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Diffstat (limited to 'vcl/qa/cppunit/svm/svmtest.cxx')
-rw-r--r-- | vcl/qa/cppunit/svm/svmtest.cxx | 1684 |
1 files changed, 1684 insertions, 0 deletions
diff --git a/vcl/qa/cppunit/svm/svmtest.cxx b/vcl/qa/cppunit/svm/svmtest.cxx new file mode 100644 index 000000000..413c3b7f6 --- /dev/null +++ b/vcl/qa/cppunit/svm/svmtest.cxx @@ -0,0 +1,1684 @@ +/* -*- 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/. + * + */ + +#include <test/bootstrapfixture.hxx> +#include <test/xmltesttools.hxx> +#include <vcl/gdimtf.hxx> +#include <vcl/gradient.hxx> +#include <vcl/hatch.hxx> +#include <vcl/lineinfo.hxx> +#include <vcl/virdev.hxx> +#include <bitmapwriteaccess.hxx> +#include <vcl/pngwrite.hxx> + +#include <config_features.h> +#if HAVE_FEATURE_OPENGL +#include <vcl/opengl/OpenGLHelper.hxx> +#endif +#include <vcl/skia/SkiaHelper.hxx> + +using namespace css; + +class SvmTest : public test::BootstrapFixture, public XmlTestTools +{ + OUString maDataUrl; + + OUString getFullUrl(const OUString& sFileName) + { + return m_directories.getURLFromSrc(maDataUrl) + sFileName; + } + + void checkRendering(ScopedVclPtrInstance<VirtualDevice> const & pVirtualDev, const GDIMetaFile& rMetaFile); + + // write GDI Metafile to a file in data directory + // only use this for new tests to create the svm file + void writeToFile(GDIMetaFile& rMetaFile, OUString const & rName); + + GDIMetaFile writeAndReadStream(GDIMetaFile& rMetaFile, OUString const & rName = OUString()); + + GDIMetaFile readFile(const OUString& sName); + + xmlDocUniquePtr dumpMeta(const GDIMetaFile& rMetaFile); + + void checkVirtualDevice(const xmlDocUniquePtr& pDoc); + void checkErase(const xmlDocUniquePtr& pDoc); + + void checkPixel(const GDIMetaFile& rMetaFile); + void testPixel(); + + void checkPoint(const GDIMetaFile& rMetaFile); + void testPoint(); + + void checkLine(const GDIMetaFile& rMetaFile); + void testLine(); + + void checkRect(const GDIMetaFile& rMetaFile); + void testRect(); + + void checkRoundRect(const GDIMetaFile& rMetaFile); + void testRoundRect(); + + void checkEllipse(const GDIMetaFile& rMetaFile); + void testEllipse(); + + void checkArc(const GDIMetaFile& rMetaFile); + void testArc(); + + void checkPie(const GDIMetaFile& rMetaFile); + void testPie(); + + void checkChord(const GDIMetaFile& rMetaFile); + void testChord(); + + void checkPolyLine(const GDIMetaFile& rMetaFile); + void testPolyLine(); + + void checkPolygon(const GDIMetaFile& rMetaFile); + void testPolygon(); + + void checkPolyPolygon(const GDIMetaFile& rMetaFile); + void testPolyPolygon(); + + void checkText(const GDIMetaFile& rMetaFile); + void testText(); + + void checkTextArray(const GDIMetaFile& rMetaFile); + void testTextArray(); + + void checkStrechText(const GDIMetaFile& rMetaFile); + void testStrechText(); + + void checkTextRect(const GDIMetaFile& rMetaFile); + void testTextRect(); + + void checkTextLine(const GDIMetaFile& rMetaFile); + void testTextLine(); + + void checkBitmaps(const GDIMetaFile& rMetaFile); + void testBitmaps(); + + void checkBitmapExs(const GDIMetaFile& rMetaFile); + void testBitmapExs(); + + void checkMasks(const GDIMetaFile& rMetaFile); + void testMasks(); + + void checkGradient(const GDIMetaFile& rMetaFile); + void testGradient(); + + //void checkGradientEx(const GDIMetaFile& rMetaFile); + void testGradientEx(); + + void checkHatch(const GDIMetaFile& rMetaFile); + void testHatch(); + + void checkWallpaper(const GDIMetaFile& rMetaFile); + void testWallpaper(); + + void checkClipRegion(const GDIMetaFile& rMetaFile); + void testClipRegion(); + + //void checkIntersectRectClipRegion(const GDIMetaFile& rMetaFile); + void testIntersectRectClipRegion(); + + //void checkIntersectRegionClipRegion(const GDIMetaFile& rMetaFile); + void testIntersectRegionClipRegion(); + + //void checkMoveClipRegion(const GDIMetaFile& rMetaFile); + void testMoveClipRegion(); + + void checkLineColor(const GDIMetaFile& rMetaFile); + void testLineColor(); + + void checkFillColor(const GDIMetaFile& rMetaFile); + void testFillColor(); + + void checkTextColor(const GDIMetaFile& rMetaFile); + void testTextColor(); + + void checkTextFillColor(const GDIMetaFile& rMetaFile); + void testTextFillColor(); + + void checkTextLineColor(const GDIMetaFile& rMetaFile); + void testTextLineColor(); + + void checkOverLineColor(const GDIMetaFile& rMetaFile); + void testOverLineColor(); + + void checkTextAlign(const GDIMetaFile& rMetaFile); + void testTextAlign(); + + //void checkMapMode(const GDIMetaFile& rMetaFile); + void testMapMode(); + + //void checkFont(const GDIMetaFile& rMetaFile); + void testFont(); + + void checkPushPop(const GDIMetaFile& rMetaFile); + void testPushPop(); + + void checkRasterOp(const GDIMetaFile& rMetaFile); + void testRasterOp(); + + void checkTransparent(const GDIMetaFile& rMetaFile); + void testTransparent(); + + //void checkFloatTransparent(const GDIMetaFile& rMetaFile); + void testFloatTransparent(); + + //void checkEPS(const GDIMetaFile& rMetaFile); + void testEPS(); + + //void checkRefPoint(const GDIMetaFile& rMetaFile); + void testRefPoint(); + + //void checkComment(const GDIMetaFile& rMetaFile); + void testComment(); + + //void checkLayoutMode(const GDIMetaFile& rMetaFile); + void testLayoutMode(); + + //void checkTextLanguage(const GDIMetaFile& rMetaFile); + void testTextLanguage(); + +public: + SvmTest() + : BootstrapFixture(true, false) + , maDataUrl("/vcl/qa/cppunit/svm/data/") + {} + + CPPUNIT_TEST_SUITE(SvmTest); + CPPUNIT_TEST(testPixel); + CPPUNIT_TEST(testPoint); + CPPUNIT_TEST(testLine); + CPPUNIT_TEST(testRect); + CPPUNIT_TEST(testRoundRect); + CPPUNIT_TEST(testEllipse); + CPPUNIT_TEST(testArc); + CPPUNIT_TEST(testPie); + CPPUNIT_TEST(testChord); + CPPUNIT_TEST(testPolyLine); + CPPUNIT_TEST(testPolygon); + CPPUNIT_TEST(testPolyPolygon); + CPPUNIT_TEST(testText); + CPPUNIT_TEST(testTextArray); + CPPUNIT_TEST(testStrechText); + CPPUNIT_TEST(testTextRect); + CPPUNIT_TEST(testTextLine); + CPPUNIT_TEST(testBitmaps); // BMP, BMPSCALE, BMPSCALEPART + CPPUNIT_TEST(testBitmapExs); // BMPEX, BMPEXSCALE, BMPEXSCALEPART + CPPUNIT_TEST(testMasks); // MASK, MASKSCALE, MASKSCALEPART + CPPUNIT_TEST(testGradient); + CPPUNIT_TEST(testGradientEx); + CPPUNIT_TEST(testHatch); + CPPUNIT_TEST(testWallpaper); + CPPUNIT_TEST(testClipRegion); + CPPUNIT_TEST(testIntersectRectClipRegion); + CPPUNIT_TEST(testIntersectRegionClipRegion); + CPPUNIT_TEST(testMoveClipRegion); + CPPUNIT_TEST(testLineColor); + CPPUNIT_TEST(testFillColor); + CPPUNIT_TEST(testTextColor); + CPPUNIT_TEST(testTextFillColor); + CPPUNIT_TEST(testTextLineColor); + CPPUNIT_TEST(testOverLineColor); + CPPUNIT_TEST(testTextAlign); + CPPUNIT_TEST(testMapMode); + CPPUNIT_TEST(testFont); + CPPUNIT_TEST(testPushPop); + CPPUNIT_TEST(testRasterOp); + CPPUNIT_TEST(testTransparent); + CPPUNIT_TEST(testFloatTransparent); + CPPUNIT_TEST(testEPS); + CPPUNIT_TEST(testRefPoint); + CPPUNIT_TEST(testComment); + CPPUNIT_TEST(testLayoutMode); + CPPUNIT_TEST(testTextLanguage); + + CPPUNIT_TEST_SUITE_END(); +}; + +static void setupBaseVirtualDevice(VirtualDevice& rDevice, GDIMetaFile& rMeta) +{ + rDevice.SetConnectMetaFile(&rMeta); + Size aVDSize(10, 10); + rDevice.SetOutputSizePixel(aVDSize); + rDevice.SetBackground(Wallpaper(COL_LIGHTRED)); + rDevice.Erase(); +} + +void SvmTest::checkRendering(ScopedVclPtrInstance<VirtualDevice> const & pVirtualDev, const GDIMetaFile& rMetaFile) +{ + BitmapEx aSourceBitmapEx = pVirtualDev->GetBitmapEx(Point(), Size(10, 10)); + ScopedVclPtrInstance<VirtualDevice> pVirtualDevResult; + const_cast<GDIMetaFile&>(rMetaFile).Play(pVirtualDevResult.get()); + BitmapEx aResultBitmapEx = pVirtualDev->GetBitmapEx(Point(), Size(10, 10)); + + const bool bWriteCompareBitmap = false; + + if (bWriteCompareBitmap) + { + utl::TempFile aTempFile; + aTempFile.EnableKillingFile(); + + { + SvFileStream aStream(aTempFile.GetURL() + ".source.png", StreamMode::WRITE | StreamMode::TRUNC); + vcl::PNGWriter aPNGWriter(aSourceBitmapEx); + aPNGWriter.Write(aStream); + } + { + SvFileStream aStream(aTempFile.GetURL() + ".result.png", StreamMode::WRITE | StreamMode::TRUNC); + vcl::PNGWriter aPNGWriter(aResultBitmapEx); + aPNGWriter.Write(aStream); + } + } + CPPUNIT_ASSERT_EQUAL(aSourceBitmapEx.GetChecksum(), aResultBitmapEx.GetChecksum()); +} + +static GDIMetaFile readMetafile(const OUString& rUrl) +{ + GDIMetaFile aResultMetafile; + SvFileStream aFileStream(rUrl, StreamMode::READ); + aFileStream.Seek(STREAM_SEEK_TO_BEGIN); + aResultMetafile.Read(aFileStream); + return aResultMetafile; +} + +static void writeMetaFile(GDIMetaFile& rInputMetafile, const OUString& rUrl) +{ + SvFileStream aFileStream(rUrl, StreamMode::WRITE); + aFileStream.Seek(STREAM_SEEK_TO_BEGIN); + rInputMetafile.Write(aFileStream); + aFileStream.Close(); +} + +void SvmTest::writeToFile(GDIMetaFile& rMetaFile, OUString const & rName) +{ + if (rName.isEmpty()) + return; + OUString sFilePath = getFullUrl(rName); + writeMetaFile(rMetaFile, sFilePath); +} + +GDIMetaFile SvmTest::writeAndReadStream(GDIMetaFile& rMetaFile, OUString const & rName) +{ + if (!rName.isEmpty()) + writeToFile(rMetaFile, rName); + + SvMemoryStream aStream; + rMetaFile.Write(aStream); + aStream.Seek(STREAM_SEEK_TO_BEGIN); + + GDIMetaFile aResultMetafile; + aResultMetafile.Read(aStream); + return aResultMetafile; +} + +GDIMetaFile SvmTest::readFile(const OUString& sName) +{ + OUString sFilePath = getFullUrl(sName); + return readMetafile(sFilePath); +} + +xmlDocUniquePtr SvmTest::dumpMeta(const GDIMetaFile& rMetaFile) +{ + MetafileXmlDump dumper; + xmlDocUniquePtr pDoc = dumpAndParse(dumper, rMetaFile); + CPPUNIT_ASSERT (pDoc); + + checkVirtualDevice(pDoc); + checkErase(pDoc); + + return pDoc; +} + +void SvmTest::checkVirtualDevice(const xmlDocUniquePtr& pDoc) +{ + assertXPath(pDoc, "/metafile/linecolor[1]", "color", "#000000"); + assertXPath(pDoc, "/metafile/fillcolor[1]", "color", "#ffffff"); + + assertXPathAttrs(pDoc, "/metafile/rect[1]", { + {"left", "0"}, {"top", "0"}, + {"right", "9"}, {"bottom", "9"} + }); + + assertXPath(pDoc, "/metafile/linecolor[2]", "color", "#000000"); + assertXPath(pDoc, "/metafile/fillcolor[2]", "color", "#ffffff"); +} + +void SvmTest::checkErase(const xmlDocUniquePtr& pDoc) +{ + assertXPath(pDoc, "/metafile/linecolor[3]", "color", "#000000"); + assertXPath(pDoc, "/metafile/fillcolor[3]", "color", "#ff0000"); + + assertXPathAttrs(pDoc, "/metafile/rect[2]", { + {"left", "0"}, {"top", "0"}, + {"right", "9"}, {"bottom", "9"} + }); +} + +void SvmTest::checkPixel(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/pixel[1]", { + {"x", "8"}, {"y", "1"}, {"color", "#008000"}, + }); + + assertXPathAttrs(pDoc, "/metafile/pixel[2]", { + {"x", "1"}, {"y", "8"}, {"color", "#000080"}, + }); +} + +void SvmTest::testPixel() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->DrawPixel(Point(8, 