
+
+ // check if we have a downscaled version of required size
+ const unsigned long long key((nW * LONG_MAX) + nH);
+ auto isHit(maDownscaled.find(key));
+
+ if(isHit != maDownscaled.end())
+ {
+ return isHit->second;
+ }
+
+ // create new surface in the targeted size
+ cairo_surface_t* pSurfaceTarget = cairo_surface_create_similar(
+ pSurface,
+ cairo_surface_get_content(pSurface),
+ nW,
+ nH);
+
+ // did a version to scale self first that worked well, but wouuld've
+ // been hard to support CAIRO_FORMAT_A1 including bit shifting, so
+ // I decided to go with cairo itself - use CAIRO_FILTER_FAST or
+ // CAIRO_FILTER_GOOD though. Please modify as needed for
+ // performance/quality
+ cairo_t* cr = cairo_create(pSurfaceTarget);
+ const double fScaleX(static_cast<double>(nW)/static_cast<double>(nSourceWidth));
+ const double fScaleY(static_cast<double>(nH)/static_cast<double>(nSourceHeight));
+ cairo_scale(cr, fScaleX, fScaleY);
+ cairo_set_source_surface(cr, pSurface, 0.0, 0.0);
+ cairo_pattern_set_filter(cairo_get_source(cr), CAIRO_FILTER_GOOD);
+ cairo_paint(cr);
+ cairo_destroy(cr);
+
+ // need to set device_scale for downscale surfaces to get
+ // them handled correctly
+ cairo_surface_set_device_scale(pSurfaceTarget, fScaleX, fScaleY);
+
+ // add entry to cached entries
+ maDownscaled[key] = pSurfaceTarget;
+
+ return pSurfaceTarget;
+ }
+
+ protected:
+ cairo_surface_t* implGetSurface() const { return pSurface; }
+ void implSetSurface(cairo_surface_t* pNew) { pSurface = pNew; }
+
+ bool isTrivial() const
+ {
+ constexpr unsigned long nMinimalSquareSizeToBuffer(64*64);
+ const unsigned long nSourceWidth(cairo_image_surface_get_width(pSurface));
+ const unsigned long nSourceHeight(cairo_image_surface_get_height(pSurface));
+
+ return nSourceWidth * nSourceHeight < nMinimalSquareSizeToBuffer;
+ }
+
+ public:
+ explicit SurfaceHelper()
+ : pSurface(nullptr),
+ maDownscaled()
+ {
+ }
+ ~SurfaceHelper()
+ {
+ cairo_surface_destroy(pSurface);
+ for(auto& candidate : maDownscaled)
+ {
+ cairo_surface_destroy(candidate.second);
+ }
+ }
+ cairo_surface_t* getSurface(
+ unsigned long nTargetWidth = 0,
+ unsigned long nTargetHeight = 0) const
+ {
+ if (bDisableDownScale || 0 == nTargetWidth || 0 == nTargetHeight || !pSurface || isTrivial())
+ {
+ // caller asks for original or disabled or trivial (smaller then a minimal square size)
+ // also excludes zero cases for width/height after this point if need to prescale
+ return pSurface;
+ }
+
+ return const_cast<SurfaceHelper*>(this)->implCreateOrReuseDownscale(
+ nTargetWidth,
+ nTargetHeight);
+ }
+ };
+
+ class BitmapHelper : public SurfaceHelper
+ {
+ private:
+#ifdef HAVE_CAIRO_FORMAT_RGB24_888
+ const bool m_bForceARGB32;
+#endif
+ SvpSalBitmap aTmpBmp;
+
+ public:
+ explicit BitmapHelper(
+ const SalBitmap& rSourceBitmap,
+ const bool bForceARGB32 = false)
+ : SurfaceHelper(),
+#ifdef HAVE_CAIRO_FORMAT_RGB24_888
+ m_bForceARGB32(bForceARGB32),
+#endif
+ aTmpBmp()
+ {
+ const SvpSalBitmap& rSrcBmp = static_cast<const SvpSalBitmap&>(rSourceBitmap);
+#ifdef HAVE_CAIRO_FORMAT_RGB24_888
+ if ((rSrcBmp.GetBitCount() != 32 && rSrcBmp.GetBitCount() != 24) || bForceARGB32)
+#else
+ (void)bForceARGB32;
+ if (rSrcBmp.GetBitCount() != 32)
+#endif
+ {
+ //big stupid copy here
+ const BitmapBuffer* pSrc = rSrcBmp.GetBuffer();
+ const SalTwoRect aTwoRect = { 0, 0, pSrc->mnWidth, pSrc->mnHeight,
+ 0, 0, pSrc->mnWidth, pSrc->mnHeight };
+ std::unique_ptr<BitmapBuffer> pTmp = (pSrc->mnFormat == SVP_24BIT_FORMAT
+ ? FastConvert24BitRgbTo32BitCairo(pSrc)
+ : StretchAndConvert(*pSrc, aTwoRect, SVP_CAIRO_FORMAT));
+ aTmpBmp.Create(std::move(pTmp));
+
+ assert(aTmpBmp.GetBitCount() == 32);
+ implSetSurface(SvpSalGraphics::createCairoSurface(aTmpBmp.GetBuffer()));
+ }
+ else
+ {
+ implSetSurface(SvpSalGraphics::createCairoSurface(rSrcBmp.GetBuffer()));
+ }
+ }
+ void mark_dirty()
+ {
+ cairo_surface_mark_dirty(implGetSurface());
+ }
+ unsigned char* getBits(sal_Int32 &rStride)
+ {
+ cairo_surface_flush(implGetSurface());
+
+ unsigned char *mask_data = cairo_image_surface_get_data(implGetSurface());
+
+ const cairo_format_t nFormat = cairo_image_surface_get_format(implGetSurface());
+#ifdef HAVE_CAIRO_FORMAT_RGB24_888
+ if (!m_bForceARGB32)
+ assert(nFormat == CAIRO_FORMAT_RGB24_888 && "Expected RGB24_888 image");
+ else
+#endif
+ assert(nFormat == CAIRO_FORMAT_ARGB32 && "need to implement CAIRO_FORMAT_A1 after all here");
+
+ rStride = cairo_format_stride_for_width(nFormat, cairo_image_surface_get_width(implGetSurface()));
+
+ return mask_data;
+ }
+ };
+
+ sal_Int64 estimateUsageInBytesForSurfaceHelper(const SurfaceHelper* pHelper)
+ {
+ sal_Int64 nRetval(0);
+
+ if(nullptr != pHelper)
+ {
+ cairo_surface_t* pSurface(pHelper->getSurface());
+
+ if(pSurface)
+ {
+ const long nStride(cairo_image_surface_get_stride(pSurface));
+ const long nHeight(cairo_image_surface_get_height(pSurface));
+
+ nRetval = nStride * nHeight;
+
+ // if we do downscale, size will grow by 1/4 + 1/16 + 1/32 + ...,
+ // rough estimation just multiplies by 1.25, should be good enough
+ // for estimation of buffer survival time
+ if(!bDisableDownScale)
+ {
+ nRetval = (nRetval * 5) / 4;
+ }
+ }
+ }
+
+ return nRetval;
+ }
+
+ class SystemDependentData_BitmapHelper : public basegfx::SystemDependentData
+ {
+ private:
+ std::shared_ptr<BitmapHelper> maBitmapHelper;
+
+ public:
+ SystemDependentData_BitmapHelper(
+ basegfx::SystemDependentDataManager& rSystemDependentDataManager,
+ const std::shared_ptr<BitmapHelper>& rBitmapHelper)
+ : basegfx::SystemDependentData(rSystemDependentDataManager),
+ maBitmapHelper(rBitmapHelper)
+ {
+ }
+
+ const std::shared_ptr<BitmapHelper>& getBitmapHelper() const { return maBitmapHelper; };
+ virtual sal_Int64 estimateUsageInBytes() const override;
+ };
+
+ sal_Int64 SystemDependentData_BitmapHelper::estimateUsageInBytes() const
+ {
+ return estimateUsageInBytesForSurfaceHelper(maBitmapHelper.get());
+ }
+
+ class MaskHelper : public SurfaceHelper
+ {
+ private:
+ std::unique_ptr<unsigned char[]> pAlphaBits;
+
+ public:
+ explicit MaskHelper(const SalBitmap& rAlphaBitmap)
+ : SurfaceHelper(),
+ pAlphaBits()
+ {
+ const SvpSalBitmap& rMask = static_cast<const SvpSalBitmap&>(rAlphaBitmap);
+ const BitmapBuffer* pMaskBuf = rMask.GetBuffer();
+
+ if (rAlphaBitmap.GetBitCount() == 8)
+ {
+ // the alpha values need to be inverted for Cairo
+ // so big stupid copy and invert here
+ const int nImageSize = pMaskBuf->mnHeight * pMaskBuf->mnScanlineSize;
+ pAlphaBits.reset( new unsigned char[nImageSize] );
+ memcpy(pAlphaBits.get(), pMaskBuf->mpBits, nImageSize);
+
+ // TODO: make upper layers use standard alpha
+ sal_uInt32* pLDst = reinterpret_cast<sal_uInt32*>(pAlphaBits.get());
+ for( int i = nImageSize/sizeof(sal_uInt32); --i >= 0; ++pLDst )
+ *pLDst = ~*pLDst;
+ assert(reinterpret_cast<unsigned char*>(pLDst) == pAlphaBits.get()+nImageSize);
+
+ implSetSurface(
+ cairo_image_surface_create_for_data(
+ pAlphaBits.get(),
+ CAIRO_FORMAT_A8,
+ pMaskBuf->mnWidth,
+ pMaskBuf->mnHeight,
+ pMaskBuf->mnScanlineSize));
+ }
+ else
+ {
+ // the alpha values need to be inverted for Cairo
+ // so big stupid copy and invert here
+ const int nImageSize = pMaskBuf->mnHeight * pMaskBuf->mnScanlineSize;
+ pAlphaBits.reset( new unsigned char[nImageSize] );
+ memcpy(pAlphaBits.get(), pMaskBuf->mpBits, nImageSize);
+
+ const sal_Int32 nBlackIndex = pMaskBuf->maPalette.GetBestIndex(BitmapColor(COL_BLACK));
+ if (nBlackIndex == 0)
+ {
+ // TODO: make upper layers use standard alpha
+ unsigned char* pDst = pAlphaBits.get();
+ for (int i = nImageSize; --i >= 0; ++pDst)
+ *pDst = ~*pDst;
+ }
+
+ implSetSurface(
+ cairo_image_surface_create_for_data(
+ pAlphaBits.get(),
+ CAIRO_FORMAT_A1,
+ pMaskBuf->mnWidth,
+ pMaskBuf->mnHeight,
+ pMaskBuf->mnScanlineSize));
+ }
+ }
+ };
+
+ class SystemDependentData_MaskHelper : public basegfx::SystemDependentData
+ {
+ private:
+ std::shared_ptr<MaskHelper> maMaskHelper;
+
+ public:
+ SystemDependentData_MaskHelper(
+ basegfx::SystemDependentDataManager& rSystemDependentDataManager,
+ const std::shared_ptr<MaskHelper>& rMaskHelper)
+ : basegfx::SystemDependentData(rSystemDependentDataManager),
+ maMaskHelper(rMaskHelper)
+ {
+ }
+
+ const std::shared_ptr<MaskHelper>& getMaskHelper() const { return maMaskHelper; };
+ virtual sal_Int64 estimateUsageInBytes() const override;
+ };
+
+ sal_Int64 SystemDependentData_MaskHelper::estimateUsageInBytes() const
+ {
+ return estimateUsageInBytesForSurfaceHelper(maMaskHelper.get());
+ }
+
+ // MM02 decide to use buffers or not
+ static const char* pDisableMM02Goodies(getenv("SAL_DISABLE_MM02_GOODIES"));
+ static bool bUseBuffer(nullptr == pDisableMM02Goodies);
