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cc / layers / layer_list_iterator_unittest.cc [blame]
// Copyright 2016 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "cc/layers/layer_list_iterator.h"
#include <memory>
#include <unordered_map>
#include <utility>
#include "base/containers/adapters.h"
#include "cc/animation/animation_host.h"
#include "cc/test/fake_layer_tree_frame_sink.h"
#include "cc/test/fake_layer_tree_host.h"
#include "cc/test/test_task_graph_runner.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace cc {
namespace {
// Layer version unit tests
TEST(LayerListIteratorTest, VerifyTraversalOrder) {
// Unfortunate preamble.
FakeLayerTreeHostClient client;
TestTaskGraphRunner task_graph_runner;
auto animation_host = AnimationHost::CreateForTesting(ThreadInstance::kMain);
std::unique_ptr<FakeLayerTreeHost> host_ptr = FakeLayerTreeHost::Create(
&client, &task_graph_runner, animation_host.get());
FakeLayerTreeHost* host = host_ptr.get();
// This test constructs the following tree.
// 1
// +-2
// | +-3
// | +-4
// + 5
// +-6
// +-7
// We expect to visit all seven layers in that order.
scoped_refptr<Layer> layer1 = Layer::Create();
scoped_refptr<Layer> layer2 = Layer::Create();
scoped_refptr<Layer> layer3 = Layer::Create();
scoped_refptr<Layer> layer4 = Layer::Create();
scoped_refptr<Layer> layer5 = Layer::Create();
scoped_refptr<Layer> layer6 = Layer::Create();
scoped_refptr<Layer> layer7 = Layer::Create();
std::unordered_map<int, int> layer_id_to_order;
layer_id_to_order[layer1->id()] = 1;
layer_id_to_order[layer2->id()] = 2;
layer_id_to_order[layer3->id()] = 3;
layer_id_to_order[layer4->id()] = 4;
layer_id_to_order[layer5->id()] = 5;
layer_id_to_order[layer6->id()] = 6;
layer_id_to_order[layer7->id()] = 7;
layer2->AddChild(std::move(layer3));
layer2->AddChild(std::move(layer4));
layer5->AddChild(std::move(layer6));
layer5->AddChild(std::move(layer7));
layer1->AddChild(std::move(layer2));
layer1->AddChild(std::move(layer5));
host->SetRootLayer(std::move(layer1));
int i = 1;
for (auto* layer : *host) {
EXPECT_EQ(i++, layer_id_to_order[layer->id()]);
}
EXPECT_EQ(8, i);
}
TEST(LayerListIteratorTest, VerifySingleLayer) {
// Unfortunate preamble.
FakeLayerTreeHostClient client;
TestTaskGraphRunner task_graph_runner;
auto animation_host = AnimationHost::CreateForTesting(ThreadInstance::kMain);
std::unique_ptr<FakeLayerTreeHost> host_ptr = FakeLayerTreeHost::Create(
&client, &task_graph_runner, animation_host.get());
FakeLayerTreeHost* host = host_ptr.get();
// This test constructs a tree consisting of a single layer.
scoped_refptr<Layer> layer1 = Layer::Create();
std::unordered_map<int, int> layer_id_to_order;
layer_id_to_order[layer1->id()] = 1;
host->SetRootLayer(std::move(layer1));
int i = 1;
for (auto* layer : *host) {
EXPECT_EQ(i++, layer_id_to_order[layer->id()]);
}
EXPECT_EQ(2, i);
}
TEST(LayerListIteratorTest, VerifyNullFirstLayer) {
// Ensures that if an iterator is constructed with a nullptr, that it can be
// iterated without issue and that it remains equal to any other
// null-initialized iterator.
LayerListIterator it(nullptr);
LayerListIterator end(nullptr);
EXPECT_EQ(it, end);
++it;
EXPECT_EQ(it, end);
}
TEST(LayerListReverseIteratorTest, VerifyTraversalOrder) {
// Unfortunate preamble.
FakeLayerTreeHostClient client;
TestTaskGraphRunner task_graph_runner;
auto animation_host = AnimationHost::CreateForTesting(ThreadInstance::kMain);
std::unique_ptr<FakeLayerTreeHost> host_ptr = FakeLayerTreeHost::Create(
&client, &task_graph_runner, animation_host.get());
FakeLayerTreeHost* host = host_ptr.get();
// This test constructs the following tree.
// 1
// +-2
// | +-3
// | +-4
// + 5
// +-6
// +-7
// We expect to visit all seven layers in reverse order.
scoped_refptr<Layer> layer1 = Layer::Create();
scoped_refptr<Layer> layer2 = Layer::Create();
scoped_refptr<Layer> layer3 = Layer::Create();
scoped_refptr<Layer> layer4 = Layer::Create();
scoped_refptr<Layer> layer5 = Layer::Create();
scoped_refptr<Layer> layer6 = Layer::Create();
scoped_refptr<Layer> layer7 = Layer::Create();
std::unordered_map<int, int> layer_id_to_order;
layer_id_to_order[layer1->id()] = 1;
layer_id_to_order[layer2->id()] = 2;
layer_id_to_order[layer3->id()] = 3;
layer_id_to_order[layer4->id()] = 4;
layer_id_to_order[layer5->id()] = 5;
layer_id_to_order[layer6->id()] = 6;
layer_id_to_order[layer7->id()] = 7;
layer2->AddChild(std::move(layer3));
layer2->AddChild(std::move(layer4));
layer5->AddChild(std::move(layer6));
layer5->AddChild(std::move(layer7));
layer1->AddChild(std::move(layer2));
layer1->AddChild(std::move(layer5));
host->SetRootLayer(std::move(layer1));
int i = 7;
for (auto* layer : base::Reversed(*host)) {
EXPECT_EQ(i--, layer_id_to_order[layer->id()]);
}
EXPECT_EQ(0, i);
}
TEST(LayerListReverseIteratorTest, VerifySingleLayer) {
// Unfortunate preamble.
FakeLayerTreeHostClient client;
TestTaskGraphRunner task_graph_runner;
auto animation_host = AnimationHost::CreateForTesting(ThreadInstance::kMain);
std::unique_ptr<FakeLayerTreeHost> host_ptr = FakeLayerTreeHost::Create(
&client, &task_graph_runner, animation_host.get());
FakeLayerTreeHost* host = host_ptr.get();
// This test constructs a tree consisting of a single layer.
scoped_refptr<Layer> layer1 = Layer::Create();
std::unordered_map<int, int> layer_id_to_order;
layer_id_to_order[layer1->id()] = 1;
host->SetRootLayer(std::move(layer1));
int i = 1;
for (auto* layer : base::Reversed(*host)) {
EXPECT_EQ(i--, layer_id_to_order[layer->id()]);
}
EXPECT_EQ(0, i);
}
TEST(LayerListReverseIteratorTest, VerifyNullFirstLayer) {
// Ensures that if an iterator is constructed with a nullptr, that it can be
// iterated without issue and that it remains equal to any other
// null-initialized iterator.
LayerListReverseIterator it(nullptr);
LayerListReverseIterator end(nullptr);
EXPECT_EQ(it, end);
++it;
EXPECT_EQ(it, end);
}
} // namespace
} // namespace cc