1), COL_GREEN); + pVirtualDev->DrawPixel(Point(1, 8), COL_BLUE); + + checkPixel(writeAndReadStream(aGDIMetaFile)); + checkPixel(readFile("pixel.svm")); +} + +void SvmTest::checkPoint(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/point[1]", { + {"x", "4"}, {"y", "4"} + }); +} + +void SvmTest::testPoint() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->DrawPixel(Point(4, 4)); + + checkPoint(writeAndReadStream(aGDIMetaFile)); + checkPoint(readFile("point.svm")); +} + +void SvmTest::checkLine(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/line[1]", { + {"startx", "1"}, {"starty", "1"}, + {"endx", "8"}, {"endy", "8"}, + }); + + assertXPathAttrs(pDoc, "/metafile/line[1]", { + {"style", "solid"}, {"width", "0"}, + {"dashlen", "0"}, {"dashcount", "0"}, + {"dotlen", "0"}, {"dotcount", "0"}, + {"distance", "0"}, + {"join", "round"}, {"cap", "butt"} + }); + + assertXPathAttrs(pDoc, "/metafile/line[2]", { + {"startx", "1"}, {"starty", "8"}, + {"endx", "8"}, {"endy", "1"}, + }); + + assertXPathAttrs(pDoc, "/metafile/line[2]", { + {"style", "dash"}, {"width", "7"}, + {"dashlen", "5"}, {"dashcount", "4"}, + {"dotlen", "3"}, {"dotcount", "2"}, + {"distance", "1"}, + {"join", "miter"}, {"cap", "round"} + }); +} + +void SvmTest::testLine() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->DrawLine(Point(1, 1), Point(8, 8)); + LineInfo aLineInfo(LineStyle::Dash, 7); + aLineInfo.SetDashLen(5); + aLineInfo.SetDashCount(4); + aLineInfo.SetDotLen(3); + aLineInfo.SetDotCount(2); + aLineInfo.SetDistance(1); + aLineInfo.SetLineJoin(basegfx::B2DLineJoin::Miter); + aLineInfo.SetLineCap(css::drawing::LineCap_ROUND); + pVirtualDev->DrawLine(Point(1, 8), Point(8, 1), aLineInfo); + + checkLine(writeAndReadStream(aGDIMetaFile)); + checkLine(readFile("line.svm")); +} + +void SvmTest::checkRect(const GDIMetaFile& rMetaFile) +{ + + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPath(pDoc, "/metafile/linecolor[5]", "color", "#123456"); + assertXPath(pDoc, "/metafile/fillcolor[5]", "color", "#654321"); + + assertXPathAttrs(pDoc, "/metafile/rect[3]", { + {"left", "1"}, {"top", "2"}, + {"right", "4"}, {"bottom", "5"}, + }); +} + +void SvmTest::testRect() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetLineColor(Color(0x123456)); + pVirtualDev->SetFillColor(Color(0x654321)); + + pVirtualDev->DrawRect(tools::Rectangle(Point(1, 2), Size(4, 4))); + + checkRect(writeAndReadStream(aGDIMetaFile)); + checkRect(readFile("rect.svm")); +} + +void SvmTest::checkRoundRect(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPath(pDoc, "/metafile/linecolor[5]", "color", "#123456"); + assertXPath(pDoc, "/metafile/fillcolor[5]", "color", "#654321"); + + assertXPathAttrs(pDoc, "/metafile/roundrect[1]", { + {"left", "1"}, {"top", "2"}, + {"right", "4"}, {"bottom", "5"}, + {"horizontalround", "1"}, {"verticalround", "2"} + }); +} + +void SvmTest::testRoundRect() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetLineColor(Color(0x123456)); + pVirtualDev->SetFillColor(Color(0x654321)); + + pVirtualDev->DrawRect(tools::Rectangle(Point(1, 2), Size(4, 4)), 1, 2); + + checkRoundRect(writeAndReadStream(aGDIMetaFile)); + checkRoundRect(readFile("roundrect.svm")); +} + +void SvmTest::checkEllipse(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPath(pDoc, "/metafile/linecolor[5]", "color", "#123456"); + assertXPath(pDoc, "/metafile/fillcolor[5]", "color", "#654321"); + + assertXPathAttrs(pDoc, "/metafile/ellipse[1]", { + {"left", "1"}, {"top", "2"}, + {"right", "4"}, {"bottom", "5"}, + }); +} + +void SvmTest::testEllipse() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetLineColor(Color(0x123456)); + pVirtualDev->SetFillColor(Color(0x654321)); + + pVirtualDev->DrawEllipse(tools::Rectangle(Point(1, 2), Size(4, 4))); + + checkEllipse(writeAndReadStream(aGDIMetaFile)); + checkEllipse(readFile("ellipse.svm")); +} + +void SvmTest::checkArc(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPath(pDoc, "/metafile/linecolor[5]", "color", "#123456"); + assertXPath(pDoc, "/metafile/fillcolor[5]", "color", "#654321"); + + assertXPathAttrs(pDoc, "/metafile/arc[1]", { + {"left", "1"}, {"top", "2"}, + {"right", "4"}, {"bottom", "5"}, + + {"startx", "10"}, {"starty", "11"}, + {"endx", "12"}, {"endy", "13"}, + }); +} + +void SvmTest::testArc() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetLineColor(Color(0x123456)); + pVirtualDev->SetFillColor(Color(0x654321)); + + pVirtualDev->DrawArc(tools::Rectangle(Point(1, 2), Size(4, 4)), Point(10, 11), Point(12, 13)); + + checkArc(writeAndReadStream(aGDIMetaFile)); + checkArc(readFile("arc.svm")); +} + +void SvmTest::checkPie(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPath(pDoc, "/metafile/linecolor[5]", "color", "#123456"); + assertXPath(pDoc, "/metafile/fillcolor[5]", "color", "#654321"); + + assertXPathAttrs(pDoc, "/metafile/pie[1]", { + {"left", "11"}, {"top", "12"}, + {"right", "14"}, {"bottom", "15"}, + + {"startx", "20"}, {"starty", "21"}, + {"endx", "22"}, {"endy", "23"}, + }); +} + +void SvmTest::testPie() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetLineColor(Color(0x123456)); + pVirtualDev->SetFillColor(Color(0x654321)); + + pVirtualDev->DrawPie(tools::Rectangle(Point(11, 12), Size(4, 4)), Point(20, 21), Point(22, 23)); + + checkPie(writeAndReadStream(aGDIMetaFile)); + checkPie(readFile("pie.svm")); +} + +void SvmTest::checkChord(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPath(pDoc, "/metafile/linecolor[5]", "color", "#123456"); + assertXPath(pDoc, "/metafile/fillcolor[5]", "color", "#654321"); + + assertXPathAttrs(pDoc, "/metafile/chord[1]", { + {"left", "21"}, {"top", "22"}, + {"right", "24"}, {"bottom", "25"}, + + {"startx", "30"}, {"starty", "31"}, + {"endx", "32"}, {"endy", "33"}, + }); +} + +void SvmTest::testChord() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetLineColor(Color(0x123456)); + pVirtualDev->SetFillColor(Color(0x654321)); + + pVirtualDev->DrawChord(tools::Rectangle(Point(21, 22), Size(4, 4)), Point(30, 31), Point(32, 33)); + + checkChord(writeAndReadStream(aGDIMetaFile)); + checkChord(readFile("chord.svm")); +} + +void SvmTest::checkPolyLine(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/polyline[1]", { + {"style", "solid"}, {"width", "0"}, + {"dashlen", "0"}, {"dashcount", "0"}, + {"dotlen", "0"}, {"dotcount", "0"}, + {"distance", "0"}, + {"join", "round"}, {"cap", "butt"} + }); + + assertXPathAttrs(pDoc, "/metafile/polyline[1]/point[1]", {{"x", "1"}, {"y", "8"}}); + assertXPathAttrs(pDoc, "/metafile/polyline[1]/point[2]", {{"x", "2"}, {"y", "7"}}); + assertXPathAttrs(pDoc, "/metafile/polyline[1]/point[3]", {{"x", "3"}, {"y", "6"}}); + + assertXPathAttrs(pDoc, "/metafile/polyline[2]", { + {"style", "dash"}, {"width", "7"}, + {"dashlen", "5"}, {"dashcount", "4"}, + {"dotlen", "3"}, {"dotcount", "2"}, + {"distance", "1"}, + {"join", "miter"}, {"cap", "round"} + }); + assertXPathAttrs(pDoc, "/metafile/polyline[2]/point[1]", {{"x", "8"}, {"y", "1"}, {"flags", "normal"}}); + assertXPathAttrs(pDoc, "/metafile/polyline[2]/point[2]", {{"x", "7"}, {"y", "2"}, {"flags", "control"}}); + assertXPathAttrs(pDoc, "/metafile/polyline[2]/point[3]", {{"x", "6"}, {"y", "3"}, {"flags", "smooth"}}); + assertXPathAttrs(pDoc, "/metafile/polyline[2]/point[4]", {{"x", "5"}, {"y", "4"}, {"flags", "symmetric"}}); +} + +void SvmTest::testPolyLine() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + tools::Polygon aPolygon(3); + aPolygon.SetPoint(Point(1, 8), 0); + aPolygon.SetPoint(Point(2, 7), 1); + aPolygon.SetPoint(Point(3, 6), 2); + + pVirtualDev->DrawPolyLine(aPolygon); + + tools::Polygon aPolygonWithControl(4); + aPolygonWithControl.SetPoint(Point(8, 1), 0); + aPolygonWithControl.SetPoint(Point(7, 2), 1); + aPolygonWithControl.SetPoint(Point(6, 3), 2); + aPolygonWithControl.SetPoint(Point(5, 4), 3); + + aPolygonWithControl.SetFlags(0, PolyFlags::Normal); + aPolygonWithControl.SetFlags(1, PolyFlags::Control); + aPolygonWithControl.SetFlags(2, PolyFlags::Smooth); + aPolygonWithControl.SetFlags(3, PolyFlags::Symmetric); + + LineInfo aLineInfo(LineStyle::Dash, 7); + aLineInfo.SetDashLen(5); + aLineInfo.SetDashCount(4); + aLineInfo.SetDotLen(3); + aLineInfo.SetDotCount(2); + aLineInfo.SetDistance(1); + aLineInfo.SetLineJoin(basegfx::B2DLineJoin::Miter); + aLineInfo.SetLineCap(css::drawing::LineCap_ROUND); + + pVirtualDev->DrawPolyLine(aPolygonWithControl, aLineInfo); + + checkPolyLine(writeAndReadStream(aGDIMetaFile)); + checkPolyLine(readFile("polyline.svm")); +} + +void SvmTest::checkPolygon(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/polygon[1]/point[1]", {{"x", "1"}, {"y", "8"}}); + assertXPathAttrs(pDoc, "/metafile/polygon[1]/point[2]", {{"x", "2"}, {"y", "7"}}); + assertXPathAttrs(pDoc, "/metafile/polygon[1]/point[3]", {{"x", "3"}, {"y", "6"}}); + + assertXPathAttrs(pDoc, "/metafile/polygon[2]/point[1]", {{"x", "8"}, {"y", "1"}, {"flags", "normal"}}); + assertXPathAttrs(pDoc, "/metafile/polygon[2]/point[2]", {{"x", "7"}, {"y", "2"}, {"flags", "control"}}); + assertXPathAttrs(pDoc, "/metafile/polygon[2]/point[3]", {{"x", "6"}, {"y", "3"}, {"flags", "smooth"}}); + assertXPathAttrs(pDoc, "/metafile/polygon[2]/point[4]", {{"x", "5"}, {"y", "4"}, {"flags", "symmetric"}}); +} + +void SvmTest::testPolygon() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + tools::Polygon aPolygon(3); + aPolygon.SetPoint(Point(1, 8), 0); + aPolygon.SetPoint(Point(2, 7), 1); + aPolygon.SetPoint(Point(3, 6), 2); + + pVirtualDev->DrawPolygon(aPolygon); + + tools::Polygon aPolygonWithControl(4); + aPolygonWithControl.SetPoint(Point(8, 1), 0); + aPolygonWithControl.SetPoint(Point(7, 2), 1); + aPolygonWithControl.SetPoint(Point(6, 3), 2); + aPolygonWithControl.SetPoint(Point(5, 4), 3); + + aPolygonWithControl.SetFlags(0, PolyFlags::Normal); + aPolygonWithControl.SetFlags(1, PolyFlags::Control); + aPolygonWithControl.SetFlags(2, PolyFlags::Smooth); + aPolygonWithControl.SetFlags(3, PolyFlags::Symmetric); + + pVirtualDev->DrawPolygon(aPolygonWithControl); + + checkPolygon(writeAndReadStream(aGDIMetaFile)); + checkPolygon(readFile("polygon.svm")); +} + +void SvmTest::checkPolyPolygon(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/polypolygon[1]/polygon[1]/point[1]", {{"x", "1"}, {"y", "8"}}); + assertXPathAttrs(pDoc, "/metafile/polypolygon[1]/polygon[1]/point[2]", {{"x", "2"}, {"y", "7"}}); + assertXPathAttrs(pDoc, "/metafile/polypolygon[1]/polygon[1]/point[3]", {{"x", "3"}, {"y", "6"}}); + + assertXPathAttrs(pDoc, "/metafile/polypolygon[1]/polygon[2]/point[1]", {{"x", "8"}, {"y", "1"}, {"flags", "normal"}}); + assertXPathAttrs(pDoc, "/metafile/polypolygon[1]/polygon[2]/point[2]", {{"x", "7"}, {"y", "2"}, {"flags", "control"}}); + assertXPathAttrs(pDoc, "/metafile/polypolygon[1]/polygon[2]/point[3]", {{"x", "6"}, {"y", "3"}, {"flags", "smooth"}}); + assertXPathAttrs(pDoc, "/metafile/polypolygon[1]/polygon[2]/point[4]", {{"x", "5"}, {"y", "4"}, {"flags", "symmetric"}}); +} + +void SvmTest::testPolyPolygon() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + tools::Polygon aPolygon(3); + aPolygon.SetPoint(Point(1, 8), 0); + aPolygon.SetPoint(Point(2, 7), 1); + aPolygon.SetPoint(Point(3, 6), 2); + + tools::Polygon aPolygonWithControl(4); + aPolygonWithControl.SetPoint(Point(8, 1), 0); + aPolygonWithControl.SetPoint(Point(7, 2), 1); + aPolygonWithControl.SetPoint(Point(6, 3), 2); + aPolygonWithControl.SetPoint(Point(5, 4), 3); + + aPolygonWithControl.SetFlags(0, PolyFlags::Normal); + aPolygonWithControl.SetFlags(1, PolyFlags::Control); + aPolygonWithControl.SetFlags(2, PolyFlags::Smooth); + aPolygonWithControl.SetFlags(3, PolyFlags::Symmetric); + + tools::PolyPolygon aPolyPolygon(2); + aPolyPolygon.Insert(aPolygon); + aPolyPolygon.Insert(aPolygonWithControl); + + pVirtualDev->DrawPolyPolygon(aPolyPolygon); + + checkPolyPolygon(writeAndReadStream(aGDIMetaFile)); + checkPolyPolygon(readFile("polypolygon.svm")); +} + +void SvmTest::checkText(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/text[1]", { + {"x", "4"}, {"y", "6"}, {"index", "1"}, {"length", "2"}, + }); + + assertXPathContent(pDoc, "/metafile/text[1]/textcontent", "xABC"); +} + +void SvmTest::testText() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->DrawText(Point(4,6), "xABC", 1, 2); + + checkText(writeAndReadStream(aGDIMetaFile)); + checkText(readFile("text.svm")); +} + +void SvmTest::checkTextArray(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/textarray[1]", { + {"x", "4"}, {"y", "6"}, {"index", "1"}, {"length", "4"}, + }); + assertXPathContent(pDoc, "/metafile/textarray[1]/dxarray", "15 20 25 "); + assertXPathContent(pDoc, "/metafile/textarray[1]/text", "123456"); +} + +void SvmTest::testTextArray() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + long const aDX[] = { 10, 15, 20, 25, 30, 35 }; + pVirtualDev->DrawTextArray(Point(4,6), "123456", aDX, 1, 4); + + checkTextArray(writeAndReadStream(aGDIMetaFile)); + checkTextArray(readFile("textarray.svm")); +} + +void SvmTest::checkStrechText(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/stretchtext[1]", { + {"x", "4"}, {"y", "6"}, {"index", "1"}, {"length", "4"}, {"width", "10"} + }); + + assertXPathContent(pDoc, "/metafile/stretchtext[1]/textcontent", "123456"); +} + +void SvmTest::testStrechText() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + pVirtualDev->DrawStretchText(Point(4,6), 10, "123456", 1, 4); + + checkStrechText(writeAndReadStream(aGDIMetaFile)); + checkStrechText(readFile("strecthtext.svm")); +} + +void SvmTest::checkTextRect(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/textrect[1]", { + {"left", "0"}, {"top", "0"}, {"right", "4"}, {"bottom", "4"} + }); + assertXPathContent(pDoc, "/metafile/textrect[1]/textcontent", "123456"); + assertXPathContent(pDoc, "/metafile/textrect[1]/style", "Center"); +} + +void SvmTest::testTextRect() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + pVirtualDev->DrawText(tools::Rectangle(Point(0,0), Size(5,5)), "123456", DrawTextFlags::Center); + + checkTextRect(writeAndReadStream(aGDIMetaFile)); + checkTextRect(readFile("textrectangle.svm")); +} + +void SvmTest::checkTextLine(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/textline[1]", { + {"x", "4"}, {"y", "6"}, {"width", "10"}, + {"strikeout", "single"}, {"underline", "single"}, {"overline", "single"} + }); +} + +void SvmTest::testTextLine() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + pVirtualDev->DrawTextLine(Point(4,6), 10, STRIKEOUT_SINGLE, LINESTYLE_SINGLE, LINESTYLE_SINGLE); + + checkTextLine(writeAndReadStream(aGDIMetaFile)); + checkTextLine(readFile("textline.svm")); +} + +void SvmTest::checkBitmaps(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + if (SkiaHelper::isVCLSkiaEnabled()) + return; // TODO SKIA using CRCs is broken (the idea of it) + + OUString crc1 = "b8dee5da"; + OUString crc2 = "281fc589"; + OUString crc3 = "5e01ddcc"; +#if HAVE_FEATURE_OPENGL + if (OpenGLHelper::isVCLOpenGLEnabled()) + { + // OpenGL uses a different scaling algorithm and also a different RGB order. + crc1 = "5e01ddcc"; + crc2 = "281fc589"; + crc3 = "b8dee5da"; + } +#endif + + assertXPathAttrs(pDoc, "/metafile/bmp[1]", {{"x", "1"}, {"y", "2"}, {"crc", crc1}}); + assertXPathAttrs(pDoc, "/metafile/bmpscale[1]", { + {"x", "1"}, {"y", "2"}, {"width", "3"}, {"height", "4"}, {"crc", crc2} + }); + assertXPathAttrs(pDoc, "/metafile/bmpscalepart[1]", { + {"destx", "1"}, {"desty", "2"}, {"destwidth", "3"}, {"destheight", "4"}, + {"srcx", "2"}, {"srcy", "1"}, {"srcwidth", "4"}, {"srcheight", "3"}, + {"crc", crc3} + }); +} + +void SvmTest::testBitmaps() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + Bitmap aBitmap1(Size(4,4), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap1); + pAccess->Erase(COL_RED); + } + Bitmap aBitmap2(Size(4,4), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap2); + pAccess->Erase(COL_GREEN); + } + Bitmap aBitmap3(Size(4,4), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap3); + pAccess->Erase(COL_BLUE); + } + pVirtualDev->DrawBitmap(Point(1, 2), aBitmap1); + pVirtualDev->DrawBitmap(Point(1, 2), Size(3, 4), aBitmap2); + pVirtualDev->DrawBitmap(Point(1, 2), Size(3, 4), Point(2, 1), Size(4, 3), aBitmap3); + + { + GDIMetaFile aReloadedGDIMetaFile = writeAndReadStream(aGDIMetaFile); + checkBitmaps(aReloadedGDIMetaFile); + checkRendering(pVirtualDev, aReloadedGDIMetaFile); + } + { + GDIMetaFile aFileGDIMetaFile = readFile("bitmaps.svm"); + checkBitmaps(aFileGDIMetaFile); + checkRendering(pVirtualDev, aFileGDIMetaFile); + } +} + +void SvmTest::checkBitmapExs(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + if (SkiaHelper::isVCLSkiaEnabled()) + return; // TODO SKIA using CRCs is broken (the idea of it) + + std::vector<OUString> aExpectedCRC; + +#if HAVE_FEATURE_OPENGL + if (OpenGLHelper::isVCLOpenGLEnabled()) + { + aExpectedCRC.insert(aExpectedCRC.end(), + { + "08feb5d3", + "281fc589", + "b8dee5da", + "4df0e464", + "7d3a8da3", + "1426653b", + "4fd547df", + "71efc447", + }); + } + else +#endif + { + aExpectedCRC.insert(aExpectedCRC.end(), + { + "d8377d4f", + "281fc589", + "5e01ddcc", + "4df0e464", + "34434a50", + "d1736327", + "b37875c2", + "a85d44b8", + }); + } + + assertXPathAttrs(pDoc, "/metafile/bmpex[1]", { + {"x", "1"}, {"y", "1"}, {"crc", aExpectedCRC[0]}, {"transparenttype", "bitmap"} + }); + assertXPathAttrs(pDoc, "/metafile/bmpexscale[1]", { + {"x", "5"}, {"y", "0"}, {"width", "2"}, {"height", "3"}, + {"crc", aExpectedCRC[1]}, {"transparenttype", "bitmap"} + }); + assertXPathAttrs(pDoc, "/metafile/bmpexscalepart[1]", { + {"destx", "7"}, {"desty", "1"}, {"destwidth", "2"}, {"destheight", "2"}, + {"srcx", "0"}, {"srcy", "0"}, {"srcwidth", "3"}, {"srcheight", "4"}, + {"crc", aExpectedCRC[2]}, {"transparenttype", "bitmap"} + }); + +#ifndef MACOSX + assertXPathAttrs(pDoc, "/metafile/bmpex[2]", { + {"x", "6"}, {"y", "6"}, {"crc", aExpectedCRC[3]}, {"transparenttype", "bitmap"} + }); + assertXPathAttrs(pDoc, "/metafile/bmpex[3]", { + {"x", "0"}, {"y", "6"}, {"crc", aExpectedCRC[4]}, {"transparenttype", "bitmap"} + }); + assertXPathAttrs(pDoc, "/metafile/bmpex[4]", { + {"x", "2"}, {"y", "6"}, {"crc", aExpectedCRC[5]}, {"transparenttype", "bitmap"} + }); + assertXPathAttrs(pDoc, "/metafile/bmpex[5]", { + {"x", "0"}, {"y", "8"}, {"crc", aExpectedCRC[6]}, {"transparenttype", "bitmap"} + }); + assertXPathAttrs(pDoc, "/metafile/bmpex[6]", { + {"x", "2"}, {"y", "8"}, {"crc", aExpectedCRC[7]}, {"transparenttype", "bitmap"} + }); +#endif +} + +void SvmTest::testBitmapExs() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + // DrawBitmapEx + { + Bitmap aBitmap(Size(4,4), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap); + pAccess->Erase(COL_YELLOW); + } + + pVirtualDev->DrawBitmapEx(Point(1, 1), BitmapEx(aBitmap, COL_WHITE)); + } + + // DrawBitmapEx - Scale + { + Bitmap aBitmap(Size(4,4), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap); + pAccess->Erase(COL_GREEN); + } + pVirtualDev->DrawBitmapEx(Point(5, 0), Size(2, 3), BitmapEx(aBitmap, COL_WHITE)); + } + + // DrawBitmapEx - Scale - Part + { + Bitmap aBitmap(Size(4,4), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap); + pAccess->Erase(COL_BLUE); + } + pVirtualDev->DrawBitmapEx(Point(7, 1), Size(2, 2), Point(0, 0), Size(3, 4), BitmapEx(aBitmap, COL_WHITE)); + } + + // DrawBitmapEx - 50% transparent + { + Bitmap aBitmap(Size(4, 4), 24); + AlphaMask aAlpha(Size(4, 4)); + { + BitmapScopedWriteAccess pAccess(aBitmap); + pAccess->Erase(COL_MAGENTA); + + AlphaScopedWriteAccess pAlphaAccess(aAlpha); + pAlphaAccess->Erase(Color(128, 128, 128)); + } + pVirtualDev->DrawBitmapEx(Point(6, 6), BitmapEx(aBitmap, aAlpha)); + } + + // DrawBitmapEx - 1-bit + { + Bitmap aBitmap(Size(2, 2), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap); + pAccess->Erase(COL_MAGENTA); + } + aBitmap.Convert(BmpConversion::N1BitThreshold); + pVirtualDev->DrawBitmapEx(Point(0, 6), BitmapEx(aBitmap, COL_WHITE)); + } + + // DrawBitmapEx - 4-bit + { + Bitmap aBitmap(Size(2, 2), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap); + pAccess->Erase(COL_MAGENTA); + } + aBitmap.Convert(BmpConversion::N4BitColors); + pVirtualDev->DrawBitmapEx(Point(2, 6), BitmapEx(aBitmap, COL_WHITE)); + } + + // DrawBitmapEx - 8-bit Color + { + Bitmap aBitmap(Size(2, 2), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap); + pAccess->Erase(COL_MAGENTA); + } + aBitmap.Convert(BmpConversion::N8BitColors); + pVirtualDev->DrawBitmapEx(Point(0, 8), BitmapEx(aBitmap, COL_WHITE)); + } + + // DrawBitmapEx - 8-bit Grey + { + Bitmap aBitmap(Size(2, 2), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap); + pAccess->Erase(COL_MAGENTA); + } + aBitmap.Convert(BmpConversion::N8BitGreys); + pVirtualDev->DrawBitmapEx(Point(2, 8), BitmapEx(aBitmap, COL_WHITE)); + } + + { + GDIMetaFile aReloadedGDIMetaFile = writeAndReadStream(aGDIMetaFile); + checkBitmapExs(aReloadedGDIMetaFile); + checkRendering(pVirtualDev, aReloadedGDIMetaFile); + } + { + GDIMetaFile aFileGDIMetaFile = readFile("bitmapexs.svm"); + checkBitmapExs(aFileGDIMetaFile); + checkRendering(pVirtualDev, aFileGDIMetaFile); + } +} + +void SvmTest::checkMasks(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/mask[1]", { + {"x", "1"}, {"y", "2"}, + {"color", "#000000"} + }); + assertXPathAttrs(pDoc, "/metafile/maskscale[1]", { + {"x", "1"}, {"y", "2"}, {"width", "3"}, {"height", "4"}, + {"color", "#000000"} + }); + assertXPathAttrs(pDoc, "/metafile/maskscalepart[1]", { + {"destx", "1"}, {"desty", "2"}, {"destwidth", "3"}, {"destheight", "4"}, + {"srcx", "2"}, {"srcy", "1"}, {"srcwidth", "4"}, {"srcheight", "3"}, + {"color", "#ff0000"} + }); +} + +// TODO: Masks are kind-of special - we don't persist the color attribute (it is +// always #000000) of the meta-action (which is wrong), but rely on alpha to do +// the right thing. +void SvmTest::testMasks() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + Bitmap aBitmap1(Size(4,4), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap1); + pAccess->Erase(COL_RED); + } + Bitmap aBitmap2(Size(4,4), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap2); + pAccess->Erase(COL_GREEN); + } + Bitmap aBitmap3(Size(4,4), 24); + { + BitmapScopedWriteAccess pAccess(aBitmap3); + pAccess->Erase(COL_BLUE); + } + + pVirtualDev->DrawMask(Point(1, 2), aBitmap1, COL_LIGHTRED); + pVirtualDev->DrawMask(Point(1, 2), Size(3, 4), aBitmap2, COL_LIGHTRED); + pVirtualDev->DrawMask(Point(1, 2), Size(3, 4), Point(2, 1), Size(4, 3), aBitmap3, COL_LIGHTRED, MetaActionType::MASKSCALEPART); + + checkMasks(writeAndReadStream(aGDIMetaFile)); + checkMasks(readFile("masks.svm")); +} + +void SvmTest::checkGradient(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/gradient[1]", { + {"style", "Linear"}, + {"startcolor", "#ffffff"}, + {"endcolor", "#000000"}, + {"angle", "0"}, + {"border", "0"}, + {"offsetx", "50"}, + {"offsety", "50"}, + {"startintensity", "100"}, + {"endintensity", "100"}, + {"steps", "0"}, + }); + assertXPathAttrs(pDoc, "/metafile/gradient[1]/rectangle", { + {"left", "1"}, + {"top", "2"}, + {"right", "4"}, + {"bottom", "6"}, + }); + + assertXPathAttrs(pDoc, "/metafile/gradient[2]", { + {"style", "Radial"}, + {"startcolor", "#ff0000"}, + {"endcolor", "#00ff00"}, + {"angle", "55"}, + {"border", "10"}, + {"offsetx", "22"}, + {"offsety", "24"}, + {"startintensity", "4"}, + {"endintensity", "14"}, + {"steps", "64"}, + }); + assertXPathAttrs(pDoc, "/metafile/gradient[2]/rectangle", { + {"left", "3"}, + {"top", "4"}, + {"right", "3"}, + {"bottom", "5"}, + }); +} + +void SvmTest::testGradient() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + tools::Rectangle aRectangle(Point(1, 2), Size(4,5)); + + Gradient aGradient(GradientStyle::Linear, COL_WHITE, COL_BLACK); + pVirtualDev->DrawGradient(aRectangle, aGradient); + + tools::Rectangle aRectangle2(Point(3, 4), Size(1,2)); + + Gradient aGradient2; + aGradient2.SetStyle(GradientStyle::Radial); + aGradient2.SetStartColor(COL_LIGHTRED); + aGradient2.SetEndColor(COL_LIGHTGREEN); + aGradient2.SetAngle(55); + aGradient2.SetBorder(10); + aGradient2.SetOfsX(22); + aGradient2.SetOfsY(24); + aGradient2.SetStartIntensity(4); + aGradient2.SetEndIntensity(14); + aGradient2.SetSteps(64); + pVirtualDev->DrawGradient(aRectangle2, aGradient2); + + checkGradient(writeAndReadStream(aGDIMetaFile)); + checkGradient(readFile("gradient.svm")); +} + +void SvmTest::testGradientEx() +{} + +void SvmTest::checkHatch(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/hatch[1]/polygon/point[1]", { + {"x", "1"}, {"y", "8"}, + }); + assertXPathAttrs(pDoc, "/metafile/hatch[1]/polygon/point[2]", { + {"x", "2"}, {"y", "7"}, + }); + assertXPathAttrs(pDoc, "/metafile/hatch[1]/polygon/point[3]", { + {"x", "3"}, {"y", "6"}, + }); + + assertXPathAttrs(pDoc, "/metafile/hatch[1]/hatch", { + {"style", "Single"}, + {"color", "#ffff00"}, + {"distance", "15"}, + {"angle", "900"}, + }); +} + +void SvmTest::testHatch() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + tools::Polygon aPolygon(3); + aPolygon.SetPoint(Point(1, 8), 0); + aPolygon.SetPoint(Point(2, 7), 1); + aPolygon.SetPoint(Point(3, 6), 2); + + tools::PolyPolygon aPolyPolygon(1); + aPolyPolygon.Insert(aPolygon); + + Hatch aHatch(HatchStyle::Single, COL_YELLOW, 15, 900); + + pVirtualDev->DrawHatch(aPolyPolygon, aHatch); + + checkHatch(writeAndReadStream(aGDIMetaFile)); + checkHatch(readFile("hatch.svm")); +} + +void SvmTest::checkWallpaper(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + // Funny enough - we don't serialize the rectangle of the wallpaper so it's always EMPTY + assertXPathAttrs(pDoc, "/metafile/wallpaper[1]", + { + {"left", "0"}, + {"top", "0"}, + {"right", "empty"}, + {"bottom", "empty"}, + }); + + assertXPathAttrs(pDoc, "/metafile/wallpaper[1]/wallpaper", + { + {"color", "#00ff00"}, + {"style", "Tile"}, + {"fixed", "true"}, + {"scrollable", "true"}, + }); +} + +void SvmTest::testWallpaper() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + Wallpaper aWallpaper(COL_LIGHTGREEN); + pVirtualDev->DrawWallpaper(tools::Rectangle(Point(1, 1), Size(3, 3)), aWallpaper); + + checkWallpaper(writeAndReadStream(aGDIMetaFile)); + checkWallpaper(readFile("wallpaper.svm")); +} + +void SvmTest::checkClipRegion(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/clipregion[1]", { + {"left", "2"}, + {"top", "2"}, + {"right", "5"}, + {"bottom", "5"}, + }); +} + +void SvmTest::testClipRegion() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + vcl::Region aRegion(tools::Rectangle(Point(2, 2), Size(4, 4))); + + // TODO + // explicit Region(const tools::Polygon& rPolygon); + // explicit Region(const tools::PolyPolygon& rPolyPoly); + // explicit Region(const basegfx::B2DPolyPolygon&); + pVirtualDev->SetClipRegion(aRegion); + + checkClipRegion(writeAndReadStream(aGDIMetaFile)); + checkClipRegion(readFile("clipregion.svm")); +} + +void SvmTest::testIntersectRectClipRegion() +{} +void SvmTest::testIntersectRegionClipRegion() +{} +void SvmTest::testMoveClipRegion() +{} + +void SvmTest::checkLineColor(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/push/linecolor[1]", { + {"color", "#654321"}, + }); +} + +void SvmTest::testLineColor() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->Push(); + pVirtualDev->SetLineColor(Color(0x654321)); + pVirtualDev->Pop(); + + checkLineColor(writeAndReadStream(aGDIMetaFile)); + checkLineColor(readFile("linecolor.svm")); +} + +void SvmTest::checkFillColor(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/push/fillcolor[1]", { + {"color", "#456789"}, + }); +} + +void SvmTest::testFillColor() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->Push(); + pVirtualDev->SetFillColor(Color(0x456789)); + pVirtualDev->Pop(); + + checkFillColor(writeAndReadStream(aGDIMetaFile)); + checkFillColor(readFile("fillcolor.svm")); +} + +void SvmTest::checkTextColor(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/textcolor[1]", { + {"color", "#123456"}, + }); +} + +void SvmTest::testTextColor() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetTextColor(Color(0x123456)); + + checkTextColor(writeAndReadStream(aGDIMetaFile)); + checkTextColor(readFile("textcolor.svm")); +} + +void SvmTest::checkTextFillColor(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/textfillcolor[1]", { + {"color", "#234567"}, + }); +} + +void SvmTest::testTextFillColor() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetTextFillColor(Color(0x234567)); + + checkTextFillColor(writeAndReadStream(aGDIMetaFile)); + checkTextFillColor(readFile("textfillecolor.svm")); +} + +void SvmTest::checkTextLineColor(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/textlinecolor[1]", { + {"color", "#345678"}, + }); +} + +void SvmTest::testTextLineColor() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetTextLineColor(Color(0x345678)); + + checkTextLineColor(writeAndReadStream(aGDIMetaFile)); + checkTextLineColor(readFile("textlinecolor.svm")); +} + +void SvmTest::checkOverLineColor(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/push/overlinecolor[1]", { + {"color", "#345678"}, + }); +} + +void SvmTest::testOverLineColor() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->Push(); + pVirtualDev->SetOverlineColor(Color(0x345678)); + pVirtualDev->Pop(); + + checkOverLineColor(writeAndReadStream(aGDIMetaFile)); + checkOverLineColor(readFile("overlinecolor.svm")); +} + +void SvmTest::checkTextAlign(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/textalign[1]", { + {"align", "bottom"}, + }); +} + +void SvmTest::testTextAlign() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetTextAlign(TextAlign::ALIGN_BOTTOM); + + checkTextAlign(writeAndReadStream(aGDIMetaFile)); + checkTextAlign(readFile("textalign.svm")); +} + +void SvmTest::testMapMode() +{} +void SvmTest::testFont() +{} + +void SvmTest::checkPushPop(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/push[1]", {{"flags", "PushAll"}}); + assertXPathAttrs(pDoc, "/metafile/push[1]/linecolor[1]", {{"color", "#800000"}}); + assertXPathAttrs(pDoc, "/metafile/push[1]/line[1]", { + {"startx", "4"}, {"starty", "4"}, + {"endx", "6"}, {"endy", "6"}, + }); + assertXPathAttrs(pDoc, "/metafile/push[1]/push[1]", {{"flags", "PushLineColor, PushFillColor"}}); + assertXPathAttrs(pDoc, "/metafile/push[1]/push[1]/line[1]", { + {"startx", "5"}, {"starty", "5"}, + {"endx", "7"}, {"endy", "7"}, + }); +} + +void SvmTest::testPushPop() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetLineColor(COL_YELLOW); + pVirtualDev->Push(); + pVirtualDev->SetLineColor(COL_RED); + pVirtualDev->DrawLine(Point(4,4), Point(6,6)); + pVirtualDev->Push(PushFlags::FILLCOLOR | PushFlags::LINECOLOR); + pVirtualDev->SetLineColor(COL_LIGHTRED); + pVirtualDev->DrawLine(Point(5,5), Point(7,7)); + pVirtualDev->Pop(); + pVirtualDev->Pop(); + pVirtualDev->DrawLine(Point(1,1), Point(8,8)); + + checkPushPop(writeAndReadStream(aGDIMetaFile)); + checkPushPop(readFile("pushpop.svm")); +} + +void SvmTest::checkRasterOp(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/rasterop[1]", { + {"operation", "xor"}, + }); +} + +void SvmTest::testRasterOp() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + pVirtualDev->SetRasterOp(RasterOp::Xor); + + checkRasterOp(writeAndReadStream(aGDIMetaFile)); + checkRasterOp(readFile("rasterop.svm")); +} + +void SvmTest::checkTransparent(const GDIMetaFile& rMetaFile) +{ + xmlDocUniquePtr pDoc = dumpMeta(rMetaFile); + + assertXPathAttrs(pDoc, "/metafile/transparent[1]", { + {"transparence", "50"}, + }); + + assertXPathAttrs(pDoc, "/metafile/transparent[1]/polygon/point[1]", { + {"x", "1"}, {"y", "8"}, + }); + assertXPathAttrs(pDoc, "/metafile/transparent[1]/polygon/point[2]", { + {"x", "2"}, {"y", "7"}, + }); + assertXPathAttrs(pDoc, "/metafile/transparent[1]/polygon/point[3]", { + {"x", "3"}, {"y", "6"}, + }); +} + +void SvmTest::testTransparent() +{ + GDIMetaFile aGDIMetaFile; + ScopedVclPtrInstance<VirtualDevice> pVirtualDev; + setupBaseVirtualDevice(*pVirtualDev, aGDIMetaFile); + + tools::Polygon aPolygon(3); + aPolygon.SetPoint(Point(1, 8), 0); + aPolygon.SetPoint(Point(2, 7), 1); + aPolygon.SetPoint(Point(3, 6), 2); + + tools::PolyPolygon aPolyPolygon(1); + aPolyPolygon.Insert(aPolygon); + + pVirtualDev->DrawTransparent(aPolygon, 50); + + CPPUNIT_ASSERT(aGDIMetaFile.HasTransparentActions()); + checkTransparent(writeAndReadStream(aGDIMetaFile)); + checkTransparent(readFile("transparent.svm")); +} + +void SvmTest::testFloatTransparent() +{} + +void SvmTest::testEPS() +{} + +void SvmTest::testRefPoint() +{} + +void SvmTest::testComment() +{} + +void SvmTest::testLayoutMode() +{} + +void SvmTest::testTextLanguage() +{} + +CPPUNIT_TEST_SUITE_REGISTRATION(SvmTest); + +CPPUNIT_PLUGIN_IMPLEMENT(); + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |