xref: /external/chromium_org/cc/layers/layer_unittest.cc

// Copyright 2011 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/layers/layer.h"

#include "cc/animation/keyframed_animation_curve.h"
#include "cc/base/math_util.h"
#include "cc/layers/layer_impl.h"
#include "cc/resources/layer_painter.h"
#include "cc/test/animation_test_common.h"
#include "cc/test/fake_impl_proxy.h"
#include "cc/test/fake_layer_tree_host_client.h"
#include "cc/test/fake_layer_tree_host_impl.h"
#include "cc/test/geometry_test_utils.h"
#include "cc/test/layer_test_common.h"
#include "cc/trees/layer_tree_host.h"
#include "cc/trees/single_thread_proxy.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/gfx/transform.h"

using ::testing::AnyNumber;
using ::testing::AtLeast;
using ::testing::Mock;
using ::testing::StrictMock;
using ::testing::_;

#define EXPECT_SET_NEEDS_FULL_TREE_SYNC(expect, code_to_test) do {        \
    EXPECT_CALL(*layer_tree_host_, SetNeedsFullTreeSync()).Times((expect)); \
    code_to_test;                                                         \
    Mock::VerifyAndClearExpectations(layer_tree_host_.get());           \
  } while (false)


namespace cc {
namespace {

class MockLayerTreeHost : public LayerTreeHost {
 public:
  explicit MockLayerTreeHost(FakeLayerTreeHostClient* client)
      : LayerTreeHost(client, NULL, LayerTreeSettings()) {
    InitializeSingleThreaded(client);
  }

  MOCK_METHOD0(SetNeedsCommit, void());
  MOCK_METHOD0(SetNeedsUpdateLayers, void());
  MOCK_METHOD0(SetNeedsFullTreeSync, void());
};

class MockLayerPainter : public LayerPainter {
 public:
  virtual void Paint(SkCanvas* canvas,
                     gfx::Rect content_rect,
                     gfx::RectF* opaque) OVERRIDE {}
};


class LayerTest : public testing::Test {
 public:
  LayerTest()
      : host_impl_(&proxy_),
        fake_client_(FakeLayerTreeHostClient::DIRECT_3D) {}

 protected:
  virtual void SetUp() OVERRIDE {
    layer_tree_host_.reset(new StrictMock<MockLayerTreeHost>(&fake_client_));
  }

  virtual void TearDown() OVERRIDE {
    Mock::VerifyAndClearExpectations(layer_tree_host_.get());
    EXPECT_CALL(*layer_tree_host_, SetNeedsFullTreeSync()).Times(AnyNumber());
    parent_ = NULL;
    child1_ = NULL;
    child2_ = NULL;
    child3_ = NULL;
    grand_child1_ = NULL;
    grand_child2_ = NULL;
    grand_child3_ = NULL;

    layer_tree_host_->SetRootLayer(NULL);
    layer_tree_host_.reset();
  }

  void VerifyTestTreeInitialState() const {
    ASSERT_EQ(3U, parent_->children().size());
    EXPECT_EQ(child1_, parent_->children()[0]);
    EXPECT_EQ(child2_, parent_->children()[1]);
    EXPECT_EQ(child3_, parent_->children()[2]);
    EXPECT_EQ(parent_.get(), child1_->parent());
    EXPECT_EQ(parent_.get(), child2_->parent());
    EXPECT_EQ(parent_.get(), child3_->parent());

    ASSERT_EQ(2U, child1_->children().size());
    EXPECT_EQ(grand_child1_, child1_->children()[0]);
    EXPECT_EQ(grand_child2_, child1_->children()[1]);
    EXPECT_EQ(child1_.get(), grand_child1_->parent());
    EXPECT_EQ(child1_.get(), grand_child2_->parent());

    ASSERT_EQ(1U, child2_->children().size());
    EXPECT_EQ(grand_child3_, child2_->children()[0]);
    EXPECT_EQ(child2_.get(), grand_child3_->parent());

    ASSERT_EQ(0U, child3_->children().size());
  }

  void CreateSimpleTestTree() {
    parent_ = Layer::Create();
    child1_ = Layer::Create();
    child2_ = Layer::Create();
    child3_ = Layer::Create();
    grand_child1_ = Layer::Create();
    grand_child2_ = Layer::Create();
    grand_child3_ = Layer::Create();

    EXPECT_CALL(*layer_tree_host_, SetNeedsFullTreeSync()).Times(AnyNumber());
    layer_tree_host_->SetRootLayer(parent_);

    parent_->AddChild(child1_);
    parent_->AddChild(child2_);
    parent_->AddChild(child3_);
    child1_->AddChild(grand_child1_);
    child1_->AddChild(grand_child2_);
    child2_->AddChild(grand_child3_);

    Mock::VerifyAndClearExpectations(layer_tree_host_.get());

    VerifyTestTreeInitialState();
  }

  FakeImplProxy proxy_;
  FakeLayerTreeHostImpl host_impl_;

  FakeLayerTreeHostClient fake_client_;
  scoped_ptr<StrictMock<MockLayerTreeHost> > layer_tree_host_;
  scoped_refptr<Layer> parent_;
  scoped_refptr<Layer> child1_;
  scoped_refptr<Layer> child2_;
  scoped_refptr<Layer> child3_;
  scoped_refptr<Layer> grand_child1_;
  scoped_refptr<Layer> grand_child2_;
  scoped_refptr<Layer> grand_child3_;
};

TEST_F(LayerTest, BasicCreateAndDestroy) {
  scoped_refptr<Layer> test_layer = Layer::Create();
  ASSERT_TRUE(test_layer.get());

  EXPECT_CALL(*layer_tree_host_, SetNeedsCommit()).Times(0);
  test_layer->SetLayerTreeHost(layer_tree_host_.get());
  Mock::VerifyAndClearExpectations(layer_tree_host_.get());

