/* -*- 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 #include #include #include #include #include #include #include #include #include // Run tests from visualbackendtest ('bin/run visualbackendtest'). class BackendTest : public test::BootstrapFixture { // if enabled - check the result images with: // "xdg-open ./workdir/CppunitTest/vcl_backend_test.test.core/" static constexpr const bool mbExportBitmap = false; void exportImage(OUString const& rsFilename, BitmapEx const& rBitmapEx) { if (mbExportBitmap) { BitmapEx aBitmapEx(rBitmapEx); aBitmapEx.Scale(Size(128, 128), BmpScaleFlag::Fast); SvFileStream aStream(rsFilename, StreamMode::WRITE | StreamMode::TRUNC); GraphicFilter::GetGraphicFilter().compressAsPNG(aBitmapEx, aStream); } } void exportImage(OUString const& rsFilename, Bitmap const& rBitmap) { if (mbExportBitmap) { Bitmap aBitmap(rBitmap); aBitmap.Scale(Size(128, 128), BmpScaleFlag::Fast); SvFileStream aStream(rsFilename, StreamMode::WRITE | StreamMode::TRUNC); GraphicFilter::GetGraphicFilter().compressAsPNG(BitmapEx(aBitmap), aStream); } } void exportDevice(const OUString& filename, const VclPtr& device) { if (mbExportBitmap) { BitmapEx aBitmapEx(device->GetBitmapEx(Point(0, 0), device->GetOutputSizePixel())); SvFileStream aStream(filename, StreamMode::WRITE | StreamMode::TRUNC); GraphicFilter::GetGraphicFilter().compressAsPNG(aBitmapEx, aStream); } } bool is32bppSupported() { return ImplGetSVData()->mpDefInst->supportsBitmap32(); } public: BackendTest() : BootstrapFixture(true, false) { } // We need to enable tests ONE BY ONE as they fail because of backend bugs // it is still important to have the test defined so we know the issues // exist and we need to fix them. Consistent behaviour of our backends // is of highest priority. static bool assertBackendNameNotEmpty(const OUString& name) { // This ensures that all backends return a valid name. assert(!name.isEmpty()); (void)name; return true; } // Check whether tests should fail depending on which backend is used // (not all work). If you want to disable just a specific test // for a specific backend, use something like // 'if(SHOULD_ASSERT && aOutDevTest.getRenderBackendName() != "skia")'. // The macro uses opt-out rather than opt-in so that this doesn't "pass" // silently in case a new backend is added. #define SHOULD_ASSERT \ (assertBackendNameNotEmpty(aOutDevTest.getRenderBackendName()) \ && aOutDevTest.getRenderBackendName() != "qt5" \ && aOutDevTest.getRenderBackendName() != "qt5svp" \ && aOutDevTest.getRenderBackendName() != "gtk3svp" \ && aOutDevTest.getRenderBackendName() != "aqua" \ && aOutDevTest.getRenderBackendName() != "gen" \ && aOutDevTest.getRenderBackendName() != "genpsp" \ && aOutDevTest.getRenderBackendName() != "win") #ifdef MACOSX static OUString getRenderBackendName(OutputDevice* device) { assert(device); return device->GetGraphics()->getRenderBackendName(); } #endif void testDrawRectWithRectangle() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestRect aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangles(aBitmap); exportImage("01-01_rectangle_test-rectangle.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectWithPixel() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPixel aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangles(aBitmap); exportImage("01-02_rectangle_test-pixel.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectWithLine() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangles(aBitmap); exportImage("01-03_rectangle_test-line.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectWithPolygon() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangles(aBitmap); exportImage("01-04_rectangle_test-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectWithPolyLine() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangles(aBitmap); exportImage("01-05_rectangle_test-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectWithPolyLineB2D() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyLineB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangles(aBitmap); exportImage("01-06_rectangle_test-polyline_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectWithPolyPolygon() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangles(aBitmap); exportImage("01-07_rectangle_test-polypolygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectWithPolyPolygonB2D() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyPolygonB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangles(aBitmap); exportImage("01-08_rectangle_test-polypolygon_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectAAWithRectangle() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestRect aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangleAA(aBitmap); exportImage("02-01_rectangle_AA_test-rectangle.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectAAWithPixel() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPixel aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangleAA(aBitmap); exportImage("02-02_rectangle_AA_test-pixel.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectAAWithLine() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangleAA(aBitmap); exportImage("02-03_rectangle_AA_test-line.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectAAWithPolygon() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangleAA(aBitmap); exportImage("02-04_rectangle_AA_test-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectAAWithPolyLine() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangleAA(aBitmap); exportImage("02-05_rectangle_AA_test-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectAAWithPolyLineB2D() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyLineB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangleAA(aBitmap); exportImage("02-06_rectangle_AA_test-polyline_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectAAWithPolyPolygon() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangleAA(aBitmap); exportImage("02-07_rectangle_AA_test-polypolygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawRectAAWithPolyPolygonB2D() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyPolygonB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRectangle(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkRectangleAA(aBitmap); exportImage("02-08_rectangle_AA_test-polypolygon_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawFilledRectWithRectangle() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestRect aOutDevTest; Bitmap aBitmap = aOutDevTest.setupFilledRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkFilledRectangle(aBitmap, false); exportImage("03-01_filled_rectangle_test-rectangle_noline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); aBitmap = aOutDevTest.setupFilledRectangle(true); eResult = vcl::test::OutputDeviceTestCommon::checkFilledRectangle(aBitmap, true); exportImage("03-01_filled_rectangle_test-rectangle_line.