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chromium / chromium / src / dbd4eed1920a2aafbc87236db7efb98f108ba063 / . / third_party / blink / renderer / platform / graphics / bitmap_image_test.cc
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/*
* Copyright (c) 2013, Google Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
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*
* * Redistributions of source code must retain the above copyright
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* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
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* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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#include "third_party/blink/renderer/platform/graphics/bitmap_image.h"
#include "base/test/simple_test_tick_clock.h"
#include "cc/paint/skia_paint_canvas.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/blink/renderer/platform/geometry/float_rect.h"
#include "third_party/blink/renderer/platform/graphics/bitmap_image_metrics.h"
#include "third_party/blink/renderer/platform/graphics/deferred_image_decoder.h"
#include "third_party/blink/renderer/platform/graphics/image_observer.h"
#include "third_party/blink/renderer/platform/graphics/test/mock_image_decoder.h"
#include "third_party/blink/renderer/platform/scheduler/test/fake_task_runner.h"
#include "third_party/blink/renderer/platform/shared_buffer.h"
#include "third_party/blink/renderer/platform/testing/histogram_tester.h"
#include "third_party/blink/renderer/platform/testing/runtime_enabled_features_test_helpers.h"
#include "third_party/blink/renderer/platform/testing/testing_platform_support_with_mock_scheduler.h"
#include "third_party/blink/renderer/platform/testing/unit_test_helpers.h"
#include "third_party/blink/renderer/platform/wtf/std_lib_extras.h"
#include "third_party/skia/include/core/SkColor.h"
#include "third_party/skia/include/core/SkImage.h"
namespace blink {
class BitmapImageTest : public testing::Test {
public:
class FakeImageObserver : public GarbageCollectedFinalized<FakeImageObserver>,
public ImageObserver {
USING_GARBAGE_COLLECTED_MIXIN(FakeImageObserver);
public:
FakeImageObserver()
: last_decoded_size_(0), last_decoded_size_changed_delta_(0) {}
virtual void DecodedSizeChangedTo(const Image*, size_t new_size) {
last_decoded_size_changed_delta_ =
SafeCast<int>(new_size) - SafeCast<int>(last_decoded_size_);
last_decoded_size_ = new_size;
}
bool ShouldPauseAnimation(const Image*) override { return false; }
void AnimationAdvanced(const Image*) override {
animation_advanced_ = true;
}
void AsyncLoadCompleted(const Image*) override { NOTREACHED(); }
virtual void ChangedInRect(const Image*, const IntRect&) {}
size_t last_decoded_size_;
int last_decoded_size_changed_delta_;
bool animation_advanced_ = false;
};
static scoped_refptr<SharedBuffer> ReadFile(const char* file_name) {
String file_path = test::BlinkLayoutTestsDir();
file_path.append(file_name);
return test::ReadFromFile(file_path);
}
// Accessors to BitmapImage's protected methods.
void DestroyDecodedData() { image_->DestroyDecodedData(); }
size_t FrameCount() { return image_->FrameCount(); }
void LoadImage(const char* file_name) {
scoped_refptr<SharedBuffer> image_data = ReadFile(file_name);
ASSERT_TRUE(image_data.get());
image_->SetData(image_data, true);
}
SkBitmap GenerateBitmap(size_t frame_index) {
CHECK_GE(image_->FrameCount(), frame_index);
auto paint_image = image_->PaintImageForTesting(frame_index);
CHECK(paint_image);
CHECK_EQ(paint_image.frame_index(), frame_index);
SkBitmap bitmap;
SkImageInfo info = SkImageInfo::MakeN32Premul(image_->Size().Width(),
image_->Size().Height());
bitmap.allocPixels(info, image_->Size().Width() * 4);
bitmap.eraseColor(SK_AlphaTRANSPARENT);
cc::SkiaPaintCanvas canvas(bitmap);
canvas.drawImage(paint_image, 0u, 0u, nullptr);
return bitmap;
}
SkBitmap GenerateBitmapForImage(const char* file_name) {
scoped_refptr<SharedBuffer> image_data = ReadFile(file_name);
EXPECT_TRUE(image_data.get());
if (!image_data)
return SkBitmap();
auto image = BitmapImage::Create();
image->SetData(image_data, true);
auto paint_image = image->PaintImageForCurrentFrame();
CHECK(paint_image);
CHECK_EQ(paint_image.frame_index(), 0u);
SkBitmap bitmap;
SkImageInfo info = SkImageInfo::MakeN32Premul(image->Size().Width(),
image->Size().Height());
bitmap.allocPixels(info, image->Size().Width() * 4);
bitmap.eraseColor(SK_AlphaTRANSPARENT);
cc::SkiaPaintCanvas canvas(bitmap);
canvas.drawImage(paint_image, 0u, 0u, nullptr);
return bitmap;
}
void VerifyBitmap(const SkBitmap& bitmap, SkColor color) {
ASSERT_GT(bitmap.width(), 0);
ASSERT_GT(bitmap.height(), 0);
for (int i = 0; i < bitmap.width(); ++i) {
for (int j = 0; j < bitmap.height(); ++j) {
auto bitmap_color = bitmap.getColor(i, j);
EXPECT_EQ(bitmap_color, color)
<< "Bitmap: " << SkColorGetA(bitmap_color) << ","
<< SkColorGetR(bitmap_color) << "," << SkColorGetG(bitmap_color)
<< "," << SkColorGetB(bitmap_color)
<< "Expected: " << SkColorGetA(color) << "," << SkColorGetR(color)
<< "," << SkColorGetG(color) << "," << SkColorGetB(color);
}
}
}
void VerifyBitmap(const SkBitmap& bitmap, const SkBitmap& expected) {
ASSERT_GT(bitmap.width(), 0);
ASSERT_GT(bitmap.height(), 0);
ASSERT_EQ(bitmap.info(), expected.info());
for (int i = 0; i < bitmap.width(); ++i) {
for (int j = 0; j < bitmap.height(); ++j) {
auto bitmap_color = bitmap.getColor(i, j);
auto expected_color = expected.getColor(i, j);
EXPECT_EQ(bitmap_color, expected_color)
<< "Bitmap: " << SkColorGetA(bitmap_color) << ","
<< SkColorGetR(bitmap_color) << "," << SkColorGetG(bitmap_color)
<< "," << SkColorGetB(bitmap_color)
<< "Expected: " << SkColorGetA(expected_color) << ","
<< SkColorGetR(expected_color) << "," << SkColorGetG(expected_color)
<< "," << SkColorGetB(expected_color);
}
}
}
size_t DecodedSize() { return image_->TotalFrameBytes(); }
int RepetitionCount() { return image_->RepetitionCount(); }
scoped_refptr<Image> ImageForDefaultFrame() {
return image_->ImageForDefaultFrame();
}
int LastDecodedSizeChange() {
return image_observer_->last_decoded_size_changed_delta_;
}
scoped_refptr<SharedBuffer> Data() { return image_->Data(); }
protected:
void SetUp() override {
image_observer_ = new FakeImageObserver;
image_ = BitmapImage::Create(image_observer_.Get());
}
Persistent<FakeImageObserver> image_observer_;
scoped_refptr<BitmapImage> image_;
ScopedTestingPlatformSupport<TestingPlatformSupportWithMockScheduler>
platform_;
};
TEST_F(BitmapImageTest, destroyDecodedData) {
LoadImage("/images/resources/animated-10color.gif");
image_->PaintImageForCurrentFrame();
size_t total_size = DecodedSize();
EXPECT_GT(total_size, 0u);
DestroyDecodedData();
EXPECT_EQ(-static_cast<int>(total_size), LastDecodedSizeChange());
EXPECT_EQ(0u, DecodedSize());
}
TEST_F(BitmapImageTest, maybeAnimated) {
LoadImage("/images/resources/gif-loop-count.gif");
EXPECT_TRUE(image_->MaybeAnimated());
}
TEST_F(BitmapImageTest, isAllDataReceived) {
scoped_refptr<SharedBuffer> image_data =
ReadFile("/images/resources/green.jpg");
ASSERT_TRUE(image_data.get());
scoped_refptr<BitmapImage> image = BitmapImage::Create();
EXPECT_FALSE(image->IsAllDataReceived());
image->SetData(image_data, false);
EXPECT_FALSE(image->IsAllDataReceived());
image->SetData(image_data, true);
EXPECT_TRUE(image->IsAllDataReceived());
image->SetData(SharedBuffer::Create("data", sizeof("data")), false);
EXPECT_FALSE(image->IsAllDataReceived());
image->SetData(image_data, true);
EXPECT_TRUE(image->IsAllDataReceived());
}
TEST_F(BitmapImageTest, noColorProfile) {
LoadImage("/images/resources/green.jpg");
image_->PaintImageForCurrentFrame();
EXPECT_EQ(1024u, DecodedSize());
EXPECT_FALSE(image_->HasColorProfile());
}
TEST_F(BitmapImageTest, jpegHasColorProfile) {
LoadImage("/images/resources/icc-v2-gbr.jpg");
image_->PaintImageForCurrentFrame();
EXPECT_EQ(227700u, DecodedSize());
EXPECT_TRUE(image_->HasColorProfile());
}
TEST_F(BitmapImageTest, pngHasColorProfile) {
LoadImage(
"/images/resources/"
"palatted-color-png-gamma-one-color-profile.png");
image_->PaintImageForCurrentFrame();
EXPECT_EQ(65536u, DecodedSize());
EXPECT_TRUE(image_->HasColorProfile());
}
TEST_F(BitmapImageTest, webpHasColorProfile) {
LoadImage("/images/resources/webp-color-profile-lossy.webp");
image_->PaintImageForCurrentFrame();
EXPECT_EQ(2560000u, DecodedSize());
EXPECT_TRUE(image_->HasColorProfile());
}
TEST_F(BitmapImageTest, icoHasWrongFrameDimensions) {
LoadImage("/images/resources/wrong-frame-dimensions.ico");
// This call would cause crash without fix for 408026
ImageForDefaultFrame();
}
TEST_F(BitmapImageTest, correctDecodedDataSize) {
// Requesting any one frame shouldn't result in decoding any other frames.
LoadImage("/images/resources/anim_none.gif");
image_->PaintImageForCurrentFrame();
int frame_size =
static_cast<int>(image_->Size().Area() * sizeof(ImageFrame::PixelData));
EXPECT_EQ(frame_size, LastDecodedSizeChange());
}
TEST_F(BitmapImageTest, recachingFrameAfterDataChanged) {
LoadImage("/images/resources/green.jpg");
image_->PaintImageForCurrentFrame();
EXPECT_GT(LastDecodedSizeChange(), 0);
image_observer_->last_decoded_size_changed_delta_ = 0;
// Calling dataChanged causes the cache to flush, but doesn't affect the
// source's decoded frames. It shouldn't affect decoded size.
image_->DataChanged(true);
EXPECT_EQ(0, LastDecodedSizeChange());
// Recaching the first frame also shouldn't affect decoded size.
image_->PaintImageForCurrentFrame();
EXPECT_EQ(0, LastDecodedSizeChange());
}
TEST_F(BitmapImageTest, ConstantImageIdForPartiallyLoadedImages) {
scoped_refptr<SharedBuffer> image_data =
ReadFile("/images/resources/green.jpg");
ASSERT_TRUE(image_data.get());
// Create a new buffer to partially supply the data.
scoped_refptr<SharedBuffer> partial_buffer = SharedBuffer::Create();
partial_buffer->Append(image_data->Data(), image_data->size() - 4);
// First partial load. Repeated calls for a PaintImage should have the same
// image until the data changes or the decoded data is destroyed.
ASSERT_EQ(image_->SetData(partial_buffer, false), Image::kSizeAvailable);
auto image1 = image_->PaintImageForCurrentFrame();
auto image2 = image_->PaintImageForCurrentFrame();
EXPECT_EQ(image1, image2);
auto sk_image1 = image1.GetSkImage();
auto sk_image2 = image2.GetSkImage();
EXPECT_EQ(sk_image1->uniqueID(), sk_image2->uniqueID());
// Frame keys should be the same for these PaintImages.
EXPECT_EQ(image1.GetKeyForFrame(image1.frame_index()),
image2.GetKeyForFrame(image2.frame_index()));
EXPECT_EQ(image1.frame_index(), 0u);
EXPECT_EQ(image2.frame_index(), 0u);
// Destroy the decoded data. This generates a new id since we don't cache
// image ids for partial decodes.
DestroyDecodedData();
auto image3 = image_->PaintImageForCurrentFrame();
auto sk_image3 = image3.GetSkImage();
EXPECT_NE(sk_image1, sk_image3);
EXPECT_NE(sk_image1->uniqueID(), sk_image3->uniqueID());
// Since the cached generator is discarded on destroying the cached decode,
// the new content id is generated resulting in an updated frame key.
EXPECT_NE(image1.GetKeyForFrame(image1.frame_index()),
image3.GetKeyForFrame(image3.frame_index()));
EXPECT_EQ(image3.frame_index(), 0u);
// Load complete. This should generate a new image id.
image_->SetData(image_data, true);
auto complete_image = image_->PaintImageForCurrentFrame();
auto complete_sk_image = complete_image.GetSkImage();
EXPECT_NE(sk_image3, complete_sk_image);
EXPECT_NE(sk_image3->uniqueID(), complete_sk_image->uniqueID());
EXPECT_NE(complete_image.GetKeyForFrame(complete_image.frame_index()),
image3.GetKeyForFrame(image3.frame_index()));
EXPECT_EQ(complete_image.frame_index(), 0u);
// Destroy the decoded data and re-create the PaintImage. The frame key
// remains constant but the SkImage id will change since we don't cache skia
// uniqueIDs.
DestroyDecodedData();
auto new_complete_image = image_->PaintImageForCurrentFrame();
auto new_complete_sk_image = new_complete_image.GetSkImage();
EXPECT_NE(new_complete_sk_image, complete_sk_image);
EXPECT_EQ(new_complete_image.GetKeyForFrame(new_complete_image.frame_index()),
complete_image.GetKeyForFrame(complete_image.frame_index()));
EXPECT_EQ(new_complete_image.frame_index(), 0u);
}
TEST_F(BitmapImageTest, ImageForDefaultFrame_MultiFrame) {
LoadImage("/images/resources/anim_none.gif");
// Multi-frame images create new StaticBitmapImages for each call.
auto default_image1 = image_->ImageForDefaultFrame();
auto default_image2 = image_->ImageForDefaultFrame();
EXPECT_NE(default_image1, default_image2);
// But the PaintImage should be the same.
auto paint_image1 = default_image1->PaintImageForCurrentFrame();
auto paint_image2 = default_image2->PaintImageForCurrentFrame();
EXPECT_EQ(paint_image1, paint_image2);
EXPECT_EQ(paint_image1.GetSkImage()->uniqueID(),
paint_image2.GetSkImage()->uniqueID());
}
TEST_F(BitmapImageTest, ImageForDefaultFrame_SingleFrame) {
LoadImage("/images/resources/green.jpg");
// Default frame images for single-frame cases is the image itself.
EXPECT_EQ(image_->ImageForDefaultFrame(), image_);
}
TEST_F(BitmapImageTest, GifDecoderFrame0) {
LoadImage("/images/resources/green-red-blue-yellow-animated.gif");
auto bitmap = GenerateBitmap(0u);
SkColor color = SkColorSetARGB(255, 0, 128, 0);
VerifyBitmap(bitmap, color);
}
TEST_F(BitmapImageTest, GifDecoderFrame1) {
LoadImage("/images/resources/green-red-blue-yellow-animated.gif");
auto bitmap = GenerateBitmap(1u);
VerifyBitmap(bitmap, SK_ColorRED);
}
TEST_F(BitmapImageTest, GifDecoderFrame2) {
LoadImage("/images/resources/green-red-blue-yellow-animated.gif");
auto bitmap = GenerateBitmap(2u);
VerifyBitmap(bitmap, SK_ColorBLUE);
}
TEST_F(BitmapImageTest, GifDecoderFrame3) {
LoadImage("/images/resources/green-red-blue-yellow-animated.gif");
auto bitmap = GenerateBitmap(3u);
VerifyBitmap(bitmap, SK_ColorYELLOW);
}
TEST_F(BitmapImageTest, APNGDecoder00) {
LoadImage("/images/resources/apng00.png");
auto actual_bitmap = GenerateBitmap(0u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng00-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
// Jump to the final frame of each image.
TEST_F(BitmapImageTest, APNGDecoder01) {
LoadImage("/images/resources/apng01.png");
auto actual_bitmap = GenerateBitmap(9u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng01-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, APNGDecoder02) {
LoadImage("/images/resources/apng02.png");
auto actual_bitmap = GenerateBitmap(9u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng02-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, APNGDecoder04) {
LoadImage("/images/resources/apng04.png");
auto actual_bitmap = GenerateBitmap(12u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng04-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, APNGDecoder08) {
LoadImage("/images/resources/apng08.png");
auto actual_bitmap = GenerateBitmap(12u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng08-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, APNGDecoder10) {
LoadImage("/images/resources/apng10.png");
auto actual_bitmap = GenerateBitmap(3u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng10-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, APNGDecoder11) {
LoadImage("/images/resources/apng11.png");
auto actual_bitmap = GenerateBitmap(9u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng11-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, APNGDecoder12) {
LoadImage("/images/resources/apng12.png");
auto actual_bitmap = GenerateBitmap(9u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng12-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, APNGDecoder14) {
LoadImage("/images/resources/apng14.png");
auto actual_bitmap = GenerateBitmap(12u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng14-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, APNGDecoder18) {
LoadImage("/images/resources/apng18.png");
auto actual_bitmap = GenerateBitmap(12u);
auto expected_bitmap =
GenerateBitmapForImage("/images/resources/apng18-ref.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, APNGDecoderDisposePrevious) {
LoadImage("/images/resources/crbug722072.png");
auto actual_bitmap = GenerateBitmap(3u);
auto expected_bitmap = GenerateBitmapForImage("/images/resources/green.png");
VerifyBitmap(actual_bitmap, expected_bitmap);
}
TEST_F(BitmapImageTest, GIFRepetitionCount) {
LoadImage("/images/resources/three-frames_loop-three-times.gif");
auto paint_image = image_->PaintImageForCurrentFrame();
EXPECT_EQ(paint_image.repetition_count(), 3);
EXPECT_EQ(paint_image.FrameCount(), 3u);
}
class BitmapImageTestWithMockDecoder : public BitmapImageTest,
public MockImageDecoderClient {
public:
void SetUp() override {
BitmapImageTest::SetUp();
auto decoder = MockImageDecoder::Create(this);
decoder->SetSize(10, 10);
image_->SetDecoderForTesting(
DeferredImageDecoder::CreateForTesting(std::move(decoder)));
}
void DecoderBeingDestroyed() override {}
void DecodeRequested() override {}
ImageFrame::Status GetStatus(size_t index) override {
if (index < frame_count_ - 1 || last_frame_complete_)
return ImageFrame::Status::kFrameComplete;
return ImageFrame::Status::kFramePartial;
}
size_t FrameCount() override { return frame_count_; }
int RepetitionCount() const override { return repetition_count_; }
TimeDelta FrameDuration() const override { return duration_; }
protected:
TimeDelta duration_;
int repetition_count_;
size_t frame_count_;
bool last_frame_complete_;
};
TEST_F(BitmapImageTestWithMockDecoder, ImageMetadataTracking) {
// For a zero duration, we should make it non-zero when creating a PaintImage.
repetition_count_ = kAnimationLoopOnce;
frame_count_ = 4u;
last_frame_complete_ = false;
image_->SetData(SharedBuffer::Create("data", sizeof("data")), false);
PaintImage image = image_->PaintImageForCurrentFrame();
ASSERT_TRUE(image);
EXPECT_EQ(image.FrameCount(), frame_count_);
EXPECT_EQ(image.completion_state(),
PaintImage::CompletionState::PARTIALLY_DONE);
EXPECT_EQ(image.repetition_count(), repetition_count_);
for (size_t i = 0; i < image.GetFrameMetadata().size(); ++i) {
const auto& data = image.GetFrameMetadata()[i];
EXPECT_EQ(data.duration, base::TimeDelta::FromMilliseconds(100));
if (i == frame_count_ - 1 && !last_frame_complete_)
EXPECT_FALSE(data.complete);
else
EXPECT_TRUE(data.complete);
}
// Now the load is finished.
duration_ = TimeDelta::FromSeconds(1);
repetition_count_ = kAnimationLoopInfinite;
frame_count_ = 6u;
last_frame_complete_ = true;
image_->SetData(SharedBuffer::Create("data", sizeof("data")), true);
image = image_->PaintImageForCurrentFrame();
ASSERT_TRUE(image);
EXPECT_EQ(image.FrameCount(), frame_count_);
EXPECT_EQ(image.completion_state(), PaintImage::CompletionState::DONE);
EXPECT_EQ(image.repetition_count(), repetition_count_);
for (size_t i = 0; i < image.GetFrameMetadata().size(); ++i) {
const auto& data = image.GetFrameMetadata()[i];
if (i < 4u)
EXPECT_EQ(data.duration, base::TimeDelta::FromMilliseconds(100));
else
EXPECT_EQ(data.duration, base::TimeDelta::FromSeconds(1));
EXPECT_TRUE(data.complete);
}
};
TEST_F(BitmapImageTestWithMockDecoder, AnimationPolicyOverride) {
repetition_count_ = kAnimationLoopInfinite;
frame_count_ = 4u;
last_frame_complete_ = true;
image_->SetData(SharedBuffer::Create("data", sizeof("data")), false);
PaintImage image = image_->PaintImageForCurrentFrame();
EXPECT_EQ(image.repetition_count(), repetition_count_);
// Only one loop allowed.
image_->SetAnimationPolicy(kImageAnimationPolicyAnimateOnce);
image = image_->PaintImageForCurrentFrame();
EXPECT_EQ(image.repetition_count(), kAnimationLoopOnce);
// No animation allowed.
image_->SetAnimationPolicy(kImageAnimationPolicyNoAnimation);
image = image_->PaintImageForCurrentFrame();
EXPECT_EQ(image.repetition_count(), kAnimationNone);
// Default policy.
image_->SetAnimationPolicy(kImageAnimationPolicyAllowed);
image = image_->PaintImageForCurrentFrame();
EXPECT_EQ(image.repetition_count(), repetition_count_);
}
TEST_F(BitmapImageTestWithMockDecoder, ResetAnimation) {
repetition_count_ = kAnimationLoopInfinite;
frame_count_ = 4u;
last_frame_complete_ = true;
image_->SetData(SharedBuffer::Create("data", sizeof("data")), false);
PaintImage image = image_->PaintImageForCurrentFrame();
image_->ResetAnimation();
PaintImage image2 = image_->PaintImageForCurrentFrame();
EXPECT_GT(image2.reset_animation_sequence_id(),
image.reset_animation_sequence_id());
}
TEST_F(BitmapImageTestWithMockDecoder, PaintImageForStaticBitmapImage) {
repetition_count_ = kAnimationLoopInfinite;
frame_count_ = 5;
last_frame_complete_ = true;
image_->SetData(SharedBuffer::Create("data", sizeof("data")), false);
// PaintImage for the original image is animated.
EXPECT_TRUE(image_->PaintImageForCurrentFrame().ShouldAnimate());
// But the StaticBitmapImage is not.
EXPECT_FALSE(image_->ImageForDefaultFrame()
->PaintImageForCurrentFrame()
.ShouldAnimate());
}
template <typename HistogramEnumType>
struct HistogramTestParams {
const char* filename;
HistogramEnumType type;
};
template <typename HistogramEnumType>
class BitmapHistogramTest : public BitmapImageTest,
public testing::WithParamInterface<
HistogramTestParams<HistogramEnumType>> {
protected:
void RunTest(const char* histogram_name) {
HistogramTester histogram_tester;
LoadImage(this->GetParam().filename);
histogram_tester.ExpectUniqueSample(histogram_name, this->GetParam().type,
1);
}
};
using DecodedImageTypeHistogramTest =
BitmapHistogramTest<BitmapImageMetrics::DecodedImageType>;
TEST_P(DecodedImageTypeHistogramTest, ImageType) {
RunTest("Blink.DecodedImageType");
}
const DecodedImageTypeHistogramTest::ParamType
kDecodedImageTypeHistogramTestparams[] = {
{"/images/resources/green.jpg", BitmapImageMetrics::kImageJPEG},
{"/images/resources/"
"palatted-color-png-gamma-one-color-profile.png",
BitmapImageMetrics::kImagePNG},
{"/images/resources/animated-10color.gif",
BitmapImageMetrics::kImageGIF},
{"/images/resources/webp-color-profile-lossy.webp",
BitmapImageMetrics::kImageWebP},
{"/images/resources/wrong-frame-dimensions.ico",
BitmapImageMetrics::kImageICO},
{"/images/resources/lenna.bmp", BitmapImageMetrics::kImageBMP}};
INSTANTIATE_TEST_CASE_P(
DecodedImageTypeHistogramTest,
DecodedImageTypeHistogramTest,
testing::ValuesIn(kDecodedImageTypeHistogramTestparams));
using DecodedImageOrientationHistogramTest =
BitmapHistogramTest<ImageOrientationEnum>;
TEST_P(DecodedImageOrientationHistogramTest, ImageOrientation) {
RunTest("Blink.DecodedImage.Orientation");
}
const DecodedImageOrientationHistogramTest::ParamType
kDecodedImageOrientationHistogramTestParams[] = {
{"/images/resources/exif-orientation-1-ul.jpg", kOriginTopLeft},
{"/images/resources/exif-orientation-2-ur.jpg", kOriginTopRight},
{"/images/resources/exif-orientation-3-lr.jpg", kOriginBottomRight},
{"/images/resources/exif-orientation-4-lol.jpg", kOriginBottomLeft},
{"/images/resources/exif-orientation-5-lu.jpg", kOriginLeftTop},
{"/images/resources/exif-orientation-6-ru.jpg", kOriginRightTop},
{"/images/resources/exif-orientation-7-rl.jpg", kOriginRightBottom},
{"/images/resources/exif-orientation-8-llo.jpg", kOriginLeftBottom}};
INSTANTIATE_TEST_CASE_P(
DecodedImageOrientationHistogramTest,
DecodedImageOrientationHistogramTest,
testing::ValuesIn(kDecodedImageOrientationHistogramTestParams));
} // namespace blink