  EXPECT_CALL(*layer_tree_host_, SetNeedsCommit()).Times(0);
  test_layer->SetLayerTreeHost(NULL);
}

TEST_F(LayerTest, AddAndRemoveChild) {
  scoped_refptr<Layer> parent = Layer::Create();
  scoped_refptr<Layer> child = Layer::Create();

  // Upon creation, layers should not have children or parent.
  ASSERT_EQ(0U, parent->children().size());
  EXPECT_FALSE(child->parent());

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, layer_tree_host_->SetRootLayer(parent));
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, parent->AddChild(child));

  ASSERT_EQ(1U, parent->children().size());
  EXPECT_EQ(child.get(), parent->children()[0]);
  EXPECT_EQ(parent.get(), child->parent());
  EXPECT_EQ(parent.get(), child->RootLayer());

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(AtLeast(1), child->RemoveFromParent());
}

TEST_F(LayerTest, AddSameChildTwice) {
  EXPECT_CALL(*layer_tree_host_, SetNeedsFullTreeSync()).Times(AtLeast(1));

  scoped_refptr<Layer> parent = Layer::Create();
  scoped_refptr<Layer> child = Layer::Create();

  layer_tree_host_->SetRootLayer(parent);

  ASSERT_EQ(0u, parent->children().size());

  parent->AddChild(child);
  ASSERT_EQ(1u, parent->children().size());
  EXPECT_EQ(parent.get(), child->parent());

  parent->AddChild(child);
  ASSERT_EQ(1u, parent->children().size());
  EXPECT_EQ(parent.get(), child->parent());
}

TEST_F(LayerTest, InsertChild) {
  scoped_refptr<Layer> parent = Layer::Create();
  scoped_refptr<Layer> child1 = Layer::Create();
  scoped_refptr<Layer> child2 = Layer::Create();
  scoped_refptr<Layer> child3 = Layer::Create();
  scoped_refptr<Layer> child4 = Layer::Create();

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, layer_tree_host_->SetRootLayer(parent));

  ASSERT_EQ(0U, parent->children().size());

  // Case 1: inserting to empty list.
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, parent->InsertChild(child3, 0));
  ASSERT_EQ(1U, parent->children().size());
  EXPECT_EQ(child3, parent->children()[0]);
  EXPECT_EQ(parent.get(), child3->parent());

  // Case 2: inserting to beginning of list
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, parent->InsertChild(child1, 0));
  ASSERT_EQ(2U, parent->children().size());
  EXPECT_EQ(child1, parent->children()[0]);
  EXPECT_EQ(child3, parent->children()[1]);
  EXPECT_EQ(parent.get(), child1->parent());

  // Case 3: inserting to middle of list
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, parent->InsertChild(child2, 1));
  ASSERT_EQ(3U, parent->children().size());
  EXPECT_EQ(child1, parent->children()[0]);
  EXPECT_EQ(child2, parent->children()[1]);
  EXPECT_EQ(child3, parent->children()[2]);
  EXPECT_EQ(parent.get(), child2->parent());

  // Case 4: inserting to end of list
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, parent->InsertChild(child4, 3));

  ASSERT_EQ(4U, parent->children().size());
  EXPECT_EQ(child1, parent->children()[0]);
  EXPECT_EQ(child2, parent->children()[1]);
  EXPECT_EQ(child3, parent->children()[2]);
  EXPECT_EQ(child4, parent->children()[3]);
  EXPECT_EQ(parent.get(), child4->parent());

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, layer_tree_host_->SetRootLayer(NULL));
}

TEST_F(LayerTest, InsertChildPastEndOfList) {
  scoped_refptr<Layer> parent = Layer::Create();
  scoped_refptr<Layer> child1 = Layer::Create();
  scoped_refptr<Layer> child2 = Layer::Create();

  ASSERT_EQ(0U, parent->children().size());

  // insert to an out-of-bounds index
  parent->InsertChild(child1, 53);

  ASSERT_EQ(1U, parent->children().size());
  EXPECT_EQ(child1, parent->children()[0]);

  // insert another child to out-of-bounds, when list is not already empty.
  parent->InsertChild(child2, 2459);

  ASSERT_EQ(2U, parent->children().size());
  EXPECT_EQ(child1, parent->children()[0]);
  EXPECT_EQ(child2, parent->children()[1]);
}

TEST_F(LayerTest, InsertSameChildTwice) {
  scoped_refptr<Layer> parent = Layer::Create();
  scoped_refptr<Layer> child1 = Layer::Create();
  scoped_refptr<Layer> child2 = Layer::Create();

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, layer_tree_host_->SetRootLayer(parent));

  ASSERT_EQ(0U, parent->children().size());

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, parent->InsertChild(child1, 0));
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, parent->InsertChild(child2, 1));

  ASSERT_EQ(2U, parent->children().size());
  EXPECT_EQ(child1, parent->children()[0]);
  EXPECT_EQ(child2, parent->children()[1]);

  // Inserting the same child again should cause the child to be removed and
  // re-inserted at the new location.
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(AtLeast(1), parent->InsertChild(child1, 1));

  // child1 should now be at the end of the list.
  ASSERT_EQ(2U, parent->children().size());
  EXPECT_EQ(child2, parent->children()[0]);
  EXPECT_EQ(child1, parent->children()[1]);

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, layer_tree_host_->SetRootLayer(NULL));
}

TEST_F(LayerTest, ReplaceChildWithNewChild) {
  CreateSimpleTestTree();
  scoped_refptr<Layer> child4 = Layer::Create();

  EXPECT_FALSE(child4->parent());