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawFilledRectWithPolygon() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupFilledRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkFilledRectangle(aBitmap, false); exportImage("03-02_filled_rectangle_test-polygon_noline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); aBitmap = aOutDevTest.setupFilledRectangle(true); eResult = vcl::test::OutputDeviceTestCommon::checkFilledRectangle(aBitmap, true); exportImage("03-02_filled_rectangle_test-polygon_line.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawFilledRectWithPolyPolygon() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupFilledRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkFilledRectangle(aBitmap, false); exportImage("03-03_filled_rectangle_test-polypolygon_noline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); aBitmap = aOutDevTest.setupFilledRectangle(true); eResult = vcl::test::OutputDeviceTestCommon::checkFilledRectangle(aBitmap, true); exportImage("03-03_filled_rectangle_test-polypolygon_line.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawFilledRectWithPolyPolygon2D() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyPolygonB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupFilledRectangle(false); auto eResult = vcl::test::OutputDeviceTestCommon::checkFilledRectangle(aBitmap, false); exportImage("03-04_filled_rectangle_test-polypolygon_b2d_noline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); aBitmap = aOutDevTest.setupFilledRectangle(true); eResult = vcl::test::OutputDeviceTestCommon::checkFilledRectangle(aBitmap, true); exportImage("03-04_filled_rectangle_test-polypolygon_b2d_line.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawDiamondWithPolygon() { vcl::test::OutputDeviceTestPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDiamond(); auto eResult = vcl::test::OutputDeviceTestCommon::checkDiamond(aBitmap); exportImage("04-01_diamond_test-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawDiamondWithLine() { vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDiamond(); auto eResult = vcl::test::OutputDeviceTestCommon::checkDiamond(aBitmap); exportImage("04-02_diamond_test-line.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawDiamondWithPolyline() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDiamond(); auto eResult = vcl::test::OutputDeviceTestCommon::checkDiamond(aBitmap); exportImage("04-03_diamond_test-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawDiamondWithPolylineB2D() { vcl::test::OutputDeviceTestPolyLineB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDiamond(); auto eResult = vcl::test::OutputDeviceTestCommon::checkDiamond(aBitmap); exportImage("04-04_diamond_test-polyline_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawInvertWithRectangle() { vcl::test::OutputDeviceTestRect aOutDevTest; Bitmap aBitmap = aOutDevTest.setupInvert_NONE(); auto eResult = vcl::test::OutputDeviceTestCommon::checkInvertRectangle(aBitmap); exportImage("05-01_invert_test-rectangle.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawInvertN50WithRectangle() { vcl::test::OutputDeviceTestRect aOutDevTest; Bitmap aBitmap = aOutDevTest.setupInvert_N50(); auto eResult = vcl::test::OutputDeviceTestCommon::checkInvertN50Rectangle(aBitmap); exportImage("05-02_invert_N50_test-rectangle.png", aBitmap); if (SHOULD_ASSERT && aOutDevTest.getRenderBackendName() != "svp") CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawInvertTrackFrameWithRectangle() { vcl::test::OutputDeviceTestRect aOutDevTest; Bitmap aBitmap = aOutDevTest.setupInvert_TrackFrame(); auto eResult = vcl::test::OutputDeviceTestCommon::checkInvertTrackFrameRectangle(aBitmap); exportImage("05-03_invert_TrackFrame_test-rectangle.png", aBitmap); if (SHOULD_ASSERT && aOutDevTest.getRenderBackendName() != "svp") CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawBezierWithPolylineB2D() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyLineB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupBezier(); auto eResult = vcl::test::OutputDeviceTestCommon::checkBezier(aBitmap); exportImage("06-01_bezier_test-polyline_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawBezierAAWithPolylineB2D() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestPolyLineB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupAABezier(); auto eResult = vcl::test::OutputDeviceTestCommon::checkBezier(aBitmap); exportImage("07-01_bezier_AA_test-polyline_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawBitmap24bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawBitmap(vcl::PixelFormat::N24_BPP); exportImage("08-01_bitmap_test_24bpp.png", aBitmap); auto eResult = vcl::test::OutputDeviceTestBitmap::checkTransformedBitmap(aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawTransformedBitmap24bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawTransformedBitmap(vcl::PixelFormat::N24_BPP); auto eResult = vcl::test::OutputDeviceTestBitmap::checkTransformedBitmap(aBitmap); exportImage("08-02_transformed_bitmap_test_24bpp.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testComplexDrawTransformedBitmap24bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupComplexDrawTransformedBitmap(vcl::PixelFormat::N24_BPP); auto eResult = vcl::test::OutputDeviceTestBitmap::checkComplexTransformedBitmap(aBitmap); exportImage("08-03_transformed_bitmap_test_24bpp.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawBitmapExWithAlpha24bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawBitmapExWithAlpha(vcl::PixelFormat::N24_BPP); auto eResult = vcl::test::OutputDeviceTestBitmap::checkBitmapExWithAlpha(aBitmap); exportImage("08-04_bitmapex_with_alpha_test_24bpp.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawMask24bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawMask(vcl::PixelFormat::N24_BPP); auto eResult = vcl::test::OutputDeviceTestBitmap::checkMask(aBitmap); exportImage("08-05_mask_test_24bpp.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawBlend24bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; BitmapEx aBitmapEx = aOutDevTest.setupDrawBlend(vcl::PixelFormat::N24_BPP); auto eResult = vcl::test::OutputDeviceTestBitmap::checkBlend(aBitmapEx); exportImage("08-06_blend_test_24bpp.png", aBitmapEx); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawBitmap32bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawBitmap(vcl::PixelFormat::N32_BPP); exportImage("09-01_bitmap_test_32bpp.png", aBitmap); auto eResult = vcl::test::OutputDeviceTestBitmap::checkTransformedBitmap(aBitmap); if (SHOULD_ASSERT && is32bppSupported()) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawTransformedBitmap32bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawTransformedBitmap(vcl::PixelFormat::N32_BPP); auto eResult = vcl::test::OutputDeviceTestBitmap::checkTransformedBitmap(aBitmap); exportImage("09-02_transformed_bitmap_test_32bpp.png", aBitmap); if (SHOULD_ASSERT && is32bppSupported()) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawBitmapExWithAlpha32bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawBitmapExWithAlpha(vcl::PixelFormat::N32_BPP); auto eResult = vcl::test::OutputDeviceTestBitmap::checkBitmapExWithAlpha(aBitmap); exportImage("09-03_bitmapex_with_alpha_test_32bpp.png", aBitmap); if (SHOULD_ASSERT && is32bppSupported()) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawMask32bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawMask(vcl::PixelFormat::N32_BPP); auto eResult = vcl::test::OutputDeviceTestBitmap::checkMask(aBitmap); exportImage("09-04_mask_test_32bpp.png", aBitmap); if (SHOULD_ASSERT && is32bppSupported()) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawBlend32bpp() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; BitmapEx aBitmapEx = aOutDevTest.setupDrawBlend(vcl::PixelFormat::N32_BPP); auto eResult = vcl::test::OutputDeviceTestBitmap::checkBlend(aBitmapEx); exportImage("09-05_blend_test_32bpp.png", aBitmapEx); if (SHOULD_ASSERT && is32bppSupported()) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawBitmap8bppGreyScale() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawBitmap(vcl::PixelFormat::N8_BPP, true); exportImage("010-01_bitmap_test_8bpp_greyscale.png", aBitmap); auto eResult = vcl::test::OutputDeviceTestBitmap::checkTransformedBitmap8bppGreyScale(aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawTransformedBitmap8bppGreyScale() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestBitmap aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawTransformedBitmap(vcl::PixelFormat::N8_BPP, true); auto eResult = vcl::test::OutputDeviceTestBitmap::checkTransformedBitmap8bppGreyScale(aBitmap); exportImage("010-02_transformed_bitmap_test_8bpp_greyscale.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawXor() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestAnotherOutDev aOutDevTest; Bitmap aBitmap = aOutDevTest.setupXOR(); auto eResult = vcl::test::OutputDeviceTestAnotherOutDev::checkXOR(aBitmap); exportImage("08-06_xor_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawTransformedBitmapExAlpha() { if (getDefaultDeviceBitCount() < 24) return; ScopedVclPtrInstance device; #ifdef MACOSX // TODO: This unit test is not executed for macOS unless bitmap scaling is implemented if (getRenderBackendName(device) == "aqua") return; #endif device->SetOutputSizePixel(Size(16, 16)); device->SetBackground(Wallpaper(COL_WHITE)); device->Erase(); Bitmap aBitmap(Size(16, 16), vcl::PixelFormat::N24_BPP); { // Fill the top left quarter with black. BitmapScopedWriteAccess pWriteAccess(aBitmap); pWriteAccess->Erase(COL_WHITE); for (int i = 0; i < 8; ++i) for (int j = 0; j < 8; ++j) pWriteAccess->SetPixel(j, i, COL_BLACK); } BitmapEx aBitmapEx(aBitmap); basegfx::B2DHomMatrix aMatrix; // Draw with no transformation, only alpha change. aMatrix.scale(16, 16); device->DrawTransformedBitmapEx(aMatrix, aBitmapEx, 0.5); BitmapEx result = device->GetBitmapEx(Point(0, 0), Size(16, 16)); CPPUNIT_ASSERT_EQUAL(Color(0x80, 0x80, 0x80), result.GetPixelColor(0, 0)); CPPUNIT_ASSERT_EQUAL(COL_WHITE, result.GetPixelColor(15, 15)); // Draw rotated and move to the bottom-left corner. device->Erase(); aMatrix.identity(); aMatrix.scale(16, 16); aMatrix.rotate(M_PI / 2); aMatrix.translate(8, 8); device->DrawTransformedBitmapEx(aMatrix, aBitmapEx, 0.5); result = device->GetBitmap(Point(0, 0), Size(16, 16)); CPPUNIT_ASSERT_EQUAL(COL_WHITE, result.GetPixelColor(0, 0)); CPPUNIT_ASSERT_EQUAL(Color(0x80, 0x80, 0x80), result.GetPixelColor(0, 15)); } void testClipRectangle() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestClip aOutDevTest; Bitmap aBitmap = aOutDevTest.setupClipRectangle(); auto eResult = vcl::test::OutputDeviceTestClip::checkClip(aBitmap); exportImage("09-01_clip_rectangle_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testClipPolygon() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestClip aOutDevTest; Bitmap aBitmap = aOutDevTest.setupClipPolygon(); auto eResult = vcl::test::OutputDeviceTestClip::checkClip(aBitmap); exportImage("09-02_clip_polygon_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testClipPolyPolygon() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestClip aOutDevTest; Bitmap aBitmap = aOutDevTest.setupClipPolyPolygon(); auto eResult = vcl::test::OutputDeviceTestClip::checkClip(aBitmap); exportImage("09-03_clip_polypolygon_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testClipB2DPolyPolygon() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestClip aOutDevTest; Bitmap aBitmap = aOutDevTest.setupClipB2DPolyPolygon(); auto eResult = vcl::test::OutputDeviceTestClip::checkClip(aBitmap); exportImage("09-04_clip_b2dpolypolygon_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOutDev() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestAnotherOutDev aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawOutDev(); auto eResult = vcl::test::OutputDeviceTestAnotherOutDev::checkDrawOutDev(aBitmap); exportImage("10-01_draw_out_dev_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOutDevScaledClipped() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestAnotherOutDev aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawOutDevScaledClipped(); auto eResult = vcl::test::OutputDeviceTestAnotherOutDev::checkDrawOutDevScaledClipped(aBitmap); exportImage("10-02_draw_out_dev_scaled_clipped_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOutDevSelf() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestAnotherOutDev aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDrawOutDevSelf(); auto eResult = vcl::test::OutputDeviceTestAnotherOutDev::checkDrawOutDevSelf(aBitmap); exportImage("10-03_draw_out_dev_self_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDashedLine() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDashedLine(); auto eResult = vcl::test::OutputDeviceTestLine::checkDashedLine(aBitmap); exportImage("11-01_dashed_line_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testErase() { if (getDefaultDeviceBitCount() < 24) return; { // Create normal virtual device (no alpha). ScopedVclPtr device = VclPtr::Create(DeviceFormat::WITHOUT_ALPHA); device->SetOutputSizePixel(Size(10, 10)); // Erase with white, check it's white. device->SetBackground(Wallpaper(COL_WHITE)); device->Erase(); exportDevice("12-01_erase.png", device); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(9, 9))); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(5, 5))); // Erase with black, check it's black. device->SetBackground(Wallpaper(COL_BLACK)); device->Erase(); exportDevice("12-02_erase.png", device); CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(9, 9))); CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(5, 5))); // Erase with cyan, check it's cyan. device->SetBackground(Wallpaper(COL_CYAN)); device->Erase(); exportDevice("12-03_erase.png", device); CPPUNIT_ASSERT_EQUAL(COL_CYAN, device->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_CYAN, device->GetPixel(Point(9, 9))); CPPUNIT_ASSERT_EQUAL(COL_CYAN, device->GetPixel(Point(5, 5))); } { // Create virtual device with alpha. ScopedVclPtr device = VclPtr::Create(DeviceFormat::WITH_ALPHA); device->SetOutputSizePixel(Size(10, 10)); // Erase with white, check it's white. device->SetBackground(Wallpaper(COL_WHITE)); device->Erase(); exportDevice("12-04_erase.png", device); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(9, 9))); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(5, 5))); // Erase with black, check it's black. device->SetBackground(Wallpaper(COL_BLACK)); device->Erase(); exportDevice("12-05_erase.png", device); CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(9, 9))); CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(5, 5))); // Erase with cyan, check it's cyan. device->SetBackground(Wallpaper(COL_CYAN)); device->Erase(); exportDevice("12-06_erase.png", device); CPPUNIT_ASSERT_EQUAL(COL_CYAN, device->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_CYAN, device->GetPixel(Point(9, 9))); CPPUNIT_ASSERT_EQUAL(COL_CYAN, device->GetPixel(Point(5, 5))); // Erase with transparent, check it's transparent. device->SetBackground(Wallpaper(COL_TRANSPARENT)); device->Erase(); exportDevice("12-07_erase.png", device); CPPUNIT_ASSERT_EQUAL(sal_uInt8(0), device->GetPixel(Point(0, 0)).GetAlpha()); CPPUNIT_ASSERT_EQUAL(sal_uInt8(0), device->GetPixel(Point(9, 9)).GetAlpha()); CPPUNIT_ASSERT_EQUAL(sal_uInt8(0), device->GetPixel(Point(5, 5)).GetAlpha()); } } void testLinearGradient() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestGradient aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLinearGradient(); auto eResult = vcl::test::OutputDeviceTestGradient::checkLinearGradient(aBitmap); exportImage("13-01_linear_gradient_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLinearGradientAngled() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestGradient aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLinearGradientAngled(); auto eResult = vcl::test::OutputDeviceTestGradient::checkLinearGradientAngled(aBitmap); exportImage("13-02_linear_gradient_angled_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLinearGradientBorder() { vcl::test::OutputDeviceTestGradient aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLinearGradientBorder(); auto eResult = vcl::test::OutputDeviceTestGradient::checkLinearGradientBorder(aBitmap); exportImage("13-03_linear_gradient_border_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLinearGradientIntensity() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestGradient aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLinearGradientIntensity(); auto eResult = vcl::test::OutputDeviceTestGradient::checkLinearGradientIntensity(aBitmap); exportImage("13-04_linear_gradient_intensity_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLinearGradientSteps() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestGradient aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLinearGradientSteps(); auto eResult = vcl::test::OutputDeviceTestGradient::checkLinearGradientSteps(aBitmap); exportImage("13-05_linear_gradient_steps_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testAxialGradient() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestGradient aOutDevTest; Bitmap aBitmap = aOutDevTest.setupAxialGradient(); auto eResult = vcl::test::OutputDeviceTestGradient::checkAxialGradient(aBitmap); exportImage("13-06_axial_gradient_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testRadialGradient() { if (getDefaultDeviceBitCount() < 24) return; vcl::test::OutputDeviceTestGradient aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRadialGradient(); auto eResult = vcl::test::OutputDeviceTestGradient::checkRadialGradient(aBitmap); exportImage("13-07_radial_gradient_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testRadialGradientOfs() { vcl::test::OutputDeviceTestGradient aOutDevTest; Bitmap aBitmap = aOutDevTest.setupRadialGradientOfs(); auto eResult = vcl::test::OutputDeviceTestGradient::checkRadialGradientOfs(aBitmap); exportImage("13-08_radial_gradient_ofs_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLineJoinBevel() { vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLineJoinBevel(); auto eResult = vcl::test::OutputDeviceTestLine::checkLineJoinBevel(aBitmap); exportImage("14-01_line_join_bevel_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLineJoinRound() { vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLineJoinRound(); auto eResult = vcl::test::OutputDeviceTestLine::checkLineJoinRound(aBitmap); exportImage("14-02_line_join_round_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLineJoinMiter() { vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLineJoinMiter(); auto eResult = vcl::test::OutputDeviceTestLine::checkLineJoinMiter(aBitmap); exportImage("14-03_line_join_miter_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLineJoinNone() { vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLineJoinNone(); auto eResult = vcl::test::OutputDeviceTestLine::checkLineJoinNone(aBitmap); exportImage("14-04_line_join_none_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLineCapRound() { vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLineCapRound(); auto eResult = vcl::test::OutputDeviceTestLine::checkLineCapRound(aBitmap); exportImage("14-05_line_cap_round_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLineCapSquare() { vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLineCapSquare(); auto eResult = vcl::test::OutputDeviceTestLine::checkLineCapSquare(aBitmap); exportImage("14-06_line_cap_square_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testLineCapButt() { vcl::test::OutputDeviceTestLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupLineCapButt(); auto eResult = vcl::test::OutputDeviceTestLine::checkLineCapButt(aBitmap); exportImage("14-07_line_cap_butt_test.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawDropShapeWithPolyline() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDropShape(); auto eResult = vcl::test::OutputDeviceTestCommon::checkDropShape(aBitmap); exportImage("15-01_drop_shape_test-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawDropShapeAAWithPolyline() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupAADropShape(); auto eResult = vcl::test::OutputDeviceTestCommon::checkDropShape(aBitmap, true); exportImage("15-02_drop_shape_AA_test-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawDropShapeWithPolygon() { vcl::test::OutputDeviceTestPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupDropShape(); auto eResult = vcl::test::OutputDeviceTestCommon::checkDropShape(aBitmap); exportImage("16-01_drop_shape_test-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawDropShapeAAWithPolygon() { vcl::test::OutputDeviceTestPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupAADropShape(); auto eResult = vcl::test::OutputDeviceTestCommon::checkDropShape(aBitmap, true); exportImage("16-02_drop_shape_AA_test-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawHaflEllipseWithPolyLine() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupHalfEllipse(); auto eResult = vcl::test::OutputDeviceTestCommon::checkHalfEllipse(aBitmap); exportImage("17-01_half_ellipse_test-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawHaflEllipseAAWithPolyLine() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupHalfEllipse(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkHalfEllipse(aBitmap, true); exportImage("17-02_half_ellipse_AA_test-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawHaflEllipseWithPolyLineB2D() { vcl::test::OutputDeviceTestPolyLineB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupHalfEllipse(); auto eResult = vcl::test::OutputDeviceTestCommon::checkHalfEllipse(aBitmap); exportImage("17-03_half_ellipse_test-polylineb2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawHaflEllipseAAWithPolyLineB2D() { vcl::test::OutputDeviceTestPolyLineB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupHalfEllipse(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkHalfEllipse(aBitmap, true); exportImage("17-03_half_ellipse_AA_test-polylineb2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawHaflEllipseWithPolygon() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupHalfEllipse(); auto eResult = vcl::test::OutputDeviceTestCommon::checkHalfEllipse(aBitmap); exportImage("17-04_half_ellipse_test-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawHaflEllipseAAWithPolygon() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupHalfEllipse(true); auto eResult = vcl::test::OutputDeviceTestCommon::checkHalfEllipse(aBitmap, true); exportImage("17-05_half_ellipse_AA_test-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testClosedBezierWithPolyline() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupClosedBezier(); auto eResult = vcl::test::OutputDeviceTestCommon::checkClosedBezier(aBitmap); exportImage("18-01_closed_bezier-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testClosedBezierWithPolygon() { vcl::test::OutputDeviceTestPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupClosedBezier(); auto eResult = vcl::test::OutputDeviceTestCommon::checkClosedBezier(aBitmap); exportImage("18-02_closed_bezier-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testFilledAsymmetricalDropShape() { vcl::test::OutputDeviceTestPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupFilledAsymmetricalDropShape(); vcl::test::TestResult eResult = vcl::test::OutputDeviceTestLine::checkFilledAsymmetricalDropShape(aBitmap); exportImage("19-01_filled_drop_shape-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } // Test SalGraphics::blendBitmap() and blendAlphaBitmap() calls. void testDrawBlendExtended() { if (getDefaultDeviceBitCount() < 24) return; // Create virtual device with alpha. ScopedVclPtr device = VclPtr::Create(DeviceFormat::WITH_ALPHA); #ifdef MACOSX // TODO: This unit test is not executed for macOS unless bitmap scaling is implemented if (getRenderBackendName(device) == "aqua") return; #endif device->SetOutputSizePixel(Size(10, 10)); device->SetBackground(Wallpaper(COL_WHITE)); device->Erase(); Bitmap bitmap(Size(5, 5), vcl::PixelFormat::N24_BPP); bitmap.Erase(COL_BLUE); // No alpha, this will actually call