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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 09:06:44 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 09:06:44 +0000 |
commit | ed5640d8b587fbcfed7dd7967f3de04b37a76f26 (patch) | |
tree | 7a5f7c6c9d02226d7471cb3cc8fbbf631b415303 /vcl/qa/cppunit/skia | |
parent | Initial commit. (diff) | |
download | libreoffice-upstream.tar.xz libreoffice-upstream.zip |
Adding upstream version 4:7.4.7.upstream/4%7.4.7upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'vcl/qa/cppunit/skia')
-rw-r--r-- | vcl/qa/cppunit/skia/skia.cxx | 588 |
1 files changed, 588 insertions, 0 deletions
diff --git a/vcl/qa/cppunit/skia/skia.cxx b/vcl/qa/cppunit/skia/skia.cxx new file mode 100644 index 000000000..f2990d381 --- /dev/null +++ b/vcl/qa/cppunit/skia/skia.cxx @@ -0,0 +1,588 @@ +/* -*- 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 <tools/stream.hxx> +#include <basegfx/matrix/b2dhommatrix.hxx> + +#include <vcl/graphicfilter.hxx> +#include <vcl/virdev.hxx> +#include <vcl/skia/SkiaHelper.hxx> + +#include <skia/salbmp.hxx> +#include <skia/utils.hxx> +#include <bitmap/BitmapWriteAccess.hxx> + +using namespace SkiaHelper; + +// This tests backends that use Skia (i.e. intentionally not the svp one, which is the default.) +// Note that you still may need to actually set for Skia to be used (see vcl/README.vars). +// If Skia is not enabled, all tests will be silently skipped. +namespace +{ +class SkiaTest : public test::BootstrapFixture +{ +public: + SkiaTest() + : test::BootstrapFixture(true, false) + { + } + + void testBitmapErase(); + void testDrawShaders(); + void testInterpretAs8Bit(); + void testAlphaBlendWith(); + void testBitmapCopyOnWrite(); + void testMatrixQuality(); + void testDelayedScale(); + void testDelayedScaleAlphaImage(); + void testDrawDelayedScaleImage(); + void testChecksum(); + void testTdf137329(); + void testTdf140848(); + void testTdf132367(); + + CPPUNIT_TEST_SUITE(SkiaTest); + CPPUNIT_TEST(testBitmapErase); + CPPUNIT_TEST(testDrawShaders); + CPPUNIT_TEST(testInterpretAs8Bit); + CPPUNIT_TEST(testAlphaBlendWith); + CPPUNIT_TEST(testBitmapCopyOnWrite); + CPPUNIT_TEST(testMatrixQuality); + CPPUNIT_TEST(testDelayedScale); + CPPUNIT_TEST(testDelayedScaleAlphaImage); + CPPUNIT_TEST(testDrawDelayedScaleImage); + CPPUNIT_TEST(testChecksum); + CPPUNIT_TEST(testTdf137329); + CPPUNIT_TEST(testTdf140848); + CPPUNIT_TEST(testTdf132367); + CPPUNIT_TEST_SUITE_END(); + +private: +#if 0 + template <class BitmapT> // handle both Bitmap and BitmapEx + void savePNG(const OUString& sWhere, const BitmapT& rBmp) + { + SvFileStream aStream(sWhere, StreamMode::WRITE | StreamMode::TRUNC); + GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter(); + rFilter.compressAsPNG(BitmapEx(rBmp), aStream); + } + void savePNG(const OUString& sWhere, const ScopedVclPtr<VirtualDevice>& device) + { + SvFileStream aStream(sWhere, StreamMode::WRITE | StreamMode::TRUNC); + GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter(); + rFilter.compressAsPNG(device->GetBitmapEx(Point(), device->GetOutputSizePixel()), aStream); + } +#endif +}; + +void SkiaTest::testBitmapErase() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + Bitmap bitmap(Size(10, 10), vcl::PixelFormat::N24_BPP); + SkiaSalBitmap* skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap); + // Uninitialized