+ static long nMinimalSquareSizeToBuffer(64*64);
+
+ void tryToUseSourceBuffer(
+ const SalBitmap& rSourceBitmap,
+ std::shared_ptr<BitmapHelper>& rSurface)
+ {
+ // MM02 try to access buffered BitmapHelper
+ std::shared_ptr<SystemDependentData_BitmapHelper> pSystemDependentData_BitmapHelper;
+ const bool bBufferSource(bUseBuffer
+ && rSourceBitmap.GetSize().Width() * rSourceBitmap.GetSize().Height() > nMinimalSquareSizeToBuffer);
+
+ if(bBufferSource)
+ {
+ const SvpSalBitmap& rSrcBmp(static_cast<const SvpSalBitmap&>(rSourceBitmap));
+ pSystemDependentData_BitmapHelper = rSrcBmp.getSystemDependentData<SystemDependentData_BitmapHelper>();
+
+ if(pSystemDependentData_BitmapHelper)
+ {
+ // reuse buffered data
+ rSurface = pSystemDependentData_BitmapHelper->getBitmapHelper();
+ }
+ }
+
+ if(!rSurface)
+ {
+ // create data on-demand
+ rSurface = std::make_shared<BitmapHelper>(rSourceBitmap);
+
+ if(bBufferSource)
+ {
+ // add to buffering mechanism to potentially reuse next time
+ const SvpSalBitmap& rSrcBmp(static_cast<const SvpSalBitmap&>(rSourceBitmap));
+ rSrcBmp.addOrReplaceSystemDependentData<SystemDependentData_BitmapHelper>(
+ ImplGetSystemDependentDataManager(),
+ rSurface);
+ }
+ }
+ }
+
+ void tryToUseMaskBuffer(
+ const SalBitmap& rMaskBitmap,
+ std::shared_ptr<MaskHelper>& rMask)
+ {
+ // MM02 try to access buffered MaskHelper
+ std::shared_ptr<SystemDependentData_MaskHelper> pSystemDependentData_MaskHelper;
+ const bool bBufferMask(bUseBuffer
+ && rMaskBitmap.GetSize().Width() * rMaskBitmap.GetSize().Height() > nMinimalSquareSizeToBuffer);
+
+ if(bBufferMask)
+ {
+ const SvpSalBitmap& rSrcBmp(static_cast<const SvpSalBitmap&>(rMaskBitmap));
+ pSystemDependentData_MaskHelper = rSrcBmp.getSystemDependentData<SystemDependentData_MaskHelper>();
+
+ if(pSystemDependentData_MaskHelper)
+ {
+ // reuse buffered data
+ rMask = pSystemDependentData_MaskHelper->getMaskHelper();
+ }
+ }
+
+ if(!rMask)
+ {
+ // create data on-demand
+ rMask = std::make_shared<MaskHelper>(rMaskBitmap);
+
+ if(bBufferMask)
+ {
+ // add to buffering mechanism to potentially reuse next time
+ const SvpSalBitmap& rSrcBmp(static_cast<const SvpSalBitmap&>(rMaskBitmap));
+ rSrcBmp.addOrReplaceSystemDependentData<SystemDependentData_MaskHelper>(
+ ImplGetSystemDependentDataManager(),
+ rMask);
+ }
+ }
+ }
+}
+
+bool SvpSalGraphics::drawAlphaBitmap( const SalTwoRect& rTR, const SalBitmap& rSourceBitmap, const SalBitmap& rAlphaBitmap )
+{
+ if (rAlphaBitmap.GetBitCount() != 8 && rAlphaBitmap.GetBitCount() != 1)
+ {
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::drawAlphaBitmap alpha depth case: " << rAlphaBitmap.GetBitCount());
+ return false;
+ }
+
+ // MM02 try to access buffered BitmapHelper
+ std::shared_ptr<BitmapHelper> aSurface;
+ tryToUseSourceBuffer(rSourceBitmap, aSurface);
+ cairo_surface_t* source = aSurface->getSurface(
+ rTR.mnDestWidth,
+ rTR.mnDestHeight);
+
+ if (!source)
+ {
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::drawAlphaBitmap case");
+ return false;
+ }
+
+ // MM02 try to access buffered MaskHelper
+ std::shared_ptr<MaskHelper> aMask;
+ tryToUseMaskBuffer(rAlphaBitmap, aMask);
+ cairo_surface_t *mask = aMask->getSurface(
+ rTR.mnDestWidth,
+ rTR.mnDestHeight);
+
+ if (!mask)
+ {
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::drawAlphaBitmap case");
+ return false;
+ }
+
+ cairo_t* cr = getCairoContext(false);
+ clipRegion(cr);
+
+ cairo_rectangle(cr, rTR.mnDestX, rTR.mnDestY, rTR.mnDestWidth, rTR.mnDestHeight);
+
+ basegfx::B2DRange extents = getClippedFillDamage(cr);
+
+ cairo_clip(cr);
+
+ cairo_pattern_t* maskpattern = cairo_pattern_create_for_surface(mask);
+ cairo_translate(cr, rTR.mnDestX, rTR.mnDestY);
+ double fXScale = static_cast<double>(rTR.mnDestWidth)/rTR.mnSrcWidth;
+ double fYScale = static_cast<double>(rTR.mnDestHeight)/rTR.mnSrcHeight;
+ cairo_scale(cr, fXScale, fYScale);
+ cairo_set_source_surface(cr, source, -rTR.mnSrcX, -rTR.mnSrcY);
+
+ //tdf#114117 when stretching a single pixel width/height source to fit an area
+ //set extend and filter to stretch it with simplest expected interpolation
+ if ((fXScale != 1.0 && rTR.mnSrcWidth == 1) || (fYScale != 1.0 && rTR.mnSrcHeight == 1))
+ {
+ cairo_pattern_t* sourcepattern = cairo_get_source(cr);
+ cairo_pattern_set_extend(sourcepattern, CAIRO_EXTEND_REPEAT);
+ cairo_pattern_set_filter(sourcepattern, CAIRO_FILTER_NEAREST);
+ cairo_pattern_set_extend(maskpattern, CAIRO_EXTEND_REPEAT);
+ cairo_pattern_set_filter(maskpattern, CAIRO_FILTER_NEAREST);
+ }
+
+ //this block is just "cairo_mask_surface", but we have to make it explicit
+ //because of the cairo_pattern_set_filter etc we may want applied
+ cairo_matrix_t matrix;
+ cairo_matrix_init_translate(&matrix, rTR.mnSrcX, rTR.mnSrcY);
+ cairo_pattern_set_matrix(maskpattern, &matrix);
+ cairo_mask(cr, maskpattern);
+
+ cairo_pattern_destroy(maskpattern);
+
+ releaseCairoContext(cr, false, extents);
+
+ return true;
+}
+
+bool SvpSalGraphics::drawTransformedBitmap(
+ const basegfx::B2DPoint& rNull,
+ const basegfx::B2DPoint& rX,
+ const basegfx::B2DPoint& rY,
+ const SalBitmap& rSourceBitmap,
+ const SalBitmap* pAlphaBitmap)
+{
+ if (pAlphaBitmap && pAlphaBitmap->GetBitCount() != 8 && pAlphaBitmap->GetBitCount() != 1)
+ {
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::drawTransformedBitmap alpha depth case: " << pAlphaBitmap->GetBitCount());
+ return false;
+ }
+
+ // MM02 try to access buffered BitmapHelper
+ std::shared_ptr<BitmapHelper> aSurface;
+ tryToUseSourceBuffer(rSourceBitmap, aSurface);
+ const long nDestWidth(basegfx::fround(basegfx::B2DVector(rX - rNull).getLength()));
+ const long nDestHeight(basegfx::fround(basegfx::B2DVector(rY - rNull).getLength()));
+ cairo_surface_t* source(
+ aSurface->getSurface(
+ nDestWidth,
+ nDestHeight));
+
+ if(!source)
+ {
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::drawTransformedBitmap case");
+ return false;
+ }
+
+ // MM02 try to access buffered MaskHelper
+ std::shared_ptr<MaskHelper> aMask;
+ if(nullptr != pAlphaBitmap)
+ {
+ tryToUseMaskBuffer(*pAlphaBitmap, aMask);
+ }
+
+ // access cairo_surface_t from MaskHelper
+ cairo_surface_t* mask(nullptr);
+ if(aMask)
+ {
+ mask = aMask->getSurface(
+ nDestWidth,
+ nDestHeight);
+ }
+
+ if(nullptr != pAlphaBitmap && nullptr == mask)
+ {
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::drawTransformedBitmap case");
+ return false;
+ }
+
+ const Size aSize = rSourceBitmap.GetSize();
+ cairo_t* cr = getCairoContext(false);
+ clipRegion(cr);
+
+ // setup the image transformation
+ // using the rNull,rX,rY points as destinations for the (0,0),(0,Width),(Height,0) source points
+ const basegfx::B2DVector aXRel = rX - rNull;
+ const basegfx::B2DVector aYRel = rY - rNull;
+ cairo_matrix_t matrix;
+ cairo_matrix_init(&matrix,
+ aXRel.getX()/aSize.Width(), aXRel.getY()/aSize.Width(),
+ aYRel.getX()/aSize.Height(), aYRel.getY()/aSize.Height(),
+ rNull.getX(), rNull.getY());
+
+ cairo_transform(cr, &matrix);
+
+ cairo_rectangle(cr, 0, 0, aSize.Width(), aSize.Height());
+ basegfx::B2DRange extents = getClippedFillDamage(cr);
+ cairo_clip(cr);
+
+ cairo_set_source_surface(cr, source, 0, 0);
+ if (mask)
+ cairo_mask_surface(cr, mask, 0, 0);
+ else
+ cairo_paint(cr);
+
+ releaseCairoContext(cr, false, extents);
+
+ return true;
+}
+
+void SvpSalGraphics::clipRegion(cairo_t* cr, const vcl::Region& rClipRegion)
+{
+ RectangleVector aRectangles;
+ if (!rClipRegion.IsEmpty())
+ {
+ rClipRegion.GetRegionRectangles(aRectangles);
+ }
+ if (!aRectangles.empty())
+ {
+ for (auto const& rectangle : aRectangles)
+ {
+ cairo_rectangle(cr, rectangle.Left(), rectangle.Top(), rectangle.GetWidth(), rectangle.GetHeight());
+ }
+ cairo_clip(cr);
+ }
+}
+
+void SvpSalGraphics::clipRegion(cairo_t* cr)
+{
+ SvpSalGraphics::clipRegion(cr, m_aClipRegion);
+}
+
+bool SvpSalGraphics::drawAlphaRect(long nX, long nY, long nWidth, long nHeight, sal_uInt8 nTransparency)
+{
+ const bool bHasFill(m_aFillColor != SALCOLOR_NONE);
+ const bool bHasLine(m_aLineColor != SALCOLOR_NONE);
+
+ if(!(bHasFill || bHasLine))
+ {
+ return true;
+ }
+
+ cairo_t* cr = getCairoContext(false);
+ clipRegion(cr);
+
+ const double fTransparency = nTransparency * (1.0/100);
+
+ // To make releaseCairoContext work, use empty extents
+ basegfx::B2DRange extents;
+
+ if (bHasFill)
+ {
+ cairo_rectangle(cr, nX, nY, nWidth, nHeight);
+
+ applyColor(cr, m_aFillColor, fTransparency);
+
+ // set FillDamage
+ extents = getClippedFillDamage(cr);
+
+ cairo_fill(cr);
+ }
+
+ if (bHasLine)
+ {
+ // PixelOffset used: Set PixelOffset as linear transformation
+ // Note: Was missing here - probably not by purpose (?)
