// Copyright 2012 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 #include #include #include "base/message_loop/message_loop.h" #include "cc/base/math_util.h" #include "cc/output/gl_renderer.h" #include "cc/quads/draw_quad.h" #include "cc/quads/picture_draw_quad.h" #include "cc/quads/texture_draw_quad.h" #include "cc/resources/video_resource_updater.h" #include "cc/test/fake_raster_source.h" #include "cc/test/fake_recording_source.h" #include "cc/test/pixel_test.h" #include "gpu/command_buffer/client/gles2_interface.h" #include "media/base/video_frame.h" #include "third_party/skia/include/core/SkColorPriv.h" #include "third_party/skia/include/core/SkImageFilter.h" #include "third_party/skia/include/core/SkMatrix.h" #include "third_party/skia/include/core/SkRefCnt.h" #include "third_party/skia/include/core/SkSurface.h" #include "third_party/skia/include/effects/SkColorFilterImageFilter.h" #include "third_party/skia/include/effects/SkColorMatrixFilter.h" #include "ui/gfx/geometry/rect_conversions.h" using gpu::gles2::GLES2Interface; namespace cc { namespace { #if !defined(OS_ANDROID) std::unique_ptr CreateTestRootRenderPass(RenderPassId id, const gfx::Rect& rect) { std::unique_ptr pass = RenderPass::Create(); const gfx::Rect output_rect = rect; const gfx::Rect damage_rect = rect; const gfx::Transform transform_to_root_target; pass->SetNew(id, output_rect, damage_rect, transform_to_root_target); return pass; } std::unique_ptr CreateTestRenderPass( RenderPassId id, const gfx::Rect& rect, const gfx::Transform& transform_to_root_target) { std::unique_ptr pass = RenderPass::Create(); const gfx::Rect output_rect = rect; const gfx::Rect damage_rect = rect; pass->SetNew(id, output_rect, damage_rect, transform_to_root_target); return pass; } SharedQuadState* CreateTestSharedQuadState( gfx::Transform quad_to_target_transform, const gfx::Rect& rect, RenderPass* render_pass) { const gfx::Size layer_bounds = rect.size(); const gfx::Rect visible_layer_rect = rect; const gfx::Rect clip_rect = rect; const bool is_clipped = false; const float opacity = 1.0f; const SkXfermode::Mode blend_mode = SkXfermode::kSrcOver_Mode; int sorting_context_id = 0; SharedQuadState* shared_state = render_pass->CreateAndAppendSharedQuadState(); shared_state->SetAll(quad_to_target_transform, layer_bounds, visible_layer_rect, clip_rect, is_clipped, opacity, blend_mode, sorting_context_id); return shared_state; } SharedQuadState* CreateTestSharedQuadStateClipped( gfx::Transform quad_to_target_transform, const gfx::Rect& rect, const gfx::Rect& clip_rect, RenderPass* render_pass) { const gfx::Size layer_bounds = rect.size(); const gfx::Rect visible_layer_rect = clip_rect; const bool is_clipped = true; const float opacity = 1.0f; const SkXfermode::Mode blend_mode = SkXfermode::kSrcOver_Mode; int sorting_context_id = 0; SharedQuadState* shared_state = render_pass->CreateAndAppendSharedQuadState(); shared_state->SetAll(quad_to_target_transform, layer_bounds, visible_layer_rect, clip_rect, is_clipped, opacity, blend_mode, sorting_context_id); return shared_state; } void CreateTestRenderPassDrawQuad(const SharedQuadState* shared_state, const gfx::Rect& rect, RenderPassId pass_id, RenderPass* render_pass) { RenderPassDrawQuad* quad = render_pass->CreateAndAppendDrawQuad(); quad->SetNew(shared_state, rect, rect, pass_id, 0, // mask_resource_id gfx::Vector2dF(), // mask_uv_scale gfx::Size(), // mask_texture_size FilterOperations(), // foreground filters gfx::Vector2dF(), // filters scale gfx::PointF(), // filter origin FilterOperations()); // background filters } void CreateTestTwoColoredTextureDrawQuad(const gfx::Rect& rect, SkColor texel_color, SkColor texel_stripe_color, SkColor background_color, bool premultiplied_alpha, const SharedQuadState* shared_state, ResourceProvider* resource_provider, RenderPass* render_pass) { SkPMColor pixel_color = premultiplied_alpha ? SkPreMultiplyColor(texel_color) : SkPackARGB32NoCheck(SkColorGetA(texel_color), SkColorGetR(texel_color), SkColorGetG(texel_color), SkColorGetB(texel_color)); SkPMColor pixel_stripe_color = premultiplied_alpha ? SkPreMultiplyColor(texel_stripe_color) : SkPackARGB32NoCheck(SkColorGetA(texel_stripe_color), SkColorGetR(texel_stripe_color), SkColorGetG(texel_stripe_color), SkColorGetB(texel_stripe_color)); std::vector pixels(rect.size().GetArea(), pixel_color); for (int i = rect.height() / 4; i < (rect.height() * 3 / 4); ++i) { for (int k = rect.width() / 4; k < (rect.width() * 3 / 4); ++k) { pixels[i * rect.width() + k] = pixel_stripe_color; } } ResourceId resource = resource_provider->CreateResource( rect.size(), ResourceProvider::TEXTURE_HINT_IMMUTABLE, RGBA_8888, gfx::ColorSpace()); resource_provider->CopyToResource( resource, reinterpret_cast(&pixels.front()), rect.size()); float vertex_opacity[4] = {1.0f, 1.0f, 1.0f, 1.0f}; const gfx::PointF uv_top_left(0.0f, 0.0f); const gfx::PointF uv_bottom_right(1.0f, 1.0f); const bool flipped = false; const bool nearest_neighbor = false; TextureDrawQuad* quad = render_pass->CreateAndAppendDrawQuad(); quad->SetNew(shared_state, rect, gfx::Rect(), rect, resource, premultiplied_alpha, uv_top_left, uv_bottom_right, background_color, vertex_opacity, flipped, nearest_neighbor, false); } void CreateTestTextureDrawQuad(const gfx::Rect& rect, SkColor texel_color, SkColor background_color, bool premultiplied_alpha, const SharedQuadState* shared_state, ResourceProvider* resource_provider, RenderPass* render_pass) { SkPMColor pixel_color = premultiplied_alpha ? SkPreMultiplyColor(texel_color) : SkPackARGB32NoCheck(SkColorGetA(texel_color), SkColorGetR(texel_color), SkColorGetG(texel_color), SkColorGetB(texel_color)); size_t num_pixels = static_cast(rect.width()) * rect.height(); std::vector pixels(num_pixels, pixel_color); ResourceId resource = resource_provider->CreateResource( rect.size(), ResourceProvider::TEXTURE_HINT_IMMUTABLE, RGBA_8888, gfx::ColorSpace()); resource_provider->CopyToResource( resource, reinterpret_cast(&pixels.front()), rect.size()); float vertex_opacity[4] = {1.0f, 1.0f, 1.0f, 1.0f}; const gfx::PointF uv_top_left(0.0f, 0.0f); const gfx::PointF uv_bottom_right(1.0f, 1.0f); const bool flipped = false; const bool nearest_neighbor = false; TextureDrawQuad* quad = render_pass->CreateAndAppendDrawQuad(); quad->SetNew(shared_state, rect, gfx::Rect(), rect, resource, premultiplied_alpha, uv_top_left, uv_bottom_right, background_color, vertex_opacity, flipped, nearest_neighbor, false); } void CreateTestYUVVideoDrawQuad_FromVideoFrame( const SharedQuadState* shared_state, scoped_refptr video_frame, uint8_t alpha_value, const gfx::RectF& tex_coord_rect, RenderPass* render_pass, VideoResourceUpdater* video_resource_updater, const gfx::Rect& rect, const gfx::Rect& visible_rect, ResourceProvider* resource_provider) { const bool with_alpha = (video_frame->format() == media::PIXEL_FORMAT_YV12A); YUVVideoDrawQuad::ColorSpace color_space = YUVVideoDrawQuad::REC_601; int video_frame_color_space; if (video_frame->metadata()->GetInteger( media::VideoFrameMetadata::COLOR_SPACE, &video_frame_color_space) && video_frame_color_space == media::COLOR_SPACE_JPEG) { color_space = YUVVideoDrawQuad::JPEG; } gfx::ColorSpace video_color_space = video_frame->ColorSpace(); const gfx::Rect opaque_rect(0, 0, 0, 0); if (with_alpha) { memset(video_frame->data(media::VideoFrame::kAPlane), alpha_value, video_frame->stride(media::VideoFrame::kAPlane) * video_frame->rows(media::VideoFrame::kAPlane)); } VideoFrameExternalResources resources = video_resource_updater->CreateExternalResourcesFromVideoFrame( video_frame); EXPECT_EQ(VideoFrameExternalResources::YUV_RESOURCE, resources.type); EXPECT_EQ(media::VideoFrame::NumPlanes(video_frame->format()), resources.mailboxes.size()); EXPECT_EQ(media::VideoFrame::NumPlanes(video_frame->format()), resources.release_callbacks.size()); ResourceId y_resource = resource_provider->CreateResourceFromTextureMailbox( resources.mailboxes[media::VideoFrame::kYPlane], SingleReleaseCallbackImpl::Create( resources.release_callbacks[media::VideoFrame::kYPlane])); ResourceId u_resource = resource_provider->CreateResourceFromTextureMailbox( resources.mailboxes[media::VideoFrame::kUPlane], SingleReleaseCallbackImpl::Create( resources.release_callbacks[media::VideoFrame::kUPlane])); ResourceId v_resource = resource_provider->CreateResourceFromTextureMailbox( resources.mailboxes[media::VideoFrame::kVPlane], SingleReleaseCallbackImpl::Create( resources.release_callbacks[media::VideoFrame::kVPlane])); ResourceId a_resource = 0; if (with_alpha) { a_resource = resource_provider->CreateResourceFromTextureMailbox( resources.mailboxes[media::VideoFrame::kAPlane], SingleReleaseCallbackImpl::Create( resources.release_callbacks[media::VideoFrame::kAPlane])); } const gfx::Size ya_tex_size = video_frame->coded_size(); const gfx::Size uv_tex_size = media::VideoFrame::PlaneSize( video_frame->format(), media::VideoFrame::kUPlane, video_frame->coded_size()); DCHECK(uv_tex_size == media::VideoFrame::PlaneSize( video_frame->format(), media::VideoFrame::kVPlane, video_frame->coded_size())); if (with_alpha) { DCHECK(ya_tex_size == media::VideoFrame::PlaneSize( video_frame->format(), media::VideoFrame::kAPlane, video_frame->coded_size())); } gfx::RectF ya_tex_coord_rect(tex_coord_rect.x() * ya_tex_size.width(), tex_coord_rect.y() * ya_tex_size.height(), tex_coord_rect.width() * ya_tex_size.width(), tex_coord_rect.height() * ya_tex_size.height()); gfx::RectF uv_tex_coord_rect(tex_coord_rect.x() * uv_tex_size.width(), tex_coord_rect.y() * uv_tex_size.height(), tex_coord_rect.width() * uv_tex_size.width(), tex_coord_rect.height() * uv_tex_size.height()); YUVVideoDrawQuad* yuv_quad = render_pass->CreateAndAppendDrawQuad(); uint32_t bits_per_channel = 8; if (video_frame->format() == media::PIXEL_FORMAT_YUV420P10 || video_frame->format() == media::PIXEL_FORMAT_YUV422P10 || video_frame->format() == media::PIXEL_FORMAT_YUV444P10) { bits_per_channel = 10; } yuv_quad->SetNew(shared_state, rect, opaque_rect, visible_rect, ya_tex_coord_rect, uv_tex_coord_rect, ya_tex_size, uv_tex_size, y_resource, u_resource, v_resource, a_resource, color_space, video_color_space, 0.0f, 1.0f, bits_per_channel); } void CreateTestY16TextureDrawQuad_FromVideoFrame( const SharedQuadState* shared_state, scoped_refptr video_frame, const gfx::RectF& tex_coord_rect, RenderPass* render_pass, VideoResourceUpdater* video_resource_updater, const gfx::Rect& rect, const gfx::Rect& visible_rect, ResourceProvider* resource_provider) { VideoFrameExternalResources resources = video_resource_updater->CreateExternalResourcesFromVideoFrame( video_frame); EXPECT_EQ(VideoFrameExternalResources::RGBA_RESOURCE, resources.type); EXPECT_EQ(1u, resources.mailboxes.size()); EXPECT_EQ(1u, resources.release_callbacks.size()); ResourceId y_resource = resource_provider->CreateResourceFromTextureMailbox( resources.mailboxes[0], SingleReleaseCallbackImpl::Create(resources.release_callbacks[0])); TextureDrawQuad* quad = render_pass->CreateAndAppendDrawQuad(); float vertex_opacity[4] = {1.0f, 1.0f, 1.0f, 1.0f}; quad->SetNew(shared_state, rect, gfx::Rect(), rect, y_resource, false, tex_coord_rect.origin(), tex_coord_rect.bottom_right(), SK_ColorBLACK, vertex_opacity, false, false, false); } // Upshift video frame to 10 bit. scoped_refptr CreateHighbitVideoFrame( media::VideoFrame* video_frame) { media::VideoPixelFormat format; switch (video_frame->format()) { case media::PIXEL_FORMAT_I420: case media::PIXEL_FORMAT_YV12: format = media::PIXEL_FORMAT_YUV420P10; break; case media::PIXEL_FORMAT_YV16: format = media::PIXEL_FORMAT_YUV422P10; break; case media::PIXEL_FORMAT_YV24: format = media::PIXEL_FORMAT_YUV444P10; break; default: NOTREACHED(); return nullptr; } scoped_refptr ret = media::VideoFrame::CreateFrame( format, video_frame->coded_size(), video_frame->visible_rect(), video_frame->natural_size(), video_frame->timestamp()); // Copy all metadata. ret->metadata()->MergeMetadataFrom(video_frame->metadata()); for (int plane = media::VideoFrame::kYPlane; plane <= media::VideoFrame::kVPlane; ++plane) { int width = video_frame->row_bytes(plane); const uint8_t* src = video_frame->data(plane); uint16_t* dst = reinterpret_cast(ret->data(plane)); for (int row = 0; row < video_frame->rows(plane); row++) { for (int x = 0; x < width; x++) { // Replicate the top bits into the lower bits, this way // 0xFF becomes 0x3FF. dst[x] = (src[x] << 2) | (src[x] >> 6); } src += video_frame->stride(plane); dst += ret->stride(plane) / 2; } } return ret; } void CreateTestYUVVideoDrawQuad_Striped( const SharedQuadState* shared_state, media::VideoPixelFormat format, bool is_transparent, bool highbit, const gfx::RectF& tex_coord_rect, RenderPass* render_pass, VideoResourceUpdater* video_resource_updater, const gfx::Rect& rect, const gfx::Rect& visible_rect, ResourceProvider* resource_provider) { scoped_refptr video_frame = media::VideoFrame::CreateFrame( format, rect.size(), rect, rect.size(), base::TimeDelta()); // YUV values representing a striped pattern, for validating texture // coordinates for sampling. uint8_t y_value = 0; uint8_t u_value = 0; uint8_t v_value = 0; for (int i = 0; i < video_frame->rows(media::VideoFrame::kYPlane); ++i) { uint8_t* y_row = video_frame->data(media::VideoFrame::kYPlane) + video_frame->stride(media::VideoFrame::kYPlane) * i; for (int j = 0; j < video_frame->row_bytes(media::VideoFrame::kYPlane); ++j) { y_row[j] = (y_value += 1); } } for (int i = 0; i < video_frame->rows(media::VideoFrame::kUPlane); ++i) { uint8_t* u_row = video_frame->data(media::VideoFrame::kUPlane) + video_frame->stride(media::VideoFrame::kUPlane) * i; uint8_t* v_row = video_frame->data(media::VideoFrame::kVPlane) + video_frame->stride(media::VideoFrame::kVPlane) * i; for (int j = 0; j < video_frame->row_bytes(media::VideoFrame::kUPlane); ++j) { u_row[j] = (u_value += 3); v_row[j] = (v_value += 5); } } uint8_t alpha_value = is_transparent ? 0 : 128; if (highbit) video_frame = CreateHighbitVideoFrame(video_frame.get()); CreateTestYUVVideoDrawQuad_FromVideoFrame( shared_state, video_frame, alpha_value, tex_coord_rect, render_pass, video_resource_updater, rect, visible_rect, resource_provider); } // Creates a video frame of size background_size filled with yuv_background, // and then draws a foreground rectangle in a different color on top of // that. The foreground rectangle must have coordinates that are divisible // by 2 because YUV is a block format. void CreateTestYUVVideoDrawQuad_TwoColor( const SharedQuadState* shared_state, media::VideoPixelFormat format, media::ColorSpace color_space, bool is_transparent, const gfx::RectF& tex_coord_rect, const gfx::Size& background_size, const gfx::Rect& visible_rect, uint8_t y_background, uint8_t u_background, uint8_t v_background, const gfx::Rect& foreground_rect, uint8_t y_foreground, uint8_t u_foreground, uint8_t v_foreground, RenderPass* render_pass, VideoResourceUpdater* video_resource_updater, ResourceProvider* resource_provider) { const gfx::Rect rect(background_size); scoped_refptr video_frame = media::VideoFrame::CreateFrame(format, background_size, foreground_rect, foreground_rect.size(), base::TimeDelta()); video_frame->metadata()->SetInteger(media::VideoFrameMetadata::COLOR_SPACE, color_space); int planes[] = {media::VideoFrame::kYPlane, media::VideoFrame::kUPlane, media::VideoFrame::kVPlane}; uint8_t yuv_background[] = {y_background, u_background, v_background}; uint8_t yuv_foreground[] = {y_foreground, u_foreground, v_foreground}; int sample_size[] = {1, 2, 2}; for (int i = 0; i < 3; ++i) { memset(video_frame->data(planes[i]), yuv_background[i], video_frame->stride(planes[i]) * video_frame->rows(planes[i])); } for (int i = 0; i < 3; ++i) { // Since yuv encoding uses block encoding, widths have to be divisible // by the sample size in order for this function to behave properly. DCHECK_EQ(foreground_rect.x() % sample_size[i], 0); DCHECK_EQ(foreground_rect.y() % sample_size[i], 0); DCHECK_EQ(foreground_rect.width() % sample_size[i], 0); DCHECK_EQ(foreground_rect.height() % sample_size[i], 0); gfx::Rect sample_rect(foreground_rect.x() / sample_size[i], foreground_rect.y() / sample_size[i], foreground_rect.width() / sample_size[i], foreground_rect.height() / sample_size[i]); for (int y = sample_rect.y(); y < sample_rect.bottom(); ++y) { for (int x = sample_rect.x(); x < sample_rect.right(); ++x) { size_t offset = y * video_frame->stride(planes[i]) + x; video_frame->data(planes[i])[offset] = yuv_foreground[i]; } } } uint8_t alpha_value = 255; CreateTestYUVVideoDrawQuad_FromVideoFrame( shared_state, video_frame, alpha_value, tex_coord_rect, render_pass, video_resource_updater, rect, visible_rect, resource_provider); } void CreateTestYUVVideoDrawQuad_Solid( const SharedQuadState* shared_state, media::VideoPixelFormat format, media::ColorSpace color_space, bool is_transparent, const gfx::RectF& tex_coord_rect, uint8_t y, uint8_t u, uint8_t v, RenderPass* render_pass, VideoResourceUpdater* video_resource_updater, const gfx::Rect& rect, const gfx::Rect& visible_rect, ResourceProvider* resource_provider) { scoped_refptr video_frame = media::VideoFrame::CreateFrame( format, rect.size(), rect, rect.size(), base::TimeDelta()); video_frame->metadata()->SetInteger(media::VideoFrameMetadata::COLOR_SPACE, color_space); // YUV values of a solid, constant, color. Useful for testing that color // space/color range are being handled properly. memset(video_frame->data(media::VideoFrame::kYPlane), y, video_frame->stride(media::VideoFrame::kYPlane) * video_frame->rows(media::VideoFrame::kYPlane)); memset(video_frame->data(media::VideoFrame::kUPlane), u, video_frame->stride(media::VideoFrame::kUPlane) * video_frame->rows(media::VideoFrame::kUPlane)); memset(video_frame->data(media::VideoFrame::kVPlane), v, video_frame->stride(media::VideoFrame::kVPlane) * video_frame->rows(media::VideoFrame::kVPlane)); uint8_t alpha_value = is_transparent ? 0 : 128; CreateTestYUVVideoDrawQuad_FromVideoFrame( shared_state, video_frame, alpha_value, tex_coord_rect, render_pass, video_resource_updater, rect, visible_rect, resource_provider); } void CreateTestYUVVideoDrawQuad_NV12(const SharedQuadState* shared_state, media::ColorSpace video_frame_color_space, const gfx::ColorSpace& video_color_space, const gfx::RectF& tex_coord_rect, uint8_t y, uint8_t u, uint8_t v, RenderPass* render_pass, const gfx::Rect& rect, const gfx::Rect& visible_rect, ResourceProvider* resource_provider) { YUVVideoDrawQuad::ColorSpace color_space = YUVVideoDrawQuad::REC_601; if (video_frame_color_space == media::COLOR_SPACE_JPEG) { color_space = YUVVideoDrawQuad::JPEG; } const gfx::Rect opaque_rect(0, 0, 0, 0); const gfx::Size ya_tex_size = rect.size(); const gfx::Size uv_tex_size = media::VideoFrame::PlaneSize( media::PIXEL_FORMAT_NV12, media::VideoFrame::kUVPlane, rect.size()); ResourceId y_resource = resource_provider->CreateResource( rect.size(), ResourceProvider::TEXTURE_HINT_DEFAULT, resource_provider->YuvResourceFormat(8), gfx::ColorSpace()); ResourceId u_resource = resource_provider->CreateResource( uv_tex_size, ResourceProvider::TEXTURE_HINT_DEFAULT, RGBA_8888, gfx::ColorSpace()); ResourceId v_resource = u_resource; ResourceId a_resource = 0; std::vector y_pixels(ya_tex_size.GetArea(), y); resource_provider->CopyToResource(y_resource, y_pixels.data(), ya_tex_size); // U goes in the R component and V goes in the G component. uint32_t rgba_pixel = (u << 24) | (v << 16); std::vector uv_pixels(uv_tex_size.GetArea(), rgba_pixel); resource_provider->CopyToResource( u_resource, reinterpret_cast(uv_pixels.data()), uv_tex_size); gfx::RectF ya_tex_coord_rect(tex_coord_rect.x() * ya_tex_size.width(), tex_coord_rect.y() * ya_tex_size.height(), tex_coord_rect.width() * ya_tex_size.width(), tex_coord_rect.height() * ya_tex_size.height()); gfx::RectF uv_tex_coord_rect(tex_coord_rect.x() * uv_tex_size.width(), tex_coord_rect.y() * uv_tex_size.height(), tex_coord_rect.width() * uv_tex_size.width(), tex_coord_rect.height() * uv_tex_size.height()); YUVVideoDrawQuad* yuv_quad = render_pass->CreateAndAppendDrawQuad(); yuv_quad->SetNew(shared_state, rect, opaque_rect, visible_rect, ya_tex_coord_rect, uv_tex_coord_rect, ya_tex_size, uv_tex_size, y_resource, u_resource, v_resource, a_resource, color_space, video_color_space, 0.0f, 1.0f, 8); } void CreateTestY16TextureDrawQuad_TwoColor( const SharedQuadState* shared_state, const gfx::RectF& tex_coord_rect, uint8_t g_foreground, uint8_t g_background, RenderPass* render_pass, VideoResourceUpdater* video_resource_updater, const gfx::Rect& rect, const gfx::Rect& visible_rect, const gfx::Rect& foreground_rect, ResourceProvider* resource_provider) { std::unique_ptr memory( static_cast( base::AlignedAlloc(rect.size().GetArea() * 2, media::VideoFrame::kFrameAddressAlignment))); scoped_refptr video_frame = media::VideoFrame::WrapExternalData( media::PIXEL_FORMAT_Y16, rect.size(), visible_rect, visible_rect.size(), memory.get(), rect.size().GetArea() * 2, base::TimeDelta()); DCHECK_EQ(video_frame->rows(0) % 2, 0); DCHECK_EQ(video_frame->stride(0) % 2, 0); for (int j = 0; j < video_frame->rows(0); ++j) { uint8_t* row = video_frame->data(0) + j * video_frame->stride(0); if (j < foreground_rect.y() || j >= foreground_rect.bottom()) { for (int i = 0; i < video_frame->stride(0) / 2; ++i) { *row++ = i & 0xFF; // Fill R with anything. It is not rendered. *row++ = g_background; } } else { for (int i = 0; i < std::min(video_frame->stride(0) / 2, foreground_rect.x()); ++i) { *row++ = i & 0xFF; *row++ = g_background; } for (int i = foreground_rect.x(); i < std::min(video_frame->stride(0) / 2, foreground_rect.right()); ++i) { *row++ = i & 0xFF; *row++ = g_foreground; } for (int i = foreground_rect.right(); i < video_frame->stride(0) / 2; ++i) { *row++ = i & 0xFF; *row++ = g_background; } } } CreateTestY16TextureDrawQuad_FromVideoFrame( shared_state, video_frame, tex_coord_rect, render_pass, video_resource_updater, rect, visible_rect, resource_provider); } typedef ::testing::Types RendererTypes; TYPED_TEST_CASE(RendererPixelTest, RendererTypes); template class SoftwareRendererPixelTest : public RendererPixelTest {}; typedef ::testing::Types SoftwareRendererTypes; TYPED_TEST_CASE(SoftwareRendererPixelTest, SoftwareRendererTypes); template class FuzzyForSoftwareOnlyPixelComparator : public PixelComparator { public: explicit FuzzyForSoftwareOnlyPixelComparator(bool discard_alpha) : fuzzy_(discard_alpha), exact_(discard_alpha) {} bool Compare(const SkBitmap& actual_bmp, const SkBitmap& expected_bmp) const override; private: FuzzyPixelOffByOneComparator fuzzy_; ExactPixelComparator exact_; }; template<> bool FuzzyForSoftwareOnlyPixelComparator::Compare( const SkBitmap& actual_bmp, const SkBitmap& expected_bmp) const { return fuzzy_.Compare(actual_bmp, expected_bmp); } template <> bool FuzzyForSoftwareOnlyPixelComparator< SoftwareRendererWithExpandedViewport>::Compare( const SkBitmap& actual_bmp, const SkBitmap& expected_bmp) const { return fuzzy_.Compare(actual_bmp, expected_bmp); } template bool FuzzyForSoftwareOnlyPixelComparator::Compare( const SkBitmap& actual_bmp, const SkBitmap& expected_bmp) const { return exact_.Compare(actual_bmp, expected_bmp); } TYPED_TEST(RendererPixelTest, SimpleGreenRect) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); SolidColorDrawQuad* color_quad = pass->CreateAndAppendDrawQuad(); color_quad->SetNew(shared_state, rect, rect, SK_ColorGREEN, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("green.png")), ExactPixelComparator(true))); } TYPED_TEST(RendererPixelTest, SimpleGreenRect_NonRootRenderPass) { gfx::Rect rect(this->device_viewport_size_); gfx::Rect small_rect(100, 100); RenderPassId child_id(2, 1); std::unique_ptr child_pass = CreateTestRenderPass(child_id, small_rect, gfx::Transform()); SharedQuadState* child_shared_state = CreateTestSharedQuadState(gfx::Transform(), small_rect, child_pass.get()); SolidColorDrawQuad* color_quad = child_pass->CreateAndAppendDrawQuad(); color_quad->SetNew(child_shared_state, rect, rect, SK_ColorGREEN, false); RenderPassId root_id(1, 1); std::unique_ptr root_pass = CreateTestRenderPass(root_id, rect, gfx::Transform()); SharedQuadState* root_shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, root_pass.get()); CreateTestRenderPassDrawQuad( root_shared_state, small_rect, child_id, root_pass.get()); RenderPass* child_pass_ptr = child_pass.get(); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); EXPECT_TRUE(this->RunPixelTestWithReadbackTarget( &pass_list, child_pass_ptr, base::FilePath(FILE_PATH_LITERAL("green_small.png")), ExactPixelComparator(true))); } TYPED_TEST(RendererPixelTest, PremultipliedTextureWithoutBackground) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); CreateTestTextureDrawQuad(gfx::Rect(this->device_viewport_size_), SkColorSetARGB(128, 0, 255, 0), // Texel color. SK_ColorTRANSPARENT, // Background color. true, // Premultiplied alpha. shared_state, this->resource_provider_.get(), pass.get()); SolidColorDrawQuad* color_quad = pass->CreateAndAppendDrawQuad(); color_quad->SetNew(shared_state, rect, rect, SK_ColorWHITE, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("green_alpha.png")), FuzzyPixelOffByOneComparator(true))); } TYPED_TEST(RendererPixelTest, PremultipliedTextureWithBackground) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* texture_quad_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); texture_quad_state->opacity = 0.8f; CreateTestTextureDrawQuad(gfx::Rect(this->device_viewport_size_), SkColorSetARGB(204, 120, 255, 120), // Texel color. SK_ColorGREEN, // Background color. true, // Premultiplied alpha. texture_quad_state, this->resource_provider_.get(), pass.get()); SharedQuadState* color_quad_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); SolidColorDrawQuad* color_quad = pass->CreateAndAppendDrawQuad(); color_quad->SetNew(color_quad_state, rect, rect, SK_ColorWHITE, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("green_alpha.png")), FuzzyPixelOffByOneComparator(true))); } template class IntersectingQuadPixelTest : public RendererPixelTest { protected: void SetupQuadStateAndRenderPass() { // This sets up a pair of draw quads. They are both rotated // relative to the root plane, they are also rotated relative to each other. // The intersect in the middle at a non-perpendicular angle so that any // errors are hopefully magnified. // The quads should intersect correctly, as in the front quad should only // be partially in front of the back quad, and partially behind. viewport_rect_ = gfx::Rect(this->device_viewport_size_); quad_rect_ = gfx::Rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2.0); RenderPassId id(1, 1); render_pass_ = CreateTestRootRenderPass(id, viewport_rect_); // Create the front quad rotated on the Z and Y axis. gfx::Transform trans; trans.Translate3d(0, 0, 0.707 * this->device_viewport_size_.width() / 2.0); trans.RotateAboutZAxis(45.0); trans.RotateAboutYAxis(45.0); front_quad_state_ = CreateTestSharedQuadState(trans, viewport_rect_, render_pass_.get()); front_quad_state_->clip_rect = quad_rect_; // Make sure they end up in a 3d sorting context. front_quad_state_->sorting_context_id = 1; // Create the back quad, and rotate on just the y axis. This will intersect // the first quad partially. trans = gfx::Transform(); trans.Translate3d(0, 0, -0.707 * this->device_viewport_size_.width() / 2.0); trans.RotateAboutYAxis(-45.0); back_quad_state_ = CreateTestSharedQuadState(trans, viewport_rect_, render_pass_.get()); back_quad_state_->sorting_context_id = 1; back_quad_state_->clip_rect = quad_rect_; } void AppendBackgroundAndRunTest(const PixelComparator& comparator, const base::FilePath::CharType* ref_file) { SharedQuadState* background_quad_state = CreateTestSharedQuadState( gfx::Transform(), viewport_rect_, render_pass_.get()); SolidColorDrawQuad* background_quad = render_pass_->CreateAndAppendDrawQuad(); background_quad->SetNew(background_quad_state, viewport_rect_, viewport_rect_, SK_ColorWHITE, false); pass_list_.push_back(std::move(render_pass_)); EXPECT_TRUE( this->RunPixelTest(&pass_list_, base::FilePath(ref_file), comparator)); } template T* CreateAndAppendDrawQuad() { return render_pass_->CreateAndAppendDrawQuad(); } std::unique_ptr render_pass_; gfx::Rect viewport_rect_; SharedQuadState* front_quad_state_; SharedQuadState* back_quad_state_; gfx::Rect quad_rect_; RenderPassList pass_list_; }; template class IntersectingQuadGLPixelTest : public IntersectingQuadPixelTest { public: void SetUp() override { IntersectingQuadPixelTest::SetUp(); video_resource_updater_.reset( new VideoResourceUpdater(this->output_surface_->context_provider(), this->resource_provider_.get())); video_resource_updater2_.reset( new VideoResourceUpdater(this->output_surface_->context_provider(), this->resource_provider_.get())); } protected: std::unique_ptr video_resource_updater_; std::unique_ptr video_resource_updater2_; }; template class IntersectingQuadSoftwareTest : public IntersectingQuadPixelTest {}; typedef ::testing::Types SoftwareRendererTypes; typedef ::testing::Types GLRendererTypes; TYPED_TEST_CASE(IntersectingQuadPixelTest, RendererTypes); TYPED_TEST_CASE(IntersectingQuadGLPixelTest, GLRendererTypes); TYPED_TEST_CASE(IntersectingQuadSoftwareTest, SoftwareRendererTypes); TYPED_TEST(IntersectingQuadPixelTest, SolidColorQuads) { this->SetupQuadStateAndRenderPass(); SolidColorDrawQuad* quad = this->template CreateAndAppendDrawQuad(); SolidColorDrawQuad* quad2 = this->template CreateAndAppendDrawQuad(); quad->SetNew(this->front_quad_state_, this->quad_rect_, this->quad_rect_, SK_ColorBLUE, false); quad2->SetNew(this->back_quad_state_, this->quad_rect_, this->quad_rect_, SK_ColorGREEN, false); SCOPED_TRACE("IntersectingSolidColorQuads"); this->AppendBackgroundAndRunTest( FuzzyPixelComparator(false, 2.f, 0.f, 256.f, 256, 0.f), FILE_PATH_LITERAL("intersecting_blue_green.png")); } template SkColor GetColor(const SkColor& color) { return color; } template <> SkColor GetColor(const SkColor& color) { return SkColorSetARGB(SkColorGetA(color), SkColorGetB(color), SkColorGetG(color), SkColorGetR(color)); } template <> SkColor GetColor(const SkColor& color) { return GetColor(color); } TYPED_TEST(IntersectingQuadPixelTest, TexturedQuads) { this->SetupQuadStateAndRenderPass(); CreateTestTwoColoredTextureDrawQuad( this->quad_rect_, GetColor(SkColorSetARGB(255, 0, 0, 0)), GetColor(SkColorSetARGB(255, 0, 0, 255)), SK_ColorTRANSPARENT, true, this->front_quad_state_, this->resource_provider_.get(), this->render_pass_.get()); CreateTestTwoColoredTextureDrawQuad( this->quad_rect_, GetColor(SkColorSetARGB(255, 0, 255, 0)), GetColor(SkColorSetARGB(255, 0, 0, 0)), SK_ColorTRANSPARENT, true, this->back_quad_state_, this->resource_provider_.get(), this->render_pass_.get()); SCOPED_TRACE("IntersectingTexturedQuads"); this->AppendBackgroundAndRunTest( FuzzyPixelComparator(false, 2.f, 0.f, 256.f, 256, 0.f), FILE_PATH_LITERAL("intersecting_blue_green_squares.png")); } TYPED_TEST(IntersectingQuadSoftwareTest, PictureQuads) { this->SetupQuadStateAndRenderPass(); gfx::Rect outer_rect(this->quad_rect_); gfx::Rect inner_rect(this->quad_rect_.x() + (this->quad_rect_.width() / 4), this->quad_rect_.y() + (this->quad_rect_.height() / 4), this->quad_rect_.width() / 2, this->quad_rect_.height() / 2); SkPaint black_paint; black_paint.setColor(SK_ColorBLACK); SkPaint blue_paint; blue_paint.setColor(SK_ColorBLUE); SkPaint green_paint; green_paint.setColor(SK_ColorGREEN); std::unique_ptr blue_recording = FakeRecordingSource::CreateFilledRecordingSource(this->quad_rect_.size()); blue_recording->add_draw_rect_with_paint(outer_rect, black_paint); blue_recording->add_draw_rect_with_paint(inner_rect, blue_paint); blue_recording->Rerecord(); scoped_refptr blue_raster_source = FakeRasterSource::CreateFromRecordingSource(blue_recording.get(), false); PictureDrawQuad* blue_quad = this->render_pass_->template CreateAndAppendDrawQuad(); blue_quad->SetNew(this->front_quad_state_, this->quad_rect_, gfx::Rect(), this->quad_rect_, gfx::RectF(this->quad_rect_), this->quad_rect_.size(), false, RGBA_8888, this->quad_rect_, 1.f, blue_raster_source); std::unique_ptr green_recording = FakeRecordingSource::CreateFilledRecordingSource(this->quad_rect_.size()); green_recording->add_draw_rect_with_paint(outer_rect, green_paint); green_recording->add_draw_rect_with_paint(inner_rect, black_paint); green_recording->Rerecord(); scoped_refptr green_raster_source = FakeRasterSource::CreateFromRecordingSource(green_recording.get(), false); PictureDrawQuad* green_quad = this->render_pass_->template CreateAndAppendDrawQuad(); green_quad->SetNew(this->back_quad_state_, this->quad_rect_, gfx::Rect(), this->quad_rect_, gfx::RectF(this->quad_rect_), this->quad_rect_.size(), false, RGBA_8888, this->quad_rect_, 1.f, green_raster_source); SCOPED_TRACE("IntersectingPictureQuadsPass"); this->AppendBackgroundAndRunTest( FuzzyPixelComparator(false, 2.f, 0.f, 256.f, 256, 0.f), FILE_PATH_LITERAL("intersecting_blue_green_squares.png")); } TYPED_TEST(IntersectingQuadPixelTest, RenderPassQuads) { this->SetupQuadStateAndRenderPass(); RenderPassId child_pass_id1(2, 2); RenderPassId child_pass_id2(2, 3); std::unique_ptr child_pass1 = CreateTestRenderPass(child_pass_id1, this->quad_rect_, gfx::Transform()); SharedQuadState* child1_quad_state = CreateTestSharedQuadState( gfx::Transform(), this->quad_rect_, child_pass1.get()); std::unique_ptr child_pass2 = CreateTestRenderPass(child_pass_id2, this->quad_rect_, gfx::Transform()); SharedQuadState* child2_quad_state = CreateTestSharedQuadState( gfx::Transform(), this->quad_rect_, child_pass2.get()); CreateTestTwoColoredTextureDrawQuad( this->quad_rect_, GetColor(SkColorSetARGB(255, 0, 0, 0)), GetColor(SkColorSetARGB(255, 0, 0, 255)), SK_ColorTRANSPARENT, true, child1_quad_state, this->resource_provider_.get(), child_pass1.get()); CreateTestTwoColoredTextureDrawQuad( this->quad_rect_, GetColor(SkColorSetARGB(255, 0, 255, 0)), GetColor(SkColorSetARGB(255, 0, 0, 0)), SK_ColorTRANSPARENT, true, child2_quad_state, this->resource_provider_.get(), child_pass2.get()); CreateTestRenderPassDrawQuad(this->front_quad_state_, this->quad_rect_, child_pass_id1, this->render_pass_.get()); CreateTestRenderPassDrawQuad(this->back_quad_state_, this->quad_rect_, child_pass_id2, this->render_pass_.get()); this->pass_list_.push_back(std::move(child_pass1)); this->pass_list_.push_back(std::move(child_pass2)); SCOPED_TRACE("IntersectingRenderQuadsPass"); this->AppendBackgroundAndRunTest( FuzzyPixelComparator(false, 2.f, 0.f, 256.f, 256, 0.f), FILE_PATH_LITERAL("intersecting_blue_green_squares.png")); } TYPED_TEST(IntersectingQuadGLPixelTest, YUVVideoQuads) { this->SetupQuadStateAndRenderPass(); gfx::Rect inner_rect( ((this->quad_rect_.x() + (this->quad_rect_.width() / 4)) & ~0xF), ((this->quad_rect_.y() + (this->quad_rect_.height() / 4)) & ~0xF), (this->quad_rect_.width() / 2) & ~0xF, (this->quad_rect_.height() / 2) & ~0xF); CreateTestYUVVideoDrawQuad_TwoColor( this->front_quad_state_, media::PIXEL_FORMAT_YV12, media::COLOR_SPACE_JPEG, false, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), this->quad_rect_.size(), this->quad_rect_, 0, 128, 128, inner_rect, 29, 255, 107, this->render_pass_.get(), this->video_resource_updater_.get(), this->resource_provider_.get()); CreateTestYUVVideoDrawQuad_TwoColor( this->back_quad_state_, media::PIXEL_FORMAT_YV12, media::COLOR_SPACE_JPEG, false, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), this->quad_rect_.size(), this->quad_rect_, 149, 43, 21, inner_rect, 0, 128, 128, this->render_pass_.get(), this->video_resource_updater2_.get(), this->resource_provider_.get()); SCOPED_TRACE("IntersectingVideoQuads"); this->AppendBackgroundAndRunTest( FuzzyPixelOffByOneComparator(false), FILE_PATH_LITERAL("intersecting_blue_green_squares_video.png")); } TYPED_TEST(IntersectingQuadGLPixelTest, Y16VideoQuads) { this->SetupQuadStateAndRenderPass(); gfx::Rect inner_rect( ((this->quad_rect_.x() + (this->quad_rect_.width() / 4)) & ~0xF), ((this->quad_rect_.y() + (this->quad_rect_.height() / 4)) & ~0xF), (this->quad_rect_.width() / 2) & ~0xF, (this->quad_rect_.height() / 2) & ~0xF); CreateTestY16TextureDrawQuad_TwoColor( this->front_quad_state_, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), 18, 0, this->render_pass_.get(), this->video_resource_updater_.get(), this->quad_rect_, this->quad_rect_, inner_rect, this->resource_provider_.get()); CreateTestY16TextureDrawQuad_TwoColor( this->back_quad_state_, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), 0, 182, this->render_pass_.get(), this->video_resource_updater2_.get(), this->quad_rect_, this->quad_rect_, inner_rect, this->resource_provider_.get()); SCOPED_TRACE("IntersectingVideoQuads"); this->AppendBackgroundAndRunTest( FuzzyPixelOffByOneComparator(false), FILE_PATH_LITERAL("intersecting_light_dark_squares_video.png")); } // TODO(skaslev): The software renderer does not support non-premultplied alpha. TEST_F(GLRendererPixelTest, NonPremultipliedTextureWithoutBackground) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); CreateTestTextureDrawQuad(gfx::Rect(this->device_viewport_size_), SkColorSetARGB(128, 0, 255, 0), // Texel color. SK_ColorTRANSPARENT, // Background color. false, // Premultiplied alpha. shared_state, this->resource_provider_.get(), pass.get()); SolidColorDrawQuad* color_quad = pass->CreateAndAppendDrawQuad(); color_quad->SetNew(shared_state, rect, rect, SK_ColorWHITE, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("green_alpha.png")), FuzzyPixelOffByOneComparator(true))); } // TODO(skaslev): The software renderer does not support non-premultplied alpha. TEST_F(GLRendererPixelTest, NonPremultipliedTextureWithBackground) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* texture_quad_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); texture_quad_state->opacity = 0.8f; CreateTestTextureDrawQuad(gfx::Rect(this->device_viewport_size_), SkColorSetARGB(204, 120, 255, 120), // Texel color. SK_ColorGREEN, // Background color. false, // Premultiplied alpha. texture_quad_state, this->resource_provider_.get(), pass.get()); SharedQuadState* color_quad_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); SolidColorDrawQuad* color_quad = pass->CreateAndAppendDrawQuad(); color_quad->SetNew(color_quad_state, rect, rect, SK_ColorWHITE, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("green_alpha.png")), FuzzyPixelOffByOneComparator(true))); } class VideoGLRendererPixelTest : public GLRendererPixelTest { protected: void CreateEdgeBleedPass(media::VideoPixelFormat format, media::ColorSpace color_space, RenderPassList* pass_list) { gfx::Rect rect(200, 200); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); // Scale the video up so that bilinear filtering kicks in to sample more // than just nearest neighbor would. gfx::Transform scale_by_2; scale_by_2.Scale(2.f, 2.f); gfx::Rect half_rect(100, 100); SharedQuadState* shared_state = CreateTestSharedQuadState(scale_by_2, half_rect, pass.get()); gfx::Size background_size(200, 200); gfx::Rect green_rect(16, 20, 100, 100); gfx::RectF tex_coord_rect( static_cast(green_rect.x()) / background_size.width(), static_cast(green_rect.y()) / background_size.height(), static_cast(green_rect.width()) / background_size.width(), static_cast(green_rect.height()) / background_size.height()); // YUV of (149,43,21) should be green (0,255,0) in RGB. // Create a video frame that has a non-green background rect, with a // green sub-rectangle that should be the only thing displayed in // the final image. Bleeding will appear on all four sides of the video // if the tex coords are not clamped. CreateTestYUVVideoDrawQuad_TwoColor( shared_state, format, color_space, false, tex_coord_rect, background_size, gfx::Rect(background_size), 128, 128, 128, green_rect, 149, 43, 21, pass.get(), video_resource_updater_.get(), resource_provider_.get()); pass_list->push_back(std::move(pass)); } void SetUp() override { GLRendererPixelTest::SetUp(); video_resource_updater_.reset(new VideoResourceUpdater( output_surface_->context_provider(), resource_provider_.get())); } std::unique_ptr video_resource_updater_; }; class VideoGLRendererPixelHiLoTest : public VideoGLRendererPixelTest, public ::testing::WithParamInterface {}; TEST_P(VideoGLRendererPixelHiLoTest, SimpleYUVRect) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); bool highbit = GetParam(); CreateTestYUVVideoDrawQuad_Striped( shared_state, media::PIXEL_FORMAT_YV12, false, highbit, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), pass.get(), video_resource_updater_.get(), rect, rect, resource_provider_.get()); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE( this->RunPixelTest(&pass_list, base::FilePath(FILE_PATH_LITERAL("yuv_stripes.png")), FuzzyPixelOffByOneComparator(true))); } TEST_P(VideoGLRendererPixelHiLoTest, ClippedYUVRect) { gfx::Rect viewport(this->device_viewport_size_); gfx::Rect draw_rect(this->device_viewport_size_.width() * 1.5, this->device_viewport_size_.height() * 1.5); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, viewport); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), viewport, pass.get()); bool highbit = GetParam(); CreateTestYUVVideoDrawQuad_Striped( shared_state, media::PIXEL_FORMAT_YV12, false, highbit, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), pass.get(), video_resource_updater_.get(), draw_rect, viewport, resource_provider_.get()); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("yuv_stripes_clipped.png")), FuzzyPixelOffByOneComparator(true))); } TEST_F(VideoGLRendererPixelHiLoTest, OffsetYUVRect) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); // Intentionally sets frame format to I420 for testing coverage. CreateTestYUVVideoDrawQuad_Striped( shared_state, media::PIXEL_FORMAT_I420, false, false, gfx::RectF(0.125f, 0.25f, 0.75f, 0.5f), pass.get(), video_resource_updater_.get(), rect, rect, resource_provider_.get()); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("yuv_stripes_offset.png")), FuzzyPixelComparator(true, 100.0f, 1.0f, 1.0f, 1, 0))); } TEST_F(VideoGLRendererPixelTest, SimpleYUVRectBlack) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); // In MPEG color range YUV values of (15,128,128) should produce black. CreateTestYUVVideoDrawQuad_Solid( shared_state, media::PIXEL_FORMAT_YV12, media::COLOR_SPACE_UNSPECIFIED, false, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), 15, 128, 128, pass.get(), video_resource_updater_.get(), rect, rect, resource_provider_.get()); RenderPassList pass_list; pass_list.push_back(std::move(pass)); // If we didn't get black out of the YUV values above, then we probably have a // color range issue. EXPECT_TRUE(this->RunPixelTest(&pass_list, base::FilePath(FILE_PATH_LITERAL("black.png")), FuzzyPixelOffByOneComparator(true))); } // First argument (test case prefix) is intentionally left empty. INSTANTIATE_TEST_CASE_P(, VideoGLRendererPixelHiLoTest, ::testing::Bool()); TEST_F(VideoGLRendererPixelTest, SimpleYUVJRect) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); // YUV of (149,43,21) should be green (0,255,0) in RGB. CreateTestYUVVideoDrawQuad_Solid( shared_state, media::PIXEL_FORMAT_YV12, media::COLOR_SPACE_JPEG, false, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), 149, 43, 21, pass.get(), video_resource_updater_.get(), rect, rect, resource_provider_.get()); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest(&pass_list, base::FilePath(FILE_PATH_LITERAL("green.png")), FuzzyPixelOffByOneComparator(true))); } TEST_F(VideoGLRendererPixelTest, SimpleNV12JRect) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); // YUV of (149,43,21) should be green (0,255,0) in RGB. CreateTestYUVVideoDrawQuad_NV12( shared_state, media::COLOR_SPACE_JPEG, gfx::ColorSpace::CreateJpeg(), gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), 149, 43, 21, pass.get(), rect, rect, resource_provider_.get()); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest(&pass_list, base::FilePath(FILE_PATH_LITERAL("green.png")), FuzzyPixelOffByOneComparator(true))); } // Test that a YUV video doesn't bleed outside of its tex coords when the // tex coord rect is only a partial subrectangle of the coded contents. TEST_F(VideoGLRendererPixelTest, YUVEdgeBleed) { RenderPassList pass_list; CreateEdgeBleedPass(media::PIXEL_FORMAT_YV12, media::COLOR_SPACE_JPEG, &pass_list); EXPECT_TRUE(this->RunPixelTest(&pass_list, base::FilePath(FILE_PATH_LITERAL("green.png")), FuzzyPixelOffByOneComparator(true))); } TEST_F(VideoGLRendererPixelTest, YUVAEdgeBleed) { RenderPassList pass_list; CreateEdgeBleedPass(media::PIXEL_FORMAT_YV12A, media::COLOR_SPACE_UNSPECIFIED, &pass_list); EXPECT_TRUE(this->RunPixelTest(&pass_list, base::FilePath(FILE_PATH_LITERAL("green.png")), FuzzyPixelOffByOneComparator(true))); } TEST_F(VideoGLRendererPixelTest, SimpleYUVJRectGrey) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); // Dark grey in JPEG color range (in MPEG, this is black). CreateTestYUVVideoDrawQuad_Solid( shared_state, media::PIXEL_FORMAT_YV12, media::COLOR_SPACE_JPEG, false, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), 15, 128, 128, pass.get(), video_resource_updater_.get(), rect, rect, resource_provider_.get()); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE( this->RunPixelTest(&pass_list, base::FilePath(FILE_PATH_LITERAL("dark_grey.png")), FuzzyPixelOffByOneComparator(true))); } TEST_F(VideoGLRendererPixelHiLoTest, SimpleYUVARect) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); CreateTestYUVVideoDrawQuad_Striped( shared_state, media::PIXEL_FORMAT_YV12A, false, false, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), pass.get(), video_resource_updater_.get(), rect, rect, resource_provider_.get()); SolidColorDrawQuad* color_quad = pass->CreateAndAppendDrawQuad(); color_quad->SetNew(shared_state, rect, rect, SK_ColorWHITE, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("yuv_stripes_alpha.png")), FuzzyPixelOffByOneComparator(true))); } TEST_F(VideoGLRendererPixelTest, FullyTransparentYUVARect) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); CreateTestYUVVideoDrawQuad_Striped( shared_state, media::PIXEL_FORMAT_YV12A, true, false, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), pass.get(), video_resource_updater_.get(), rect, rect, resource_provider_.get()); SolidColorDrawQuad* color_quad = pass->CreateAndAppendDrawQuad(); color_quad->SetNew(shared_state, rect, rect, SK_ColorBLACK, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("black.png")), ExactPixelComparator(true))); } TEST_F(VideoGLRendererPixelTest, TwoColorY16Rect) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); gfx::Rect upper_rect(rect.x(), rect.y(), rect.width(), rect.height() / 2); CreateTestY16TextureDrawQuad_TwoColor( shared_state, gfx::RectF(0.0f, 0.0f, 1.0f, 1.0f), 68, 123, pass.get(), video_resource_updater_.get(), rect, rect, upper_rect, resource_provider_.get()); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("blue_yellow_filter_chain.png")), FuzzyPixelOffByOneComparator(true))); } TYPED_TEST(RendererPixelTest, FastPassColorFilterAlpha) { gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); shared_state->opacity = 0.5f; gfx::Rect blue_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); gfx::Rect yellow_rect(0, this->device_viewport_size_.height() / 2, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* yellow = child_pass->CreateAndAppendDrawQuad(); yellow->SetNew(shared_state, yellow_rect, yellow_rect, SK_ColorYELLOW, false); SharedQuadState* blank_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); SolidColorDrawQuad* white = child_pass->CreateAndAppendDrawQuad(); white->SetNew( blank_state, viewport_rect, viewport_rect, SK_ColorWHITE, false); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(gfx::Transform(), pass_rect, root_pass.get()); SkScalar matrix[20]; float amount = 0.5f; matrix[0] = 0.213f + 0.787f * amount; matrix[1] = 0.715f - 0.715f * amount; matrix[2] = 1.f - (matrix[0] + matrix[1]); matrix[3] = matrix[4] = 0; matrix[5] = 0.213f - 0.213f * amount; matrix[6] = 0.715f + 0.285f * amount; matrix[7] = 1.f - (matrix[5] + matrix[6]); matrix[8] = matrix[9] = 0; matrix[10] = 0.213f - 0.213f * amount; matrix[11] = 0.715f - 0.715f * amount; matrix[12] = 1.f - (matrix[10] + matrix[11]); matrix[13] = matrix[14] = 0; matrix[15] = matrix[16] = matrix[17] = matrix[19] = 0; matrix[18] = 1; FilterOperations filters; filters.Append( FilterOperation::CreateReferenceFilter(SkColorFilterImageFilter::Make( SkColorFilter::MakeMatrixFilterRowMajor255(matrix), nullptr))); RenderPassDrawQuad* render_pass_quad = root_pass->CreateAndAppendDrawQuad(); render_pass_quad->SetNew(pass_shared_state, pass_rect, pass_rect, child_pass_id, 0, gfx::Vector2dF(), gfx::Size(), filters, gfx::Vector2dF(), gfx::PointF(), FilterOperations()); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); // This test has alpha=254 for the software renderer vs. alpha=255 for the gl // renderer so use a fuzzy comparator. EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("blue_yellow_alpha.png")), FuzzyForSoftwareOnlyPixelComparator(false))); } TYPED_TEST(RendererPixelTest, FastPassSaturateFilter) { gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); shared_state->opacity = 0.5f; gfx::Rect blue_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); gfx::Rect yellow_rect(0, this->device_viewport_size_.height() / 2, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* yellow = child_pass->CreateAndAppendDrawQuad(); yellow->SetNew(shared_state, yellow_rect, yellow_rect, SK_ColorYELLOW, false); SharedQuadState* blank_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); SolidColorDrawQuad* white = child_pass->CreateAndAppendDrawQuad(); white->SetNew( blank_state, viewport_rect, viewport_rect, SK_ColorWHITE, false); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(gfx::Transform(), pass_rect, root_pass.get()); FilterOperations filters; filters.Append(FilterOperation::CreateSaturateFilter(0.5f)); RenderPassDrawQuad* render_pass_quad = root_pass->CreateAndAppendDrawQuad(); render_pass_quad->SetNew(pass_shared_state, pass_rect, pass_rect, child_pass_id, 0, gfx::Vector2dF(), gfx::Size(), filters, gfx::Vector2dF(), gfx::PointF(), FilterOperations()); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); // This test blends slightly differently with the software renderer vs. the gl // renderer so use a fuzzy comparator. EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("blue_yellow_alpha.png")), FuzzyForSoftwareOnlyPixelComparator(false))); } TYPED_TEST(RendererPixelTest, FastPassFilterChain) { gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); shared_state->opacity = 0.5f; gfx::Rect blue_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); gfx::Rect yellow_rect(0, this->device_viewport_size_.height() / 2, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* yellow = child_pass->CreateAndAppendDrawQuad(); yellow->SetNew(shared_state, yellow_rect, yellow_rect, SK_ColorYELLOW, false); SharedQuadState* blank_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); SolidColorDrawQuad* white = child_pass->CreateAndAppendDrawQuad(); white->SetNew( blank_state, viewport_rect, viewport_rect, SK_ColorWHITE, false); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(gfx::Transform(), pass_rect, root_pass.get()); FilterOperations filters; filters.Append(FilterOperation::CreateGrayscaleFilter(1.f)); filters.Append(FilterOperation::CreateBrightnessFilter(0.5f)); RenderPassDrawQuad* render_pass_quad = root_pass->CreateAndAppendDrawQuad(); render_pass_quad->SetNew(pass_shared_state, pass_rect, pass_rect, child_pass_id, 0, gfx::Vector2dF(), gfx::Size(), filters, gfx::Vector2dF(), gfx::PointF(), FilterOperations()); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); // This test blends slightly differently with the software renderer vs. the gl // renderer so use a fuzzy comparator. EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("blue_yellow_filter_chain.png")), FuzzyForSoftwareOnlyPixelComparator(false))); } TYPED_TEST(RendererPixelTest, FastPassColorFilterAlphaTranslation) { gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); shared_state->opacity = 0.5f; gfx::Rect blue_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); gfx::Rect yellow_rect(0, this->device_viewport_size_.height() / 2, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* yellow = child_pass->CreateAndAppendDrawQuad(); yellow->SetNew(shared_state, yellow_rect, yellow_rect, SK_ColorYELLOW, false); SharedQuadState* blank_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); SolidColorDrawQuad* white = child_pass->CreateAndAppendDrawQuad(); white->SetNew( blank_state, viewport_rect, viewport_rect, SK_ColorWHITE, false); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(gfx::Transform(), pass_rect, root_pass.get()); SkScalar matrix[20]; float amount = 0.5f; matrix[0] = 0.213f + 0.787f * amount; matrix[1] = 0.715f - 0.715f * amount; matrix[2] = 1.f - (matrix[0] + matrix[1]); matrix[3] = 0; matrix[4] = 20.f; matrix[5] = 0.213f - 0.213f * amount; matrix[6] = 0.715f + 0.285f * amount; matrix[7] = 1.f - (matrix[5] + matrix[6]); matrix[8] = 0; matrix[9] = 200.f; matrix[10] = 0.213f - 0.213f * amount; matrix[11] = 0.715f - 0.715f * amount; matrix[12] = 1.f - (matrix[10] + matrix[11]); matrix[13] = 0; matrix[14] = 1.5f; matrix[15] = matrix[16] = matrix[17] = matrix[19] = 0; matrix[18] = 1; FilterOperations filters; filters.Append( FilterOperation::CreateReferenceFilter(SkColorFilterImageFilter::Make( SkColorFilter::MakeMatrixFilterRowMajor255(matrix), nullptr))); RenderPassDrawQuad* render_pass_quad = root_pass->CreateAndAppendDrawQuad(); render_pass_quad->SetNew(pass_shared_state, pass_rect, pass_rect, child_pass_id, 0, gfx::Vector2dF(), gfx::Size(), filters, gfx::Vector2dF(), gfx::PointF(), FilterOperations()); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); // This test has alpha=254 for the software renderer vs. alpha=255 for the gl // renderer so use a fuzzy comparator. EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("blue_yellow_alpha_translate.png")), FuzzyForSoftwareOnlyPixelComparator(false))); } TYPED_TEST(RendererPixelTest, EnlargedRenderPassTexture) { gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); gfx::Rect blue_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); gfx::Rect yellow_rect(0, this->device_viewport_size_.height() / 2, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* yellow = child_pass->CreateAndAppendDrawQuad(); yellow->SetNew(shared_state, yellow_rect, yellow_rect, SK_ColorYELLOW, false); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(gfx::Transform(), pass_rect, root_pass.get()); CreateTestRenderPassDrawQuad( pass_shared_state, pass_rect, child_pass_id, root_pass.get()); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); this->renderer_->SetEnlargePassTextureAmountForTesting(gfx::Size(50, 75)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("blue_yellow.png")), ExactPixelComparator(true))); } TYPED_TEST(RendererPixelTest, EnlargedRenderPassTextureWithAntiAliasing) { gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); gfx::Rect blue_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); gfx::Rect yellow_rect(0, this->device_viewport_size_.height() / 2, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* yellow = child_pass->CreateAndAppendDrawQuad(); yellow->SetNew(shared_state, yellow_rect, yellow_rect, SK_ColorYELLOW, false); gfx::Transform aa_transform; aa_transform.Translate(0.5, 0.0); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(aa_transform, pass_rect, root_pass.get()); CreateTestRenderPassDrawQuad( pass_shared_state, pass_rect, child_pass_id, root_pass.get()); SharedQuadState* root_shared_state = CreateTestSharedQuadState( gfx::Transform(), viewport_rect, root_pass.get()); SolidColorDrawQuad* background = root_pass->CreateAndAppendDrawQuad(); background->SetNew(root_shared_state, gfx::Rect(this->device_viewport_size_), gfx::Rect(this->device_viewport_size_), SK_ColorWHITE, false); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); this->renderer_->SetEnlargePassTextureAmountForTesting(gfx::Size(50, 75)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("blue_yellow_anti_aliasing.png")), FuzzyPixelOffByOneComparator(true))); } // This tests the case where we have a RenderPass with a mask, but the quad // for the masked surface does not include the full surface texture. TYPED_TEST(RendererPixelTest, RenderPassAndMaskWithPartialQuad) { gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); SharedQuadState* root_pass_shared_state = CreateTestSharedQuadState( gfx::Transform(), viewport_rect, root_pass.get()); RenderPassId child_pass_id(2, 2); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, viewport_rect, transform_to_root); SharedQuadState* child_pass_shared_state = CreateTestSharedQuadState( gfx::Transform(), viewport_rect, child_pass.get()); // The child render pass is just a green box. static const SkColor kCSSGreen = 0xff008000; SolidColorDrawQuad* green = child_pass->CreateAndAppendDrawQuad(); green->SetNew( child_pass_shared_state, viewport_rect, viewport_rect, kCSSGreen, false); // Make a mask. gfx::Rect mask_rect = viewport_rect; SkBitmap bitmap; bitmap.allocPixels( SkImageInfo::MakeN32Premul(mask_rect.width(), mask_rect.height())); SkCanvas canvas(bitmap); SkPaint paint; paint.setStyle(SkPaint::kStroke_Style); paint.setStrokeWidth(SkIntToScalar(4)); paint.setColor(SK_ColorWHITE); canvas.clear(SK_ColorTRANSPARENT); gfx::Rect rect = mask_rect; while (!rect.IsEmpty()) { rect.Inset(6, 6, 4, 4); canvas.drawRect( SkRect::MakeXYWH(rect.x(), rect.y(), rect.width(), rect.height()), paint); rect.Inset(6, 6, 4, 4); } ResourceId mask_resource_id = this->resource_provider_->CreateResource( mask_rect.size(), ResourceProvider::TEXTURE_HINT_IMMUTABLE, RGBA_8888, gfx::ColorSpace()); { SkAutoLockPixels lock(bitmap); this->resource_provider_->CopyToResource( mask_resource_id, reinterpret_cast(bitmap.getPixels()), mask_rect.size()); } // This RenderPassDrawQuad does not include the full |viewport_rect| which is // the size of the child render pass. gfx::Rect sub_rect = gfx::Rect(50, 50, 200, 100); EXPECT_NE(sub_rect.x(), child_pass->output_rect.x()); EXPECT_NE(sub_rect.y(), child_pass->output_rect.y()); EXPECT_NE(sub_rect.right(), child_pass->output_rect.right()); EXPECT_NE(sub_rect.bottom(), child_pass->output_rect.bottom()); // Set up a mask on the RenderPassDrawQuad. RenderPassDrawQuad* mask_quad = root_pass->CreateAndAppendDrawQuad(); mask_quad->SetNew(root_pass_shared_state, sub_rect, sub_rect, child_pass_id, mask_resource_id, gfx::Vector2dF(2.f / mask_rect.width(), 2.f / mask_rect.height()), // mask_uv_scale gfx::Size(mask_rect.size()), // mask_texture_size FilterOperations(), // foreground filters gfx::Vector2dF(), // filters scale gfx::PointF(), // filter origin FilterOperations()); // background filters // White background behind the masked render pass. SolidColorDrawQuad* white = root_pass->CreateAndAppendDrawQuad(); white->SetNew(root_pass_shared_state, viewport_rect, viewport_rect, SK_ColorWHITE, false); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("mask_bottom_right.png")), ExactPixelComparator(true))); } // This tests the case where we have a RenderPass with a mask, but the quad // for the masked surface does not include the full surface texture. TYPED_TEST(RendererPixelTest, RenderPassAndMaskWithPartialQuad2) { gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); SharedQuadState* root_pass_shared_state = CreateTestSharedQuadState( gfx::Transform(), viewport_rect, root_pass.get()); RenderPassId child_pass_id(2, 2); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, viewport_rect, transform_to_root); SharedQuadState* child_pass_shared_state = CreateTestSharedQuadState( gfx::Transform(), viewport_rect, child_pass.get()); // The child render pass is just a green box. static const SkColor kCSSGreen = 0xff008000; SolidColorDrawQuad* green = child_pass->CreateAndAppendDrawQuad(); green->SetNew(child_pass_shared_state, viewport_rect, viewport_rect, kCSSGreen, false); // Make a mask. gfx::Rect mask_rect = viewport_rect; SkBitmap bitmap; bitmap.allocPixels( SkImageInfo::MakeN32Premul(mask_rect.width(), mask_rect.height())); SkCanvas canvas(bitmap); SkPaint paint; paint.setStyle(SkPaint::kStroke_Style); paint.setStrokeWidth(SkIntToScalar(4)); paint.setColor(SK_ColorWHITE); canvas.clear(SK_ColorTRANSPARENT); gfx::Rect rect = mask_rect; while (!rect.IsEmpty()) { rect.Inset(6, 6, 4, 4); canvas.drawRect( SkRect::MakeXYWH(rect.x(), rect.y(), rect.width(), rect.height()), paint); rect.Inset(6, 6, 4, 4); } ResourceId mask_resource_id = this->resource_provider_->CreateResource( mask_rect.size(), ResourceProvider::TEXTURE_HINT_IMMUTABLE, RGBA_8888, gfx::ColorSpace()); { SkAutoLockPixels lock(bitmap); this->resource_provider_->CopyToResource( mask_resource_id, reinterpret_cast(bitmap.getPixels()), mask_rect.size()); } // This RenderPassDrawQuad does not include the full |viewport_rect| which is // the size of the child render pass. gfx::Rect sub_rect = gfx::Rect(50, 20, 200, 60); EXPECT_NE(sub_rect.x(), child_pass->output_rect.x()); EXPECT_NE(sub_rect.y(), child_pass->output_rect.y()); EXPECT_NE(sub_rect.right(), child_pass->output_rect.right()); EXPECT_NE(sub_rect.bottom(), child_pass->output_rect.bottom()); // Set up a mask on the RenderPassDrawQuad. RenderPassDrawQuad* mask_quad = root_pass->CreateAndAppendDrawQuad(); mask_quad->SetNew(root_pass_shared_state, sub_rect, sub_rect, child_pass_id, mask_resource_id, gfx::Vector2dF(2.f / mask_rect.width(), 2.f / mask_rect.height()), // mask_uv_scale gfx::Size(mask_rect.size()), // mask_texture_size FilterOperations(), // foreground filters gfx::Vector2dF(), // filters scale gfx::PointF(), // filter origin FilterOperations()); // background filters // White background behind the masked render pass. SolidColorDrawQuad* white = root_pass->CreateAndAppendDrawQuad(); white->SetNew(root_pass_shared_state, viewport_rect, viewport_rect, SK_ColorWHITE, false); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("mask_middle.png")), ExactPixelComparator(true))); } template class RendererPixelTestWithBackgroundFilter : public RendererPixelTest { protected: void SetUpRenderPassList() { gfx::Rect device_viewport_rect(this->device_viewport_size_); RenderPassId root_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_id, device_viewport_rect); root_pass->has_transparent_background = false; gfx::Transform identity_quad_to_target_transform; RenderPassId filter_pass_id(2, 1); gfx::Transform transform_to_root; std::unique_ptr filter_pass = CreateTestRenderPass( filter_pass_id, filter_pass_layer_rect_, transform_to_root); // A non-visible quad in the filtering render pass. { SharedQuadState* shared_state = CreateTestSharedQuadState(identity_quad_to_target_transform, filter_pass_layer_rect_, filter_pass.get()); SolidColorDrawQuad* color_quad = filter_pass->CreateAndAppendDrawQuad(); color_quad->SetNew(shared_state, filter_pass_layer_rect_, filter_pass_layer_rect_, SK_ColorTRANSPARENT, false); } { SharedQuadState* shared_state = CreateTestSharedQuadState(filter_pass_to_target_transform_, filter_pass_layer_rect_, filter_pass.get()); RenderPassDrawQuad* filter_pass_quad = root_pass->CreateAndAppendDrawQuad(); filter_pass_quad->SetNew(shared_state, filter_pass_layer_rect_, filter_pass_layer_rect_, filter_pass_id, 0, // mask_resource_id gfx::Vector2dF(), // mask_uv_scale gfx::Size(), // mask_texture_size FilterOperations(), // filters gfx::Vector2dF(1.0f, 1.0f), // filters_scale gfx::PointF(), // filters_origin this->background_filters_); } const int kColumnWidth = device_viewport_rect.width() / 3; gfx::Rect left_rect = gfx::Rect(0, 0, kColumnWidth, 20); for (int i = 0; left_rect.y() < device_viewport_rect.height(); ++i) { SharedQuadState* shared_state = CreateTestSharedQuadState( identity_quad_to_target_transform, left_rect, root_pass.get()); SolidColorDrawQuad* color_quad = root_pass->CreateAndAppendDrawQuad(); color_quad->SetNew( shared_state, left_rect, left_rect, SK_ColorGREEN, false); left_rect += gfx::Vector2d(0, left_rect.height() + 1); } gfx::Rect middle_rect = gfx::Rect(kColumnWidth+1, 0, kColumnWidth, 20); for (int i = 0; middle_rect.y() < device_viewport_rect.height(); ++i) { SharedQuadState* shared_state = CreateTestSharedQuadState( identity_quad_to_target_transform, middle_rect, root_pass.get()); SolidColorDrawQuad* color_quad = root_pass->CreateAndAppendDrawQuad(); color_quad->SetNew( shared_state, middle_rect, middle_rect, SK_ColorRED, false); middle_rect += gfx::Vector2d(0, middle_rect.height() + 1); } gfx::Rect right_rect = gfx::Rect((kColumnWidth+1)*2, 0, kColumnWidth, 20); for (int i = 0; right_rect.y() < device_viewport_rect.height(); ++i) { SharedQuadState* shared_state = CreateTestSharedQuadState( identity_quad_to_target_transform, right_rect, root_pass.get()); SolidColorDrawQuad* color_quad = root_pass->CreateAndAppendDrawQuad(); color_quad->SetNew( shared_state, right_rect, right_rect, SK_ColorBLUE, false); right_rect += gfx::Vector2d(0, right_rect.height() + 1); } SharedQuadState* shared_state = CreateTestSharedQuadState(identity_quad_to_target_transform, device_viewport_rect, root_pass.get()); SolidColorDrawQuad* background_quad = root_pass->CreateAndAppendDrawQuad(); background_quad->SetNew(shared_state, device_viewport_rect, device_viewport_rect, SK_ColorWHITE, false); pass_list_.push_back(std::move(filter_pass)); pass_list_.push_back(std::move(root_pass)); } RenderPassList pass_list_; FilterOperations background_filters_; gfx::Transform filter_pass_to_target_transform_; gfx::Rect filter_pass_layer_rect_; }; typedef ::testing::Types BackgroundFilterRendererTypes; TYPED_TEST_CASE(RendererPixelTestWithBackgroundFilter, BackgroundFilterRendererTypes); typedef RendererPixelTestWithBackgroundFilter GLRendererPixelTestWithBackgroundFilter; // TODO(skaslev): The software renderer does not support filters yet. TEST_F(GLRendererPixelTestWithBackgroundFilter, InvertFilter) { this->background_filters_.Append( FilterOperation::CreateInvertFilter(1.f)); this->filter_pass_layer_rect_ = gfx::Rect(this->device_viewport_size_); this->filter_pass_layer_rect_.Inset(12, 14, 16, 18); this->SetUpRenderPassList(); EXPECT_TRUE(this->RunPixelTest( &this->pass_list_, base::FilePath(FILE_PATH_LITERAL("background_filter.png")), ExactPixelComparator(true))); } class ExternalStencilPixelTest : public GLRendererPixelTest { protected: void ClearBackgroundToGreen() { GLES2Interface* gl = output_surface_->context_provider()->ContextGL(); output_surface_->EnsureBackbuffer(); output_surface_->Reshape(device_viewport_size_, 1, gfx::ColorSpace(), true); gl->ClearColor(0.f, 1.f, 0.f, 1.f); gl->Clear(GL_COLOR_BUFFER_BIT); } void PopulateStencilBuffer() { // Set two quadrants of the stencil buffer to 1. GLES2Interface* gl = output_surface_->context_provider()->ContextGL(); output_surface_->EnsureBackbuffer(); output_surface_->Reshape(device_viewport_size_, 1, gfx::ColorSpace(), true); gl->ClearStencil(0); gl->Clear(GL_STENCIL_BUFFER_BIT); gl->Enable(GL_SCISSOR_TEST); gl->ClearStencil(1); gl->Scissor(0, 0, device_viewport_size_.width() / 2, device_viewport_size_.height() / 2); gl->Clear(GL_STENCIL_BUFFER_BIT); gl->Scissor(device_viewport_size_.width() / 2, device_viewport_size_.height() / 2, device_viewport_size_.width(), device_viewport_size_.height()); gl->Clear(GL_STENCIL_BUFFER_BIT); gl->StencilFunc(GL_EQUAL, 1, 1); } }; TEST_F(ExternalStencilPixelTest, StencilTestEnabled) { ClearBackgroundToGreen(); PopulateStencilBuffer(); this->EnableExternalStencilTest(); // Draw a blue quad that covers the entire device viewport. It should be // clipped to the bottom left and top right corners by the external stencil. gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* blue_shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); SolidColorDrawQuad* blue = pass->CreateAndAppendDrawQuad(); blue->SetNew(blue_shared_state, rect, rect, SK_ColorBLUE, false); pass->has_transparent_background = false; RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("four_blue_green_checkers.png")), ExactPixelComparator(true))); } TEST_F(ExternalStencilPixelTest, StencilTestDisabled) { PopulateStencilBuffer(); // Draw a green quad that covers the entire device viewport. The stencil // buffer should be ignored. gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* green_shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); SolidColorDrawQuad* green = pass->CreateAndAppendDrawQuad(); green->SetNew(green_shared_state, rect, rect, SK_ColorGREEN, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("green.png")), ExactPixelComparator(true))); } TEST_F(ExternalStencilPixelTest, RenderSurfacesIgnoreStencil) { // The stencil test should apply only to the final render pass. ClearBackgroundToGreen(); PopulateStencilBuffer(); this->EnableExternalStencilTest(); gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); root_pass->has_transparent_background = false; RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); gfx::Rect blue_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height()); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(gfx::Transform(), pass_rect, root_pass.get()); CreateTestRenderPassDrawQuad( pass_shared_state, pass_rect, child_pass_id, root_pass.get()); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("four_blue_green_checkers.png")), ExactPixelComparator(true))); } // Software renderer does not support anti-aliased edges. TEST_F(GLRendererPixelTest, AntiAliasing) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); gfx::Transform red_quad_to_target_transform; red_quad_to_target_transform.Rotate(10); SharedQuadState* red_shared_state = CreateTestSharedQuadState(red_quad_to_target_transform, rect, pass.get()); SolidColorDrawQuad* red = pass->CreateAndAppendDrawQuad(); red->SetNew(red_shared_state, rect, rect, SK_ColorRED, false); gfx::Transform yellow_quad_to_target_transform; yellow_quad_to_target_transform.Rotate(5); SharedQuadState* yellow_shared_state = CreateTestSharedQuadState( yellow_quad_to_target_transform, rect, pass.get()); SolidColorDrawQuad* yellow = pass->CreateAndAppendDrawQuad(); yellow->SetNew(yellow_shared_state, rect, rect, SK_ColorYELLOW, false); gfx::Transform blue_quad_to_target_transform; SharedQuadState* blue_shared_state = CreateTestSharedQuadState( blue_quad_to_target_transform, rect, pass.get()); SolidColorDrawQuad* blue = pass->CreateAndAppendDrawQuad(); blue->SetNew(blue_shared_state, rect, rect, SK_ColorBLUE, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("anti_aliasing.png")), FuzzyPixelOffByOneComparator(true))); } // This test tests that anti-aliasing works for axis aligned quads. // Anti-aliasing is only supported in the gl renderer. TEST_F(GLRendererPixelTest, AxisAligned) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, rect, transform_to_root); gfx::Transform red_quad_to_target_transform; red_quad_to_target_transform.Translate(50, 50); red_quad_to_target_transform.Scale(0.5f + 1.0f / (rect.width() * 2.0f), 0.5f + 1.0f / (rect.height() * 2.0f)); SharedQuadState* red_shared_state = CreateTestSharedQuadState(red_quad_to_target_transform, rect, pass.get()); SolidColorDrawQuad* red = pass->CreateAndAppendDrawQuad(); red->SetNew(red_shared_state, rect, rect, SK_ColorRED, false); gfx::Transform yellow_quad_to_target_transform; yellow_quad_to_target_transform.Translate(25.5f, 25.5f); yellow_quad_to_target_transform.Scale(0.5f, 0.5f); SharedQuadState* yellow_shared_state = CreateTestSharedQuadState( yellow_quad_to_target_transform, rect, pass.get()); SolidColorDrawQuad* yellow = pass->CreateAndAppendDrawQuad(); yellow->SetNew(yellow_shared_state, rect, rect, SK_ColorYELLOW, false); gfx::Transform blue_quad_to_target_transform; SharedQuadState* blue_shared_state = CreateTestSharedQuadState( blue_quad_to_target_transform, rect, pass.get()); SolidColorDrawQuad* blue = pass->CreateAndAppendDrawQuad(); blue->SetNew(blue_shared_state, rect, rect, SK_ColorBLUE, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("axis_aligned.png")), ExactPixelComparator(true))); } // This test tests that forcing anti-aliasing off works as expected. // Anti-aliasing is only supported in the gl renderer. TEST_F(GLRendererPixelTest, ForceAntiAliasingOff) { gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, rect, transform_to_root); gfx::Transform hole_quad_to_target_transform; hole_quad_to_target_transform.Translate(50, 50); hole_quad_to_target_transform.Scale(0.5f + 1.0f / (rect.width() * 2.0f), 0.5f + 1.0f / (rect.height() * 2.0f)); SharedQuadState* hole_shared_state = CreateTestSharedQuadState( hole_quad_to_target_transform, rect, pass.get()); SolidColorDrawQuad* hole = pass->CreateAndAppendDrawQuad(); hole->SetAll( hole_shared_state, rect, rect, rect, false, SK_ColorTRANSPARENT, true); gfx::Transform green_quad_to_target_transform; SharedQuadState* green_shared_state = CreateTestSharedQuadState( green_quad_to_target_transform, rect, pass.get()); SolidColorDrawQuad* green = pass->CreateAndAppendDrawQuad(); green->SetNew(green_shared_state, rect, rect, SK_ColorGREEN, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("force_anti_aliasing_off.png")), ExactPixelComparator(false))); } TEST_F(GLRendererPixelTest, AntiAliasingPerspective) { gfx::Rect rect(this->device_viewport_size_); std::unique_ptr pass = CreateTestRootRenderPass(RenderPassId(1, 1), rect); gfx::Rect red_rect(0, 0, 180, 500); gfx::Transform red_quad_to_target_transform( 1.0f, 2.4520f, 10.6206f, 19.0f, 0.0f, 0.3528f, 5.9737f, 9.5f, 0.0f, -0.2250f, -0.9744f, 0.0f, 0.0f, 0.0225f, 0.0974f, 1.0f); SharedQuadState* red_shared_state = CreateTestSharedQuadState( red_quad_to_target_transform, red_rect, pass.get()); SolidColorDrawQuad* red = pass->CreateAndAppendDrawQuad(); red->SetNew(red_shared_state, red_rect, red_rect, SK_ColorRED, false); gfx::Rect green_rect(19, 7, 180, 10); SharedQuadState* green_shared_state = CreateTestSharedQuadState(gfx::Transform(), green_rect, pass.get()); SolidColorDrawQuad* green = pass->CreateAndAppendDrawQuad(); green->SetNew( green_shared_state, green_rect, green_rect, SK_ColorGREEN, false); SharedQuadState* blue_shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); SolidColorDrawQuad* blue = pass->CreateAndAppendDrawQuad(); blue->SetNew(blue_shared_state, rect, rect, SK_ColorBLUE, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("anti_aliasing_perspective.png")), FuzzyPixelOffByOneComparator(true))); } TYPED_TEST(SoftwareRendererPixelTest, PictureDrawQuadIdentityScale) { gfx::Rect viewport(this->device_viewport_size_); // TODO(enne): the renderer should figure this out on its own. ResourceFormat texture_format = RGBA_8888; bool nearest_neighbor = false; RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, viewport, transform_to_root); // One clipped blue quad in the lower right corner. Outside the clip // is red, which should not appear. gfx::Rect blue_rect(gfx::Size(100, 100)); gfx::Rect blue_clip_rect(gfx::Point(50, 50), gfx::Size(50, 50)); std::unique_ptr blue_recording = FakeRecordingSource::CreateFilledRecordingSource(blue_rect.size()); SkPaint red_paint; red_paint.setColor(SK_ColorRED); blue_recording->add_draw_rect_with_paint(blue_rect, red_paint); SkPaint blue_paint; blue_paint.setColor(SK_ColorBLUE); blue_recording->add_draw_rect_with_paint(blue_clip_rect, blue_paint); blue_recording->Rerecord(); scoped_refptr blue_raster_source = FakeRasterSource::CreateFromRecordingSource(blue_recording.get(), false); gfx::Vector2d offset(viewport.bottom_right() - blue_rect.bottom_right()); gfx::Transform blue_quad_to_target_transform; blue_quad_to_target_transform.Translate(offset.x(), offset.y()); gfx::Rect blue_target_clip_rect = MathUtil::MapEnclosingClippedRect( blue_quad_to_target_transform, blue_clip_rect); SharedQuadState* blue_shared_state = CreateTestSharedQuadStateClipped(blue_quad_to_target_transform, blue_rect, blue_target_clip_rect, pass.get()); PictureDrawQuad* blue_quad = pass->CreateAndAppendDrawQuad(); blue_quad->SetNew(blue_shared_state, viewport, // Intentionally bigger than clip. gfx::Rect(), viewport, gfx::RectF(viewport), viewport.size(), nearest_neighbor, texture_format, viewport, 1.f, std::move(blue_raster_source)); // One viewport-filling green quad. std::unique_ptr green_recording = FakeRecordingSource::CreateFilledRecordingSource(viewport.size()); SkPaint green_paint; green_paint.setColor(SK_ColorGREEN); green_recording->add_draw_rect_with_paint(viewport, green_paint); green_recording->Rerecord(); scoped_refptr green_raster_source = FakeRasterSource::CreateFromRecordingSource(green_recording.get(), false); gfx::Transform green_quad_to_target_transform; SharedQuadState* green_shared_state = CreateTestSharedQuadState( green_quad_to_target_transform, viewport, pass.get()); PictureDrawQuad* green_quad = pass->CreateAndAppendDrawQuad(); green_quad->SetNew(green_shared_state, viewport, gfx::Rect(), viewport, gfx::RectF(0.f, 0.f, 1.f, 1.f), viewport.size(), nearest_neighbor, texture_format, viewport, 1.f, std::move(green_raster_source)); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("green_with_blue_corner.png")), ExactPixelComparator(true))); } // Not WithSkiaGPUBackend since that path currently requires tiles for opacity. TYPED_TEST(SoftwareRendererPixelTest, PictureDrawQuadOpacity) { gfx::Rect viewport(this->device_viewport_size_); ResourceFormat texture_format = RGBA_8888; bool nearest_neighbor = false; RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, viewport, transform_to_root); // One viewport-filling 0.5-opacity green quad. std::unique_ptr green_recording = FakeRecordingSource::CreateFilledRecordingSource(viewport.size()); SkPaint green_paint; green_paint.setColor(SK_ColorGREEN); green_recording->add_draw_rect_with_paint(viewport, green_paint); green_recording->Rerecord(); scoped_refptr green_raster_source = FakeRasterSource::CreateFromRecordingSource(green_recording.get(), false); gfx::Transform green_quad_to_target_transform; SharedQuadState* green_shared_state = CreateTestSharedQuadState( green_quad_to_target_transform, viewport, pass.get()); green_shared_state->opacity = 0.5f; PictureDrawQuad* green_quad = pass->CreateAndAppendDrawQuad(); green_quad->SetNew(green_shared_state, viewport, gfx::Rect(), viewport, gfx::RectF(0, 0, 1, 1), viewport.size(), nearest_neighbor, texture_format, viewport, 1.f, green_raster_source.get()); // One viewport-filling white quad. std::unique_ptr white_recording = FakeRecordingSource::CreateFilledRecordingSource(viewport.size()); SkPaint white_paint; white_paint.setColor(SK_ColorWHITE); white_recording->add_draw_rect_with_paint(viewport, white_paint); white_recording->Rerecord(); scoped_refptr white_raster_source = FakeRasterSource::CreateFromRecordingSource(white_recording.get(), false); gfx::Transform white_quad_to_target_transform; SharedQuadState* white_shared_state = CreateTestSharedQuadState( white_quad_to_target_transform, viewport, pass.get()); PictureDrawQuad* white_quad = pass->CreateAndAppendDrawQuad(); white_quad->SetNew(white_shared_state, viewport, gfx::Rect(), viewport, gfx::RectF(0, 0, 1, 1), viewport.size(), nearest_neighbor, texture_format, viewport, 1.f, std::move(white_raster_source)); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("green_alpha.png")), FuzzyPixelOffByOneComparator(true))); } template bool IsSoftwareRenderer() { return false; } template<> bool IsSoftwareRenderer() { return true; } template<> bool IsSoftwareRenderer() { return true; } // If we disable image filtering, then a 2x2 bitmap should appear as four // huge sharp squares. TYPED_TEST(SoftwareRendererPixelTest, PictureDrawQuadDisableImageFiltering) { // We only care about this in software mode since bilinear filtering is // cheap in hardware. if (!IsSoftwareRenderer()) return; gfx::Rect viewport(this->device_viewport_size_); ResourceFormat texture_format = RGBA_8888; bool nearest_neighbor = false; RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, viewport, transform_to_root); sk_sp surface = SkSurface::MakeRasterN32Premul(2, 2); ASSERT_NE(surface, nullptr); SkCanvas* canvas = surface->getCanvas(); canvas->drawPoint(0, 0, SK_ColorGREEN); canvas->drawPoint(0, 1, SK_ColorBLUE); canvas->drawPoint(1, 0, SK_ColorBLUE); canvas->drawPoint(1, 1, SK_ColorGREEN); std::unique_ptr recording = FakeRecordingSource::CreateFilledRecordingSource(viewport.size()); SkPaint paint; paint.setFilterQuality(kLow_SkFilterQuality); recording->add_draw_image_with_paint(surface->makeImageSnapshot(), gfx::Point(), paint); recording->Rerecord(); scoped_refptr raster_source = FakeRasterSource::CreateFromRecordingSource(recording.get(), false); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState(quad_to_target_transform, viewport, pass.get()); PictureDrawQuad* quad = pass->CreateAndAppendDrawQuad(); quad->SetNew(shared_state, viewport, gfx::Rect(), viewport, gfx::RectF(0, 0, 2, 2), viewport.size(), nearest_neighbor, texture_format, viewport, 1.f, std::move(raster_source)); RenderPassList pass_list; pass_list.push_back(std::move(pass)); this->disable_picture_quad_image_filtering_ = true; EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("four_blue_green_checkers.png")), ExactPixelComparator(true))); } // This disables filtering by setting |nearest_neighbor| on the PictureDrawQuad. TYPED_TEST(SoftwareRendererPixelTest, PictureDrawQuadNearestNeighbor) { gfx::Rect viewport(this->device_viewport_size_); ResourceFormat texture_format = RGBA_8888; bool nearest_neighbor = true; RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, viewport, transform_to_root); sk_sp surface = SkSurface::MakeRasterN32Premul(2, 2); ASSERT_NE(surface, nullptr); SkCanvas* canvas = surface->getCanvas(); canvas->drawPoint(0, 0, SK_ColorGREEN); canvas->drawPoint(0, 1, SK_ColorBLUE); canvas->drawPoint(1, 0, SK_ColorBLUE); canvas->drawPoint(1, 1, SK_ColorGREEN); std::unique_ptr recording = FakeRecordingSource::CreateFilledRecordingSource(viewport.size()); SkPaint paint; paint.setFilterQuality(kLow_SkFilterQuality); recording->add_draw_image_with_paint(surface->makeImageSnapshot(), gfx::Point(), paint); recording->Rerecord(); scoped_refptr raster_source = FakeRasterSource::CreateFromRecordingSource(recording.get(), false); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState(quad_to_target_transform, viewport, pass.get()); PictureDrawQuad* quad = pass->CreateAndAppendDrawQuad(); quad->SetNew(shared_state, viewport, gfx::Rect(), viewport, gfx::RectF(0, 0, 2, 2), viewport.size(), nearest_neighbor, texture_format, viewport, 1.f, std::move(raster_source)); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("four_blue_green_checkers.png")), ExactPixelComparator(true))); } // This disables filtering by setting |nearest_neighbor| on the TileDrawQuad. TYPED_TEST(RendererPixelTest, TileDrawQuadNearestNeighbor) { gfx::Rect viewport(this->device_viewport_size_); bool swizzle_contents = true; bool nearest_neighbor = true; SkBitmap bitmap; bitmap.allocN32Pixels(2, 2); { SkAutoLockPixels lock(bitmap); SkCanvas canvas(bitmap); canvas.drawPoint(0, 0, SK_ColorGREEN); canvas.drawPoint(0, 1, SK_ColorBLUE); canvas.drawPoint(1, 0, SK_ColorBLUE); canvas.drawPoint(1, 1, SK_ColorGREEN); } gfx::Size tile_size(2, 2); ResourceId resource = this->resource_provider_->CreateResource( tile_size, ResourceProvider::TEXTURE_HINT_IMMUTABLE, RGBA_8888, gfx::ColorSpace()); { SkAutoLockPixels lock(bitmap); this->resource_provider_->CopyToResource( resource, static_cast(bitmap.getPixels()), tile_size); } RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, viewport, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState(quad_to_target_transform, viewport, pass.get()); TileDrawQuad* quad = pass->CreateAndAppendDrawQuad(); quad->SetNew(shared_state, viewport, gfx::Rect(), viewport, resource, gfx::RectF(gfx::Rect(tile_size)), tile_size, swizzle_contents, nearest_neighbor); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("four_blue_green_checkers.png")), ExactPixelComparator(true))); } // This disables filtering by setting |nearest_neighbor| to true on the // TextureDrawQuad. TYPED_TEST(SoftwareRendererPixelTest, TextureDrawQuadNearestNeighbor) { gfx::Rect viewport(this->device_viewport_size_); bool nearest_neighbor = true; SkBitmap bitmap; bitmap.allocN32Pixels(2, 2); { SkAutoLockPixels lock(bitmap); SkCanvas canvas(bitmap); canvas.drawPoint(0, 0, SK_ColorGREEN); canvas.drawPoint(0, 1, SK_ColorBLUE); canvas.drawPoint(1, 0, SK_ColorBLUE); canvas.drawPoint(1, 1, SK_ColorGREEN); } gfx::Size tile_size(2, 2); ResourceId resource = this->resource_provider_->CreateResource( tile_size, ResourceProvider::TEXTURE_HINT_IMMUTABLE, RGBA_8888, gfx::ColorSpace()); { SkAutoLockPixels lock(bitmap); this->resource_provider_->CopyToResource( resource, static_cast(bitmap.getPixels()), tile_size); } RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, viewport, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState(quad_to_target_transform, viewport, pass.get()); float vertex_opacity[4] = {1.0f, 1.0f, 1.0f, 1.0f}; TextureDrawQuad* quad = pass->CreateAndAppendDrawQuad(); quad->SetNew(shared_state, viewport, gfx::Rect(), viewport, resource, false, gfx::PointF(0, 0), gfx::PointF(1, 1), SK_ColorBLACK, vertex_opacity, false, nearest_neighbor, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("four_blue_green_checkers.png")), FuzzyPixelComparator(false, 2.f, 0.f, 256.f, 256, 0.f))); } // This ensures filtering is enabled by setting |nearest_neighbor| to false on // the TextureDrawQuad. TYPED_TEST(SoftwareRendererPixelTest, TextureDrawQuadLinear) { gfx::Rect viewport(this->device_viewport_size_); bool nearest_neighbor = false; SkBitmap bitmap; bitmap.allocN32Pixels(2, 2); { SkAutoLockPixels lock(bitmap); SkCanvas canvas(bitmap); canvas.drawPoint(0, 0, SK_ColorGREEN); canvas.drawPoint(0, 1, SK_ColorBLUE); canvas.drawPoint(1, 0, SK_ColorBLUE); canvas.drawPoint(1, 1, SK_ColorGREEN); } gfx::Size tile_size(2, 2); ResourceId resource = this->resource_provider_->CreateResource( tile_size, ResourceProvider::TEXTURE_HINT_IMMUTABLE, RGBA_8888, gfx::ColorSpace()); { SkAutoLockPixels lock(bitmap); this->resource_provider_->CopyToResource( resource, static_cast(bitmap.getPixels()), tile_size); } RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, viewport, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState(quad_to_target_transform, viewport, pass.get()); float vertex_opacity[4] = {1.0f, 1.0f, 1.0f, 1.0f}; TextureDrawQuad* quad = pass->CreateAndAppendDrawQuad(); quad->SetNew(shared_state, viewport, gfx::Rect(), viewport, resource, false, gfx::PointF(0, 0), gfx::PointF(1, 1), SK_ColorBLACK, vertex_opacity, false, nearest_neighbor, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); // Allow for a small amount of error as the blending alogrithm used by Skia is // affected by the offset in the expanded rect. EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("four_blue_green_checkers_linear.png")), FuzzyPixelComparator(false, 100.f, 0.f, 16.f, 16.f, 0.f))); } TYPED_TEST(SoftwareRendererPixelTest, PictureDrawQuadNonIdentityScale) { gfx::Rect viewport(this->device_viewport_size_); // TODO(enne): the renderer should figure this out on its own. ResourceFormat texture_format = RGBA_8888; bool nearest_neighbor = false; RenderPassId id(1, 1); gfx::Transform transform_to_root; std::unique_ptr pass = CreateTestRenderPass(id, viewport, transform_to_root); // As scaling up the blue checkerboards will cause sampling on the GPU, // a few extra "cleanup rects" need to be added to clobber the blending // to make the output image more clean. This will also test subrects // of the layer. gfx::Transform green_quad_to_target_transform; gfx::Rect green_rect1(gfx::Point(80, 0), gfx::Size(20, 100)); gfx::Rect green_rect2(gfx::Point(0, 80), gfx::Size(100, 20)); std::unique_ptr green_recording = FakeRecordingSource::CreateFilledRecordingSource(viewport.size()); SkPaint red_paint; red_paint.setColor(SK_ColorRED); green_recording->add_draw_rect_with_paint(viewport, red_paint); SkPaint green_paint; green_paint.setColor(SK_ColorGREEN); green_recording->add_draw_rect_with_paint(green_rect1, green_paint); green_recording->add_draw_rect_with_paint(green_rect2, green_paint); green_recording->Rerecord(); scoped_refptr green_raster_source = FakeRasterSource::CreateFromRecordingSource(green_recording.get(), false); SharedQuadState* top_right_green_shared_quad_state = CreateTestSharedQuadState(green_quad_to_target_transform, viewport, pass.get()); PictureDrawQuad* green_quad1 = pass->CreateAndAppendDrawQuad(); green_quad1->SetNew( top_right_green_shared_quad_state, green_rect1, gfx::Rect(), green_rect1, gfx::RectF(gfx::SizeF(green_rect1.size())), green_rect1.size(), nearest_neighbor, texture_format, green_rect1, 1.f, green_raster_source); PictureDrawQuad* green_quad2 = pass->CreateAndAppendDrawQuad(); green_quad2->SetNew(top_right_green_shared_quad_state, green_rect2, gfx::Rect(), green_rect2, gfx::RectF(gfx::SizeF(green_rect2.size())), green_rect2.size(), nearest_neighbor, texture_format, green_rect2, 1.f, std::move(green_raster_source)); // Add a green clipped checkerboard in the bottom right to help test // interleaving picture quad content and solid color content. gfx::Rect bottom_right_rect( gfx::Point(viewport.width() / 2, viewport.height() / 2), gfx::Size(viewport.width() / 2, viewport.height() / 2)); SharedQuadState* bottom_right_green_shared_state = CreateTestSharedQuadStateClipped(green_quad_to_target_transform, viewport, bottom_right_rect, pass.get()); SolidColorDrawQuad* bottom_right_color_quad = pass->CreateAndAppendDrawQuad(); bottom_right_color_quad->SetNew(bottom_right_green_shared_state, viewport, viewport, SK_ColorGREEN, false); // Add two blue checkerboards taking up the bottom left and top right, // but use content scales as content rects to make this happen. // The content is at a 4x content scale. gfx::Rect layer_rect(gfx::Size(20, 30)); float contents_scale = 4.f; // Two rects that touch at their corners, arbitrarily placed in the layer. gfx::RectF blue_layer_rect1(gfx::PointF(5.5f, 9.0f), gfx::SizeF(2.5f, 2.5f)); gfx::RectF blue_layer_rect2(gfx::PointF(8.0f, 6.5f), gfx::SizeF(2.5f, 2.5f)); gfx::RectF union_layer_rect = blue_layer_rect1; union_layer_rect.Union(blue_layer_rect2); // Because scaling up will cause sampling outside the rects, add one extra // pixel of buffer at the final content scale. float inset = -1.f / contents_scale; blue_layer_rect1.Inset(inset, inset, inset, inset); blue_layer_rect2.Inset(inset, inset, inset, inset); std::unique_ptr recording = FakeRecordingSource::CreateFilledRecordingSource(layer_rect.size()); Region outside(layer_rect); outside.Subtract(gfx::ToEnclosingRect(union_layer_rect)); for (Region::Iterator iter(outside); iter.has_rect(); iter.next()) { recording->add_draw_rect_with_paint(iter.rect(), red_paint); } SkPaint blue_paint; blue_paint.setColor(SK_ColorBLUE); recording->add_draw_rectf_with_paint(blue_layer_rect1, blue_paint); recording->add_draw_rectf_with_paint(blue_layer_rect2, blue_paint); recording->Rerecord(); scoped_refptr raster_source = FakeRasterSource::CreateFromRecordingSource(recording.get(), false); gfx::Rect content_union_rect( gfx::ToEnclosingRect(gfx::ScaleRect(union_layer_rect, contents_scale))); // At a scale of 4x the rectangles with a width of 2.5 will take up 10 pixels, // so scale an additional 10x to make them 100x100. gfx::Transform quad_to_target_transform; quad_to_target_transform.Scale(10.0, 10.0); gfx::Rect quad_content_rect(gfx::Size(20, 20)); SharedQuadState* blue_shared_state = CreateTestSharedQuadState( quad_to_target_transform, quad_content_rect, pass.get()); PictureDrawQuad* blue_quad = pass->CreateAndAppendDrawQuad(); blue_quad->SetNew(blue_shared_state, quad_content_rect, gfx::Rect(), quad_content_rect, gfx::RectF(quad_content_rect), content_union_rect.size(), nearest_neighbor, texture_format, content_union_rect, contents_scale, std::move(raster_source)); // Fill left half of viewport with green. gfx::Transform half_green_quad_to_target_transform; gfx::Rect half_green_rect(gfx::Size(viewport.width() / 2, viewport.height())); SharedQuadState* half_green_shared_state = CreateTestSharedQuadState( half_green_quad_to_target_transform, half_green_rect, pass.get()); SolidColorDrawQuad* half_color_quad = pass->CreateAndAppendDrawQuad(); half_color_quad->SetNew(half_green_shared_state, half_green_rect, half_green_rect, SK_ColorGREEN, false); RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("four_blue_green_checkers.png")), ExactPixelComparator(true))); } typedef RendererPixelTest GLRendererPixelTestWithFlippedOutputSurface; TEST_F(GLRendererPixelTestWithFlippedOutputSurface, ExplicitFlipTest) { // This draws a blue rect above a yellow rect with an inverted output surface. gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); gfx::Rect blue_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); gfx::Rect yellow_rect(0, this->device_viewport_size_.height() / 2, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* yellow = child_pass->CreateAndAppendDrawQuad(); yellow->SetNew(shared_state, yellow_rect, yellow_rect, SK_ColorYELLOW, false); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(gfx::Transform(), pass_rect, root_pass.get()); CreateTestRenderPassDrawQuad( pass_shared_state, pass_rect, child_pass_id, root_pass.get()); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("blue_yellow_flipped.png")), ExactPixelComparator(true))); } TEST_F(GLRendererPixelTestWithFlippedOutputSurface, CheckChildPassUnflipped) { // This draws a blue rect above a yellow rect with an inverted output surface. gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); gfx::Rect blue_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); gfx::Rect yellow_rect(0, this->device_viewport_size_.height() / 2, this->device_viewport_size_.width(), this->device_viewport_size_.height() / 2); SolidColorDrawQuad* yellow = child_pass->CreateAndAppendDrawQuad(); yellow->SetNew(shared_state, yellow_rect, yellow_rect, SK_ColorYELLOW, false); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(gfx::Transform(), pass_rect, root_pass.get()); CreateTestRenderPassDrawQuad( pass_shared_state, pass_rect, child_pass_id, root_pass.get()); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); // Check that the child pass remains unflipped. EXPECT_TRUE(this->RunPixelTestWithReadbackTarget( &pass_list, pass_list.front().get(), base::FilePath(FILE_PATH_LITERAL("blue_yellow.png")), ExactPixelComparator(true))); } TEST_F(GLRendererPixelTest, CheckReadbackSubset) { gfx::Rect viewport_rect(this->device_viewport_size_); RenderPassId root_pass_id(1, 1); std::unique_ptr root_pass = CreateTestRootRenderPass(root_pass_id, viewport_rect); RenderPassId child_pass_id(2, 2); gfx::Rect pass_rect(this->device_viewport_size_); gfx::Transform transform_to_root; std::unique_ptr child_pass = CreateTestRenderPass(child_pass_id, pass_rect, transform_to_root); gfx::Transform quad_to_target_transform; SharedQuadState* shared_state = CreateTestSharedQuadState( quad_to_target_transform, viewport_rect, child_pass.get()); // Draw a green quad full-size with a blue quad in the lower-right corner. gfx::Rect blue_rect(this->device_viewport_size_.width() * 3 / 4, this->device_viewport_size_.height() * 3 / 4, this->device_viewport_size_.width() * 3 / 4, this->device_viewport_size_.height() * 3 / 4); SolidColorDrawQuad* blue = child_pass->CreateAndAppendDrawQuad(); blue->SetNew(shared_state, blue_rect, blue_rect, SK_ColorBLUE, false); gfx::Rect green_rect(0, 0, this->device_viewport_size_.width(), this->device_viewport_size_.height()); SolidColorDrawQuad* green = child_pass->CreateAndAppendDrawQuad(); green->SetNew(shared_state, green_rect, green_rect, SK_ColorGREEN, false); SharedQuadState* pass_shared_state = CreateTestSharedQuadState(gfx::Transform(), pass_rect, root_pass.get()); CreateTestRenderPassDrawQuad( pass_shared_state, pass_rect, child_pass_id, root_pass.get()); RenderPassList pass_list; pass_list.push_back(std::move(child_pass)); pass_list.push_back(std::move(root_pass)); // Check that the child pass remains unflipped. gfx::Rect capture_rect(this->device_viewport_size_.width() / 2, this->device_viewport_size_.height() / 2, this->device_viewport_size_.width() / 2, this->device_viewport_size_.height() / 2); EXPECT_TRUE(this->RunPixelTestWithReadbackTargetAndArea( &pass_list, pass_list.front().get(), base::FilePath(FILE_PATH_LITERAL("green_small_with_blue_corner.png")), ExactPixelComparator(true), &capture_rect)); } TEST_F(GLRendererPixelTest, TextureQuadBatching) { // This test verifies that multiple texture quads using the same resource // get drawn correctly. It implicitly is trying to test that the // GLRenderer does the right thing with its draw quad cache. gfx::Rect rect(this->device_viewport_size_); RenderPassId id(1, 1); std::unique_ptr pass = CreateTestRootRenderPass(id, rect); SharedQuadState* shared_state = CreateTestSharedQuadState(gfx::Transform(), rect, pass.get()); // Make a mask. gfx::Rect mask_rect = rect; SkBitmap bitmap; bitmap.allocPixels( SkImageInfo::MakeN32Premul(mask_rect.width(), mask_rect.height())); SkCanvas canvas(bitmap); SkPaint paint; paint.setStyle(SkPaint::kStroke_Style); paint.setStrokeWidth(SkIntToScalar(4)); paint.setColor(SK_ColorGREEN); canvas.clear(SK_ColorWHITE); gfx::Rect inset_rect = rect; while (!inset_rect.IsEmpty()) { inset_rect.Inset(6, 6, 4, 4); canvas.drawRect(SkRect::MakeXYWH(inset_rect.x(), inset_rect.y(), inset_rect.width(), inset_rect.height()), paint); inset_rect.Inset(6, 6, 4, 4); } ResourceId resource = this->resource_provider_->CreateResource( mask_rect.size(), ResourceProvider::TEXTURE_HINT_IMMUTABLE, RGBA_8888, gfx::ColorSpace()); { SkAutoLockPixels lock(bitmap); this->resource_provider_->CopyToResource( resource, reinterpret_cast(bitmap.getPixels()), mask_rect.size()); } // Arbitrary dividing lengths to divide up the resource into 16 quads. int widths[] = { 0, 60, 50, 40, }; int heights[] = { 0, 10, 80, 50, }; size_t num_quads = 4; for (size_t i = 0; i < num_quads; ++i) { int x_start = widths[i]; int x_end = i == num_quads - 1 ? rect.width() : widths[i + 1]; DCHECK_LE(x_end, rect.width()); for (size_t j = 0; j < num_quads; ++j) { int y_start = heights[j]; int y_end = j == num_quads - 1 ? rect.height() : heights[j + 1]; DCHECK_LE(y_end, rect.height()); float vertex_opacity[4] = {1.0f, 1.0f, 1.0f, 1.0f}; gfx::Rect layer_rect(x_start, y_start, x_end - x_start, y_end - y_start); gfx::RectF uv_rect = gfx::ScaleRect( gfx::RectF(layer_rect), 1.f / rect.width(), 1.f / rect.height()); TextureDrawQuad* texture_quad = pass->CreateAndAppendDrawQuad(); texture_quad->SetNew(shared_state, layer_rect, layer_rect, layer_rect, resource, true, uv_rect.origin(), uv_rect.bottom_right(), SK_ColorWHITE, vertex_opacity, false, false, false); } } RenderPassList pass_list; pass_list.push_back(std::move(pass)); EXPECT_TRUE(this->RunPixelTest( &pass_list, base::FilePath(FILE_PATH_LITERAL("spiral.png")), FuzzyPixelOffByOneComparator(true))); } #endif // !defined(OS_ANDROID) } // namespace } // namespace cc