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(
      AtLeast(1), parent_->ReplaceChild(child2_.get(), child4));
  EXPECT_FALSE(parent_->NeedsDisplayForTesting());
  EXPECT_FALSE(child1_->NeedsDisplayForTesting());
  EXPECT_FALSE(child2_->NeedsDisplayForTesting());
  EXPECT_FALSE(child3_->NeedsDisplayForTesting());
  EXPECT_FALSE(child4->NeedsDisplayForTesting());

  ASSERT_EQ(static_cast<size_t>(3), parent_->children().size());
  EXPECT_EQ(child1_, parent_->children()[0]);
  EXPECT_EQ(child4, parent_->children()[1]);
  EXPECT_EQ(child3_, parent_->children()[2]);
  EXPECT_EQ(parent_.get(), child4->parent());

  EXPECT_FALSE(child2_->parent());
}

TEST_F(LayerTest, ReplaceChildWithNewChildThatHasOtherParent) {
  CreateSimpleTestTree();

  // create another simple tree with test_layer and child4.
  scoped_refptr<Layer> test_layer = Layer::Create();
  scoped_refptr<Layer> child4 = Layer::Create();
  test_layer->AddChild(child4);
  ASSERT_EQ(1U, test_layer->children().size());
  EXPECT_EQ(child4, test_layer->children()[0]);
  EXPECT_EQ(test_layer.get(), child4->parent());

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(
      AtLeast(1), parent_->ReplaceChild(child2_.get(), child4));

  ASSERT_EQ(3U, parent_->children().size());
  EXPECT_EQ(child1_, parent_->children()[0]);
  EXPECT_EQ(child4, parent_->children()[1]);
  EXPECT_EQ(child3_, parent_->children()[2]);
  EXPECT_EQ(parent_.get(), child4->parent());

  // test_layer should no longer have child4,
  // and child2 should no longer have a parent.
  ASSERT_EQ(0U, test_layer->children().size());
  EXPECT_FALSE(child2_->parent());
}

TEST_F(LayerTest, ReplaceChildWithSameChild) {
  CreateSimpleTestTree();

  // SetNeedsFullTreeSync / SetNeedsCommit should not be called because its the
  // same child.
  EXPECT_CALL(*layer_tree_host_, SetNeedsCommit()).Times(0);
  EXPECT_CALL(*layer_tree_host_, SetNeedsFullTreeSync()).Times(0);
  parent_->ReplaceChild(child2_.get(), child2_);

  VerifyTestTreeInitialState();
}

TEST_F(LayerTest, RemoveAllChildren) {
  CreateSimpleTestTree();

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(AtLeast(3), parent_->RemoveAllChildren());

  ASSERT_EQ(0U, parent_->children().size());
  EXPECT_FALSE(child1_->parent());
  EXPECT_FALSE(child2_->parent());
  EXPECT_FALSE(child3_->parent());
}

TEST_F(LayerTest, SetChildren) {
  scoped_refptr<Layer> old_parent = Layer::Create();
  scoped_refptr<Layer> new_parent = Layer::Create();

  scoped_refptr<Layer> child1 = Layer::Create();
  scoped_refptr<Layer> child2 = Layer::Create();

  LayerList new_children;
  new_children.push_back(child1);
  new_children.push_back(child2);

  // Set up and verify initial test conditions: child1 has a parent, child2 has
  // no parent.
  old_parent->AddChild(child1);
  ASSERT_EQ(0U, new_parent->children().size());
  EXPECT_EQ(old_parent.get(), child1->parent());
  EXPECT_FALSE(child2->parent());

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(
      1, layer_tree_host_->SetRootLayer(new_parent));

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(
      AtLeast(1), new_parent->SetChildren(new_children));

  ASSERT_EQ(2U, new_parent->children().size());
  EXPECT_EQ(new_parent.get(), child1->parent());
  EXPECT_EQ(new_parent.get(), child2->parent());

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, layer_tree_host_->SetRootLayer(NULL));
}

TEST_F(LayerTest, HasAncestor) {
  scoped_refptr<Layer> parent = Layer::Create();
  EXPECT_FALSE(parent->HasAncestor(parent));

  scoped_refptr<Layer> child = Layer::Create();
  parent->AddChild(child);

  EXPECT_FALSE(child->HasAncestor(child));
  EXPECT_TRUE(child->HasAncestor(parent));
  EXPECT_FALSE(parent->HasAncestor(child));

  scoped_refptr<Layer> child_child = Layer::Create();
  child->AddChild(child_child);

  EXPECT_FALSE(child_child->HasAncestor(child_child));
  EXPECT_TRUE(child_child->HasAncestor(parent));
  EXPECT_TRUE(child_child->HasAncestor(child));
  EXPECT_FALSE(parent->HasAncestor(child));
  EXPECT_FALSE(parent->HasAncestor(child_child));
}

TEST_F(LayerTest, GetRootLayerAfterTreeManipulations) {
  CreateSimpleTestTree();

  // For this test we don't care about SetNeedsFullTreeSync calls.
  EXPECT_CALL(*layer_tree_host_, SetNeedsFullTreeSync()).Times(AnyNumber());

  scoped_refptr<Layer> child4 = Layer::Create();

  EXPECT_EQ(parent_.get(), parent_->RootLayer());
  EXPECT_EQ(parent_.get(), child1_->RootLayer());
  EXPECT_EQ(parent_.get(), child2_->RootLayer());
  EXPECT_EQ(parent_.get(), child3_->RootLayer());
  EXPECT_EQ(child4.get(),   child4->RootLayer());
  EXPECT_EQ(parent_.get(), grand_child1_->RootLayer());
  EXPECT_EQ(parent_.get(), grand_child2_->RootLayer());
  EXPECT_EQ(parent_.get(), grand_child3_->RootLayer());

  child1_->RemoveFromParent();