+ cairo_matrix_t aMatrix;
+ cairo_matrix_init_translate(&aMatrix, 0.5, 0.5);
+ cairo_set_matrix(cr, &aMatrix);
+
+ cairo_rectangle(cr, nX, nY, nWidth, nHeight);
+
+ applyColor(cr, m_aLineColor, fTransparency);
+
+ // expand with possible StrokeDamage
+ basegfx::B2DRange stroke_extents = getClippedStrokeDamage(cr);
+ stroke_extents.transform(basegfx::utils::createTranslateB2DHomMatrix(0.5, 0.5));
+ extents.expand(stroke_extents);
+
+ cairo_stroke(cr);
+ }
+
+ releaseCairoContext(cr, false, extents);
+
+ return true;
+}
+
+SvpSalGraphics::SvpSalGraphics()
+ : m_pSurface(nullptr)
+ , m_fScale(1.0)
+ , m_aLineColor(Color(0x00, 0x00, 0x00))
+ , m_aFillColor(Color(0xFF, 0xFF, 0XFF))
+ , m_ePaintMode(PaintMode::Over)
+ , m_aTextRenderImpl(*this)
+{
+ bool bLOKActive = comphelper::LibreOfficeKit::isActive();
+ if (!initWidgetDrawBackends(bLOKActive))
+ {
+ if (bLOKActive)
+ m_pWidgetDraw.reset(new vcl::CustomWidgetDraw(*this));
+ }
+}
+
+SvpSalGraphics::~SvpSalGraphics()
+{
+ ReleaseFonts();
+}
+
+void SvpSalGraphics::setSurface(cairo_surface_t* pSurface, const basegfx::B2IVector& rSize)
+{
+ m_pSurface = pSurface;
+ m_aFrameSize = rSize;
+ dl_cairo_surface_get_device_scale(pSurface, &m_fScale, nullptr);
+ ResetClipRegion();
+}
+
+void SvpSalGraphics::GetResolution( sal_Int32& rDPIX, sal_Int32& rDPIY )
+{
+ rDPIX = rDPIY = 96;
+}
+
+sal_uInt16 SvpSalGraphics::GetBitCount() const
+{
+ if (cairo_surface_get_content(m_pSurface) != CAIRO_CONTENT_COLOR_ALPHA)
+ return 1;
+ return 32;
+}
+
+long SvpSalGraphics::GetGraphicsWidth() const
+{
+ return m_pSurface ? m_aFrameSize.getX() : 0;
+}
+
+void SvpSalGraphics::ResetClipRegion()
+{
+ m_aClipRegion.SetNull();
+}
+
+bool SvpSalGraphics::setClipRegion( const vcl::Region& i_rClip )
+{
+ m_aClipRegion = i_rClip;
+ return true;
+}
+
+void SvpSalGraphics::SetLineColor()
+{
+ m_aLineColor = SALCOLOR_NONE;
+}
+
+void SvpSalGraphics::SetLineColor( Color nColor )
+{
+ m_aLineColor = nColor;
+}
+
+void SvpSalGraphics::SetFillColor()
+{
+ m_aFillColor = SALCOLOR_NONE;
+}
+
+void SvpSalGraphics::SetFillColor( Color nColor )
+{
+ m_aFillColor = nColor;
+}
+
+void SvpSalGraphics::SetXORMode(bool bSet, bool )
+{
+ m_ePaintMode = bSet ? PaintMode::Xor : PaintMode::Over;
+}
+
+void SvpSalGraphics::SetROPLineColor( SalROPColor nROPColor )
+{
+ switch( nROPColor )
+ {
+ case SalROPColor::N0:
+ m_aLineColor = Color(0, 0, 0);
+ break;
+ case SalROPColor::N1:
+ m_aLineColor = Color(0xff, 0xff, 0xff);
+ break;
+ case SalROPColor::Invert:
+ m_aLineColor = Color(0xff, 0xff, 0xff);
+ break;
+ }
+}
+
+void SvpSalGraphics::SetROPFillColor( SalROPColor nROPColor )
+{
+ switch( nROPColor )
+ {
+ case SalROPColor::N0:
+ m_aFillColor = Color(0, 0, 0);
+ break;
+ case SalROPColor::N1:
+ m_aFillColor = Color(0xff, 0xff, 0xff);
+ break;
+ case SalROPColor::Invert:
+ m_aFillColor = Color(0xff, 0xff, 0xff);
+ break;
+ }
+}
+
+void SvpSalGraphics::drawPixel( long nX, long nY )
+{
+ if (m_aLineColor != SALCOLOR_NONE)
+ {
+ drawPixel(nX, nY, m_aLineColor);
+ }
+}
+
+void SvpSalGraphics::drawPixel( long nX, long nY, Color aColor )
+{
+ cairo_t* cr = getCairoContext(true);
+ clipRegion(cr);
+
+ cairo_rectangle(cr, nX, nY, 1, 1);
+ applyColor(cr, aColor, 0.0);
+ cairo_fill(cr);
+
+ basegfx::B2DRange extents = getClippedFillDamage(cr);
+ releaseCairoContext(cr, true, extents);
+}
+
+void SvpSalGraphics::drawRect( long nX, long nY, long nWidth, long nHeight )
+{
+ // because of the -1 hack we have to do fill and draw separately
+ Color aOrigFillColor = m_aFillColor;
+ Color aOrigLineColor = m_aLineColor;
+ m_aFillColor = SALCOLOR_NONE;
+ m_aLineColor = SALCOLOR_NONE;
+
+ if (aOrigFillColor != SALCOLOR_NONE)
+ {
+ basegfx::B2DPolygon aRect = basegfx::utils::createPolygonFromRect(basegfx::B2DRectangle(nX, nY, nX+nWidth, nY+nHeight));
+ m_aFillColor = aOrigFillColor;
+
+ drawPolyPolygon(
+ basegfx::B2DHomMatrix(),
+ basegfx::B2DPolyPolygon(aRect),
+ 0.0);
+
+ m_aFillColor = SALCOLOR_NONE;
+ }
+
+ if (aOrigLineColor != SALCOLOR_NONE)
+ {
+ // need same -1 hack as X11SalGraphicsImpl::drawRect
+ basegfx::B2DPolygon aRect = basegfx::utils::createPolygonFromRect(basegfx::B2DRectangle( nX, nY, nX+nWidth-1, nY+nHeight-1));
+ m_aLineColor = aOrigLineColor;
+
+ drawPolyPolygon(
+ basegfx::B2DHomMatrix(),
+ basegfx::B2DPolyPolygon(aRect),
+ 0.0);
+
+ m_aLineColor = SALCOLOR_NONE;
+ }
+
+ m_aFillColor = aOrigFillColor;
+ m_aLineColor = aOrigLineColor;
+}
+
+void SvpSalGraphics::drawPolyLine(sal_uInt32 nPoints, const SalPoint* pPtAry)
+{
+ basegfx::B2DPolygon aPoly;
+ aPoly.append(basegfx::B2DPoint(pPtAry->mnX, pPtAry->mnY), nPoints);
+ for (sal_uInt32 i = 1; i < nPoints; ++i)
+ aPoly.setB2DPoint(i, basegfx::B2DPoint(pPtAry[i].mnX, pPtAry[i].mnY));
+ aPoly.setClosed(false);
+
+ drawPolyLine(
+ basegfx::B2DHomMatrix(),
+ aPoly,
+ 0.0,
+ 1.0,
+ nullptr, // MM01
+ basegfx::B2DLineJoin::Miter,
+ css::drawing::LineCap_BUTT,
+ basegfx::deg2rad(15.0) /*default*/,
+ false);
+}
+
+void SvpSalGraphics::drawPolygon(sal_uInt32 nPoints, const SalPoint* pPtAry)
+{
+ basegfx::B2DPolygon aPoly;
+ aPoly.append(basegfx::B2DPoint(pPtAry->mnX, pPtAry->mnY), nPoints);
+ for (sal_uInt32 i = 1; i < nPoints; ++i)
+ aPoly.setB2DPoint(i, basegfx::B2DPoint(pPtAry[i].mnX, pPtAry[i].mnY));
+
+ drawPolyPolygon(
+ basegfx::B2DHomMatrix(),
+ basegfx::B2DPolyPolygon(aPoly),
+ 0.0);
+}
+
+void SvpSalGraphics::drawPolyPolygon(sal_uInt32 nPoly,
+ const sal_uInt32* pPointCounts,
+ PCONSTSALPOINT* pPtAry)
+{
+ basegfx::B2DPolyPolygon aPolyPoly;
+ for(sal_uInt32 nPolygon = 0; nPolygon < nPoly; ++nPolygon)
+ {
+ sal_uInt32 nPoints = pPointCounts[nPolygon];
+ if (nPoints)
+ {
+ PCONSTSALPOINT pPoints = pPtAry[nPolygon];
+ basegfx::B2DPolygon aPoly;
+ aPoly.append( basegfx::B2DPoint(pPoints->mnX, pPoints->mnY), nPoints);
+ for (sal_uInt32 i = 1; i < nPoints; ++i)
+ aPoly.setB2DPoint(i, basegfx::B2DPoint( pPoints[i].mnX, pPoints[i].mnY));
+
+ aPolyPoly.append(aPoly);
+ }
+ }
+
+ drawPolyPolygon(
+ basegfx::B2DHomMatrix(),
+ aPolyPoly,
+ 0.0);
+}
+
+static basegfx::B2DPoint impPixelSnap(
+ const basegfx::B2DPolygon& rPolygon,
+ const basegfx::B2DHomMatrix& rObjectToDevice,
+ basegfx::B2DHomMatrix& rObjectToDeviceInv,
+ sal_uInt32 nIndex)
+{
+ const sal_uInt32 nCount(rPolygon.count());
+
+ // get the data
+ const basegfx::B2ITuple aPrevTuple(basegfx::fround(rObjectToDevice * rPolygon.getB2DPoint((nIndex + nCount - 1) % nCount)));
+ const basegfx::B2DPoint aCurrPoint(rObjectToDevice * rPolygon.getB2DPoint(nIndex));
+ const basegfx::B2ITuple aCurrTuple(basegfx::fround(aCurrPoint));
+ const basegfx::B2ITuple aNextTuple(basegfx::fround(rObjectToDevice * rPolygon.getB2DPoint((nIndex + 1) % nCount)));
+
+ // get the states
+ const bool bPrevVertical(aPrevTuple.getX() == aCurrTuple.getX());
+ const bool bNextVertical(aNextTuple.getX() == aCurrTuple.getX());
+ const bool bPrevHorizontal(aPrevTuple.getY() == aCurrTuple.getY());
+ const bool bNextHorizontal(aNextTuple.getY() == aCurrTuple.getY());
+ const bool bSnapX(bPrevVertical || bNextVertical);
+ const bool bSnapY(bPrevHorizontal || bNextHorizontal);
+
+ if(bSnapX || bSnapY)
+ {
+ basegfx::B2DPoint aSnappedPoint(
+ bSnapX ? aCurrTuple.getX() : aCurrPoint.getX(),
+ bSnapY ? aCurrTuple.getY() : aCurrPoint.getY());
+
+ if(rObjectToDeviceInv.isIdentity())
+ {
+ rObjectToDeviceInv = rObjectToDevice;
+ rObjectToDeviceInv.invert();
+ }
+
+ aSnappedPoint *= rObjectToDeviceInv;
+
+ return aSnappedPoint;
+ }
+
+ return rPolygon.getB2DPoint(nIndex);
+}
+
+// Remove bClosePath: Checked that the already used mechanism for Win using
+// Gdiplus already relies on rPolygon.isClosed(), so should be safe to replace
+// this.
+// For PixelSnap we need the ObjectToDevice transformation here now. This is a
+// special case relative to the also executed LineDraw-Offset of (0.5, 0.5) in
+// DeviceCoordinates: The LineDraw-Offset is applied *after* the snap, so we
+// need the ObjectToDevice transformation *without* that offset here to do the
+// same. The LineDraw-Offset will be applied by the callers using a linear
+// transformation for Cairo now
+// For support of PixelSnapHairline we also need the ObjectToDevice transformation
+// and a method (same as in gdiimpl.cxx for Win and Gdiplus). This is needed e.g.
+// for Chart-content visualization. CAUTION: It's not the same as PixelSnap (!)
+// tdf#129845 add reply value to allow counting a point/byte/size measurement to
+// be included
+static size_t AddPolygonToPath(
+ cairo_t* cr,
+ const basegfx::B2DPolygon& rPolygon,
+ const basegfx::B2DHomMatrix& rObjectToDevice,
+ bool bPixelSnap,
+ bool bPixelSnapHairline)
+{
+ // short circuit if there is nothing to do
+ const sal_uInt32 nPointCount(rPolygon.count());
+ size_t nSizeMeasure(0);
+
+ if(0 == nPointCount)
+ {
+ return nSizeMeasure;
+ }
+
+ const bool bHasCurves(rPolygon.areControlPointsUsed());
+ const bool bClosePath(rPolygon.isClosed());
+ const bool bObjectToDeviceUsed(!rObjectToDevice.isIdentity());
+ basegfx::B2DHomMatrix aObjectToDeviceInv;
+ basegfx::B2DPoint aLast;
+
+ for( sal_uInt32 nPointIdx = 0, nPrevIdx = 0;; nPrevIdx = nPointIdx++ )
+ {
+ int nClosedIdx = nPointIdx;
+ if( nPointIdx >= nPointCount )
+ {
+ // prepare to close last curve segment if needed
+ if( bClosePath && (nPointIdx == nPointCount) )
+ {
+ nClosedIdx = 0;
+ }
+ else
+ {
+ break;
+ }
+ }
+
+ basegfx::B2DPoint aPoint(rPolygon.getB2DPoint(nClosedIdx));
+
+ if(bPixelSnap)
+ {
+ // snap device coordinates to full pixels
+ if(bObjectToDeviceUsed)
+ {
+ // go to DeviceCoordinates
+ aPoint *= rObjectToDevice;
+ }
+
+ // snap by rounding
+ aPoint.setX( basegfx::fround( aPoint.getX() ) );
+ aPoint.setY( basegfx::fround( aPoint.getY() ) );
+
+ if(bObjectToDeviceUsed)
+ {
+ if(aObjectToDeviceInv.isIdentity())
+ {
+ aObjectToDeviceInv = rObjectToDevice;
+ aObjectToDeviceInv.invert();
+ }
+
+ // go back to ObjectCoordinates
+ aPoint *= aObjectToDeviceInv;
+ }
+ }
+
+ if(bPixelSnapHairline)
+ {
+ // snap horizontal and vertical lines (mainly used in Chart for
+ // 'nicer' AAing)
+ aPoint = impPixelSnap(rPolygon, rObjectToDevice, aObjectToDeviceInv, nClosedIdx);
+ }
+
+ if( !nPointIdx )
+ {
+ // first point => just move there
+ cairo_move_to(cr, aPoint.getX(), aPoint.getY());
+ aLast = aPoint;
+ continue;
+ }
+
+ bool bPendingCurve(false);
+
+ if( bHasCurves )
+ {
+ bPendingCurve = rPolygon.isNextControlPointUsed( nPrevIdx );
+ bPendingCurve |= rPolygon.isPrevControlPointUsed( nClosedIdx );
+ }
+
+ if( !bPendingCurve ) // line segment
+ {
+ cairo_line_to(cr, aPoint.getX(), aPoint.getY());
+ nSizeMeasure++;
+ }
+ else // cubic bezier segment
+ {
+ basegfx::B2DPoint aCP1 = rPolygon.getNextControlPoint( nPrevIdx );
+ basegfx::B2DPoint aCP2 = rPolygon.getPrevControlPoint( nClosedIdx );
+
+ // tdf#99165 if the control points are 'empty', create the mathematical
+ // correct replacement ones to avoid problems with the graphical sub-system
+ // tdf#101026 The 1st attempt to create a mathematically correct replacement control
+ // vector was wrong. Best alternative is one as close as possible which means short.
+ if (aCP1.equal(aLast))
+ {
+ aCP1 = aLast + ((aCP2 - aLast) * 0.0005);
+ }
+
+ if(aCP2.equal(aPoint))
+ {
+ aCP2 = aPoint + ((aCP1 - aPoint) * 0.0005);
+ }
+
+ cairo_curve_to(cr, aCP1.getX(), aCP1.getY(), aCP2.getX(), aCP2.getY(),
+ aPoint.getX(), aPoint.getY());
+ // take some bigger measure for curve segments - too expensive to subdivide
+ // here and that precision not needed, but four (2 points, 2 control-points)
+ // would be a too low weight
+ nSizeMeasure += 10;
+ }
+
+ aLast = aPoint;
+ }
+
+ if( bClosePath )
+ {
+ cairo_close_path(cr);
+ }
+
+ return nSizeMeasure;
+}
+
+void SvpSalGraphics::drawLine( long nX1, long nY1, long nX2, long nY2 )
+{
+ basegfx::B2DPolygon aPoly;
+
+ // PixelOffset used: To not mix with possible PixelSnap, cannot do
+ // directly on coordinates as tried before - despite being already 'snapped'
+ // due to being integer. If it would be directly added here, it would be
+ // 'snapped' again when !getAntiAliasB2DDraw(), losing the (0.5, 0.5) offset
+ aPoly.append(basegfx::B2DPoint(nX1, nY1));
+ aPoly.append(basegfx::B2DPoint(nX2, nY2));
+
+ cairo_t* cr = getCairoContext(false);
+ clipRegion(cr);
+
+ // PixelOffset used: Set PixelOffset as linear transformation
+ cairo_matrix_t aMatrix;
+ cairo_matrix_init_translate(&aMatrix, 0.5, 0.5);
+ cairo_set_matrix(cr, &aMatrix);
+
+ AddPolygonToPath(
+ cr,
+ aPoly,
+ basegfx::B2DHomMatrix(),
+ !getAntiAliasB2DDraw(),
+ false);
+
+ applyColor(cr, m_aLineColor);
+
+ basegfx::B2DRange extents = getClippedStrokeDamage(cr);
+ extents.transform(basegfx::utils::createTranslateB2DHomMatrix(0.5, 0.5));
+
+ cairo_stroke(cr);
+
+ releaseCairoContext(cr, false, extents);
+}
+
+namespace {
+
+class SystemDependentData_CairoPath : public basegfx::SystemDependentData
+{
+private:
+ // the path data itself
+ cairo_path_t* mpCairoPath;
+
+ // all other values the path data is based on and
+ // need to be compared with to check for data validity
+ bool mbNoJoin;
+ bool mbAntiAliasB2DDraw;
+ std::vector< double > maStroke;
+
+public:
+ SystemDependentData_CairoPath(
+ basegfx::SystemDependentDataManager& rSystemDependentDataManager,
+ size_t nSizeMeasure,
+ cairo_t* cr,
+ bool bNoJoin,
+ bool bAntiAliasB2DDraw,
+ const std::vector< double >* pStroke); // MM01
+ virtual ~SystemDependentData_CairoPath() override;
+
+ // read access
+ cairo_path_t* getCairoPath() { return mpCairoPath; }
+ bool getNoJoin() const { return mbNoJoin; }
+ bool getAntiAliasB2DDraw() const { return mbAntiAliasB2DDraw; }
+ const std::vector< double >& getStroke() const { return maStroke; }
+
+ virtual sal_Int64 estimateUsageInBytes() const override;
+};
+
+}
+
+SystemDependentData_CairoPath::SystemDependentData_CairoPath(
+ basegfx::SystemDependentDataManager& rSystemDependentDataManager,
+ size_t nSizeMeasure,
+ cairo_t* cr,
+ bool bNoJoin,
+ bool bAntiAliasB2DDraw,
+ const std::vector< double >* pStroke)
+: basegfx::SystemDependentData(rSystemDependentDataManager),
+ mpCairoPath(nullptr),
+ mbNoJoin(bNoJoin),
+ mbAntiAliasB2DDraw(bAntiAliasB2DDraw),
+ maStroke()
+{
+ // tdf#129845 only create a copy of the path when nSizeMeasure is
+ // bigger than some decent threshold
+ if(nSizeMeasure > 50)
+ {
+ mpCairoPath = cairo_copy_path(cr);
+
+ if(nullptr != pStroke)
+ {
+ maStroke = *pStroke;
+ }
+ }
+}
+
+SystemDependentData_CairoPath::~SystemDependentData_CairoPath()
+{
+ if(nullptr != mpCairoPath)
+ {
+ cairo_path_destroy(mpCairoPath);
+ mpCairoPath = nullptr;
+ }
+}
+
+sal_Int64 SystemDependentData_CairoPath::estimateUsageInBytes() const
+{
+ // tdf#129845 by using the default return value of zero when no path
+ // was created, SystemDependentData::calculateCombinedHoldCyclesInSeconds
+ // will do the right thing and not buffer this entry at all
+ sal_Int64 nRetval(0);
+
+ if(nullptr != mpCairoPath)
+ {
+ // per node
+ // - num_data incarnations of
+ // - sizeof(cairo_path_data_t) which is a union of defines and point data
+ // thus may 2 x sizeof(double)
+ nRetval = mpCairoPath->num_data * sizeof(cairo_path_data_t);
+ }
+
+ return nRetval;
+}
+
+bool SvpSalGraphics::drawPolyLine(
+ const basegfx::B2DHomMatrix& rObjectToDevice,
+ const basegfx::B2DPolygon& rPolyLine,
+ double fTransparency,
+ double fLineWidth,
+ const std::vector< double >* pStroke, // MM01
+ basegfx::B2DLineJoin eLineJoin,
+ css::drawing::LineCap eLineCap,
+ double fMiterMinimumAngle,
+ bool bPixelSnapHairline)
+{
+ // short circuit if there is nothing to do
+ if(0 == rPolyLine.count() || fTransparency < 0.0 || fTransparency >= 1.0)
+ {
+ return true;
+ }
+
+ // Wrap call to static version of ::drawPolyLine by
+ // preparing/getting some local data and parameters
+ // due to usage in vcl/unx/generic/gdi/salgdi.cxx.
+ // This is mainly about extended handling of extents
+ // and the way destruction of CairoContext is handled
+ // due to current XOR stuff
+ cairo_t* cr = getCairoContext(false);
+ basegfx::B2DRange aExtents;
+ clipRegion(cr);
+
+ bool bRetval(
+ drawPolyLine(
+ cr,
+ &aExtents,
+ m_aLineColor,
+ getAntiAliasB2DDraw(),
+ rObjectToDevice,
+ rPolyLine,
+ fTransparency,
+ fLineWidth,
+ pStroke, // MM01
+ eLineJoin,
+ eLineCap,
+ fMiterMinimumAngle,
+ bPixelSnapHairline));
+
+ releaseCairoContext(cr, false, aExtents);
+
+ return bRetval;
+}
+
+bool SvpSalGraphics::drawPolyLine(
+ cairo_t* cr,
+ basegfx::B2DRange* pExtents,
+ const Color& rLineColor,
+ bool bAntiAliasB2DDraw,
+ const basegfx::B2DHomMatrix& rObjectToDevice,
+ const basegfx::B2DPolygon& rPolyLine,
+ double fTransparency,
+ double fLineWidth,
+ const std::vector< double >* pStroke, // MM01
+ basegfx::B2DLineJoin eLineJoin,
+ css::drawing::LineCap eLineCap,
+ double fMiterMinimumAngle,
+ bool bPixelSnapHairline)
+{
+ // short circuit if there is nothing to do
+ if(0 == rPolyLine.count() || fTransparency < 0.0 || fTransparency >= 1.0)
+ {
+ return true;
+ }
+
+ // need to check/handle LineWidth when ObjectToDevice transformation is used
+ const bool bObjectToDeviceIsIdentity(rObjectToDevice.isIdentity());
+
+ // tdf#124848 calculate-back logical LineWidth for a hairline
+ // since this implementation hands over the transformation to
+ // the graphic sub-system
+ if(fLineWidth == 0)
+ {
+ fLineWidth = 1.0;
+
+ if(!bObjectToDeviceIsIdentity)
+ {
+ basegfx::B2DHomMatrix aObjectToDeviceInv(rObjectToDevice);
+ aObjectToDeviceInv.invert();
+ fLineWidth = (aObjectToDeviceInv * basegfx::B2DVector(fLineWidth, 0)).getLength();
+ }
+ }
+
+ // PixelOffset used: Need to reflect in linear transformation
+ cairo_matrix_t aMatrix;
+ basegfx::B2DHomMatrix aDamageMatrix(basegfx::utils::createTranslateB2DHomMatrix(0.5, 0.5));
+
+ if (bObjectToDeviceIsIdentity)
+ {
+ // Set PixelOffset as requested
+ cairo_matrix_init_translate(&aMatrix, 0.5, 0.5);
+ }
+ else
+ {
+ // Prepare ObjectToDevice transformation. Take PixelOffset for Lines into
+ // account: Multiply from left to act in DeviceCoordinates
+ aDamageMatrix = aDamageMatrix * rObjectToDevice;
+ cairo_matrix_init(
+ &aMatrix,
+ aDamageMatrix.get( 0, 0 ),
+ aDamageMatrix.get( 1, 0 ),
+ aDamageMatrix.get( 0, 1 ),
+ aDamageMatrix.get( 1, 1 ),
+ aDamageMatrix.get( 0, 2 ),
+ aDamageMatrix.get( 1, 2 ));
+ }
+
+ // set linear transformation
+ cairo_set_matrix(cr, &aMatrix);
+
+ // setup line attributes
+ cairo_line_join_t eCairoLineJoin = CAIRO_LINE_JOIN_MITER;
+ switch (eLineJoin)
+ {
+ case basegfx::B2DLineJoin::Bevel:
+ eCairoLineJoin = CAIRO_LINE_JOIN_BEVEL;
+ break;
+ case basegfx::B2DLineJoin::Round:
+ eCairoLineJoin = CAIRO_LINE_JOIN_ROUND;
+ break;
+ case basegfx::B2DLineJoin::NONE:
+ case basegfx::B2DLineJoin::Miter:
+ eCairoLineJoin = CAIRO_LINE_JOIN_MITER;
+ break;
+ }
+
+ // convert miter minimum angle to miter limit
+ double fMiterLimit = 1.0 / sin( fMiterMinimumAngle / 2.0);
+
+ // setup cap attribute
+ cairo_line_cap_t eCairoLineCap(CAIRO_LINE_CAP_BUTT);
+
+ switch (eLineCap)
+ {
+ default: // css::drawing::LineCap_BUTT:
+ {
+ eCairoLineCap = CAIRO_LINE_CAP_BUTT;
+ break;
+ }
+ case css::drawing::LineCap_ROUND:
+ {
+ eCairoLineCap = CAIRO_LINE_CAP_ROUND;
+ break;
+ }
+ case css::drawing::LineCap_SQUARE:
+ {
+ eCairoLineCap = CAIRO_LINE_CAP_SQUARE;
+ break;
+ }
+ }
+
+ cairo_set_source_rgba(
+ cr,
+ rLineColor.GetRed()/255.0,
+ rLineColor.GetGreen()/255.0,
+ rLineColor.GetBlue()/255.0,
+ 1.0-fTransparency);
+
+ cairo_set_line_join(cr, eCairoLineJoin);
+ cairo_set_line_cap(cr, eCairoLineCap);
+ cairo_set_line_width(cr, fLineWidth);
+ cairo_set_miter_limit(cr, fMiterLimit);
+
+ // try to access buffered data
+ std::shared_ptr<SystemDependentData_CairoPath> pSystemDependentData_CairoPath(
+ rPolyLine.getSystemDependentData<SystemDependentData_CairoPath>());
+
+ // MM01 need to do line dashing as fallback stuff here now
+ const double fDotDashLength(nullptr != pStroke ? std::accumulate(pStroke->begin(), pStroke->end(), 0.0) : 0.0);
+ const bool bStrokeUsed(0.0 != fDotDashLength);
+ assert(!bStrokeUsed || (bStrokeUsed && pStroke));
+
+ // MM01 decide if to stroke directly
+ static bool bDoDirectCairoStroke(true);
+
+ // MM01 activate to stroke directly
+ if(bDoDirectCairoStroke && bStrokeUsed)
+ {
+ cairo_set_dash(cr, pStroke->data(), pStroke->size(), 0.0);
+ }
+
+ if(!bDoDirectCairoStroke && pSystemDependentData_CairoPath)
+ {
+ // MM01 - check on stroke change. Used against not used, or if both used,
+ // equal or different?
+ const bool bStrokeWasUsed(!pSystemDependentData_CairoPath->getStroke().empty());
+
+ if(bStrokeWasUsed != bStrokeUsed
+ || (bStrokeUsed && *pStroke != pSystemDependentData_CairoPath->getStroke()))
+ {
+ // data invalid, forget
+ pSystemDependentData_CairoPath.reset();
+ }
+ }
+
+ // check for basegfx::B2DLineJoin::NONE to react accordingly
+ const bool bNoJoin((basegfx::B2DLineJoin::NONE == eLineJoin
+ && basegfx::fTools::more(fLineWidth, 0.0)));
+
+ if(pSystemDependentData_CairoPath)
+ {
+ // check data validity
+ if(nullptr == pSystemDependentData_CairoPath->getCairoPath()
+ || pSystemDependentData_CairoPath->getNoJoin() != bNoJoin
+ || pSystemDependentData_CairoPath->getAntiAliasB2DDraw() != bAntiAliasB2DDraw
+ || bPixelSnapHairline /*tdf#124700*/ )
+ {
+ // data invalid, forget
+ pSystemDependentData_CairoPath.reset();
+ }
+ }
+
+ if(pSystemDependentData_CairoPath)
+ {
+ // re-use data
+ cairo_append_path(cr, pSystemDependentData_CairoPath->getCairoPath());
+ }
+ else
+ {
+ // create data
+ size_t nSizeMeasure(0);
+
+ // MM01 need to do line dashing as fallback stuff here now
+ basegfx::B2DPolyPolygon aPolyPolygonLine;
+
+ if(!bDoDirectCairoStroke && bStrokeUsed)
+ {
+ // apply LineStyle
+ basegfx::utils::applyLineDashing(
+ rPolyLine, // source
+ *pStroke, // pattern
+ &aPolyPolygonLine, // target for lines
+ nullptr, // target for gaps
+ fDotDashLength); // full length if available
+ }
+ else
+ {
+ // no line dashing or direct stroke, just copy
+ aPolyPolygonLine.append(rPolyLine);
+ }
+
+ // MM01 checked/verified for Cairo
+ for(sal_uInt32 a(0); a < aPolyPolygonLine.count(); a++)
+ {
+ const basegfx::B2DPolygon aPolyLine(aPolyPolygonLine.getB2DPolygon(a));
+
+ if (!bNoJoin)
+ {
+ // PixelOffset now reflected in linear transformation used
+ nSizeMeasure += AddPolygonToPath(
+ cr,
+ aPolyLine,
+ rObjectToDevice, // ObjectToDevice *without* LineDraw-Offset
+ !bAntiAliasB2DDraw,
+ bPixelSnapHairline);
+ }
+ else
+ {
+ const sal_uInt32 nPointCount(aPolyLine.count());
+ const sal_uInt32 nEdgeCount(aPolyLine.isClosed() ? nPointCount : nPointCount - 1);
+ basegfx::B2DPolygon aEdge;
+
+ aEdge.append(aPolyLine.getB2DPoint(0));
+ aEdge.append(basegfx::B2DPoint(0.0, 0.0));
+
+ for (sal_uInt32 i(0); i < nEdgeCount; i++)
+ {
+ const sal_uInt32 nNextIndex((i + 1) % nPointCount);
+ aEdge.setB2DPoint(1, aPolyLine.getB2DPoint(nNextIndex));
+ aEdge.setNextControlPoint(0, aPolyLine.getNextControlPoint(i));
+ aEdge.setPrevControlPoint(1, aPolyLine.getPrevControlPoint(nNextIndex));
+
+ // PixelOffset now reflected in linear transformation used
+ nSizeMeasure += AddPolygonToPath(
+ cr,
+ aEdge,
+ rObjectToDevice, // ObjectToDevice *without* LineDraw-Offset
+ !bAntiAliasB2DDraw,
+ bPixelSnapHairline);
+
+ // prepare next step
+ aEdge.setB2DPoint(0, aEdge.getB2DPoint(1));
+ }
+ }
+ }
+
+ // copy and add to buffering mechanism
+ if (!bPixelSnapHairline /*tdf#124700*/)
+ {
+ pSystemDependentData_CairoPath = rPolyLine.addOrReplaceSystemDependentData<SystemDependentData_CairoPath>(
+ ImplGetSystemDependentDataManager(),
+ nSizeMeasure,
+ cr,
+ bNoJoin,
+ bAntiAliasB2DDraw,
+ pStroke);
+ }
+ }
+
+ // extract extents
+ if (pExtents)
+ {
+ *pExtents = getClippedStrokeDamage(cr);
+ // transform also extents (ranges) of damage so they can be correctly redrawn
+ pExtents->transform(aDamageMatrix);
+ }
+
+ // draw and consume
+ cairo_stroke(cr);
+
+ return true;
+}
+
+bool SvpSalGraphics::drawPolyLineBezier( sal_uInt32,
+ const SalPoint*,
+ const PolyFlags* )
+{
+ SAL_INFO("vcl.gdi", "unsupported SvpSalGraphics::drawPolyLineBezier case");
+ return false;
+}
+
+bool SvpSalGraphics::drawPolygonBezier( sal_uInt32,
+ const SalPoint*,
+ const PolyFlags* )
+{
+ SAL_INFO("vcl.gdi", "unsupported SvpSalGraphics::drawPolygonBezier case");
+ return false;
+}
+
+bool SvpSalGraphics::drawPolyPolygonBezier( sal_uInt32,
+ const sal_uInt32*,
+ const SalPoint* const*,
+ const PolyFlags* const* )
+{
+ SAL_INFO("vcl.gdi", "unsupported SvpSalGraphics::drawPolyPolygonBezier case");
+ return false;
+}
+
+namespace
+{
+ void add_polygon_path(cairo_t* cr, const basegfx::B2DPolyPolygon& rPolyPolygon, const basegfx::B2DHomMatrix& rObjectToDevice, bool bPixelSnap)
+ {
+ // try to access buffered data
+ std::shared_ptr<SystemDependentData_CairoPath> pSystemDependentData_CairoPath(
+ rPolyPolygon.getSystemDependentData<SystemDependentData_CairoPath>());
+
+ if(pSystemDependentData_CairoPath)
+ {
+ // re-use data
+ cairo_append_path(cr, pSystemDependentData_CairoPath->getCairoPath());
+ }
+ else
+ {
+ // create data
+ size_t nSizeMeasure(0);
+
+ for (const auto & rPoly : rPolyPolygon)
+ {
+ // PixelOffset used: Was dependent of 'm_aLineColor != SALCOLOR_NONE'
+ // Adapt setupPolyPolygon-users to set a linear transformation to achieve PixelOffset
+ nSizeMeasure += AddPolygonToPath(
+ cr,
+ rPoly,
+ rObjectToDevice,
+ bPixelSnap,
+ false);
+ }
+
+ // copy and add to buffering mechanism
+ // for decisions how/what to buffer, see Note in WinSalGraphicsImpl::drawPolyPolygon
+ pSystemDependentData_CairoPath = rPolyPolygon.addOrReplaceSystemDependentData<SystemDependentData_CairoPath>(
+ ImplGetSystemDependentDataManager(),
+ nSizeMeasure,
+ cr,
+ false,
+ false,
+ nullptr);
+ }
+ }
+}
+
+bool SvpSalGraphics::drawPolyPolygon(
+ const basegfx::B2DHomMatrix& rObjectToDevice,
+ const basegfx::B2DPolyPolygon& rPolyPolygon,
+ double fTransparency)
+{
+ const bool bHasFill(m_aFillColor != SALCOLOR_NONE);
+ const bool bHasLine(m_aLineColor != SALCOLOR_NONE);
+
+ if(0 == rPolyPolygon.count() || !(bHasFill || bHasLine) || fTransparency < 0.0 || fTransparency >= 1.0)
+ {
+ return true;
+ }
+
+ cairo_t* cr = getCairoContext(true);
+ clipRegion(cr);
+
+ // Set full (Object-to-Device) transformation - if used
+ if(!rObjectToDevice.isIdentity())
+ {
+ cairo_matrix_t aMatrix;
+
+ cairo_matrix_init(
+ &aMatrix,
+ rObjectToDevice.get( 0, 0 ),
+ rObjectToDevice.get( 1, 0 ),
+ rObjectToDevice.get( 0, 1 ),
+ rObjectToDevice.get( 1, 1 ),
+ rObjectToDevice.get( 0, 2 ),
+ rObjectToDevice.get( 1, 2 ));
+ cairo_set_matrix(cr, &aMatrix);
+ }
+
+ // To make releaseCairoContext work, use empty extents
+ basegfx::B2DRange extents;
+
+ if (bHasFill)
+ {
+ add_polygon_path(cr, rPolyPolygon, rObjectToDevice, !getAntiAliasB2DDraw());
+
+ applyColor(cr, m_aFillColor, fTransparency);
+ // Get FillDamage (will be extended for LineDamage below)
+ extents = getClippedFillDamage(cr);
+
+ cairo_fill(cr);
+ }
+
+ if (bHasLine)
+ {
+ // PixelOffset used: Set PixelOffset as linear transformation
+ cairo_matrix_t aMatrix;
+ cairo_matrix_init_translate(&aMatrix, 0.5, 0.5);
+ cairo_set_matrix(cr, &aMatrix);
+
+ add_polygon_path(cr, rPolyPolygon, rObjectToDevice, !getAntiAliasB2DDraw());
+
+ applyColor(cr, m_aLineColor, fTransparency);
+
+ // expand with possible StrokeDamage
+ basegfx::B2DRange stroke_extents = getClippedStrokeDamage(cr);
+ stroke_extents.transform(basegfx::utils::createTranslateB2DHomMatrix(0.5, 0.5));
+ extents.expand(stroke_extents);
+
+ cairo_stroke(cr);
+ }
+
+ // if transformation has been applied, transform also extents (ranges)
+ // of damage so they can be correctly redrawn
+ extents.transform(rObjectToDevice);
+ releaseCairoContext(cr, true, extents);
+
+ return true;
+}
+
+bool SvpSalGraphics::implDrawGradient(basegfx::B2DPolyPolygon const & rPolyPolygon, SalGradient const & rGradient)
+{
+ cairo_t* cr = getCairoContext(true);
+ clipRegion(cr);
+
+ basegfx::B2DHomMatrix rObjectToDevice;
+
+ for (auto const & rPolygon : rPolyPolygon)
+ AddPolygonToPath(cr, rPolygon, rObjectToDevice, !getAntiAliasB2DDraw(), false);
+
+ cairo_pattern_t* pattern;
+ pattern = cairo_pattern_create_linear(rGradient.maPoint1.getX(), rGradient.maPoint1.getY(), rGradient.maPoint2.getX(), rGradient.maPoint2.getY());
+
+ for (SalGradientStop const & rStop : rGradient.maStops)
+ {
+ double r = rStop.maColor.GetRed() / 255.0;
+ double g = rStop.maColor.GetGreen() / 255.0;
+ double b = rStop.maColor.GetBlue() / 255.0;
+ double a = (0xFF - rStop.maColor.GetTransparency()) / 255.0;
+ double offset = rStop.mfOffset;
+
+ cairo_pattern_add_color_stop_rgba(pattern, offset, r, g, b, a);
+ }
+ cairo_set_source(cr, pattern);
+
+ basegfx::B2DRange extents = getClippedFillDamage(cr);
+ cairo_fill_preserve(cr);
+
+ releaseCairoContext(cr, true, extents);
+
+ return true;
+}
+
+void SvpSalGraphics::applyColor(cairo_t *cr, Color aColor, double fTransparency)
+{
+ if (cairo_surface_get_content(m_pSurface) == CAIRO_CONTENT_COLOR_ALPHA)
+ {
+ cairo_set_source_rgba(cr, aColor.GetRed()/255.0,
+ aColor.GetGreen()/255.0,
+ aColor.GetBlue()/255.0,
+ 1.0 - fTransparency);
+ }
+ else
+ {
+ double fSet = aColor == COL_BLACK ? 1.0 : 0.0;
+ cairo_set_source_rgba(cr, 1, 1, 1, fSet);
+ cairo_set_operator(cr, CAIRO_OPERATOR_SOURCE);
+ }
+}
+
+void SvpSalGraphics::copyArea( long nDestX,
+ long nDestY,
+ long nSrcX,
+ long nSrcY,
+ long nSrcWidth,
+ long nSrcHeight,
+ bool /*bWindowInvalidate*/ )
+{
+ SalTwoRect aTR(nSrcX, nSrcY, nSrcWidth, nSrcHeight, nDestX, nDestY, nSrcWidth, nSrcHeight);
+ copyBits(aTR, this);
+}
+
+static basegfx::B2DRange renderWithOperator(cairo_t* cr, const SalTwoRect& rTR,
+ cairo_surface_t* source, cairo_operator_t eOperator = CAIRO_OPERATOR_SOURCE)
+{
+ cairo_rectangle(cr, rTR.mnDestX, rTR.mnDestY, rTR.mnDestWidth, rTR.mnDestHeight);
+
+ basegfx::B2DRange extents = getClippedFillDamage(cr);
+
+ cairo_clip(cr);
+
+ cairo_translate(cr, rTR.mnDestX, rTR.mnDestY);
+ double fXScale = 1.0f;
+ double fYScale = 1.0f;
+ if (rTR.mnSrcWidth != 0 && rTR.mnSrcHeight != 0) {
+ fXScale = static_cast<double>(rTR.mnDestWidth)/rTR.mnSrcWidth;
+ fYScale = static_cast<double>(rTR.mnDestHeight)/rTR.mnSrcHeight;
+ cairo_scale(cr, fXScale, fYScale);
+ }
+
+ cairo_save(cr);
+ cairo_set_source_surface(cr, source, -rTR.mnSrcX, -rTR.mnSrcY);
+ if ((fXScale != 1.0 && rTR.mnSrcWidth == 1) || (fYScale != 1.0 && rTR.mnSrcHeight == 1))
+ {
+ cairo_pattern_t* sourcepattern = cairo_get_source(cr);
+ cairo_pattern_set_extend(sourcepattern, CAIRO_EXTEND_REPEAT);
+ cairo_pattern_set_filter(sourcepattern, CAIRO_FILTER_NEAREST);
+ }
+ cairo_set_operator(cr, eOperator);
+ cairo_paint(cr);
+ cairo_restore(cr);
+
+ return extents;
+}
+
+static basegfx::B2DRange renderSource(cairo_t* cr, const SalTwoRect& rTR,
+ cairo_surface_t* source)
+{
+ return renderWithOperator(cr, rTR, source, CAIRO_OPERATOR_SOURCE);
+}
+
+void SvpSalGraphics::copyWithOperator( const SalTwoRect& rTR, cairo_surface_t* source,
+ cairo_operator_t eOp )
+{
+ cairo_t* cr = getCairoContext(false);
+ clipRegion(cr);
+
+ basegfx::B2DRange extents = renderWithOperator(cr, rTR, source, eOp);
+
+ releaseCairoContext(cr, false, extents);
+}
+
+void SvpSalGraphics::copySource( const SalTwoRect& rTR, cairo_surface_t* source )
+{
+ copyWithOperator(rTR, source, CAIRO_OPERATOR_SOURCE);
+}
+
+void SvpSalGraphics::copyBits( const SalTwoRect& rTR,
+ SalGraphics* pSrcGraphics )
+{
+ SalTwoRect aTR(rTR);
+
+ SvpSalGraphics* pSrc = pSrcGraphics ?
+ static_cast<SvpSalGraphics*>(pSrcGraphics) : this;
+
+ cairo_surface_t* source = pSrc->m_pSurface;
+
+ cairo_surface_t *pCopy = nullptr;
+ if (pSrc == this)
+ {
+ //self copy is a problem, so dup source in that case
+ pCopy = cairo_surface_create_similar(source,
+ cairo_surface_get_content(m_pSurface),
+ aTR.mnSrcWidth * m_fScale,
+ aTR.mnSrcHeight * m_fScale);
+ dl_cairo_surface_set_device_scale(pCopy, m_fScale, m_fScale);
+ cairo_t* cr = cairo_create(pCopy);
+ cairo_set_source_surface(cr, source, -aTR.mnSrcX, -aTR.mnSrcY);
+ cairo_rectangle(cr, 0, 0, aTR.mnSrcWidth, aTR.mnSrcHeight);
+ cairo_fill(cr);
+ cairo_destroy(cr);
+
+ source = pCopy;
+
+ aTR.mnSrcX = 0;
+ aTR.mnSrcY = 0;
+ }
+
+ copySource(aTR, source);
+
+ if (pCopy)
+ cairo_surface_destroy(pCopy);
+}
+
+void SvpSalGraphics::drawBitmap(const SalTwoRect& rTR, const SalBitmap& rSourceBitmap)
+{
+ // MM02 try to access buffered BitmapHelper
+ std::shared_ptr<BitmapHelper> aSurface;
+ tryToUseSourceBuffer(rSourceBitmap, aSurface);
+ cairo_surface_t* source = aSurface->getSurface(
+ rTR.mnDestWidth,
+ rTR.mnDestHeight);
+
+ if (!source)
+ {
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::drawAlphaBitmap case");
+ return;
+ }
+
+ copyWithOperator(rTR, source, CAIRO_OPERATOR_OVER);
+}
+
+void SvpSalGraphics::drawBitmap(const SalTwoRect& rTR, const BitmapBuffer* pBuffer, cairo_operator_t eOp)
+{
+ cairo_surface_t* source = createCairoSurface( pBuffer );
+ copyWithOperator(rTR, source, eOp);
+ cairo_surface_destroy(source);
+}
+
+void SvpSalGraphics::drawBitmap( const SalTwoRect& rTR,
+ const SalBitmap& rSourceBitmap,
+ const SalBitmap& rTransparentBitmap )
+{
+ drawAlphaBitmap(rTR, rSourceBitmap, rTransparentBitmap);
+}
+
+void SvpSalGraphics::drawMask( const SalTwoRect& rTR,
+ const SalBitmap& rSalBitmap,
+ Color nMaskColor )
+{
+ /** creates an image from the given rectangle, replacing all black pixels
+ * with nMaskColor and make all other full transparent */
+ // MM02 here decided *against* using buffered BitmapHelper
+ // because the data gets somehow 'unmuliplied'. This may also be
+ // done just once, but I am not sure if this is safe to do.