bitmap. + CPPUNIT_ASSERT(!skiaBitmap->unittestHasBuffer()); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasImage()); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasAlphaImage()); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasEraseColor()); + // Test that Bitmap.Erase() just sets erase color and doesn't allocate pixels. + bitmap.Erase(COL_RED); + skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasBuffer()); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasImage()); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasAlphaImage()); + CPPUNIT_ASSERT(skiaBitmap->unittestHasEraseColor()); + // Reading a pixel will create pixel data. + CPPUNIT_ASSERT_EQUAL(BitmapColor(COL_RED), BitmapReadAccess(bitmap).GetColor(0, 0)); + skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap->unittestHasBuffer()); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasImage()); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasAlphaImage()); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasEraseColor()); +} + +// Test that draw calls that internally result in SkShader calls work properly. +void SkiaTest::testDrawShaders() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + ScopedVclPtr<VirtualDevice> device = VclPtr<VirtualDevice>::Create(DeviceFormat::DEFAULT); + device->SetOutputSizePixel(Size(20, 20)); + device->SetBackground(Wallpaper(COL_WHITE)); + device->Erase(); + Bitmap bitmap(Size(10, 10), vcl::PixelFormat::N24_BPP); + bitmap.Erase(COL_RED); + SkiaSalBitmap* skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap->PreferSkShader()); + AlphaMask alpha(Size(10, 10)); + alpha.Erase(64); + SkiaSalBitmap* skiaAlpha = dynamic_cast<SkiaSalBitmap*>(alpha.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaAlpha->PreferSkShader()); + + device->DrawBitmap(Point(5, 5), bitmap); + //savePNG("/tmp/a1.png", device); + // Check that the area is painted, but nothing else. + CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(0, 0))); + CPPUNIT_ASSERT_EQUAL(COL_RED, device->GetPixel(Point(5, 5))); + CPPUNIT_ASSERT_EQUAL(COL_RED, device->GetPixel(Point(14, 14))); + CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(15, 15))); + device->Erase(); + + device->DrawBitmapEx(Point(5, 5), BitmapEx(bitmap, alpha)); + //savePNG("/tmp/a2.png", device); + Color resultRed(COL_RED.GetRed() * 3 / 4 + 64, 64, 64); // 3/4 red, 1/4 white + CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(0, 0))); + CPPUNIT_ASSERT_EQUAL(resultRed, device->GetPixel(Point(5, 5))); + CPPUNIT_ASSERT_EQUAL(resultRed, device->GetPixel(Point(14, 14))); + CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(15, 15))); + device->Erase(); + + basegfx::B2DHomMatrix matrix; + matrix.scale(10, 10); + matrix.rotate(M_PI / 4); + device->DrawTransformedBitmapEx(matrix, BitmapEx(bitmap, alpha)); + //savePNG("/tmp/a3.png", device); + CPPUNIT_ASSERT_EQUAL(resultRed, device->GetPixel(Point(0, 1))); + CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(1, 0))); + CPPUNIT_ASSERT_EQUAL(resultRed, device->GetPixel(Point(0, 10))); + CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(10, 10))); + device->Erase(); + + // Test with scaling. Use everything 10x larger to reduce the impact of smoothscaling. + ScopedVclPtr<VirtualDevice> deviceLarge = VclPtr<VirtualDevice>::Create(DeviceFormat::DEFAULT); + deviceLarge->SetOutputSizePixel(Size(200, 200)); + deviceLarge->SetBackground(Wallpaper(COL_WHITE)); + deviceLarge->Erase(); + Bitmap bitmapLarge(Size(100, 100), vcl::PixelFormat::N24_BPP); + bitmapLarge.Erase(COL_RED); + SkiaSalBitmap* skiaBitmapLarge + = dynamic_cast<SkiaSalBitmap*>(bitmapLarge.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmapLarge->PreferSkShader()); + AlphaMask alphaLarge(Size(100, 100)); + alphaLarge.Erase(64); + { + BitmapWriteAccess access(bitmapLarge); + access.SetFillColor(COL_BLUE); + access.FillRect(tools::Rectangle(Point(20, 40), Size(10, 10))); + } + // Using alpha will still lead to shaders being used. + deviceLarge->DrawBitmapEx(Point(50, 50), Size(60, 60), Point(20, 20), Size(30, 30), + BitmapEx(bitmapLarge, alphaLarge)); + //savePNG("/tmp/a4.png", deviceLarge); + Color resultBlue(64, 64, COL_BLUE.GetBlue() * 3 / 4 + 64); // 3/4 blue, 1/4 white + CPPUNIT_ASSERT_EQUAL(COL_WHITE, deviceLarge->GetPixel(Point(40, 40))); + CPPUNIT_ASSERT_EQUAL(resultRed, deviceLarge->GetPixel(Point(50, 50))); + CPPUNIT_ASSERT_EQUAL(resultRed, deviceLarge->GetPixel(Point(100, 100))); + CPPUNIT_ASSERT_EQUAL(COL_WHITE, deviceLarge->GetPixel(Point(110, 110))); + // Don't test colors near the edge between the colors, smoothscaling affects them. + const int diff = 3; + CPPUNIT_ASSERT_EQUAL(resultRed, deviceLarge->GetPixel(Point(50 + diff, 89 - diff))); + CPPUNIT_ASSERT_EQUAL(resultBlue, deviceLarge->GetPixel(Point(50 + diff, 90 + diff))); + CPPUNIT_ASSERT_EQUAL(resultBlue, deviceLarge->GetPixel(Point(69 - diff, 100 - diff))); + CPPUNIT_ASSERT_EQUAL(resultRed, deviceLarge->GetPixel(Point(70 + diff, 100 - diff))); + CPPUNIT_ASSERT_EQUAL(resultBlue, deviceLarge->GetPixel(Point(50 + diff, 100 - diff))); + device->Erase(); +} + +void SkiaTest::testInterpretAs8Bit() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + Bitmap bitmap(Size(10, 10), vcl::PixelFormat::N24_BPP); + // Test with erase color. + bitmap.Erase(Color(33, 33, 33)); + SkiaSalBitmap* skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap->unittestHasEraseColor()); + CPPUNIT_ASSERT_EQUAL(vcl::PixelFormat::N24_BPP, bitmap.getPixelFormat()); + bitmap.Convert(BmpConversion::N8BitNoConversion); + skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap->unittestHasEraseColor()); + CPPUNIT_ASSERT_EQUAL(vcl::PixelFormat::N8_BPP, bitmap.getPixelFormat()); + CPPUNIT_ASSERT_EQUAL(static_cast<sal_uInt8>(33), BitmapReadAccess(bitmap).GetPixelIndex(0, 0)); + + // Test with image. + bitmap = Bitmap(Size(10, 10), vcl::PixelFormat::N24_BPP); + bitmap.Erase(Color(34, 34, 34)); + BitmapReadAccess(bitmap).GetColor(0, 0); // Create pixel data, reset erase color. + skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + skiaBitmap->GetSkImage(); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasEraseColor()); + CPPUNIT_ASSERT(skiaBitmap->unittestHasImage()); + CPPUNIT_ASSERT_EQUAL(vcl::PixelFormat::N24_BPP, bitmap.getPixelFormat()); + bitmap.Convert(BmpConversion::N8BitNoConversion); + skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap->unittestHasImage()); + CPPUNIT_ASSERT_EQUAL(vcl::PixelFormat::N8_BPP, bitmap.getPixelFormat()); + CPPUNIT_ASSERT_EQUAL(static_cast<sal_uInt8>(34), BitmapReadAccess(bitmap).GetPixelIndex(0, 0)); +} + +void SkiaTest::testAlphaBlendWith() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + AlphaMask alpha(Size(10, 10)); + Bitmap bitmap(Size(10, 10), vcl::PixelFormat::N24_BPP); + // Test with erase colors set. + alpha.Erase(64); + SkiaSalBitmap* skiaAlpha = dynamic_cast<SkiaSalBitmap*>(alpha.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaAlpha->unittestHasEraseColor()); + bitmap.Erase(Color(64, 64, 64)); + SkiaSalBitmap* skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap->unittestHasEraseColor()); + alpha.BlendWith(bitmap); + skiaAlpha = dynamic_cast<SkiaSalBitmap*>(alpha.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaAlpha->unittestHasEraseColor()); + CPPUNIT_ASSERT_EQUAL(vcl::PixelFormat::N8_BPP, alpha.getPixelFormat()); + CPPUNIT_ASSERT_EQUAL(static_cast<sal_uInt8>(112), + AlphaMask::ScopedReadAccess(alpha)->GetPixelIndex(0, 0)); + + // Test with images set. + alpha.Erase(64); + AlphaMask::ScopedReadAccess(alpha)->GetColor(0, 0); // Reading a pixel will create pixel data. + skiaAlpha = dynamic_cast<SkiaSalBitmap*>(alpha.ImplGetSalBitmap().get()); + skiaAlpha->GetSkImage(); + CPPUNIT_ASSERT(!skiaAlpha->unittestHasEraseColor()); + CPPUNIT_ASSERT(skiaAlpha->unittestHasImage()); + bitmap.Erase(Color(64, 64, 64)); + Bitmap::ScopedReadAccess(bitmap)->GetColor(0, 0); // Reading a pixel will create pixel data. + skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + skiaBitmap->GetSkImage(); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasEraseColor()); + CPPUNIT_ASSERT(skiaBitmap->unittestHasImage()); + alpha.BlendWith(bitmap); + skiaAlpha = dynamic_cast<SkiaSalBitmap*>(alpha.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaAlpha->unittestHasImage()); + CPPUNIT_ASSERT_EQUAL(vcl::PixelFormat::N8_BPP, alpha.getPixelFormat()); + CPPUNIT_ASSERT_EQUAL(static_cast<sal_uInt8>(112), + AlphaMask::ScopedReadAccess(alpha)->GetPixelIndex(0, 0)); + + // Test with erase color for alpha and image for other bitmap. + alpha.Erase(64); + skiaAlpha = dynamic_cast<SkiaSalBitmap*>(alpha.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaAlpha->unittestHasEraseColor()); + bitmap.Erase(Color(64, 64, 64)); + Bitmap::ScopedReadAccess(bitmap)->GetColor(0, 0); // Reading a pixel will create pixel data. + skiaBitmap = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + skiaBitmap->GetSkImage(); + CPPUNIT_ASSERT(!skiaBitmap->unittestHasEraseColor()); + CPPUNIT_ASSERT(skiaBitmap->unittestHasImage()); + alpha.BlendWith(bitmap); + skiaAlpha = dynamic_cast<SkiaSalBitmap*>(alpha.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaAlpha->unittestHasImage()); + CPPUNIT_ASSERT_EQUAL(vcl::PixelFormat::N8_BPP, alpha.getPixelFormat()); + CPPUNIT_ASSERT_EQUAL(static_cast<sal_uInt8>(112), + AlphaMask::ScopedReadAccess(alpha)->GetPixelIndex(0, 0)); +} + +void SkiaTest::testBitmapCopyOnWrite() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + SkiaSalBitmap bitmap; + CPPUNIT_ASSERT(bitmap.Create(Size(10, 10), vcl::PixelFormat::N24_BPP, BitmapPalette())); + bitmap.GetSkImage(); + bitmap.GetAlphaSkImage(); + CPPUNIT_ASSERT(bitmap.unittestHasBuffer()); + CPPUNIT_ASSERT(bitmap.unittestHasImage()); + CPPUNIT_ASSERT(bitmap.unittestHasAlphaImage()); + SkiaSalBitmap bitmap2; + CPPUNIT_ASSERT(bitmap2.Create(bitmap)); + // Data should be shared. + CPPUNIT_ASSERT_EQUAL(bitmap.unittestGetBuffer(), bitmap2.unittestGetBuffer()); + CPPUNIT_ASSERT(bitmap2.unittestHasImage()); + CPPUNIT_ASSERT(bitmap2.unittestHasAlphaImage()); + CPPUNIT_ASSERT_EQUAL(bitmap.unittestGetImage(), bitmap2.unittestGetImage()); + CPPUNIT_ASSERT_EQUAL(bitmap.unittestGetAlphaImage(), bitmap2.unittestGetAlphaImage()); + // Reading still should keep the data shared. + const SkImage* oldImage = bitmap.unittestGetImage(); + const SkImage* oldAlphaImage = bitmap.unittestGetAlphaImage(); + BitmapBuffer* buffer = bitmap.AcquireBuffer(BitmapAccessMode::Read); + CPPUNIT_ASSERT_EQUAL(bitmap.unittestGetBuffer(), bitmap2.unittestGetBuffer()); + bitmap.ReleaseBuffer(buffer, BitmapAccessMode::Read); + // Images get possibly updated only after releasing the buffer. + CPPUNIT_ASSERT_EQUAL(bitmap.unittestGetImage(), bitmap2.unittestGetImage()); + CPPUNIT_ASSERT_EQUAL(bitmap.unittestGetAlphaImage(), bitmap2.unittestGetAlphaImage()); + CPPUNIT_ASSERT_EQUAL(bitmap.unittestGetImage(), oldImage); + CPPUNIT_ASSERT_EQUAL(bitmap.unittestGetAlphaImage(), oldAlphaImage); + // Writing should unshare. + buffer = bitmap.AcquireBuffer(BitmapAccessMode::Write); + CPPUNIT_ASSERT(bitmap.unittestGetBuffer() != bitmap2.unittestGetBuffer()); + bitmap.ReleaseBuffer(buffer, BitmapAccessMode::Write); + CPPUNIT_ASSERT(bitmap.unittestGetImage() != bitmap2.unittestGetImage()); + CPPUNIT_ASSERT(bitmap.unittestGetAlphaImage() != bitmap2.unittestGetAlphaImage()); + CPPUNIT_ASSERT(bitmap.unittestGetImage() != oldImage); + CPPUNIT_ASSERT(bitmap.unittestGetAlphaImage() != oldAlphaImage); +} + +void SkiaTest::testMatrixQuality() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + // Not changing the size (but possibly rotated/flipped) does not need high quality transformations. + CPPUNIT_ASSERT(!SkiaTests::matrixNeedsHighQuality(SkMatrix())); + CPPUNIT_ASSERT(!SkiaTests::matrixNeedsHighQuality(SkMatrix::RotateDeg(90))); + CPPUNIT_ASSERT(!SkiaTests::matrixNeedsHighQuality(SkMatrix::RotateDeg(180))); + CPPUNIT_ASSERT(!SkiaTests::matrixNeedsHighQuality(SkMatrix::RotateDeg(270))); + CPPUNIT_ASSERT(!SkiaTests::matrixNeedsHighQuality(SkMatrix::Scale(1, -1))); + CPPUNIT_ASSERT(SkiaTests::matrixNeedsHighQuality(SkMatrix::Scale(0, -1))); + CPPUNIT_ASSERT(SkiaTests::matrixNeedsHighQuality(SkMatrix::Scale(2, 1))); + CPPUNIT_ASSERT(SkiaTests::matrixNeedsHighQuality(SkMatrix::RotateDeg(89))); +} + +void SkiaTest::testDelayedScale() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + Bitmap bitmap1(Size(10, 10), vcl::PixelFormat::N24_BPP); + SkiaSalBitmap* skiaBitmap1 = dynamic_cast<SkiaSalBitmap*>(bitmap1.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap1); + // Do scaling based on mBuffer. + (void)BitmapReadAccess(bitmap1); // allocates mBuffer + CPPUNIT_ASSERT(skiaBitmap1->unittestHasBuffer()); + CPPUNIT_ASSERT(!skiaBitmap1->unittestHasImage()); + CPPUNIT_ASSERT(bitmap1.Scale(2, 2, BmpScaleFlag::Default)); + skiaBitmap1 = dynamic_cast<SkiaSalBitmap*>(bitmap1.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap1); + CPPUNIT_ASSERT(skiaBitmap1->unittestHasBuffer()); + CPPUNIT_ASSERT(!skiaBitmap1->unittestHasImage()); + CPPUNIT_ASSERT_EQUAL(Size(20, 20), bitmap1.GetSizePixel()); + CPPUNIT_ASSERT_EQUAL(Size(20, 20), imageSize(skiaBitmap1->GetSkImage())); + BitmapBuffer* buffer1 = skiaBitmap1->AcquireBuffer(BitmapAccessMode::Read); + CPPUNIT_ASSERT(buffer1); + CPPUNIT_ASSERT_EQUAL(tools::Long(20), buffer1->mnWidth); + CPPUNIT_ASSERT_EQUAL(tools::Long(20), buffer1->mnHeight); + skiaBitmap1->ReleaseBuffer(buffer1, BitmapAccessMode::Read); + // Do scaling based on mImage. + SkiaSalBitmap skiaBitmap2(skiaBitmap1->GetSkImage()); + CPPUNIT_ASSERT(!skiaBitmap2.unittestHasBuffer()); + CPPUNIT_ASSERT(skiaBitmap2.unittestHasImage()); + CPPUNIT_ASSERT(skiaBitmap2.Scale(2, 3, BmpScaleFlag::Default)); + CPPUNIT_ASSERT(!skiaBitmap2.unittestHasBuffer()); + CPPUNIT_ASSERT(skiaBitmap2.unittestHasImage()); + CPPUNIT_ASSERT_EQUAL(Size(40, 60), skiaBitmap2.GetSize()); + CPPUNIT_ASSERT_EQUAL(Size(40, 60), imageSize(skiaBitmap2.GetSkImage())); + BitmapBuffer* buffer2 = skiaBitmap2.AcquireBuffer(BitmapAccessMode::Read); + CPPUNIT_ASSERT(buffer2); + CPPUNIT_ASSERT_EQUAL(tools::Long(40), buffer2->mnWidth); + CPPUNIT_ASSERT_EQUAL(tools::Long(60), buffer2->mnHeight); + skiaBitmap2.ReleaseBuffer(buffer2, BitmapAccessMode::Read); +} + +void SkiaTest::testDelayedScaleAlphaImage() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + auto bitmapTmp = std::make_unique<SkiaSalBitmap>(); + CPPUNIT_ASSERT(bitmapTmp->Create(Size(10, 10), vcl::PixelFormat::N24_BPP, BitmapPalette())); + bitmapTmp->Erase(COL_RED); + // Create a bitmap that has only an image, not a pixel buffer. + SkiaSalBitmap bitmap(bitmapTmp->GetSkImage()); + bitmapTmp.release(); + CPPUNIT_ASSERT(!bitmap.unittestHasBuffer()); + CPPUNIT_ASSERT(bitmap.unittestHasImage()); + CPPUNIT_ASSERT(!bitmap.unittestHasAlphaImage()); + // Set up pending scale. + CPPUNIT_ASSERT(bitmap.Scale(2.0, 2.0, BmpScaleFlag::Fast)); + CPPUNIT_ASSERT(bitmap.unittestHasPendingScale()); + CPPUNIT_ASSERT(bitmap.InterpretAs8Bit()); + // Ask for SkImage and make sure it's scaled up. + sk_sp<SkImage> image = bitmap.GetSkImage(); + CPPUNIT_ASSERT_EQUAL(20, image->width()); + // Ask again, this time it should be cached. + sk_sp<SkImage> image2 = bitmap.GetSkImage(); + CPPUNIT_ASSERT_EQUAL(image.get(), image2.get()); + // Add another scale. + CPPUNIT_ASSERT(bitmap.Scale(3.0, 3.0, BmpScaleFlag::Fast)); + // Ask for alpha SkImage and make sure it's scaled up. + sk_sp<SkImage> alphaImage = bitmap.GetAlphaSkImage(); + CPPUNIT_ASSERT_EQUAL(60, alphaImage->width()); + // Ask again, this time it should be cached. + sk_sp<SkImage> alphaImage2 = bitmap.GetAlphaSkImage(); + CPPUNIT_ASSERT_EQUAL(alphaImage.get(), alphaImage2.get()); + // Ask again for non-alpha image, it should be scaled again. + sk_sp<SkImage> image3 = bitmap.GetSkImage(); + CPPUNIT_ASSERT_EQUAL(60, image3->width()); + CPPUNIT_ASSERT(image3.get() != image2.get()); + CPPUNIT_ASSERT(image3.get() != image.get()); + // Create pixel buffer from the image (it should convert from alpha image because the bitmap is 8bpp + // and the alpha image size matches). + SkiaSalBitmap bitmapCopy; + bitmapCopy.Create(bitmap); + CPPUNIT_ASSERT(!bitmap.unittestHasBuffer()); + BitmapBuffer* buffer1 = bitmap.AcquireBuffer(BitmapAccessMode::Read); + CPPUNIT_ASSERT(bitmap.unittestHasBuffer()); + bitmap.ReleaseBuffer(buffer1, BitmapAccessMode::Read); + CPPUNIT_ASSERT_EQUAL(Size(60, 60), bitmap.GetSize()); + // Scale the copy before the buffer was created (this time it should convert from non-alpha image + // because of the different size). + CPPUNIT_ASSERT(!bitmapCopy.unittestHasBuffer()); + CPPUNIT_ASSERT(bitmapCopy.Scale(4.0, 4.0, BmpScaleFlag::Fast)); + BitmapBuffer* buffer2 = bitmapCopy.AcquireBuffer(BitmapAccessMode::Read); + CPPUNIT_ASSERT(bitmapCopy.unittestHasBuffer()); + bitmapCopy.ReleaseBuffer(buffer2, BitmapAccessMode::Read); + CPPUNIT_ASSERT_EQUAL(Size(240, 240), bitmapCopy.GetSize()); +} + +void SkiaTest::testDrawDelayedScaleImage() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + if (SkiaHelper::renderMethodToUse() != SkiaHelper::RenderRaster) + return; // This test tests caching that's done only in raster mode. + ScopedVclPtr<VirtualDevice> device = VclPtr<VirtualDevice>::Create(DeviceFormat::DEFAULT); + device->SetOutputSizePixel(Size(10, 10)); + device->SetBackground(Wallpaper(COL_WHITE)); + device->Erase(); + Bitmap bitmap(Size(10, 10), vcl::PixelFormat::N24_BPP); + bitmap.Erase(COL_RED); + // Set a pixel to create pixel data. + BitmapWriteAccess(bitmap).SetPixel(0, 0, COL_BLUE); + SkiaSalBitmap* skiaBitmap1 = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + // Force creating of image. + sk_sp<SkImage> image1 = skiaBitmap1->GetSkImage(); + CPPUNIT_ASSERT(skiaBitmap1->unittestHasImage()); + CPPUNIT_ASSERT(bitmap.Scale(Size(5, 5))); + // Make sure delayed scaling has not changed the image. + SkiaSalBitmap* skiaBitmap2 = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap2->unittestHasImage()); + sk_sp<SkImage> image2 = skiaBitmap2->GetSkImage(SkiaHelper::DirectImage::Yes); + CPPUNIT_ASSERT_EQUAL(image1, image2); + CPPUNIT_ASSERT_EQUAL(Size(5, 5), bitmap.GetSizePixel()); + CPPUNIT_ASSERT_EQUAL(Size(10, 10), SkiaHelper::imageSize(image2)); + // Draw the bitmap scaled to size 10x10 and check that the 10x10 image was used (and kept), + // even though technically the bitmap is 5x5. + device->DrawBitmap(Point(0, 0), Size(10, 10), bitmap); + SkiaSalBitmap* skiaBitmap3 = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + CPPUNIT_ASSERT(skiaBitmap3->unittestHasImage()); + sk_sp<SkImage> image3 = skiaBitmap3->GetSkImage(SkiaHelper::DirectImage::Yes); + CPPUNIT_ASSERT_EQUAL(image1, image3); + CPPUNIT_ASSERT_EQUAL(Size(5, 5), bitmap.GetSizePixel()); + CPPUNIT_ASSERT_EQUAL(Size(10, 10), SkiaHelper::imageSize(image3)); +} + +void SkiaTest::testChecksum() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + Bitmap bitmap(Size(10, 10), vcl::PixelFormat::N24_BPP); + bitmap.Erase(COL_RED); + BitmapChecksum checksum1 = bitmap.GetChecksum(); + // Set a pixel to create pixel data, that should change checksum. + BitmapWriteAccess(bitmap).SetPixel(0, 0, COL_BLUE); + BitmapChecksum checksum2 = bitmap.GetChecksum(); + CPPUNIT_ASSERT(checksum2 != checksum1); + SkiaSalBitmap* skiaBitmap1 = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + // Creating an image should not change the checksum. + sk_sp<SkImage> image1 = skiaBitmap1->GetSkImage(); + BitmapChecksum checksum3 = bitmap.GetChecksum(); + CPPUNIT_ASSERT_EQUAL(checksum2, checksum3); + // Delayed scaling should change checksum even if the scaling has not taken place. + bitmap.Scale(Size(20, 20)); + BitmapChecksum checksum4 = bitmap.GetChecksum(); + CPPUNIT_ASSERT(checksum4 != checksum3); + // Setting back to the original red content should have the original checksum. + // (This also makes sure this next step is not affected by the delayed scaling + // above possibly taking place now.) + bitmap = Bitmap(Size(10, 10), vcl::PixelFormat::N24_BPP); + bitmap.Erase(COL_RED); + BitmapChecksum checksum5 = bitmap.GetChecksum(); + CPPUNIT_ASSERT_EQUAL(checksum1, checksum5); + // The optimized changing of images to greyscale should change the checksum. + SkiaSalBitmap* skiaBitmap2 = dynamic_cast<SkiaSalBitmap*>(bitmap.ImplGetSalBitmap().get()); + skiaBitmap2->unittestResetToImage(); + BitmapChecksum checksum6 = skiaBitmap2->GetChecksum(); + CPPUNIT_ASSERT_EQUAL(checksum5, checksum6); + CPPUNIT_ASSERT(skiaBitmap2->ConvertToGreyscale()); + BitmapChecksum checksum7 = skiaBitmap2->GetChecksum(); + CPPUNIT_ASSERT(checksum7 != checksum6); +} + +void SkiaTest::testTdf137329() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + // Draw a filled polygon in the entire device, with AA enabled. + // All pixels in the device should be black, even those at edges (i.e. not affected by AA). + ScopedVclPtr<VirtualDevice> device = VclPtr<VirtualDevice>::Create(DeviceFormat::DEFAULT); + device->SetOutputSizePixel(Size(10, 10)); + device->SetBackground(Wallpaper(COL_WHITE)); + device->SetAntialiasing(AntialiasingFlags::Enable); + device->Erase(); + device->SetLineColor(); + device->SetFillColor(COL_BLACK); + device->DrawPolyPolygon( + basegfx::B2DPolyPolygon(basegfx::B2DPolygon{ { 0, 0 }, { 10, 0 }, { 10, 10 }, { 0, 10 } })); + // savePNG("/tmp/tdf137329.png", device); + CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(0, 0))); + CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(9, 0))); + CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(9, 9))); + CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(0, 9))); + CPPUNIT_ASSERT_EQUAL(COL_BLACK, device->GetPixel(Point(4, 4))); +} + +void SkiaTest::testTdf140848() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + ScopedVclPtr<VirtualDevice> device = VclPtr<VirtualDevice>::Create(DeviceFormat::DEFAULT); + device->SetOutputSizePixel(Size(1300, 400)); + device->SetBackground(Wallpaper(COL_BLACK)); + device->SetAntialiasing(AntialiasingFlags::Enable); + device->Erase(); + device->SetLineColor(); + device->SetFillColor(COL_WHITE); + basegfx::B2DPolygon p1 = { { 952.73121259842514519, 102.4599685039370911 }, + { 952.73121259842514519, 66.55445669291347599 }, + { 1239.9753070866140661, 66.554456692913390725 }, + { 1239.9753070866140661, 138.36548031496062094 }, + { 952.73121259842514519, 138.36548031496070621 } }; + basegfx::B2DPolygon p2 = { { 1168.1642834645670064, 210.17650393700790801 }, + { 1168.1642834645670064, 66.554456692913404936 }, + { 1239.9753070866140661, 66.554456692913390725 }, + { 1239.9753070866142934, 353.79855118110236845 }, + { 1168.1642834645670064, 353.79855118110236845 } }; + device->DrawPolyPolygon(basegfx::B2DPolyPolygon(p1)); + device->DrawPolyPolygon(basegfx::B2DPolyPolygon(p2)); + //savePNG("/tmp/tdf140848.png", device); + // Rounding errors caused the overlapping part not to be drawn. + CPPUNIT_ASSERT_EQUAL(COL_WHITE, device->GetPixel(Point(1200, 100))); +} + +void SkiaTest::testTdf132367() +{ + if (!SkiaHelper::isVCLSkiaEnabled()) + return; + ScopedVclPtr<VirtualDevice> device = VclPtr<VirtualDevice>::Create(DeviceFormat::DEFAULT); + device->SetOutputSizePixel(Size(2, 2)); + device->SetBackground(Wallpaper(COL_BLACK)); + device->Erase(); + device->DrawPixel(Point(1, 1), COL_WHITE); + // This will make the bitmap store data in SkImage. + Bitmap bitmap = device->GetBitmap(Point(0, 0), Size(2, 2)); + // Scaling will only set up delayed scaling of the SkImage. + bitmap.Scale(Size(4, 4), BmpScaleFlag::NearestNeighbor); + // Now it will need to be converted to pixel buffer, check it's converted properly + // from the SkImage. + BitmapReadAccess access(bitmap); + CPPUNIT_ASSERT_EQUAL(tools::Long(4), access.Width()); + CPPUNIT_ASSERT_EQUAL(tools::Long(4), access.Height()); + CPPUNIT_ASSERT_EQUAL(BitmapColor(COL_WHITE), access.GetColor(3, 3)); +} + +} // namespace + +CPPUNIT_TEST_SUITE_REGISTRATION(SkiaTest); + +CPPUNIT_PLUGIN_IMPLEMENT(); + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |