/* 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 "gtest/gtest.h"
#include "gtest/MozGTestBench.h"
#include "Common.h"
#include "Decoder.h"
#include "DecoderFactory.h"
#include "IDecodingTask.h"
#include "mozilla/RefPtr.h"
#include "ProgressTracker.h"
#include "SourceBuffer.h"
using namespace mozilla;
using namespace mozilla::gfx;
using namespace mozilla::image;
namespace {
static void CheckDecoderState(
const ImageTestCase& aTestCase,
image::Decoder* aDecoder,
const IntSize& aOutputSize) {
// image::Decoder should match what we asked for in the MIME type.
EXPECT_NE(aDecoder->GetType(), DecoderType::UNKNOWN);
EXPECT_EQ(aDecoder->GetType(),
DecoderFactory::GetDecoderType(aTestCase.mMimeType));
EXPECT_TRUE(aDecoder->GetDecodeDone());
EXPECT_FALSE(aDecoder->HasError());
// Verify that the decoder made the expected progress.
Progress progress = aDecoder->TakeProgress();
EXPECT_FALSE(
bool(progress & FLAG_HAS_ERROR));
EXPECT_FALSE(
bool(aTestCase.mFlags & TEST_CASE_HAS_ERROR));
EXPECT_TRUE(
bool(progress & FLAG_SIZE_AVAILABLE));
EXPECT_TRUE(
bool(progress & FLAG_DECODE_COMPLETE));
EXPECT_TRUE(
bool(progress & FLAG_FRAME_COMPLETE));
EXPECT_EQ(
bool(aTestCase.mFlags & TEST_CASE_IS_TRANSPARENT),
bool(progress & FLAG_HAS_TRANSPARENCY));
EXPECT_EQ(
bool(aTestCase.mFlags & TEST_CASE_IS_ANIMATED),
bool(progress & FLAG_IS_ANIMATED));
// The decoder should get the correct size.
OrientedIntSize size = aDecoder->Size();
EXPECT_EQ(aTestCase.mSize.width, size.width);
EXPECT_EQ(aTestCase.mSize.height, size.height);
// Get the current frame, which is always the first frame of the image
// because CreateAnonymousDecoder() forces a first-frame-only decode.
RawAccessFrameRef currentFrame = aDecoder->GetCurrentFrameRef();
RefPtr<SourceSurface> surface = currentFrame->GetSourceSurface();
// Verify that the resulting surfaces matches our expectations.
EXPECT_TRUE(surface->IsDataSourceSurface());
EXPECT_TRUE(surface->GetFormat() == SurfaceFormat::OS_RGBX ||
surface->GetFormat() == SurfaceFormat::OS_RGBA);
EXPECT_EQ(aOutputSize, surface->GetSize());
}
template <
typename Func>
static void WithSingleChunkDecode(
const ImageTestCase& aTestCase,
SourceBuffer* aSourceBuffer,
const Maybe<IntSize>& aOutputSize,
Func aResultChecker) {
auto sourceBuffer = WrapNotNull(RefPtr<SourceBuffer>(aSourceBuffer));
// Create a decoder.
DecoderType decoderType = DecoderFactory::GetDecoderType(aTestCase.mMimeType);
RefPtr<image::Decoder> decoder = DecoderFactory::CreateAnonymousDecoder(
decoderType, sourceBuffer, aOutputSize, DecoderFlags::FIRST_FRAME_ONLY,
aTestCase.mSurfaceFlags);
ASSERT_TRUE(decoder != nullptr);
RefPtr<IDecodingTask> task =
new AnonymousDecodingTask(WrapNotNull(decoder),
/* aResumable */ false);
// Run the full decoder synchronously.
task->Run();
// Call the lambda to verify the expected results.
aResultChecker(decoder);
}
static void CheckDecode(
const ImageTestCase& aTestCase,
SourceBuffer* aSourceBuffer) {
WithSingleChunkDecode(
aTestCase, aSourceBuffer, Nothing(), [&](image::Decoder* aDecoder) {
CheckDecoderState(aTestCase, aDecoder, aTestCase.mSize);
});
}
static void CheckDownscaleDuringDecode(
const ImageTestCase& aTestCase,
SourceBuffer* aSourceBuffer) {
IntSize outputSize(20, 20);
WithSingleChunkDecode(aTestCase, aSourceBuffer, Some(outputSize),
[&](image::Decoder* aDecoder) {
CheckDecoderState(aTestCase, aDecoder, outputSize);
});
}
#define IMAGE_GTEST_BENCH_FIXTURE(test_fixture, test_case) \
class test_fixture :
public ImageBenchmarkBase { \
protected: \
test_fixture() : ImageBenchmarkBase(test_case()) {} \
};
#define IMAGE_GTEST_NATIVE_BENCH_F(test_fixture) \
MOZ_GTEST_BENCH_F(test_fixture, Native, \
[
this] { CheckDecode(mTestCase, mSourceBuffer); });
#define IMAGE_GTEST_DOWNSCALE_BENCH_F(test_fixture) \
MOZ_GTEST_BENCH_F(test_fixture, Downscale, [
this] { \
CheckDownscaleDuringDecode(mTestCase, mSourceBuffer); \
});
#define IMAGE_GTEST_NO_COLOR_MANAGEMENT_BENCH_F(test_fixture) \
MOZ_GTEST_BENCH_F(test_fixture, NoColorManagement, [
this] { \
ImageTestCase testCase = mTestCase; \
testCase.mSurfaceFlags |= SurfaceFlags::NO_COLORSPACE_CONVERSION; \
CheckDecode(testCase, mSourceBuffer); \
});
#define IMAGE_GTEST_NO_PREMULTIPLY_BENCH_F(test_fixture) \
MOZ_GTEST_BENCH_F(test_fixture, NoPremultiplyAlpha, [
this] { \
ImageTestCase testCase = mTestCase; \
testCase.mSurfaceFlags |= SurfaceFlags::NO_PREMULTIPLY_ALPHA; \
CheckDecode(testCase, mSourceBuffer); \
});
#define IMAGE_GTEST_BENCH_F(type, test) \
IMAGE_GTEST_BENCH_FIXTURE(ImageDecodersPerf_
##type
##_
##test, \
Perf
##test
##type
##TestCase) \
IMAGE_GTEST_NATIVE_BENCH_F(ImageDecodersPerf_
##type
##_
##test) \
IMAGE_GTEST_DOWNSCALE_BENCH_F(ImageDecodersPerf_
##type
##_
##test) \
IMAGE_GTEST_NO_COLOR_MANAGEMENT_BENCH_F(ImageDecodersPerf_
##type
##_
##test)
#define IMAGE_GTEST_BENCH_ALPHA_F(type, test) \
IMAGE_GTEST_BENCH_F(type, test) \
IMAGE_GTEST_NO_PREMULTIPLY_BENCH_F(ImageDecodersPerf_
##type
##_
##test)
IMAGE_GTEST_BENCH_F(JPG, YCbCr)
IMAGE_GTEST_BENCH_F(JPG, Cmyk)
IMAGE_GTEST_BENCH_F(JPG, Gray)
IMAGE_GTEST_BENCH_F(PNG, Rgb)
IMAGE_GTEST_BENCH_F(PNG, Gray)
IMAGE_GTEST_BENCH_ALPHA_F(PNG, RgbAlpha)
IMAGE_GTEST_BENCH_ALPHA_F(PNG, GrayAlpha)
IMAGE_GTEST_BENCH_F(WebP, RgbLossless)
IMAGE_GTEST_BENCH_F(WebP, RgbLossy)
IMAGE_GTEST_BENCH_ALPHA_F(WebP, RgbAlphaLossless)
IMAGE_GTEST_BENCH_ALPHA_F(WebP, RgbAlphaLossy)
IMAGE_GTEST_BENCH_F(GIF, Rgb)
}
// namespace