+ // So for now dispense re-using data here.
+ BitmapHelper aSurface(rSalBitmap, true); // The mask is argb32
+ if (!aSurface.getSurface())
+ {
+ SAL_WARN("vcl.gdi", "unsupported SvpSalGraphics::drawMask case");
+ return;
+ }
+ sal_Int32 nStride;
+ unsigned char *mask_data = aSurface.getBits(nStride);
+ vcl::bitmap::lookup_table unpremultiply_table = vcl::bitmap::get_unpremultiply_table();
+ for (long y = rTR.mnSrcY ; y < rTR.mnSrcY + rTR.mnSrcHeight; ++y)
+ {
+ unsigned char *row = mask_data + (nStride*y);
+ unsigned char *data = row + (rTR.mnSrcX * 4);
+ for (long x = rTR.mnSrcX; x < rTR.mnSrcX + rTR.mnSrcWidth; ++x)
+ {
+ sal_uInt8 a = data[SVP_CAIRO_ALPHA];
+ sal_uInt8 b = unpremultiply_table[a][data[SVP_CAIRO_BLUE]];
+ sal_uInt8 g = unpremultiply_table[a][data[SVP_CAIRO_GREEN]];
+ sal_uInt8 r = unpremultiply_table[a][data[SVP_CAIRO_RED]];
+ if (r == 0 && g == 0 && b == 0)
+ {
+ data[0] = nMaskColor.GetBlue();
+ data[1] = nMaskColor.GetGreen();
+ data[2] = nMaskColor.GetRed();
+ data[3] = 0xff;
+ }
+ else
+ {
+ data[0] = 0;
+ data[1] = 0;
+ data[2] = 0;
+ data[3] = 0;
+ }
+ data+=4;
+ }
+ }
+ aSurface.mark_dirty();
+
+ cairo_t* cr = getCairoContext(false);
+ clipRegion(cr);
+
+ cairo_rectangle(cr, rTR.mnDestX, rTR.mnDestY, rTR.mnDestWidth, rTR.mnDestHeight);
+
+ basegfx::B2DRange extents = getClippedFillDamage(cr);
+
+ cairo_clip(cr);
+
+ cairo_translate(cr, rTR.mnDestX, rTR.mnDestY);
+ double fXScale = static_cast<double>(rTR.mnDestWidth)/rTR.mnSrcWidth;
+ double fYScale = static_cast<double>(rTR.mnDestHeight)/rTR.mnSrcHeight;
+ cairo_scale(cr, fXScale, fYScale);
+ cairo_set_source_surface(cr, aSurface.getSurface(), -rTR.mnSrcX, -rTR.mnSrcY);
+ if ((fXScale != 1.0 && rTR.mnSrcWidth == 1) || (fYScale != 1.0 && rTR.mnSrcHeight == 1))
+ {
+ cairo_pattern_t* sourcepattern = cairo_get_source(cr);
+ cairo_pattern_set_extend(sourcepattern, CAIRO_EXTEND_REPEAT);
+ cairo_pattern_set_filter(sourcepattern, CAIRO_FILTER_NEAREST);
+ }
+ cairo_paint(cr);
+
+ releaseCairoContext(cr, false, extents);
+}
+
+std::shared_ptr<SalBitmap> SvpSalGraphics::getBitmap( long nX, long nY, long nWidth, long nHeight )
+{
+ std::shared_ptr<SvpSalBitmap> pBitmap = std::make_shared<SvpSalBitmap>();
+ BitmapPalette aPal;
+ if (GetBitCount() == 1)
+ {
+ aPal.SetEntryCount(2);
+ aPal[0] = COL_BLACK;
+ aPal[1] = COL_WHITE;
+ }
+
+ if (!pBitmap->Create(Size(nWidth, nHeight), GetBitCount(), aPal))
+ {
+ SAL_WARN("vcl.gdi", "SvpSalGraphics::getBitmap, cannot create bitmap");
+ return nullptr;
+ }
+
+ cairo_surface_t* target = SvpSalGraphics::createCairoSurface(pBitmap->GetBuffer());
+ if (!target)
+ {
+ SAL_WARN("vcl.gdi", "SvpSalGraphics::getBitmap, cannot create cairo surface");
+ return nullptr;
+ }
+ cairo_t* cr = cairo_create(target);
+
+ SalTwoRect aTR(nX, nY, nWidth, nHeight, 0, 0, nWidth, nHeight);
+ renderSource(cr, aTR, m_pSurface);
+
+ cairo_destroy(cr);
+ cairo_surface_destroy(target);
+
+ Toggle1BitTransparency(*pBitmap->GetBuffer());
+
+ return pBitmap;
+}
+
+Color SvpSalGraphics::getPixel( long nX, long nY )
+{
+#if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 12, 0)
+ cairo_surface_t *target = cairo_surface_create_similar_image(m_pSurface, CAIRO_FORMAT_ARGB32, 1, 1);
+#else
+ cairo_surface_t *target = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, 1, 1);
+#endif
+
+ cairo_t* cr = cairo_create(target);
+
+ cairo_rectangle(cr, 0, 0, 1, 1);
+ cairo_set_source_surface(cr, m_pSurface, -nX, -nY);
+ cairo_paint(cr);
+ cairo_destroy(cr);
+
+ cairo_surface_flush(target);
+ vcl::bitmap::lookup_table unpremultiply_table = vcl::bitmap::get_unpremultiply_table();
+ unsigned char *data = cairo_image_surface_get_data(target);
+ sal_uInt8 a = data[SVP_CAIRO_ALPHA];
+ sal_uInt8 b = unpremultiply_table[a][data[SVP_CAIRO_BLUE]];
+ sal_uInt8 g = unpremultiply_table[a][data[SVP_CAIRO_GREEN]];
+ sal_uInt8 r = unpremultiply_table[a][data[SVP_CAIRO_RED]];
+ Color aColor(0xFF - a, r, g, b);
+ cairo_surface_destroy(target);
+
+ return aColor;
+}
+
+namespace
+{
+ cairo_pattern_t * create_stipple()
+ {
+ static unsigned char data[16] = { 0xFF, 0xFF, 0x00, 0x00,
+ 0xFF, 0xFF, 0x00, 0x00,
+ 0x00, 0x00, 0xFF, 0xFF,
+ 0x00, 0x00, 0xFF, 0xFF };
+ cairo_surface_t* surface = cairo_image_surface_create_for_data(data, CAIRO_FORMAT_A8, 4, 4, 4);
+ cairo_pattern_t* pattern = cairo_pattern_create_for_surface(surface);
+ cairo_surface_destroy(surface);
+ cairo_pattern_set_extend(pattern, CAIRO_EXTEND_REPEAT);
+ cairo_pattern_set_filter(pattern, CAIRO_FILTER_NEAREST);
+ return pattern;
+ }
+}
+
+void SvpSalGraphics::invert(const basegfx::B2DPolygon &rPoly, SalInvert nFlags)
+{
+ cairo_t* cr = getCairoContext(false);
+ clipRegion(cr);
+
+ // To make releaseCairoContext work, use empty extents
+ basegfx::B2DRange extents;
+
+ AddPolygonToPath(
+ cr,
+ rPoly,
+ basegfx::B2DHomMatrix(),
+ !getAntiAliasB2DDraw(),
+ false);
+
+ cairo_set_source_rgb(cr, 1.0, 1.0, 1.0);
+
+ if (cairo_version() >= CAIRO_VERSION_ENCODE(1, 10, 0))
+ {
+ cairo_set_operator(cr, CAIRO_OPERATOR_DIFFERENCE);
+ }
+ else
+ {
+ SAL_WARN("vcl.gdi", "SvpSalGraphics::invert, archaic cairo");
+ }
+
+ if (nFlags & SalInvert::TrackFrame)
+ {
+ cairo_set_line_width(cr, 2.0);
+ const double dashLengths[2] = { 4.0, 4.0 };
+ cairo_set_dash(cr, dashLengths, 2, 0);
+
+ extents = getClippedStrokeDamage(cr);
+ //see tdf#106577 under wayland, some pixel droppings seen, maybe we're
+ //out by one somewhere, or cairo_stroke_extents is confused by
+ //dashes/line width
+ if(!extents.isEmpty())
+ {
+ extents.grow(1);
+ }
+
+ cairo_stroke(cr);
+ }
+ else
+ {
+ extents = getClippedFillDamage(cr);
+
+ cairo_clip(cr);
+
+ if (nFlags & SalInvert::N50)
+ {
+ cairo_pattern_t *pattern = create_stipple();
+ cairo_surface_t* surface = cairo_surface_create_similar(m_pSurface,
+ cairo_surface_get_content(m_pSurface),
+ extents.getWidth() * m_fScale,
+ extents.getHeight() * m_fScale);
+
+ dl_cairo_surface_set_device_scale(surface, m_fScale, m_fScale);
+ cairo_t* stipple_cr = cairo_create(surface);
+ cairo_set_source_rgb(stipple_cr, 1.0, 1.0, 1.0);
+ cairo_mask(stipple_cr, pattern);
+ cairo_pattern_destroy(pattern);
+ cairo_destroy(stipple_cr);
+ cairo_mask_surface(cr, surface, extents.getMinX(), extents.getMinY());
+ cairo_surface_destroy(surface);
+ }
+ else
+ {
+ cairo_paint(cr);
+ }
+ }
+
+ releaseCairoContext(cr, false, extents);
+}
+
+void SvpSalGraphics::invert( long nX, long nY, long nWidth, long nHeight, SalInvert nFlags )
+{
+ basegfx::B2DPolygon aRect = basegfx::utils::createPolygonFromRect(basegfx::B2DRectangle(nX, nY, nX+nWidth, nY+nHeight));
+
+ invert(aRect, nFlags);
+}
+
+void SvpSalGraphics::invert(sal_uInt32 nPoints, const SalPoint* pPtAry, SalInvert nFlags)
+{
+ basegfx::B2DPolygon aPoly;
+ aPoly.append(basegfx::B2DPoint(pPtAry->mnX, pPtAry->mnY), nPoints);
+ for (sal_uInt32 i = 1; i < nPoints; ++i)
+ aPoly.setB2DPoint(i, basegfx::B2DPoint(pPtAry[i].mnX, pPtAry[i].mnY));
+ aPoly.setClosed(true);
+
+ invert(aPoly, nFlags);
+}
+
+bool SvpSalGraphics::drawEPS( long, long, long, long, void*, sal_uInt32 )
+{
+ return false;
+}
+
+namespace
+{
+ bool isCairoCompatible(const BitmapBuffer* pBuffer)
+ {
+ if (!pBuffer)
+ return false;
+
+ // We use Cairo that supports 24-bit RGB.
+#ifdef HAVE_CAIRO_FORMAT_RGB24_888
+ if (pBuffer->mnBitCount != 32 && pBuffer->mnBitCount != 24 && pBuffer->mnBitCount != 1)
+#else
+ if (pBuffer->mnBitCount != 32 && pBuffer->mnBitCount != 1)
+#endif
+ return false;
+
+ cairo_format_t nFormat = getCairoFormat(*pBuffer);
+ return (cairo_format_stride_for_width(nFormat, pBuffer->mnWidth) == pBuffer->mnScanlineSize);
+ }
+}
+
+cairo_surface_t* SvpSalGraphics::createCairoSurface(const BitmapBuffer *pBuffer)
+{
+ if (!isCairoCompatible(pBuffer))
+ return nullptr;
+
+ cairo_format_t nFormat = getCairoFormat(*pBuffer);
+ cairo_surface_t *target =
+ cairo_image_surface_create_for_data(pBuffer->mpBits,
+ nFormat,
+ pBuffer->mnWidth, pBuffer->mnHeight,
+ pBuffer->mnScanlineSize);
+ if (cairo_surface_status(target) != CAIRO_STATUS_SUCCESS)
+ {
+ cairo_surface_destroy(target);
+ return nullptr;
+ }
+ return target;
+}
+
+cairo_t* SvpSalGraphics::createTmpCompatibleCairoContext() const
+{
+#if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 12, 0)
+ cairo_surface_t *target = cairo_surface_create_similar_image(m_pSurface,
+#else
+ cairo_surface_t *target = cairo_image_surface_create(
+#endif
+ CAIRO_FORMAT_ARGB32,
+ m_aFrameSize.getX() * m_fScale,
+ m_aFrameSize.getY() * m_fScale);
+
+ dl_cairo_surface_set_device_scale(target, m_fScale, m_fScale);
+
+ return cairo_create(target);
+}
+
+cairo_t* SvpSalGraphics::getCairoContext(bool bXorModeAllowed) const
+{
+ cairo_t* cr;
+ if (m_ePaintMode == PaintMode::Xor && bXorModeAllowed)
+ cr = createTmpCompatibleCairoContext();
+ else
+ cr = cairo_create(m_pSurface);
+ cairo_set_line_width(cr, 1);
+ cairo_set_fill_rule(cr, CAIRO_FILL_RULE_EVEN_ODD);
+ cairo_set_antialias(cr, getAntiAliasB2DDraw() ? CAIRO_ANTIALIAS_DEFAULT : CAIRO_ANTIALIAS_NONE);
+ cairo_set_operator(cr, CAIRO_OPERATOR_OVER);
+
+ // ensure no linear transformation and no PathInfo in local cairo_path_t
+ cairo_identity_matrix(cr);
+ cairo_new_path(cr);
+
+ return cr;
+}
+
+cairo_user_data_key_t* SvpSalGraphics::getDamageKey()
+{
+ static cairo_user_data_key_t aDamageKey;
+ return &aDamageKey;
+}
+
+void SvpSalGraphics::releaseCairoContext(cairo_t* cr, bool bXorModeAllowed, const basegfx::B2DRange& rExtents) const
+{
+ const bool bXoring = (m_ePaintMode == PaintMode::Xor && bXorModeAllowed);
+
+ if (rExtents.isEmpty())
+ {
+ //nothing changed, return early
+ if (bXoring)
+ {
+ cairo_surface_t* surface = cairo_get_target(cr);
+ cairo_surface_destroy(surface);
+ }
+ cairo_destroy(cr);
+ return;
+ }
+
+ basegfx::B2IRange aIntExtents(basegfx::unotools::b2ISurroundingRangeFromB2DRange(rExtents));
+ sal_Int32 nExtentsLeft(aIntExtents.getMinX()), nExtentsTop(aIntExtents.getMinY());
+ sal_Int32 nExtentsRight(aIntExtents.getMaxX()), nExtentsBottom(aIntExtents.getMaxY());
+ sal_Int32 nWidth = m_aFrameSize.getX();
+ sal_Int32 nHeight = m_aFrameSize.getY();
+ nExtentsLeft = std::max<sal_Int32>(nExtentsLeft, 0);
+ nExtentsTop = std::max<sal_Int32>(nExtentsTop, 0);
+ nExtentsRight = std::min<sal_Int32>(nExtentsRight, nWidth);
+ nExtentsBottom = std::min<sal_Int32>(nExtentsBottom, nHeight);
+
+ cairo_surface_t* surface = cairo_get_target(cr);
+ cairo_surface_flush(surface);
+
+ //For the most part we avoid the use of XOR these days, but there
+ //are some edge cases where legacy stuff still supports it, so
+ //emulate it (slowly) here.
+ if (bXoring)
+ {
+ cairo_surface_t* target_surface = m_pSurface;
+ if (cairo_surface_get_type(target_surface) != CAIRO_SURFACE_TYPE_IMAGE)
+ {
+ //in the unlikely case we can't use m_pSurface directly, copy contents
+ //to another temp image surface
+ cairo_t* copycr = createTmpCompatibleCairoContext();
+ cairo_rectangle(copycr, nExtentsLeft, nExtentsTop,
+ nExtentsRight - nExtentsLeft,
+ nExtentsBottom - nExtentsTop);
+ cairo_set_source_surface(copycr, m_pSurface, 0, 0);
+ cairo_paint(copycr);
+ target_surface = cairo_get_target(copycr);
+ cairo_destroy(copycr);
+ }
+
+ cairo_surface_flush(target_surface);
+ unsigned char *target_surface_data = cairo_image_surface_get_data(target_surface);
+ unsigned char *xor_surface_data = cairo_image_surface_get_data(surface);
+
+ cairo_format_t nFormat = cairo_image_surface_get_format(target_surface);
+ assert(nFormat == CAIRO_FORMAT_ARGB32 && "need to implement CAIRO_FORMAT_A1 after all here");
+ sal_Int32 nStride = cairo_format_stride_for_width(nFormat, nWidth * m_fScale);
+ sal_Int32 nUnscaledExtentsLeft = nExtentsLeft * m_fScale;
+ sal_Int32 nUnscaledExtentsRight = nExtentsRight * m_fScale;
+ sal_Int32 nUnscaledExtentsTop = nExtentsTop * m_fScale;
+ sal_Int32 nUnscaledExtentsBottom = nExtentsBottom * m_fScale;
+ vcl::bitmap::lookup_table unpremultiply_table = vcl::bitmap::get_unpremultiply_table();
+ vcl::bitmap::lookup_table premultiply_table = vcl::bitmap::get_premultiply_table();
+ for (sal_Int32 y = nUnscaledExtentsTop; y < nUnscaledExtentsBottom; ++y)
+ {
+ unsigned char *true_row = target_surface_data + (nStride*y);
+ unsigned char *xor_row = xor_surface_data + (nStride*y);
+ unsigned char *true_data = true_row + (nUnscaledExtentsLeft * 4);
+ unsigned char *xor_data = xor_row + (nUnscaledExtentsLeft * 4);
+ for (sal_Int32 x = nUnscaledExtentsLeft; x < nUnscaledExtentsRight; ++x)
+ {
+ sal_uInt8 a = true_data[SVP_CAIRO_ALPHA];
+ sal_uInt8 xor_a = xor_data[SVP_CAIRO_ALPHA];
+ sal_uInt8 b = unpremultiply_table[a][true_data[SVP_CAIRO_BLUE]] ^
+ unpremultiply_table[xor_a][xor_data[SVP_CAIRO_BLUE]];
+ sal_uInt8 g = unpremultiply_table[a][true_data[SVP_CAIRO_GREEN]] ^
+ unpremultiply_table[xor_a][xor_data[SVP_CAIRO_GREEN]];
+ sal_uInt8 r = unpremultiply_table[a][true_data[SVP_CAIRO_RED]] ^
+ unpremultiply_table[xor_a][xor_data[SVP_CAIRO_RED]];
+ true_data[SVP_CAIRO_BLUE] = premultiply_table[a][b];
+ true_data[SVP_CAIRO_GREEN] = premultiply_table[a][g];
+ true_data[SVP_CAIRO_RED] = premultiply_table[a][r];
+ true_data+=4;
+ xor_data+=4;
+ }
+ }
+ cairo_surface_mark_dirty(target_surface);
+
+ if (target_surface != m_pSurface)
+ {
+ cairo_t* copycr = cairo_create(m_pSurface);
+ //unlikely case we couldn't use m_pSurface directly, copy contents
+ //back from image surface
+ cairo_rectangle(copycr, nExtentsLeft, nExtentsTop,
+ nExtentsRight - nExtentsLeft,
+ nExtentsBottom - nExtentsTop);
+ cairo_set_source_surface(copycr, target_surface, 0, 0);
+ cairo_paint(copycr);
+ cairo_destroy(copycr);
+ cairo_surface_destroy(target_surface);
+ }
+
+ cairo_surface_destroy(surface);
+ }
+
+ cairo_destroy(cr); // unref
+
+ DamageHandler* pDamage = static_cast<DamageHandler*>(cairo_surface_get_user_data(m_pSurface, getDamageKey()));
+
+ if (pDamage)
+ {
+ pDamage->damaged(pDamage->handle, nExtentsLeft, nExtentsTop,
+ nExtentsRight - nExtentsLeft,
+ nExtentsBottom - nExtentsTop);
+ }
+}
+
+#if ENABLE_CAIRO_CANVAS
+bool SvpSalGraphics::SupportsCairo() const
+{
+ return false;
+}
+
+cairo::SurfaceSharedPtr SvpSalGraphics::CreateSurface(const cairo::CairoSurfaceSharedPtr& /*rSurface*/) const
+{
+ return cairo::SurfaceSharedPtr();
+}
+
+cairo::SurfaceSharedPtr SvpSalGraphics::CreateSurface(const OutputDevice& /*rRefDevice*/, int /*x*/, int /*y*/, int /*width*/, int /*height*/) const
+{
+ return cairo::SurfaceSharedPtr();
+}
+
+cairo::SurfaceSharedPtr SvpSalGraphics::CreateBitmapSurface(const OutputDevice& /*rRefDevice*/, const BitmapSystemData& /*rData*/, const Size& /*rSize*/) const
+{
+ return cairo::SurfaceSharedPtr();
+}
+
+css::uno::Any SvpSalGraphics::GetNativeSurfaceHandle(cairo::SurfaceSharedPtr& /*rSurface*/, const basegfx::B2ISize& /*rSize*/) const
+{
+ return css::uno::Any();
+}
+
+#endif // ENABLE_CAIRO_CANVAS
+
+SystemGraphicsData SvpSalGraphics::GetGraphicsData() const
+{
+ return SystemGraphicsData();
+}
+
+bool SvpSalGraphics::supportsOperation(OutDevSupportType eType) const
+{
+ switch (eType)
+ {
+ case OutDevSupportType::TransparentRect:
+ case OutDevSupportType::B2DDraw:
+ return true;
+ }
+ return false;
+}
+
+void dl_cairo_surface_set_device_scale(cairo_surface_t *surface, double x_scale, double y_scale)
+{
+#ifdef ANDROID
+ cairo_surface_set_device_scale(surface, x_scale, y_scale);
+#else
+ static auto func = reinterpret_cast<void(*)(cairo_surface_t*, double, double)>(
+ dlsym(nullptr, "cairo_surface_set_device_scale"));
+ if (func)
+ func(surface, x_scale, y_scale);
+#endif
+}
+
+void dl_cairo_surface_get_device_scale(cairo_surface_t *surface, double* x_scale, double* y_scale)
+{
+#ifdef ANDROID
+ cairo_surface_get_device_scale(surface, x_scale, y_scale);
+#else
+ static auto func = reinterpret_cast<void(*)(cairo_surface_t*, double*, double*)>(
+ dlsym(nullptr, "cairo_surface_get_device_scale"));
+ if (func)
+ func(surface, x_scale, y_scale);
+ else
+ {
+ if (x_scale)
+ *x_scale = 1.0;
+ if (y_scale)
+ *y_scale = 1.0;
+ }
+#endif
+}
+
+/* vim:set shiftwidth=4 softtabstop=4 expandtab: */