  // |child1| and its children, grand_child1 and grand_child2 are now on a
  // separate subtree.
  EXPECT_EQ(parent_.get(), parent_->RootLayer());
  EXPECT_EQ(child1_.get(), child1_->RootLayer());
  EXPECT_EQ(parent_.get(), child2_->RootLayer());
  EXPECT_EQ(parent_.get(), child3_->RootLayer());
  EXPECT_EQ(child4.get(), child4->RootLayer());
  EXPECT_EQ(child1_.get(), grand_child1_->RootLayer());
  EXPECT_EQ(child1_.get(), grand_child2_->RootLayer());
  EXPECT_EQ(parent_.get(), grand_child3_->RootLayer());

  grand_child3_->AddChild(child4);

  EXPECT_EQ(parent_.get(), parent_->RootLayer());
  EXPECT_EQ(child1_.get(), child1_->RootLayer());
  EXPECT_EQ(parent_.get(), child2_->RootLayer());
  EXPECT_EQ(parent_.get(), child3_->RootLayer());
  EXPECT_EQ(parent_.get(), child4->RootLayer());
  EXPECT_EQ(child1_.get(), grand_child1_->RootLayer());
  EXPECT_EQ(child1_.get(), grand_child2_->RootLayer());
  EXPECT_EQ(parent_.get(), grand_child3_->RootLayer());

  child2_->ReplaceChild(grand_child3_.get(), child1_);

  // |grand_child3| gets orphaned and the child1 subtree gets planted back into
  // the tree under child2.
  EXPECT_EQ(parent_.get(), parent_->RootLayer());
  EXPECT_EQ(parent_.get(), child1_->RootLayer());
  EXPECT_EQ(parent_.get(), child2_->RootLayer());
  EXPECT_EQ(parent_.get(), child3_->RootLayer());
  EXPECT_EQ(grand_child3_.get(), child4->RootLayer());
  EXPECT_EQ(parent_.get(), grand_child1_->RootLayer());
  EXPECT_EQ(parent_.get(), grand_child2_->RootLayer());
  EXPECT_EQ(grand_child3_.get(), grand_child3_->RootLayer());
}

TEST_F(LayerTest, CheckSetNeedsDisplayCausesCorrectBehavior) {
  // The semantics for SetNeedsDisplay which are tested here:
  //   1. sets NeedsDisplay flag appropriately.
  //   2. indirectly calls SetNeedsUpdate, exactly once for each call to
  //      SetNeedsDisplay.

  scoped_refptr<Layer> test_layer = Layer::Create();
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(
      1, layer_tree_host_->SetRootLayer(test_layer));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetIsDrawable(true));

  gfx::Size test_bounds = gfx::Size(501, 508);

  gfx::RectF dirty1 = gfx::RectF(10.f, 15.f, 1.f, 2.f);
  gfx::RectF dirty2 = gfx::RectF(20.f, 25.f, 3.f, 4.f);
  gfx::RectF empty_dirty_rect = gfx::RectF(40.f, 45.f, 0.f, 0.f);
  gfx::RectF out_of_bounds_dirty_rect = gfx::RectF(400.f, 405.f, 500.f, 502.f);

  // Before anything, test_layer should not be dirty.
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());

  // This is just initialization, but SetNeedsCommit behavior is verified anyway
  // to avoid warnings.
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetBounds(test_bounds));
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());

  // The real test begins here.
  test_layer->ResetNeedsDisplayForTesting();
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());

  // Case 1: Layer should accept dirty rects that go beyond its bounds.
  test_layer->ResetNeedsDisplayForTesting();
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());
  EXPECT_SET_NEEDS_UPDATE(
      1, test_layer->SetNeedsDisplayRect(out_of_bounds_dirty_rect));
  EXPECT_TRUE(test_layer->NeedsDisplayForTesting());
  test_layer->ResetNeedsDisplayForTesting();

  // Case 2: SetNeedsDisplay() without the dirty rect arg.
  test_layer->ResetNeedsDisplayForTesting();
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());
  EXPECT_SET_NEEDS_UPDATE(1, test_layer->SetNeedsDisplay());
  EXPECT_TRUE(test_layer->NeedsDisplayForTesting());
  test_layer->ResetNeedsDisplayForTesting();

  // Case 3: SetNeedsDisplay() with an empty rect.
  test_layer->ResetNeedsDisplayForTesting();
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());
  EXPECT_SET_NEEDS_COMMIT(0, test_layer->SetNeedsDisplayRect(gfx::Rect()));
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());

  // Case 4: SetNeedsDisplay() with a non-drawable layer
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetIsDrawable(false));
  test_layer->ResetNeedsDisplayForTesting();
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());
  EXPECT_SET_NEEDS_UPDATE(0, test_layer->SetNeedsDisplayRect(dirty1));
  EXPECT_TRUE(test_layer->NeedsDisplayForTesting());
}

TEST_F(LayerTest, CheckPropertyChangeCausesCorrectBehavior) {
  scoped_refptr<Layer> test_layer = Layer::Create();
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(
      1, layer_tree_host_->SetRootLayer(test_layer));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetIsDrawable(true));

  scoped_refptr<Layer> dummy_layer1 = Layer::Create();
  scoped_refptr<Layer> dummy_layer2 = Layer::Create();

  // sanity check of initial test condition
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());

  // Next, test properties that should call SetNeedsCommit (but not
  // SetNeedsDisplay). All properties need to be set to new values in order for
  // SetNeedsCommit to be called.
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetAnchorPoint(
      gfx::PointF(1.23f, 4.56f)));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetAnchorPointZ(0.7f));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetBackgroundColor(SK_ColorLTGRAY));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetMasksToBounds(true));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetOpacity(0.5f));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetBlendMode(SkXfermode::kHue_Mode));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetIsRootForIsolatedGroup(true));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetContentsOpaque(true));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetPosition(gfx::PointF(4.f, 9.f)));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetSublayerTransform(
      gfx::Transform(0.0, 0.0, 0.0, 0.0, 0.0, 0.0)));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetScrollable(true));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetUserScrollable(true, false));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetScrollOffset(
      gfx::Vector2d(10, 10)));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetShouldScrollOnMainThread(true));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetNonFastScrollableRegion(
      Region(gfx::Rect(1, 1, 2, 2))));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetHaveWheelEventHandlers(true));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetTransform(
      gfx::Transform(0.0, 0.0, 0.0, 0.0, 0.0, 0.0)));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetDoubleSided(false));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetTouchEventHandlerRegion(
      gfx::Rect(10, 10)));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetDrawCheckerboardForMissingTiles(
      !test_layer->DrawCheckerboardForMissingTiles()));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetForceRenderSurface(true));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetHideLayerAndSubtree(true));

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, test_layer->SetMaskLayer(
      dummy_layer1.get()));
  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1, test_layer->SetReplicaLayer(
      dummy_layer2.get()));

  // The above tests should not have caused a change to the needs_display flag.
  EXPECT_FALSE(test_layer->NeedsDisplayForTesting());

  // As layers are removed from the tree, they will cause a tree sync.
  EXPECT_CALL(*layer_tree_host_, SetNeedsFullTreeSync()).Times((AnyNumber()));
}

TEST_F(LayerTest, PushPropertiesAccumulatesUpdateRect) {
  scoped_refptr<Layer> test_layer = Layer::Create();
  scoped_ptr<LayerImpl> impl_layer =
      LayerImpl::Create(host_impl_.active_tree(), 1);

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1,
                                  layer_tree_host_->SetRootLayer(test_layer));

  test_layer->SetNeedsDisplayRect(gfx::RectF(0.f, 0.f, 5.f, 5.f));
  test_layer->PushPropertiesTo(impl_layer.get());
  EXPECT_FLOAT_RECT_EQ(gfx::RectF(0.f, 0.f, 5.f, 5.f),
                       impl_layer->update_rect());

  // The LayerImpl's update_rect() should be accumulated here, since we did not
  // do anything to clear it.
  test_layer->SetNeedsDisplayRect(gfx::RectF(10.f, 10.f, 5.f, 5.f));
  test_layer->PushPropertiesTo(impl_layer.get());
  EXPECT_FLOAT_RECT_EQ(gfx::RectF(0.f, 0.f, 15.f, 15.f),
                       impl_layer->update_rect());

  // If we do clear the LayerImpl side, then the next update_rect() should be
  // fresh without accumulation.
  impl_layer->ResetAllChangeTrackingForSubtree();
  test_layer->SetNeedsDisplayRect(gfx::RectF(10.f, 10.f, 5.f, 5.f));
  test_layer->PushPropertiesTo(impl_layer.get());
  EXPECT_FLOAT_RECT_EQ(gfx::RectF(10.f, 10.f, 5.f, 5.f),
                       impl_layer->update_rect());
}

TEST_F(LayerTest, PushPropertiesCausesLayerPropertyChangedForTransform) {
  scoped_refptr<Layer> test_layer = Layer::Create();
  scoped_ptr<LayerImpl> impl_layer =
      LayerImpl::Create(host_impl_.active_tree(), 1);

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1,
                                  layer_tree_host_->SetRootLayer(test_layer));

  gfx::Transform transform;
  transform.Rotate(45.0);
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetTransform(transform));

  EXPECT_FALSE(impl_layer->LayerPropertyChanged());

  test_layer->PushPropertiesTo(impl_layer.get());

  EXPECT_TRUE(impl_layer->LayerPropertyChanged());
}

TEST_F(LayerTest, PushPropertiesCausesLayerPropertyChangedForOpacity) {
  scoped_refptr<Layer> test_layer = Layer::Create();
  scoped_ptr<LayerImpl> impl_layer =
      LayerImpl::Create(host_impl_.active_tree(), 1);

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1,
                                  layer_tree_host_->SetRootLayer(test_layer));

  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetOpacity(0.5f));

  EXPECT_FALSE(impl_layer->LayerPropertyChanged());

  test_layer->PushPropertiesTo(impl_layer.get());

  EXPECT_TRUE(impl_layer->LayerPropertyChanged());
}

TEST_F(LayerTest,
       PushPropsDoesntCauseLayerPropertyChangedDuringImplOnlyTransformAnim) {
  scoped_refptr<Layer> test_layer = Layer::Create();
  scoped_ptr<LayerImpl> impl_layer =
      LayerImpl::Create(host_impl_.active_tree(), 1);

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1,
                                  layer_tree_host_->SetRootLayer(test_layer));

  scoped_ptr<AnimationRegistrar> registrar = AnimationRegistrar::Create();
  impl_layer->layer_animation_controller()->SetAnimationRegistrar(
      registrar.get());

  AddAnimatedTransformToController(impl_layer->layer_animation_controller(),
                                   1.0,
                                   0,
                                   100);

  gfx::Transform transform;
  transform.Rotate(45.0);
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetTransform(transform));

  EXPECT_FALSE(impl_layer->LayerPropertyChanged());
  test_layer->PushPropertiesTo(impl_layer.get());
  EXPECT_TRUE(impl_layer->LayerPropertyChanged());

  impl_layer->ResetAllChangeTrackingForSubtree();
  AddAnimatedTransformToController(impl_layer->layer_animation_controller(),
                                   1.0,
                                   0,
                                   100);
  impl_layer->layer_animation_controller()->GetAnimation(Animation::Transform)->
      set_is_impl_only(true);
  transform.Rotate(45.0);
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetTransform(transform));

  EXPECT_FALSE(impl_layer->LayerPropertyChanged());
  test_layer->PushPropertiesTo(impl_layer.get());
  EXPECT_FALSE(impl_layer->LayerPropertyChanged());
}

TEST_F(LayerTest,
       PushPropsDoesntCauseLayerPropertyChangedDuringImplOnlyOpacityAnim) {
  scoped_refptr<Layer> test_layer = Layer::Create();
  scoped_ptr<LayerImpl> impl_layer =
      LayerImpl::Create(host_impl_.active_tree(), 1);

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1,
                                  layer_tree_host_->SetRootLayer(test_layer));

  scoped_ptr<AnimationRegistrar> registrar = AnimationRegistrar::Create();
  impl_layer->layer_animation_controller()->SetAnimationRegistrar(
      registrar.get());

  AddOpacityTransitionToController(impl_layer->layer_animation_controller(),
                                   1.0,
                                   0.3f,
                                   0.7f,
                                   false);

  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetOpacity(0.5f));

  EXPECT_FALSE(impl_layer->LayerPropertyChanged());
  test_layer->PushPropertiesTo(impl_layer.get());
  EXPECT_TRUE(impl_layer->LayerPropertyChanged());

  impl_layer->ResetAllChangeTrackingForSubtree();
  AddOpacityTransitionToController(impl_layer->layer_animation_controller(),
                                   1.0,
                                   0.3f,
                                   0.7f,
                                   false);
  impl_layer->layer_animation_controller()->GetAnimation(Animation::Opacity)->
      set_is_impl_only(true);
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetOpacity(0.75f));

  EXPECT_FALSE(impl_layer->LayerPropertyChanged());
  test_layer->PushPropertiesTo(impl_layer.get());
  EXPECT_FALSE(impl_layer->LayerPropertyChanged());
}

TEST_F(LayerTest,
       PushPropsDoesntCauseLayerPropertyChangedDuringImplOnlyFilterAnim) {
  scoped_refptr<Layer> test_layer = Layer::Create();
  scoped_ptr<LayerImpl> impl_layer =
      LayerImpl::Create(host_impl_.active_tree(), 1);

  EXPECT_SET_NEEDS_FULL_TREE_SYNC(1,
                                  layer_tree_host_->SetRootLayer(test_layer));

  scoped_ptr<AnimationRegistrar> registrar = AnimationRegistrar::Create();
  impl_layer->layer_animation_controller()->SetAnimationRegistrar(
      registrar.get());

  AddAnimatedFilterToController(
      impl_layer->layer_animation_controller(), 1.0, 1.f, 2.f);

  FilterOperations filters;
  filters.Append(FilterOperation::CreateBlurFilter(2.f));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetFilters(filters));

  EXPECT_FALSE(impl_layer->LayerPropertyChanged());
  test_layer->PushPropertiesTo(impl_layer.get());
  EXPECT_TRUE(impl_layer->LayerPropertyChanged());

  impl_layer->ResetAllChangeTrackingForSubtree();
  AddAnimatedFilterToController(
      impl_layer->layer_animation_controller(), 1.0, 1.f, 2.f);
  impl_layer->layer_animation_controller()->GetAnimation(Animation::Filter)->
      set_is_impl_only(true);
  filters.Append(FilterOperation::CreateSepiaFilter(0.5f));
  EXPECT_SET_NEEDS_COMMIT(1, test_layer->SetFilters(filters));

  EXPECT_FALSE(impl_layer->LayerPropertyChanged());
  test_layer->PushPropertiesTo(impl_layer.get());
  EXPECT_FALSE(impl_layer->LayerPropertyChanged());
}

TEST_F(LayerTest, MaskAndReplicaHasParent) {
  scoped_refptr<Layer> parent = Layer::Create();
  scoped_refptr<Layer> child = Layer::Create();
  scoped_refptr<Layer> mask = Layer::Create();
  scoped_refptr<Layer> replica = Layer::Create();
  scoped_refptr<Layer> replica_mask = Layer::Create();
  scoped_refptr<Layer> mask_replacement = Layer::Create();
  scoped_refptr<Layer> replica_replacement = Layer::Create();
  scoped_refptr<Layer> replica_mask_replacement = Layer::Create();

  parent->AddChild(child);
  child->SetMaskLayer(mask.get());
  child->SetReplicaLayer(replica.get());
  replica->SetMaskLayer(replica_mask.get());

  EXPECT_EQ(parent, child->parent());
  EXPECT_EQ(child, mask->parent());
  EXPECT_EQ(child, replica->parent());
  EXPECT_EQ(replica, replica_mask->parent());

  replica->SetMaskLayer(replica_mask_replacement.get());
  EXPECT_EQ(NULL, replica_mask->parent());
  EXPECT_EQ(replica, replica_mask_replacement->parent());

  child->SetMaskLayer(mask_replacement.get());
  EXPECT_EQ(NULL, mask->parent());
  EXPECT_EQ(child, mask_replacement->parent());

  child->SetReplicaLayer(replica_replacement.get());
  EXPECT_EQ(NULL, replica->parent());
  EXPECT_EQ(child, replica_replacement->parent());

  EXPECT_EQ(replica, replica->mask_layer()->parent());
}

class LayerTreeHostFactory {
 public:
  LayerTreeHostFactory()
      : client_(FakeLayerTreeHostClient::DIRECT_3D) {}

  scoped_ptr<LayerTreeHost> Create() {
    return LayerTreeHost::CreateSingleThreaded(&client_,
                                               &client_,
                                               NULL,
                                               LayerTreeSettings()).Pass();
  }

  scoped_ptr<LayerTreeHost> Create(LayerTreeSettings settings) {
    return LayerTreeHost::CreateSingleThreaded(&client_,
                                               &client_,
                                               NULL,
                                               settings).Pass();
  }

 private:
  FakeLayerTreeHostClient client_;
};

void AssertLayerTreeHostMatchesForSubtree(Layer* layer, LayerTreeHost* host) {
  EXPECT_EQ(host, layer->layer_tree_host());

  for (size_t i = 0; i < layer->children().size(); ++i)
    AssertLayerTreeHostMatchesForSubtree(layer->children()[i].get(), host);

  if (layer->mask_layer())
    AssertLayerTreeHostMatchesForSubtree(layer->mask_layer(), host);

  if (layer->replica_layer())
    AssertLayerTreeHostMatchesForSubtree(layer->replica_layer(), host);
}

TEST(LayerLayerTreeHostTest, EnteringTree) {
  scoped_refptr<Layer> parent = Layer::Create();
  scoped_refptr<Layer> child = Layer::Create();
  scoped_refptr<Layer> mask = Layer::Create();
  scoped_refptr<Layer> replica = Layer::Create();
  scoped_refptr<Layer> replica_mask = Layer::Create();

  // Set up a detached tree of layers. The host pointer should be nil for these
  // layers.
  parent->AddChild(child);
  child->SetMaskLayer(mask.get());
  child->SetReplicaLayer(replica.get());
  replica->SetMaskLayer(replica_mask.get());

  AssertLayerTreeHostMatchesForSubtree(parent.get(), NULL);

  LayerTreeHostFactory factory;
  scoped_ptr<LayerTreeHost> layer_tree_host = factory.Create();
  // Setting the root layer should set the host pointer for all layers in the
  // tree.
  layer_tree_host->SetRootLayer(parent.get());

  AssertLayerTreeHostMatchesForSubtree(parent.get(), layer_tree_host.get());

  // Clearing the root layer should also clear out the host pointers for all
  // layers in the tree.
  layer_tree_host->SetRootLayer(NULL);

  AssertLayerTreeHostMatchesForSubtree(parent.get(), NULL);
}

TEST(LayerLayerTreeHostTest, AddingLayerSubtree) {
  scoped_refptr<Layer> parent = Layer::Create();
  LayerTreeHostFactory factory;
  scoped_ptr<LayerTreeHost> layer_tree_host = factory.Create();

  layer_tree_host->SetRootLayer(parent.get());

  EXPECT_EQ(parent->layer_tree_host(), layer_tree_host.get());

  // Adding a subtree to a layer already associated with a host should set the
  // host pointer on all layers in that subtree.
  scoped_refptr<Layer> child = Layer::Create();
  scoped_refptr<Layer> grand_child = Layer::Create();
  child->AddChild(grand_child);

  // Masks, replicas, and replica masks should pick up the new host too.
  scoped_refptr<Layer> child_mask = Layer::Create();
  child->SetMaskLayer(child_mask.get());
  scoped_refptr<Layer> child_replica = Layer::Create();
  child->SetReplicaLayer(child_replica.get());
  scoped_refptr<Layer> child_replica_mask = Layer::Create();
  child_replica->SetMaskLayer(child_replica_mask.get());

  parent->AddChild(child);
  AssertLayerTreeHostMatchesForSubtree(parent.get(), layer_tree_host.get());

  layer_tree_host->SetRootLayer(NULL);
}

TEST(LayerLayerTreeHostTest, ChangeHost) {
  scoped_refptr<Layer> parent = Layer::Create();
  scoped_refptr<Layer> child = Layer::Create();
  scoped_refptr<Layer> mask = Layer::Create();
  scoped_refptr<Layer> replica = Layer::Create();
  scoped_refptr<Layer> replica_mask = Layer::Create();

  // Same setup as the previous test.
  parent->AddChild(child);
  child->SetMaskLayer(mask.get());
  child->SetReplicaLayer(replica.get());
  replica->SetMaskLayer(replica_mask.get());

  LayerTreeHostFactory factory;
  scoped_ptr<LayerTreeHost> first_layer_tree_host = factory.Create();
  first_layer_tree_host->SetRootLayer(parent.get());

  AssertLayerTreeHostMatchesForSubtree(parent.get(),
                                       first_layer_tree_host.get());

  // Now re-root the tree to a new host (simulating what we do on a context lost
  // event). This should update the host pointers for all layers in the tree.
  scoped_ptr<LayerTreeHost> second_layer_tree_host = factory.Create();
  second_layer_tree_host->SetRootLayer(parent.get());

  AssertLayerTreeHostMatchesForSubtree(parent.get(),
                                       second_layer_tree_host.get());

  second_layer_tree_host->SetRootLayer(NULL);
}

TEST(LayerLayerTreeHostTest, ChangeHostInSubtree) {
  scoped_refptr<Layer> first_parent = Layer::Create();
  scoped_refptr<Layer> first_child = Layer::Create();
  scoped_refptr<Layer> second_parent = Layer::Create();
  scoped_refptr<Layer> second_child = Layer::Create();
  scoped_refptr<Layer> second_grand_child = Layer::Create();

  // First put all children under the first parent and set the first host.
  first_parent->AddChild(first_child);
  second_child->AddChild(second_grand_child);
  first_parent->AddChild(second_child);

  LayerTreeHostFactory factory;
  scoped_ptr<LayerTreeHost> first_layer_tree_host = factory.Create();
  first_layer_tree_host->SetRootLayer(first_parent.get());

  AssertLayerTreeHostMatchesForSubtree(first_parent.get(),
                                       first_layer_tree_host.get());

  // Now reparent the subtree starting at second_child to a layer in a different
  // tree.
  scoped_ptr<LayerTreeHost> second_layer_tree_host = factory.Create();
  second_layer_tree_host->SetRootLayer(second_parent.get());

  second_parent->AddChild(second_child);

  // The moved layer and its children should point to the new host.
  EXPECT_EQ(second_layer_tree_host.get(), second_child->layer_tree_host());
  EXPECT_EQ(second_layer_tree_host.get(),
            second_grand_child->layer_tree_host());

  // Test over, cleanup time.
  first_layer_tree_host->SetRootLayer(NULL);
  second_layer_tree_host->SetRootLayer(NULL);
}

TEST(LayerLayerTreeHostTest, ReplaceMaskAndReplicaLayer) {
  scoped_refptr<Layer> parent = Layer::Create();
  scoped_refptr<Layer> mask = Layer::Create();
  scoped_refptr<Layer> replica = Layer::Create();
  scoped_refptr<Layer> mask_child = Layer::Create();
  scoped_refptr<Layer> replica_child = Layer::Create();
  scoped_refptr<Layer> mask_replacement = Layer::Create();
  scoped_refptr<Layer> replica_replacement = Layer::Create();

  parent->SetMaskLayer(mask.get());
  parent->SetReplicaLayer(replica.get());
  mask->AddChild(mask_child);
  replica->AddChild(replica_child);

  LayerTreeHostFactory factory;
  scoped_ptr<LayerTreeHost> layer_tree_host = factory.Create();
  layer_tree_host->SetRootLayer(parent.get());

  AssertLayerTreeHostMatchesForSubtree(parent.get(), layer_tree_host.get());

  // Replacing the mask should clear out the old mask's subtree's host pointers.
  parent->SetMaskLayer(mask_replacement.get());
  EXPECT_EQ(NULL, mask->layer_tree_host());
  EXPECT_EQ(NULL, mask_child->layer_tree_host());

  // Same for replacing a replica layer.
  parent->SetReplicaLayer(replica_replacement.get());
  EXPECT_EQ(NULL, replica->layer_tree_host());
  EXPECT_EQ(NULL, replica_child->layer_tree_host());

  // Test over, cleanup time.
  layer_tree_host->SetRootLayer(NULL);
}

TEST(LayerLayerTreeHostTest, DestroyHostWithNonNullRootLayer) {
  scoped_refptr<Layer> root = Layer::Create();
  scoped_refptr<Layer> child = Layer::Create();
  root->AddChild(child);
  LayerTreeHostFactory factory;
  scoped_ptr<LayerTreeHost> layer_tree_host = factory.Create();
  layer_tree_host->SetRootLayer(root);
}

static bool AddTestAnimation(Layer* layer) {
  scoped_ptr<KeyframedFloatAnimationCurve> curve =
      KeyframedFloatAnimationCurve::Create();
  curve->AddKeyframe(FloatKeyframe::Create(0.0,
                                           0.3f,
                                           scoped_ptr<TimingFunction>()));
  curve->AddKeyframe(FloatKeyframe::Create(1.0,
                                           0.7f,
                                           scoped_ptr<TimingFunction>()));
  scoped_ptr<Animation> animation =
      Animation::Create(curve.PassAs<AnimationCurve>(),
                        0,
                        0,
                        Animation::Opacity);

  return layer->AddAnimation(animation.Pass());
}

TEST(LayerLayerTreeHostTest, ShouldNotAddAnimationWithoutAnimationRegistrar) {
  scoped_refptr<Layer> layer = Layer::Create();

  // Case 1: without a LayerTreeHost and without an AnimationRegistrar, the
  // animation should not be accepted.
  EXPECT_FALSE(AddTestAnimation(layer.get()));

  scoped_ptr<AnimationRegistrar> registrar = AnimationRegistrar::Create();
  layer->layer_animation_controller()->SetAnimationRegistrar(registrar.get());

  // Case 2: with an AnimationRegistrar, the animation should be accepted.
  EXPECT_TRUE(AddTestAnimation(layer.get()));

  LayerTreeSettings settings;
  settings.accelerated_animation_enabled = false;
  LayerTreeHostFactory factory;
  scoped_ptr<LayerTreeHost> layer_tree_host = factory.Create(settings);
  layer_tree_host->SetRootLayer(layer);
  AssertLayerTreeHostMatchesForSubtree(layer.get(), layer_tree_host.get());

  // Case 3: with a LayerTreeHost where accelerated animation is disabled, the
  // animation should be rejected.
  EXPECT_FALSE(AddTestAnimation(layer.get()));
}

TEST_F(LayerTest, SafeOpaqueBackgroundColor) {
  LayerTreeHostFactory factory;
  scoped_ptr<LayerTreeHost> layer_tree_host = factory.Create();

  scoped_refptr<Layer> layer = Layer::Create();
  layer_tree_host->SetRootLayer(layer);

  for (int contents_opaque = 0; contents_opaque < 2; ++contents_opaque) {
    for (int layer_opaque = 0; layer_opaque < 2; ++layer_opaque) {
      for (int host_opaque = 0; host_opaque < 2; ++host_opaque) {
        layer->SetContentsOpaque(!!contents_opaque);
        layer->SetBackgroundColor(layer_opaque ? SK_ColorRED
                                               : SK_ColorTRANSPARENT);
        layer_tree_host->set_background_color(
            host_opaque ? SK_ColorRED : SK_ColorTRANSPARENT);

        SkColor safe_color = layer->SafeOpaqueBackgroundColor();
        if (contents_opaque) {
          EXPECT_EQ(SkColorGetA(safe_color), 255u)
              << "Flags: " << contents_opaque << ", " << layer_opaque << ", "
              << host_opaque << "\n";
        } else {
          EXPECT_NE(SkColorGetA(safe_color), 255u)
              << "Flags: " << contents_opaque << ", " << layer_opaque << ", "
              << host_opaque << "\n";
        }
      }
    }
  }
}

}  // namespace
}  // namespace cc