// Copyright 2015 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "cc/paint/discardable_image_map.h" #include #include #include "base/memory/ref_counted.h" #include "base/test/gtest_util.h" #include "base/values.h" #include "cc/base/region.h" #include "cc/paint/paint_flags.h" #include "cc/paint/paint_op_buffer.h" #include "cc/paint/paint_recorder.h" #include "cc/test/fake_content_layer_client.h" #include "cc/test/fake_recording_source.h" #include "cc/test/skia_common.h" #include "testing/gtest/include/gtest/gtest.h" #include "third_party/skia/include/core/SkCanvas.h" #include "third_party/skia/include/core/SkGraphics.h" #include "third_party/skia/include/core/SkImageGenerator.h" #include "third_party/skia/include/core/SkRefCnt.h" #include "ui/gfx/color_space.h" #include "ui/gfx/geometry/rect.h" #include "ui/gfx/skia_util.h" namespace cc { namespace { struct PositionScaleDrawImage { PositionScaleDrawImage(const PaintImage& image, const gfx::Rect& image_rect, const SkSize& scale) : image(image), image_rect(image_rect), scale(scale) {} PaintImage image; gfx::Rect image_rect; SkSize scale; }; sk_sp CreateRecording(const PaintImage& discardable_image, const gfx::Rect& visible_rect) { auto buffer = sk_make_sp(); buffer->push(discardable_image, 0.f, 0.f, nullptr); return buffer; } } // namespace class DiscardableImageMapTest : public testing::Test { public: std::vector GetDiscardableImagesInRect( const DiscardableImageMap& image_map, const gfx::Rect& rect) { std::vector draw_image_ptrs; // Choose a not-SRGB-and-not-invalid target color space to verify that it // is passed correctly to the resulting DrawImages. gfx::ColorSpace target_color_space = gfx::ColorSpace::CreateXYZD50(); image_map.GetDiscardableImagesInRect(rect, &draw_image_ptrs); std::vector draw_images; for (const auto* image : draw_image_ptrs) draw_images.push_back(DrawImage( *image, 1.f, PaintImage::kDefaultFrameIndex, target_color_space)); std::vector position_draw_images; for (DrawImage& image : image_map.images_rtree_.Search(rect)) { auto image_id = image.paint_image().stable_id(); position_draw_images.push_back(PositionScaleDrawImage( image.paint_image(), ImageRectsToRegion(image_map.GetRectsForImage(image_id)).bounds(), image.scale())); } EXPECT_EQ(draw_images.size(), position_draw_images.size()); for (size_t i = 0; i < draw_images.size(); ++i) { EXPECT_TRUE(draw_images[i].paint_image() == position_draw_images[i].image); EXPECT_EQ(draw_images[i].target_color_space(), target_color_space); } return position_draw_images; } // Note that the image rtree outsets the images by 1, see the comment in // DiscardableImagesMetadataCanvas::AddImage. std::vector InsetImageRects( const std::vector& images) { std::vector result; for (auto& image : images) { result.push_back(image.image_rect); result.back().Inset(1, 1, 1, 1); } return result; } }; TEST_F(DiscardableImageMapTest, GetDiscardableImagesInRectTest) { gfx::Rect visible_rect(2048, 2048); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); // Discardable pixel refs are found in the following grids: // |---|---|---|---| // | | x | | x | // |---|---|---|---| // | x | | x | | // |---|---|---|---| // | | x | | x | // |---|---|---|---| // | x | | x | | // |---|---|---|---| PaintImage discardable_image[4][4]; for (int y = 0; y < 4; ++y) { for (int x = 0; x < 4; ++x) { if ((x + y) & 1) { discardable_image[y][x] = CreateDiscardablePaintImage(gfx::Size(500, 500)); PaintFlags flags; content_layer_client.add_draw_image( discardable_image[y][x], gfx::Point(x * 512 + 6, y * 512 + 6), flags); } } } scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); for (int y = 0; y < 4; ++y) { for (int x = 0; x < 4; ++x) { std::vector images = GetDiscardableImagesInRect( image_map, gfx::Rect(x * 512, y * 512, 500, 500)); std::vector inset_rects = InsetImageRects(images); if ((x + y) & 1) { EXPECT_EQ(1u, images.size()) << x << " " << y; EXPECT_TRUE(images[0].image == discardable_image[y][x]) << x << " " << y; EXPECT_EQ(gfx::Rect(x * 512 + 6, y * 512 + 6, 500, 500), inset_rects[0]); } else { EXPECT_EQ(0u, images.size()) << x << " " << y; } } } // Capture 4 pixel refs. std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(512, 512, 2048, 2048)); std::vector inset_rects = InsetImageRects(images); EXPECT_EQ(4u, images.size()); EXPECT_TRUE(images[0].image == discardable_image[1][2]); EXPECT_EQ(gfx::Rect(2 * 512 + 6, 512 + 6, 500, 500), inset_rects[0]); EXPECT_TRUE(images[1].image == discardable_image[2][1]); EXPECT_EQ(gfx::Rect(512 + 6, 2 * 512 + 6, 500, 500), inset_rects[1]); EXPECT_TRUE(images[2].image == discardable_image[2][3]); EXPECT_EQ(gfx::Rect(3 * 512 + 6, 2 * 512 + 6, 500, 500), inset_rects[2]); EXPECT_TRUE(images[3].image == discardable_image[3][2]); EXPECT_EQ(gfx::Rect(2 * 512 + 6, 3 * 512 + 6, 500, 500), inset_rects[3]); } TEST_F(DiscardableImageMapTest, GetDiscardableImagesInRectNonZeroLayer) { gfx::Rect visible_rect(1024, 0, 2048, 2048); // Make sure visible rect fits into the layer size. gfx::Size layer_size(visible_rect.right(), visible_rect.bottom()); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(layer_size); // Discardable pixel refs are found in the following grids: // |---|---|---|---| // | | x | | x | // |---|---|---|---| // | x | | x | | // |---|---|---|---| // | | x | | x | // |---|---|---|---| // | x | | x | | // |---|---|---|---| PaintImage discardable_image[4][4]; for (int y = 0; y < 4; ++y) { for (int x = 0; x < 4; ++x) { if ((x + y) & 1) { discardable_image[y][x] = CreateDiscardablePaintImage(gfx::Size(500, 500)); PaintFlags flags; content_layer_client.add_draw_image( discardable_image[y][x], gfx::Point(1024 + x * 512 + 6, y * 512 + 6), flags); } } } scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); for (int y = 0; y < 4; ++y) { for (int x = 0; x < 4; ++x) { std::vector images = GetDiscardableImagesInRect( image_map, gfx::Rect(1024 + x * 512, y * 512, 500, 500)); std::vector inset_rects = InsetImageRects(images); if ((x + y) & 1) { EXPECT_EQ(1u, images.size()) << x << " " << y; EXPECT_TRUE(images[0].image == discardable_image[y][x]) << x << " " << y; EXPECT_EQ(gfx::Rect(1024 + x * 512 + 6, y * 512 + 6, 500, 500), inset_rects[0]); } else { EXPECT_EQ(0u, images.size()) << x << " " << y; } } } // Capture 4 pixel refs. { std::vector images = GetDiscardableImagesInRect( image_map, gfx::Rect(1024 + 512, 512, 2048, 2048)); std::vector inset_rects = InsetImageRects(images); EXPECT_EQ(4u, images.size()); EXPECT_TRUE(images[0].image == discardable_image[1][2]); EXPECT_EQ(gfx::Rect(1024 + 2 * 512 + 6, 512 + 6, 500, 500), inset_rects[0]); EXPECT_TRUE(images[1].image == discardable_image[2][1]); EXPECT_EQ(gfx::Rect(1024 + 512 + 6, 2 * 512 + 6, 500, 500), inset_rects[1]); EXPECT_TRUE(images[2].image == discardable_image[2][3]); EXPECT_EQ(gfx::Rect(1024 + 3 * 512 + 6, 2 * 512 + 6, 500, 500), inset_rects[2]); EXPECT_TRUE(images[3].image == discardable_image[3][2]); EXPECT_EQ(gfx::Rect(1024 + 2 * 512 + 6, 3 * 512 + 6, 500, 500), inset_rects[3]); } // Non intersecting rects { std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(0, 0, 1000, 1000)); EXPECT_EQ(0u, images.size()); } { std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(3500, 0, 1000, 1000)); EXPECT_EQ(0u, images.size()); } { std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(0, 1100, 1000, 1000)); EXPECT_EQ(0u, images.size()); } { std::vector images = GetDiscardableImagesInRect( image_map, gfx::Rect(3500, 1100, 1000, 1000)); EXPECT_EQ(0u, images.size()); } // Image not present in the list. { PaintImage image = CreateDiscardablePaintImage(gfx::Size(500, 500)); EXPECT_EQ(image_map.GetRectsForImage(image.stable_id())->size(), 0u); } } TEST_F(DiscardableImageMapTest, GetDiscardableImagesInRectOnePixelQuery) { gfx::Rect visible_rect(2048, 2048); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); // Discardable pixel refs are found in the following grids: // |---|---|---|---| // | | x | | x | // |---|---|---|---| // | x | | x | | // |---|---|---|---| // | | x | | x | // |---|---|---|---| // | x | | x | | // |---|---|---|---| PaintImage discardable_image[4][4]; for (int y = 0; y < 4; ++y) { for (int x = 0; x < 4; ++x) { if ((x + y) & 1) { discardable_image[y][x] = CreateDiscardablePaintImage(gfx::Size(500, 500)); PaintFlags flags; content_layer_client.add_draw_image( discardable_image[y][x], gfx::Point(x * 512 + 6, y * 512 + 6), flags); } } } scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); for (int y = 0; y < 4; ++y) { for (int x = 0; x < 4; ++x) { std::vector images = GetDiscardableImagesInRect( image_map, gfx::Rect(x * 512 + 256, y * 512 + 256, 1, 1)); std::vector inset_rects = InsetImageRects(images); if ((x + y) & 1) { EXPECT_EQ(1u, images.size()) << x << " " << y; EXPECT_TRUE(images[0].image == discardable_image[y][x]) << x << " " << y; EXPECT_EQ(gfx::Rect(x * 512 + 6, y * 512 + 6, 500, 500), inset_rects[0]); } else { EXPECT_EQ(0u, images.size()) << x << " " << y; } } } } TEST_F(DiscardableImageMapTest, GetDiscardableImagesInRectMassiveImage) { gfx::Rect visible_rect(2048, 2048); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); PaintImage discardable_image = CreateDiscardablePaintImage(gfx::Size(1 << 25, 1 << 25), nullptr, false /* allocate_encoded_memory */); PaintFlags flags; content_layer_client.add_draw_image(discardable_image, gfx::Point(0, 0), flags); scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(0, 0, 1, 1)); std::vector inset_rects = InsetImageRects(images); EXPECT_EQ(1u, images.size()); EXPECT_TRUE(images[0].image == discardable_image); EXPECT_EQ(gfx::Rect(0, 0, 2048, 2048), inset_rects[0]); } TEST_F(DiscardableImageMapTest, PaintDestroyedWhileImageIsDrawn) { gfx::Rect visible_rect(2048, 2048); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); PaintImage discardable_image = CreateDiscardablePaintImage(gfx::Size(10, 10)); sk_sp record = CreateRecording(discardable_image, visible_rect); scoped_refptr display_list = new DisplayItemList; PaintFlags paint; display_list->StartPaint(); SkRect visible_sk_rect(gfx::RectToSkRect(visible_rect)); display_list->push(&visible_sk_rect, &paint); display_list->push(std::move(record)); display_list->push(); display_list->EndPaintOfUnpaired(visible_rect); display_list->Finalize(); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(0, 0, 1, 1)); EXPECT_EQ(1u, images.size()); EXPECT_TRUE(images[0].image == discardable_image); } TEST_F(DiscardableImageMapTest, NullPaintOnSaveLayer) { gfx::Rect visible_rect(2048, 2048); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); PaintImage discardable_image = CreateDiscardablePaintImage(gfx::Size(10, 10)); sk_sp record = CreateRecording(discardable_image, visible_rect); scoped_refptr display_list = new DisplayItemList; display_list->StartPaint(); SkRect visible_sk_rect(gfx::RectToSkRect(visible_rect)); display_list->push(&visible_sk_rect, nullptr); display_list->push(std::move(record)); display_list->push(); display_list->EndPaintOfUnpaired(visible_rect); display_list->Finalize(); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(0, 0, 1, 1)); EXPECT_EQ(1u, images.size()); EXPECT_TRUE(images[0].image == discardable_image); } TEST_F(DiscardableImageMapTest, GetDiscardableImagesInRectMaxImage) { gfx::Rect visible_rect(2048, 2048); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); int dimension = std::numeric_limits::max(); sk_sp no_color_space; PaintImage discardable_image = CreateDiscardablePaintImage( gfx::Size(dimension, dimension), no_color_space, false /* allocate_encoded_memory */); PaintFlags flags; content_layer_client.add_draw_image(discardable_image, gfx::Point(42, 42), flags); scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(42, 42, 1, 1)); std::vector inset_rects = InsetImageRects(images); EXPECT_EQ(1u, images.size()); EXPECT_TRUE(images[0].image == discardable_image); EXPECT_EQ(gfx::Rect(42, 42, 2006, 2006), inset_rects[0]); } TEST_F(DiscardableImageMapTest, GetDiscardableImagesInRectMaxImageMaxLayer) { // At large values of integer x, x != static_cast(static_cast(x)). // So, make sure the dimension can be converted back and forth for the // purposes of the unittest. Also, at near max int values, Skia seems to skip // some draw calls, so we subtract 64 since we only care about "really large" // values, not necessarily max int values. int dimension = static_cast( static_cast(std::numeric_limits::max() - 64)); gfx::Rect visible_rect(dimension, dimension); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); sk_sp no_color_space; PaintImage discardable_image1 = CreateDiscardablePaintImage( gfx::Size(dimension, dimension), no_color_space, false /* allocate_encoded_memory */); PaintImage discardable_image2 = CreateDiscardablePaintImage( gfx::Size(dimension, dimension), no_color_space, false /* allocate_encoded_memory */); PaintImage discardable_image3 = CreateDiscardablePaintImage( gfx::Size(dimension, dimension), no_color_space, false /* allocate_encoded_memory */); PaintFlags flags; content_layer_client.add_draw_image(discardable_image1, gfx::Point(0, 0), flags); content_layer_client.add_draw_image(discardable_image2, gfx::Point(10000, 0), flags); content_layer_client.add_draw_image(discardable_image3, gfx::Point(-10000, 500), flags); scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(0, 0, 1, 1)); std::vector inset_rects = InsetImageRects(images); EXPECT_EQ(1u, images.size()); EXPECT_EQ(gfx::Rect(0, 0, dimension, dimension), inset_rects[0]); images = GetDiscardableImagesInRect(image_map, gfx::Rect(10000, 0, 1, 1)); inset_rects = InsetImageRects(images); EXPECT_EQ(2u, images.size()); EXPECT_EQ(gfx::Rect(10000, 0, dimension - 10000, dimension), inset_rects[1]); EXPECT_EQ(gfx::Rect(0, 0, dimension, dimension), inset_rects[0]); // Since we adjust negative offsets before using ToEnclosingRect, the expected // width will be converted to float, which means that we lose some precision. // The expected value is whatever the value is converted to float and then // back to int. int expected10k = static_cast(static_cast(dimension - 10000)); images = GetDiscardableImagesInRect(image_map, gfx::Rect(0, 500, 1, 1)); inset_rects = InsetImageRects(images); EXPECT_EQ(2u, images.size()); EXPECT_EQ(gfx::Rect(0, 500, expected10k, dimension - 500), inset_rects[1]); EXPECT_EQ(gfx::Rect(0, 0, dimension, dimension), inset_rects[0]); } TEST_F(DiscardableImageMapTest, GetDiscardableImagesRectInBounds) { gfx::Rect visible_rect(1000, 1000); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); PaintImage discardable_image1 = CreateDiscardablePaintImage(gfx::Size(100, 100)); PaintImage discardable_image2 = CreateDiscardablePaintImage(gfx::Size(100, 100)); PaintImage long_discardable_image = CreateDiscardablePaintImage(gfx::Size(10000, 100)); PaintFlags flags; content_layer_client.add_draw_image(discardable_image1, gfx::Point(-10, -11), flags); content_layer_client.add_draw_image(discardable_image2, gfx::Point(950, 951), flags); content_layer_client.add_draw_image(long_discardable_image, gfx::Point(-100, 500), flags); scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); std::vector images = GetDiscardableImagesInRect(image_map, gfx::Rect(0, 0, 1, 1)); std::vector inset_rects = InsetImageRects(images); ASSERT_EQ(1u, images.size()); EXPECT_EQ(gfx::Rect(0, 0, 90, 89), inset_rects[0]); images = GetDiscardableImagesInRect(image_map, gfx::Rect(999, 999, 1, 1)); inset_rects = InsetImageRects(images); ASSERT_EQ(1u, images.size()); EXPECT_EQ(gfx::Rect(950, 951, 50, 49), inset_rects[0]); images = GetDiscardableImagesInRect(image_map, gfx::Rect(0, 500, 1, 1)); inset_rects = InsetImageRects(images); ASSERT_EQ(1u, images.size()); EXPECT_EQ(gfx::Rect(0, 500, 1000, 100), inset_rects[0]); } TEST_F(DiscardableImageMapTest, GetDiscardableImagesInShader) { gfx::Rect visible_rect(2048, 2048); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); // Discardable pixel refs are found in the following grids: // |---|---|---|---| // | | x | | x | // |---|---|---|---| // | x | | x | | // |---|---|---|---| // | | x | | x | // |---|---|---|---| // | x | | x | | // |---|---|---|---| PaintImage discardable_image[4][4]; // Skia doesn't allow shader instantiation with non-invertible local // transforms, so we can't let the scale drop all the way to 0. static constexpr float kMinScale = 0.1f; for (int y = 0; y < 4; ++y) { for (int x = 0; x < 4; ++x) { if ((x + y) & 1) { discardable_image[y][x] = PaintImageBuilder::WithDefault() .set_id(y * 4 + x) .set_paint_image_generator( CreatePaintImageGenerator(gfx::Size(500, 500))) .TakePaintImage(); SkMatrix scale = SkMatrix::MakeScale(std::max(x * 0.5f, kMinScale), std::max(y * 0.5f, kMinScale)); PaintFlags flags; flags.setShader(PaintShader::MakeImage( discardable_image[y][x], SkShader::kClamp_TileMode, SkShader::kClamp_TileMode, &scale)); content_layer_client.add_draw_rect( gfx::Rect(x * 512 + 6, y * 512 + 6, 500, 500), flags); } } } scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); for (int y = 0; y < 4; ++y) { for (int x = 0; x < 4; ++x) { std::vector draw_images; image_map.GetDiscardableImagesInRect( gfx::Rect(x * 512, y * 512, 500, 500), &draw_images); if ((x + y) & 1) { EXPECT_EQ(1u, draw_images.size()) << x << " " << y; EXPECT_TRUE(draw_images[0]->paint_image() == discardable_image[y][x]) << x << " " << y; EXPECT_EQ(std::max(x * 0.5f, kMinScale), draw_images[0]->scale().fWidth); EXPECT_EQ(std::max(y * 0.5f, kMinScale), draw_images[0]->scale().fHeight); } else { EXPECT_EQ(0u, draw_images.size()) << x << " " << y; } } } // Capture 4 pixel refs. std::vector draw_images; image_map.GetDiscardableImagesInRect(gfx::Rect(512, 512, 2048, 2048), &draw_images); EXPECT_EQ(4u, draw_images.size()); EXPECT_TRUE(draw_images[0]->paint_image() == discardable_image[1][2]); EXPECT_TRUE(draw_images[1]->paint_image() == discardable_image[2][1]); EXPECT_TRUE(draw_images[2]->paint_image() == discardable_image[2][3]); EXPECT_TRUE(draw_images[3]->paint_image() == discardable_image[3][2]); } TEST_F(DiscardableImageMapTest, ClipsImageRects) { gfx::Rect visible_rect(500, 500); PaintImage discardable_image = CreateDiscardablePaintImage(gfx::Size(500, 500)); sk_sp record = CreateRecording(discardable_image, visible_rect); scoped_refptr display_list = new DisplayItemList; display_list->StartPaint(); display_list->push(gfx::RectToSkRect(gfx::Rect(250, 250)), SkClipOp::kIntersect, false); display_list->push(std::move(record)); display_list->EndPaintOfUnpaired(gfx::Rect(250, 250)); display_list->Finalize(); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); std::vector images = GetDiscardableImagesInRect(image_map, visible_rect); std::vector inset_rects = InsetImageRects(images); EXPECT_EQ(1u, images.size()); EXPECT_TRUE(images[0].image == discardable_image); EXPECT_EQ(gfx::Rect(250, 250), inset_rects[0]); } TEST_F(DiscardableImageMapTest, GathersDiscardableImagesFromNestedOps) { // This |discardable_image| is in a PaintOpBuffer that gets added to // the root buffer. auto internal_record = sk_make_sp(); PaintImage discardable_image = CreateDiscardablePaintImage(gfx::Size(100, 100)); internal_record->push(discardable_image, 0.f, 0.f, nullptr); // This |discardable_image2| is in a DisplayItemList that gets added // to the root buffer. PaintImage discardable_image2 = CreateDiscardablePaintImage(gfx::Size(100, 100)); scoped_refptr display_list = new DisplayItemList(DisplayItemList::kToBeReleasedAsPaintOpBuffer); display_list->StartPaint(); display_list->push(discardable_image2, 100.f, 100.f, nullptr); display_list->EndPaintOfUnpaired(gfx::Rect(100, 100, 100, 100)); display_list->Finalize(); sk_sp record2 = display_list->ReleaseAsRecord(); PaintOpBuffer root_buffer; root_buffer.push(internal_record); root_buffer.push(record2); DiscardableImageMap image_map; image_map.Generate(&root_buffer, gfx::Rect(200, 200)); std::vector images; image_map.GetDiscardableImagesInRect(gfx::Rect(0, 0, 5, 95), &images); EXPECT_EQ(1u, images.size()); EXPECT_TRUE(discardable_image == images[0]->paint_image()); images.clear(); image_map.GetDiscardableImagesInRect(gfx::Rect(105, 105, 5, 95), &images); EXPECT_EQ(1u, images.size()); EXPECT_TRUE(discardable_image2 == images[0]->paint_image()); } TEST_F(DiscardableImageMapTest, GathersAnimatedImages) { gfx::Rect visible_rect(1000, 1000); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); std::vector frames = { FrameMetadata(true, base::TimeDelta::FromMilliseconds(2)), FrameMetadata(true, base::TimeDelta::FromMilliseconds(3))}; gfx::Size image_size(100, 100); PaintImage static_image = CreateDiscardablePaintImage(image_size); PaintImage animated_loop_none = CreateAnimatedImage(image_size, frames, kAnimationNone); PaintImage animation_loop_infinite = CreateAnimatedImage(image_size, frames, 1u); PaintFlags flags; content_layer_client.add_draw_image(static_image, gfx::Point(0, 0), flags); content_layer_client.add_draw_image(animated_loop_none, gfx::Point(100, 100), flags); content_layer_client.add_draw_image(animation_loop_infinite, gfx::Point(200, 200), flags); scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const auto& animated_images_metadata = display_list->discardable_image_map().animated_images_metadata(); ASSERT_EQ(animated_images_metadata.size(), 1u); EXPECT_EQ(animated_images_metadata[0].paint_image_id, animation_loop_infinite.stable_id()); EXPECT_EQ(animated_images_metadata[0].completion_state, animation_loop_infinite.completion_state()); EXPECT_EQ(animated_images_metadata[0].frames, animation_loop_infinite.GetFrameMetadata()); EXPECT_EQ(animated_images_metadata[0].repetition_count, animation_loop_infinite.repetition_count()); std::vector images; display_list->discardable_image_map().GetDiscardableImagesInRect(visible_rect, &images); ASSERT_EQ(images.size(), 3u); EXPECT_EQ(images[0]->paint_image(), static_image); EXPECT_DCHECK_DEATH(images[0]->frame_index()); EXPECT_EQ(images[1]->paint_image(), animated_loop_none); EXPECT_DCHECK_DEATH(images[1]->frame_index()); EXPECT_EQ(images[2]->paint_image(), animation_loop_infinite); EXPECT_DCHECK_DEATH(images[2]->frame_index()); } TEST_F(DiscardableImageMapTest, CapturesImagesInPaintRecordShaders) { // Create the record to use in the shader. auto shader_record = sk_make_sp(); shader_record->push(2.0f, 2.0f); PaintImage static_image = CreateDiscardablePaintImage(gfx::Size(100, 100)); shader_record->push(static_image, 0.f, 0.f, nullptr); std::vector frames = { FrameMetadata(true, base::TimeDelta::FromMilliseconds(1)), FrameMetadata(true, base::TimeDelta::FromMilliseconds(1))}; PaintImage animated_image = CreateAnimatedImage(gfx::Size(100, 100), frames); shader_record->push(animated_image, 0.f, 0.f, nullptr); gfx::Rect visible_rect(500, 500); scoped_refptr display_list = new DisplayItemList(); display_list->StartPaint(); display_list->push(2.0f, 2.0f); PaintFlags flags; SkRect tile = SkRect::MakeWH(100, 100); flags.setShader(PaintShader::MakePaintRecord( shader_record, tile, SkShader::TileMode::kClamp_TileMode, SkShader::TileMode::kClamp_TileMode, nullptr)); display_list->push(SkRect::MakeWH(200, 200), flags); display_list->EndPaintOfUnpaired(visible_rect); display_list->Finalize(); EXPECT_EQ(flags.getShader()->image_analysis_state(), ImageAnalysisState::kNoAnalysis); display_list->GenerateDiscardableImagesMetadata(); EXPECT_EQ(flags.getShader()->image_analysis_state(), ImageAnalysisState::kAnimatedImages); const auto& image_map = display_list->discardable_image_map(); // The image rect is set to the rect for the DrawRectOp, and only animated // images in a shader are tracked. std::vector draw_images = GetDiscardableImagesInRect(image_map, visible_rect); std::vector inset_rects = InsetImageRects(draw_images); ASSERT_EQ(draw_images.size(), 1u); EXPECT_EQ(draw_images[0].image, animated_image); // The position of the image is the position of the DrawRectOp that uses the // shader. EXPECT_EQ(gfx::Rect(400, 400), inset_rects[0]); // The scale of the image includes the scale at which the shader record is // rasterized. EXPECT_EQ(SkSize::Make(4.f, 4.f), draw_images[0].scale); } TEST_F(DiscardableImageMapTest, CapturesImagesInPaintFilters) { // Create the record to use in the filter. auto filter_record = sk_make_sp(); PaintImage static_image = CreateDiscardablePaintImage(gfx::Size(100, 100)); filter_record->push(static_image, 0.f, 0.f, nullptr); std::vector frames = { FrameMetadata(true, base::TimeDelta::FromMilliseconds(1)), FrameMetadata(true, base::TimeDelta::FromMilliseconds(1))}; PaintImage animated_image = CreateAnimatedImage(gfx::Size(100, 100), frames); filter_record->push(animated_image, 0.f, 0.f, nullptr); gfx::Rect visible_rect(500, 500); scoped_refptr display_list = new DisplayItemList(); display_list->StartPaint(); PaintFlags flags; flags.setImageFilter(sk_make_sp( filter_record, SkRect::MakeWH(100.f, 100.f))); display_list->push(SkRect::MakeWH(200, 200), flags); display_list->EndPaintOfUnpaired(visible_rect); display_list->Finalize(); EXPECT_EQ(flags.getImageFilter()->image_analysis_state(), ImageAnalysisState::kNoAnalysis); display_list->GenerateDiscardableImagesMetadata(); EXPECT_EQ(flags.getImageFilter()->image_analysis_state(), ImageAnalysisState::kAnimatedImages); const auto& image_map = display_list->discardable_image_map(); // The image rect is set to the rect for the DrawRectOp, and only animated // images in a filter are tracked. std::vector draw_images = GetDiscardableImagesInRect(image_map, visible_rect); std::vector inset_rects = InsetImageRects(draw_images); ASSERT_EQ(draw_images.size(), 1u); EXPECT_EQ(draw_images[0].image, animated_image); // The position of the image is the position of the DrawRectOp that uses the // filter. EXPECT_EQ(gfx::Rect(200, 200), inset_rects[0]); // Images in a filter are decoded at the original size. EXPECT_EQ(SkSize::Make(1.f, 1.f), draw_images[0].scale); } TEST_F(DiscardableImageMapTest, CapturesImagesInSaveLayers) { PaintFlags flags; PaintImage image = CreateDiscardablePaintImage(gfx::Size(100, 100)); flags.setShader(PaintShader::MakeImage(image, SkShader::kClamp_TileMode, SkShader::kClamp_TileMode, nullptr)); gfx::Rect visible_rect(500, 500); scoped_refptr display_list = new DisplayItemList(); display_list->StartPaint(); display_list->push(nullptr, &flags); display_list->push(SK_ColorBLUE, SkBlendMode::kSrc); display_list->EndPaintOfUnpaired(visible_rect); display_list->Finalize(); display_list->GenerateDiscardableImagesMetadata(); const auto& image_map = display_list->discardable_image_map(); std::vector draw_images = GetDiscardableImagesInRect(image_map, visible_rect); std::vector inset_rects = InsetImageRects(draw_images); ASSERT_EQ(draw_images.size(), 1u); EXPECT_EQ(draw_images[0].image, image); EXPECT_EQ(gfx::Rect(500, 500), inset_rects[0]); EXPECT_EQ(SkSize::Make(1.f, 1.f), draw_images[0].scale); } TEST_F(DiscardableImageMapTest, EmbeddedShaderWithAnimatedImages) { // Create the record with animated image to use in the shader. SkRect tile = SkRect::MakeWH(100, 100); auto shader_record = sk_make_sp(); std::vector frames = { FrameMetadata(true, base::TimeDelta::FromMilliseconds(1)), FrameMetadata(true, base::TimeDelta::FromMilliseconds(1))}; PaintImage animated_image = CreateAnimatedImage(gfx::Size(100, 100), frames); shader_record->push(animated_image, 0.f, 0.f, nullptr); auto shader_with_image = PaintShader::MakePaintRecord( shader_record, tile, SkShader::TileMode::kClamp_TileMode, SkShader::TileMode::kClamp_TileMode, nullptr); // Create a second shader which uses the shader above. auto second_shader_record = sk_make_sp(); PaintFlags flags; flags.setShader(shader_with_image); second_shader_record->push(SkRect::MakeWH(200, 200), flags); auto shader_with_shader_with_image = PaintShader::MakePaintRecord( second_shader_record, tile, SkShader::TileMode::kClamp_TileMode, SkShader::TileMode::kClamp_TileMode, nullptr); gfx::Rect visible_rect(500, 500); scoped_refptr display_list = new DisplayItemList(); display_list->StartPaint(); flags.setShader(shader_with_shader_with_image); display_list->push(SkRect::MakeWH(200, 200), flags); display_list->EndPaintOfUnpaired(visible_rect); display_list->Finalize(); display_list->GenerateDiscardableImagesMetadata(); EXPECT_EQ(shader_with_image->image_analysis_state(), ImageAnalysisState::kAnimatedImages); EXPECT_EQ(shader_with_shader_with_image->image_analysis_state(), ImageAnalysisState::kAnimatedImages); } TEST_F(DiscardableImageMapTest, DecodingModeHintsBasic) { gfx::Rect visible_rect(100, 100); PaintImage unspecified_image = PaintImageBuilder::WithCopy( CreateDiscardablePaintImage(gfx::Size(10, 10))) .set_id(1) .set_decoding_mode(PaintImage::DecodingMode::kUnspecified) .TakePaintImage(); PaintImage async_image = PaintImageBuilder::WithCopy( CreateDiscardablePaintImage(gfx::Size(10, 10))) .set_id(2) .set_decoding_mode(PaintImage::DecodingMode::kAsync) .TakePaintImage(); PaintImage sync_image = PaintImageBuilder::WithCopy( CreateDiscardablePaintImage(gfx::Size(10, 10))) .set_id(3) .set_decoding_mode(PaintImage::DecodingMode::kSync) .TakePaintImage(); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); content_layer_client.add_draw_image(unspecified_image, gfx::Point(0, 0), PaintFlags()); content_layer_client.add_draw_image(async_image, gfx::Point(10, 10), PaintFlags()); content_layer_client.add_draw_image(sync_image, gfx::Point(20, 20), PaintFlags()); scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); auto decode_hints = display_list->TakeDecodingModeMap(); ASSERT_EQ(decode_hints.size(), 3u); ASSERT_TRUE(decode_hints.find(1) != decode_hints.end()); ASSERT_TRUE(decode_hints.find(2) != decode_hints.end()); ASSERT_TRUE(decode_hints.find(3) != decode_hints.end()); EXPECT_EQ(decode_hints[1], PaintImage::DecodingMode::kUnspecified); EXPECT_EQ(decode_hints[2], PaintImage::DecodingMode::kAsync); EXPECT_EQ(decode_hints[3], PaintImage::DecodingMode::kSync); decode_hints = display_list->TakeDecodingModeMap(); EXPECT_EQ(decode_hints.size(), 0u); } TEST_F(DiscardableImageMapTest, DecodingModeHintsDuplicates) { gfx::Rect visible_rect(100, 100); PaintImage unspecified_image1 = PaintImageBuilder::WithCopy( CreateDiscardablePaintImage(gfx::Size(10, 10))) .set_id(1) .set_decoding_mode(PaintImage::DecodingMode::kUnspecified) .TakePaintImage(); PaintImage async_image1 = PaintImageBuilder::WithCopy( CreateDiscardablePaintImage(gfx::Size(10, 10))) .set_id(1) .set_decoding_mode(PaintImage::DecodingMode::kAsync) .TakePaintImage(); PaintImage unspecified_image2 = PaintImageBuilder::WithCopy( CreateDiscardablePaintImage(gfx::Size(10, 10))) .set_id(2) .set_decoding_mode(PaintImage::DecodingMode::kUnspecified) .TakePaintImage(); PaintImage sync_image2 = PaintImageBuilder::WithCopy( CreateDiscardablePaintImage(gfx::Size(10, 10))) .set_id(2) .set_decoding_mode(PaintImage::DecodingMode::kSync) .TakePaintImage(); PaintImage async_image3 = PaintImageBuilder::WithCopy( CreateDiscardablePaintImage(gfx::Size(10, 10))) .set_id(3) .set_decoding_mode(PaintImage::DecodingMode::kAsync) .TakePaintImage(); PaintImage sync_image3 = PaintImageBuilder::WithCopy( CreateDiscardablePaintImage(gfx::Size(10, 10))) .set_id(3) .set_decoding_mode(PaintImage::DecodingMode::kSync) .TakePaintImage(); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); content_layer_client.add_draw_image(unspecified_image1, gfx::Point(0, 0), PaintFlags()); content_layer_client.add_draw_image(async_image1, gfx::Point(10, 10), PaintFlags()); content_layer_client.add_draw_image(unspecified_image2, gfx::Point(20, 20), PaintFlags()); content_layer_client.add_draw_image(sync_image2, gfx::Point(30, 30), PaintFlags()); content_layer_client.add_draw_image(async_image3, gfx::Point(40, 40), PaintFlags()); content_layer_client.add_draw_image(sync_image3, gfx::Point(50, 50), PaintFlags()); scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); auto decode_hints = display_list->TakeDecodingModeMap(); ASSERT_EQ(decode_hints.size(), 3u); ASSERT_TRUE(decode_hints.find(1) != decode_hints.end()); ASSERT_TRUE(decode_hints.find(2) != decode_hints.end()); ASSERT_TRUE(decode_hints.find(3) != decode_hints.end()); // 1 was unspecified and async, so the result should be unspecified. EXPECT_EQ(decode_hints[1], PaintImage::DecodingMode::kUnspecified); // 2 was unspecified and sync, so the result should be sync. EXPECT_EQ(decode_hints[2], PaintImage::DecodingMode::kSync); // 3 was async and sync, so the result should be sync EXPECT_EQ(decode_hints[3], PaintImage::DecodingMode::kSync); decode_hints = display_list->TakeDecodingModeMap(); EXPECT_EQ(decode_hints.size(), 0u); } TEST_F(DiscardableImageMapTest, TracksImageRegions) { gfx::Rect visible_rect(500, 500); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); std::vector frames = { FrameMetadata(true, base::TimeDelta::FromMilliseconds(1)), FrameMetadata(true, base::TimeDelta::FromMilliseconds(1)), }; auto image = CreateAnimatedImage(gfx::Size(100, 100), frames); PaintFlags flags; content_layer_client.add_draw_image(image, gfx::Point(0, 0), flags); content_layer_client.add_draw_image(image, gfx::Point(400, 400), flags); scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const auto& image_map = display_list->discardable_image_map(); std::vector rects = {gfx::Rect(100, 100), gfx::Rect(400, 400, 100, 100)}; Region expected_region; for (auto& rect : rects) { rect.Inset(-1, -1); expected_region.Union(rect); } EXPECT_EQ(ImageRectsToRegion(image_map.GetRectsForImage(image.stable_id())), expected_region); } class DiscardableImageMapColorSpaceTest : public DiscardableImageMapTest, public testing::WithParamInterface {}; TEST_P(DiscardableImageMapColorSpaceTest, ColorSpace) { const gfx::ColorSpace image_color_space = GetParam(); gfx::Rect visible_rect(500, 500); PaintImage discardable_image = CreateDiscardablePaintImage( gfx::Size(500, 500), image_color_space.ToSkColorSpace()); FakeContentLayerClient content_layer_client; content_layer_client.set_bounds(visible_rect.size()); content_layer_client.add_draw_image(discardable_image, gfx::Point(0, 0), PaintFlags()); scoped_refptr display_list = content_layer_client.PaintContentsToDisplayList( ContentLayerClient::PAINTING_BEHAVIOR_NORMAL); display_list->GenerateDiscardableImagesMetadata(); const DiscardableImageMap& image_map = display_list->discardable_image_map(); if (!image_color_space.IsValid()) EXPECT_TRUE(image_map.all_images_are_srgb()); else if (image_color_space == gfx::ColorSpace::CreateSRGB()) EXPECT_TRUE(image_map.all_images_are_srgb()); else EXPECT_FALSE(image_map.all_images_are_srgb()); } gfx::ColorSpace test_color_spaces[] = { gfx::ColorSpace(), gfx::ColorSpace::CreateSRGB(), gfx::ColorSpace::CreateDisplayP3D65(), }; INSTANTIATE_TEST_CASE_P(ColorSpace, DiscardableImageMapColorSpaceTest, testing::ValuesIn(test_color_spaces)); } // namespace cc