SalGraphics::DrawBitmap(), but still check // the alpha of the device is handled correctly. device->DrawBitmapEx(Point(2, 2), BitmapEx(bitmap)); exportDevice("blend_extended_01.png", device); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(2, 2))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(6, 6))); // Check pixels outside of the bitmap aren't affected. CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(1, 1))); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(7, 7))); device->Erase(); AlphaMask alpha(Size(5, 5)); alpha.Erase(0); // opaque device->DrawBitmapEx(Point(2, 2), BitmapEx(bitmap, alpha)); exportDevice("blend_extended_02.png", device); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(2, 2))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(6, 6))); device->Erase(); alpha.Erase(255); // transparent device->DrawBitmapEx(Point(2, 2), BitmapEx(bitmap, alpha)); exportDevice("blend_extended_03.png", device); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(2, 2))); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(6, 6))); // Skia optimizes bitmaps that have just been Erase()-ed, so explicitly // set some pixels in the alpha to avoid this and have an actual bitmap // as the alpha mask. device->Erase(); alpha.Erase(255); // transparent BitmapScopedWriteAccess alphaWrite(alpha); alphaWrite->SetPixelIndex(0, 0, 255); // opaque alphaWrite.reset(); device->DrawBitmapEx(Point(2, 2), BitmapEx(bitmap, alpha)); exportDevice("blend_extended_04.png", device); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(2, 2))); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(6, 6))); } void testDrawAlphaBitmapMirrored() { if (getDefaultDeviceBitCount() < 24) return; // Normal virtual device. ScopedVclPtr device = VclPtr::Create(DeviceFormat::WITHOUT_ALPHA); #ifdef MACOSX // TODO: This unit test is not executed for macOS unless bitmap scaling is implemented if (getRenderBackendName(device) == "aqua") return; #endif // Virtual device with alpha. ScopedVclPtr alphaDevice = VclPtr::Create(DeviceFormat::WITH_ALPHA); device->SetOutputSizePixel(Size(20, 20)); device->SetBackground(Wallpaper(COL_BLACK)); device->Erase(); alphaDevice->SetOutputSizePixel(Size(20, 20)); alphaDevice->SetBackground(Wallpaper(COL_BLACK)); alphaDevice->Erase(); Bitmap bitmap(Size(4, 4), vcl::PixelFormat::N24_BPP); AlphaMask alpha(Size(4, 4)); bitmap.Erase(COL_LIGHTBLUE); { BitmapScopedWriteAccess writeAccess(bitmap); writeAccess->SetPixel(3, 3, COL_LIGHTRED); } // alpha 127 will make COL_LIGHTRED -> COL_RED and the same for blue alpha.Erase(127); // Normal device. device->DrawBitmapEx(Point(5, 5), Size(-4, -4), BitmapEx(bitmap)); device->DrawBitmapEx(Point(15, 15), Size(4, 4), BitmapEx(bitmap)); exportDevice("draw_alpha_bitmap_mirrored_01.png", device); CPPUNIT_ASSERT_EQUAL(COL_LIGHTRED, device->GetPixel(Point(18, 18))); CPPUNIT_ASSERT_EQUAL(COL_LIGHTBLUE, device->GetPixel(Point(17, 18))); CPPUNIT_ASSERT_EQUAL(COL_LIGHTRED, device->GetPixel(Point(2, 2))); CPPUNIT_ASSERT_EQUAL(COL_LIGHTBLUE, device->GetPixel(Point(3, 2))); device->Erase(); device->DrawBitmapEx(Point(5, 5), Size(-4, -4), BitmapEx(bitmap, alpha)); device->DrawBitmapEx(Point(15, 15), Size(4, 4), BitmapEx(bitmap, alpha)); exportDevice("draw_alpha_bitmap_mirrored_02.png", device); CPPUNIT_ASSERT_EQUAL(COL_RED, device->GetPixel(Point(18, 18))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(17, 18))); CPPUNIT_ASSERT_EQUAL(COL_RED, device->GetPixel(Point(2, 2))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(3, 2))); device->Erase(); // Now with alpha device. alphaDevice->DrawBitmapEx(Point(5, 5), Size(-4, -4), BitmapEx(bitmap)); alphaDevice->DrawBitmapEx(Point(15, 15), Size(4, 4), BitmapEx(bitmap)); exportDevice("draw_alpha_bitmap_mirrored_03.png", alphaDevice); CPPUNIT_ASSERT_EQUAL(COL_LIGHTRED, alphaDevice->GetPixel(Point(18, 18))); CPPUNIT_ASSERT_EQUAL(COL_LIGHTBLUE, alphaDevice->GetPixel(Point(17, 18))); CPPUNIT_ASSERT_EQUAL(COL_LIGHTRED, alphaDevice->GetPixel(Point(2, 2))); CPPUNIT_ASSERT_EQUAL(COL_LIGHTBLUE, alphaDevice->GetPixel(Point(3, 2))); alphaDevice->Erase(); alphaDevice->DrawBitmapEx(Point(5, 5), Size(-4, -4), BitmapEx(bitmap, alpha)); alphaDevice->DrawBitmapEx(Point(15, 15), Size(4, 4), BitmapEx(bitmap, alpha)); exportDevice("draw_alpha_bitmap_mirrored_04.png", alphaDevice); CPPUNIT_ASSERT_EQUAL(COL_RED, alphaDevice->GetPixel(Point(18, 18))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, alphaDevice->GetPixel(Point(17, 18))); CPPUNIT_ASSERT_EQUAL(COL_RED, alphaDevice->GetPixel(Point(2, 2))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, alphaDevice->GetPixel(Point(3, 2))); alphaDevice->Erase(); } void testDrawingText() { #ifndef _WIN32 vcl::test::OutputDeviceTestText aOutDevTest; Bitmap aBitmap = aOutDevTest.setupTextBitmap(); auto eResult = vcl::test::OutputDeviceTestCommon::checkTextLocation(aBitmap); exportImage("17-01_test_text_Drawing.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); #endif } void testEvenOddRuleInIntersectionRectangles() { vcl::test::OutputDeviceTestPolyPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupIntersectingRectangles(); auto eResult = vcl::test::OutputDeviceTestCommon::checkEvenOddRuleInIntersectingRecs(aBitmap); exportImage("18-01_test_Even-Odd-rule_intersecting_Recs.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOpenPolygonWithPolyLine() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupOpenPolygon(); auto eResult = vcl::test::OutputDeviceTestCommon::checkOpenPolygon(aBitmap); exportImage("19-01_open_polygon-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOpenPolygonWithPolyLineB2D() { vcl::test::OutputDeviceTestPolyLineB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupOpenPolygon(); auto eResult = vcl::test::OutputDeviceTestCommon::checkOpenPolygon(aBitmap); exportImage("19-02_open_polygon-polyline_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOpenPolygonWithPolygon() { vcl::test::OutputDeviceTestPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupOpenPolygon(); auto eResult = vcl::test::OutputDeviceTestCommon::checkOpenPolygon(aBitmap); exportImage("19-03_open_polygon-polygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOpenPolygonWithPolyPolygon() { vcl::test::OutputDeviceTestPolyPolygon aOutDevTest; Bitmap aBitmap = aOutDevTest.setupOpenPolygon(); auto eResult = vcl::test::OutputDeviceTestCommon::checkOpenPolygon(aBitmap); exportImage("19-04_open_polygon-polypolygon.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOpenPolygonWithPolyPolygonB2D() { vcl::test::OutputDeviceTestPolyPolygonB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupOpenPolygon(); auto eResult = vcl::test::OutputDeviceTestCommon::checkOpenPolygon(aBitmap); exportImage("19-04_open_polygon-polypolygon_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOpenBezierWithPolyLine() { vcl::test::OutputDeviceTestPolyLine aOutDevTest; Bitmap aBitmap = aOutDevTest.setupOpenBezier(); auto eResult = vcl::test::OutputDeviceTestCommon::checkOpenBezier(aBitmap); exportImage("19-01_open_bezier-polyline.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testDrawOpenBezierWithPolyLineB2D() { vcl::test::OutputDeviceTestPolyLineB2D aOutDevTest; Bitmap aBitmap = aOutDevTest.setupOpenBezier(); auto eResult = vcl::test::OutputDeviceTestCommon::checkOpenBezier(aBitmap); exportImage("19-01_open_bezier-polyline_b2d.png", aBitmap); if (SHOULD_ASSERT) CPPUNIT_ASSERT(eResult != vcl::test::TestResult::Failed); } void testTdf124848() { ScopedVclPtr device = VclPtr::Create(DeviceFormat::WITHOUT_ALPHA); #ifdef MACOSX // TODO: This unit test is not executed for macOS unless bitmap scaling is implemented if (getRenderBackendName(device) == "aqua") return; #endif device->SetOutputSizePixel(Size(100, 100)); device->SetBackground(Wallpaper(COL_WHITE)); device->Erase(); device->SetAntialiasing(AntialiasingFlags::Enable); device->SetLineColor(COL_BLACK); basegfx::B2DHomMatrix matrix; // DrawPolyLine() would apply the whole matrix to the line width, making it negative // in case of a larger rotation. matrix.rotate(M_PI); //180 degrees matrix.translate(100, 100); CPPUNIT_ASSERT(device->DrawPolyLineDirect(matrix, basegfx::B2DPolygon{ { 50, 50 }, { 50, 100 } }, 100, 0, nullptr, basegfx::B2DLineJoin::Miter)); exportDevice("tdf124848-1.png", device); // 100px wide line should fill the entire width of the upper half CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(2, 2))); // Also check hairline. device->Erase(); CPPUNIT_ASSERT(device->DrawPolyLineDirect(matrix, basegfx::B2DPolygon{ { 50, 50 }, { 50, 100 } }, 0, 0, nullptr, basegfx::B2DLineJoin::Miter)); exportDevice("tdf124848-2.png", device); // 1px wide CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(50, 20))); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(49, 20))); CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(51, 20))); } void testTdf136171() { if (getDefaultDeviceBitCount() < 24) return; // Create virtual device with alpha. ScopedVclPtr device = VclPtr::Create(DeviceFormat::WITH_ALPHA); device->SetOutputSizePixel(Size(10, 10)); device->SetBackground(Wallpaper(COL_WHITE)); device->Erase(); Bitmap bitmap(Size(10, 10), vcl::PixelFormat::N24_BPP); bitmap.Erase(COL_BLUE); basegfx::B2DHomMatrix matrix; matrix.scale(bitmap.GetSizePixel().Width(), bitmap.GetSizePixel().Height()); // draw as 10x10 // Draw a blue bitmap to the device. The bug was that there was no alpha, but OutputDevice::DrawTransformBitmapExDirect() // supplied a fully opaque alpha done with Erase() on the alpha bitmap, and Skia backend didn't handle such alpha correctly. device->DrawTransformedBitmapEx(matrix, BitmapEx(bitmap)); exportDevice("tdf136171.png", device); // The whole virtual device content now should be blue. CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(9, 0))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(0, 9))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(9, 9))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device->GetPixel(Point(4, 4))); } void testTdf145811() { // VCL may call copyArea()/copyBits() of backends even with coordinates partially // outside of the device, so try various copying like that. ScopedVclPtr device1 = VclPtr::Create(DeviceFormat::WITHOUT_ALPHA); device1->SetOutputSizePixel(Size(100, 100)); device1->SetBackground(Wallpaper(COL_YELLOW)); device1->Erase(); device1->SetLineColor(COL_BLUE); device1->DrawPixel(Point(0, 0), COL_BLUE); device1->DrawPixel(Point(99, 99), COL_BLUE); #ifdef MACOSX // TODO: This unit test is not executed for macOS unless bitmap scaling is implemented if (getRenderBackendName(device1) == "aqua") return; #endif // Plain 1:1 copy device1->device2. ScopedVclPtr device2 = VclPtr::Create(DeviceFormat::WITHOUT_ALPHA); device2->SetOutputSizePixel(Size(100, 100)); device2->DrawOutDev(Point(0, 0), Size(100, 100), Point(0, 0), Size(100, 100), *device1); exportDevice("tdf145811-1.png", device2); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(1, 1))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(98, 98))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(99, 99))); // For the rest call directly SalGraphics, because OutputDevice does range checking, // but other code may call copyArea()/copyBits() of SalGraphics directly without range checking. SalGraphics* graphics1 = device1->GetGraphics(); SalGraphics* graphics2 = device2->GetGraphics(); device2->DrawOutDev(Point(0, 0), Size(100, 100), Point(0, 0), Size(100, 100), *device1); // Copy device1->device2 offset by 10,10. graphics2->CopyBits(SalTwoRect(0, 0, 100, 100, 10, 10, 100, 100), *graphics1, *device2, *device1); exportDevice("tdf145811-2.png", device2); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(0, 0))); // unmodified CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(9, 9))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(10, 10))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(11, 11))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(99, 99))); device2->DrawOutDev(Point(0, 0), Size(100, 100), Point(0, 0), Size(100, 100), *device1); // Copy area of device2 offset by 10,10. graphics2->CopyArea(10, 10, 0, 0, 100, 100, *device1); exportDevice("tdf145811-3.png", device2); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(0, 0))); // unmodified CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(9, 9))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(10, 10))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(11, 11))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(99, 99))); device2->DrawOutDev(Point(0, 0), Size(100, 100), Point(0, 0), Size(100, 100), *device1); // Copy device1->device2 offset by -20,-20. graphics2->CopyBits(SalTwoRect(0, 0, 100, 100, -20, -20, 100, 100), *graphics1, *device2, *device1); exportDevice("tdf145811-4.png", device2); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(78, 78))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(79, 79))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(80, 80))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(99, 99))); // unmodified device2->DrawOutDev(Point(0, 0), Size(100, 100), Point(0, 0), Size(100, 100), *device1); // Copy area of device2 offset by -20,-20. graphics2->CopyArea(-20, -20, 0, 0, 100, 100, *device1); exportDevice("tdf145811-5.png", device2); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(78, 78))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(79, 79))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(80, 80))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(99, 99))); // unmodified device2->DrawOutDev(Point(0, 0), Size(100, 100), Point(0, 0), Size(100, 100), *device1); // Copy device1->device2 offset by -10,-10 starting from -20,-20 at 150x150 size // (i.e. outside in all directions). graphics2->CopyBits(SalTwoRect(-20, -20, 150, 150, -30, -30, 150, 150), *graphics1, *device2, *device1); exportDevice("tdf145811-6.png", device2); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(88, 88))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(89, 89))); // (90,90) and further originate from outside and may be garbage. device2->DrawOutDev(Point(0, 0), Size(100, 100), Point(0, 0), Size(100, 100), *device1); // Copy area of device2 offset by -10,-10 starting from -20,-20 at 150x150 size // (i.e. outside in all directions). graphics2->CopyArea(-30, -30, -20, -20, 150, 150, *device1); exportDevice("tdf145811-7.png", device2); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(0, 0))); CPPUNIT_ASSERT_EQUAL(COL_YELLOW, device2->GetPixel(Point(88, 88))); CPPUNIT_ASSERT_EQUAL(COL_BLUE, device2->GetPixel(Point(89, 89))); // (90,90) and further originate from outside and may be garbage. } CPPUNIT_TEST_SUITE(BackendTest); CPPUNIT_TEST(testDrawRectWithRectangle); CPPUNIT_TEST(testDrawRectWithPixel); CPPUNIT_TEST(testDrawRectWithLine); CPPUNIT_TEST(testDrawRectWithPolygon); CPPUNIT_TEST(testDrawRectWithPolyLine); CPPUNIT_TEST(testDrawRectWithPolyLineB2D); CPPUNIT_TEST(testDrawRectWithPolyPolygon); CPPUNIT_TEST(testDrawRectWithPolyPolygonB2D); CPPUNIT_TEST(testDrawRectAAWithRectangle); CPPUNIT_TEST(testDrawRectAAWithPixel); CPPUNIT_TEST(testDrawRectAAWithLine); CPPUNIT_TEST(testDrawRectAAWithPolygon); CPPUNIT_TEST(testDrawRectAAWithPolyLine); CPPUNIT_TEST(testDrawRectAAWithPolyLineB2D); CPPUNIT_TEST(testDrawRectAAWithPolyPolygon); CPPUNIT_TEST(testDrawRectAAWithPolyPolygonB2D); CPPUNIT_TEST(testDrawFilledRectWithRectangle); CPPUNIT_TEST(testDrawFilledRectWithPolygon); CPPUNIT_TEST(testDrawFilledRectWithPolyPolygon); CPPUNIT_TEST(testDrawFilledRectWithPolyPolygon2D); CPPUNIT_TEST(testDrawDiamondWithPolygon); CPPUNIT_TEST(testDrawDiamondWithLine); CPPUNIT_TEST(testDrawDiamondWithPolyline); CPPUNIT_TEST(testDrawDiamondWithPolylineB2D); CPPUNIT_TEST(testDrawInvertWithRectangle); CPPUNIT_TEST(testDrawInvertN50WithRectangle); CPPUNIT_TEST(testDrawInvertTrackFrameWithRectangle); CPPUNIT_TEST(testDrawBezierWithPolylineB2D); CPPUNIT_TEST(testDrawBezierAAWithPolylineB2D); CPPUNIT_TEST(testDrawDropShapeWithPolyline); CPPUNIT_TEST(testDrawDropShapeAAWithPolyline); CPPUNIT_TEST(testDrawDropShapeWithPolygon); CPPUNIT_TEST(testDrawDropShapeAAWithPolygon); CPPUNIT_TEST(testDrawHaflEllipseWithPolyLine); CPPUNIT_TEST(testDrawHaflEllipseAAWithPolyLine); CPPUNIT_TEST(testDrawHaflEllipseWithPolyLineB2D); CPPUNIT_TEST(testDrawHaflEllipseAAWithPolyLineB2D); CPPUNIT_TEST(testDrawHaflEllipseWithPolygon); CPPUNIT_TEST(testDrawHaflEllipseAAWithPolygon); CPPUNIT_TEST(testClosedBezierWithPolyline); CPPUNIT_TEST(testClosedBezierWithPolygon); CPPUNIT_TEST(testFilledAsymmetricalDropShape); CPPUNIT_TEST(testDrawBitmap24bpp); CPPUNIT_TEST(testDrawTransformedBitmap24bpp); CPPUNIT_TEST(testComplexDrawTransformedBitmap24bpp); CPPUNIT_TEST(testDrawBitmapExWithAlpha24bpp); CPPUNIT_TEST(testDrawMask24bpp); CPPUNIT_TEST(testDrawBlend24bpp); CPPUNIT_TEST(testDrawXor); CPPUNIT_TEST(testDrawBitmap32bpp); CPPUNIT_TEST(testDrawTransformedBitmap32bpp); CPPUNIT_TEST(testDrawBitmapExWithAlpha32bpp); CPPUNIT_TEST(testDrawMask32bpp); CPPUNIT_TEST(testDrawBlend32bpp); CPPUNIT_TEST(testDrawTransformedBitmap8bppGreyScale); CPPUNIT_TEST(testDrawBitmap8bppGreyScale); CPPUNIT_TEST(testDrawTransformedBitmapExAlpha); CPPUNIT_TEST(testClipRectangle); CPPUNIT_TEST(testClipPolygon); CPPUNIT_TEST(testClipPolyPolygon); CPPUNIT_TEST(testClipB2DPolyPolygon); CPPUNIT_TEST(testDrawOutDev); CPPUNIT_TEST(testDrawOutDevScaledClipped); CPPUNIT_TEST(testDrawOutDevSelf); CPPUNIT_TEST(testDashedLine); CPPUNIT_TEST(testErase); CPPUNIT_TEST(testLinearGradient); CPPUNIT_TEST(testLinearGradientAngled); CPPUNIT_TEST(testLinearGradientBorder); CPPUNIT_TEST(testLinearGradientIntensity); CPPUNIT_TEST(testLinearGradientSteps); CPPUNIT_TEST(testAxialGradient); CPPUNIT_TEST(testRadialGradient); CPPUNIT_TEST(testRadialGradientOfs); CPPUNIT_TEST(testLineCapRound); CPPUNIT_TEST(testLineCapSquare); CPPUNIT_TEST(testLineCapButt); CPPUNIT_TEST(testLineJoinBevel); CPPUNIT_TEST(testLineJoinRound); CPPUNIT_TEST(testLineJoinMiter); CPPUNIT_TEST(testLineJoinNone); CPPUNIT_TEST(testDrawBlendExtended); CPPUNIT_TEST(testDrawAlphaBitmapMirrored); CPPUNIT_TEST(testDrawingText); CPPUNIT_TEST(testEvenOddRuleInIntersectionRectangles); CPPUNIT_TEST(testDrawOpenPolygonWithPolyLine); CPPUNIT_TEST(testDrawOpenPolygonWithPolyLineB2D); CPPUNIT_TEST(testDrawOpenPolygonWithPolygon); CPPUNIT_TEST(testDrawOpenPolygonWithPolyPolygon); CPPUNIT_TEST(testDrawOpenPolygonWithPolyPolygonB2D); CPPUNIT_TEST(testDrawOpenBezierWithPolyLine); CPPUNIT_TEST(testDrawOpenBezierWithPolyLineB2D); CPPUNIT_TEST(testTdf124848); CPPUNIT_TEST(testTdf136171); CPPUNIT_TEST(testTdf145811); CPPUNIT_TEST_SUITE_END(); }; CPPUNIT_TEST_SUITE_REGISTRATION(BackendTest); CPPUNIT_PLUGIN_IMPLEMENT(); /* vim:set shiftwidth=4 softtabstop=4 expandtab: */