// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "cc/trees/layer_tree_host.h" #include "cc/test/fake_content_layer_client.h" #include "cc/test/fake_picture_layer.h" #include "cc/test/fake_picture_layer_impl.h" #include "cc/test/layer_tree_test.h" #include "cc/trees/layer_tree_impl.h" namespace cc { namespace { // These tests deal with picture layers. class LayerTreeHostPictureTest : public LayerTreeTest { protected: void SetupTreeWithSinglePictureLayer(const gfx::Size& size) { scoped_refptr root = Layer::Create(); root->SetBounds(size); root_picture_layer_ = FakePictureLayer::Create(&client_); root_picture_layer_->SetBounds(size); root->AddChild(root_picture_layer_); layer_tree_host()->SetRootLayer(root); } scoped_refptr root_picture_layer_; FakeContentLayerClient client_; }; class LayerTreeHostPictureTestTwinLayer : public LayerTreeHostPictureTest { void SetupTree() override { SetupTreeWithSinglePictureLayer(gfx::Size(1, 1)); } void BeginTest() override { activates_ = 0; PostSetNeedsCommitToMainThread(); } void DidCommit() override { switch (layer_tree_host()->source_frame_number()) { case 2: // Drop the picture layer from the tree. layer_tree_host()->root_layer()->children()[0]->RemoveFromParent(); break; case 3: // Add a new picture layer. scoped_refptr picture = FakePictureLayer::Create(&client_); layer_tree_host()->root_layer()->AddChild(picture); break; } } void WillActivateTreeOnThread(LayerTreeHostImpl* impl) override { LayerImpl* pending_root_impl = impl->pending_tree()->root_layer(); LayerImpl* active_root_impl = impl->active_tree()->root_layer(); if (pending_root_impl->children().empty()) { EXPECT_EQ(2, activates_); return; } FakePictureLayerImpl* pending_picture_impl = static_cast(pending_root_impl->children()[0]); if (!active_root_impl) { EXPECT_EQ(0, activates_); EXPECT_EQ(nullptr, pending_picture_impl->GetPendingOrActiveTwinLayer()); return; } if (active_root_impl->children().empty()) { EXPECT_EQ(3, activates_); EXPECT_EQ(nullptr, pending_picture_impl->GetPendingOrActiveTwinLayer()); return; } FakePictureLayerImpl* active_picture_impl = static_cast(active_root_impl->children()[0]); // After the first activation, when we commit again, we'll have a pending // and active layer. Then we recreate a picture layer in the 4th activate // and the next commit will have a pending and active twin again. EXPECT_TRUE(activates_ == 1 || activates_ == 4); EXPECT_EQ(pending_picture_impl, active_picture_impl->GetPendingOrActiveTwinLayer()); EXPECT_EQ(active_picture_impl, pending_picture_impl->GetPendingOrActiveTwinLayer()); EXPECT_EQ(nullptr, active_picture_impl->GetRecycledTwinLayer()); } void DidActivateTreeOnThread(LayerTreeHostImpl* impl) override { LayerImpl* active_root_impl = impl->active_tree()->root_layer(); LayerImpl* recycle_root_impl = impl->recycle_tree()->root_layer(); if (active_root_impl->children().empty()) { EXPECT_EQ(2, activates_); } else { FakePictureLayerImpl* active_picture_impl = static_cast(active_root_impl->children()[0]); FakePictureLayerImpl* recycle_picture_impl = static_cast(recycle_root_impl->children()[0]); EXPECT_EQ(nullptr, active_picture_impl->GetPendingOrActiveTwinLayer()); EXPECT_EQ(recycle_picture_impl, active_picture_impl->GetRecycledTwinLayer()); } ++activates_; if (activates_ <= 4) PostSetNeedsCommitToMainThread(); else EndTest(); } void AfterTest() override {} int activates_; }; SINGLE_AND_MULTI_THREAD_IMPL_TEST_F(LayerTreeHostPictureTestTwinLayer); class LayerTreeHostPictureTestResizeViewportWithGpuRaster : public LayerTreeHostPictureTest { void InitializeSettings(LayerTreeSettings* settings) override { settings->gpu_rasterization_forced = true; } void SetupTree() override { scoped_refptr root = Layer::Create(); root->SetBounds(gfx::Size(768, 960)); client_.set_fill_with_nonsolid_color(true); picture_ = FakePictureLayer::Create(&client_); picture_->SetBounds(gfx::Size(768, 960)); root->AddChild(picture_); layer_tree_host()->SetRootLayer(root); LayerTreeHostPictureTest::SetupTree(); } void BeginTest() override { PostSetNeedsCommitToMainThread(); } void WillActivateTreeOnThread(LayerTreeHostImpl* impl) override { LayerImpl* child = impl->sync_tree()->root_layer()->children()[0]; FakePictureLayerImpl* picture_impl = static_cast(child); gfx::Size tile_size = picture_impl->HighResTiling()->TileAt(0, 0)->content_rect().size(); switch (impl->sync_tree()->source_frame_number()) { case 0: tile_size_ = tile_size; // GPU Raster picks a tile size based on the viewport size. EXPECT_EQ(gfx::Size(768, 256), tile_size); break; case 1: // When the viewport changed size, the new frame's tiles should change // along with it. EXPECT_NE(gfx::Size(768, 256), tile_size); } } void DidCommit() override { switch (layer_tree_host()->source_frame_number()) { case 1: // Change the picture layer's size along with the viewport, so it will // consider picking a new tile size. picture_->SetBounds(gfx::Size(768, 1056)); layer_tree_host()->SetViewportSize(gfx::Size(768, 1056)); break; case 2: EndTest(); } } void AfterTest() override {} gfx::Size tile_size_; FakeContentLayerClient client_; scoped_refptr picture_; }; SINGLE_AND_MULTI_THREAD_IMPL_TEST_F( LayerTreeHostPictureTestResizeViewportWithGpuRaster); class LayerTreeHostPictureTestChangeLiveTilesRectWithRecycleTree : public LayerTreeHostPictureTest { void SetupTree() override { frame_ = 0; did_post_commit_ = false; scoped_refptr root = Layer::Create(); root->SetBounds(gfx::Size(100, 100)); // The layer is big enough that the live tiles rect won't cover the full // layer. client_.set_fill_with_nonsolid_color(true); picture_ = FakePictureLayer::Create(&client_); picture_->SetBounds(gfx::Size(100, 100000)); root->AddChild(picture_); layer_tree_host()->SetRootLayer(root); LayerTreeHostPictureTest::SetupTree(); } void BeginTest() override { PostSetNeedsCommitToMainThread(); } void DrawLayersOnThread(LayerTreeHostImpl* impl) override { LayerImpl* child = impl->active_tree()->root_layer()->children()[0]; FakePictureLayerImpl* picture_impl = static_cast(child); FakePictureLayerImpl* recycled_impl = static_cast( picture_impl->GetRecycledTwinLayer()); switch (++frame_) { case 1: { PictureLayerTiling* tiling = picture_impl->HighResTiling(); PictureLayerTiling* recycled_tiling = recycled_impl->HighResTiling(); int num_tiles_y = tiling->TilingDataForTesting().num_tiles_y(); // There should be tiles at the top of the picture layer but not at the // bottom. EXPECT_TRUE(tiling->TileAt(0, 0)); EXPECT_FALSE(tiling->TileAt(0, num_tiles_y)); // The recycled tiling matches it. EXPECT_TRUE(recycled_tiling->TileAt(0, 0)); EXPECT_FALSE(recycled_tiling->TileAt(0, num_tiles_y)); // The live tiles rect matches on the recycled tree. EXPECT_EQ(tiling->live_tiles_rect(), recycled_tiling->live_tiles_rect()); // Make the bottom of the layer visible. picture_impl->SetPosition(gfx::PointF(0.f, -100000.f + 100.f)); impl->SetNeedsRedraw(); break; } case 2: { PictureLayerTiling* tiling = picture_impl->HighResTiling(); PictureLayerTiling* recycled_tiling = recycled_impl->HighResTiling(); // There not be tiles at the top of the layer now. EXPECT_FALSE(tiling->TileAt(0, 0)); // The recycled twin tiling should not have unshared tiles at the top // either. EXPECT_FALSE(recycled_tiling->TileAt(0, 0)); // The live tiles rect matches on the recycled tree. EXPECT_EQ(tiling->live_tiles_rect(), recycled_tiling->live_tiles_rect()); // Make the top of the layer visible again. picture_impl->SetPosition(gfx::PointF()); impl->SetNeedsRedraw(); break; } case 3: { PictureLayerTiling* tiling = picture_impl->HighResTiling(); PictureLayerTiling* recycled_tiling = recycled_impl->HighResTiling(); int num_tiles_y = tiling->TilingDataForTesting().num_tiles_y(); // There should be tiles at the top of the picture layer again. EXPECT_TRUE(tiling->TileAt(0, 0)); EXPECT_FALSE(tiling->TileAt(0, num_tiles_y)); // The recycled tiling should also have tiles at the top. EXPECT_TRUE(recycled_tiling->TileAt(0, 0)); EXPECT_FALSE(recycled_tiling->TileAt(0, num_tiles_y)); // The live tiles rect matches on the recycled tree. EXPECT_EQ(tiling->live_tiles_rect(), recycled_tiling->live_tiles_rect()); // Make a new main frame without changing the picture layer at all, so // it won't need to update or push properties. did_post_commit_ = true; PostSetNeedsCommitToMainThread(); break; } } } void WillActivateTreeOnThread(LayerTreeHostImpl* impl) override { LayerImpl* child = impl->sync_tree()->root_layer()->children()[0]; FakePictureLayerImpl* picture_impl = static_cast(child); PictureLayerTiling* tiling = picture_impl->HighResTiling(); int num_tiles_y = tiling->TilingDataForTesting().num_tiles_y(); // The pending layer should always have tiles at the top of it each commit. // The tile is part of the required for activation set so it should exist. EXPECT_TRUE(tiling->TileAt(0, 0)); EXPECT_FALSE(tiling->TileAt(0, num_tiles_y)); if (did_post_commit_) EndTest(); } void AfterTest() override {} int frame_; bool did_post_commit_; FakeContentLayerClient client_; scoped_refptr picture_; }; SINGLE_AND_MULTI_THREAD_IMPL_TEST_F( LayerTreeHostPictureTestChangeLiveTilesRectWithRecycleTree); } // namespace } // namespace cc