cc: Separate the priority from the tile and put in new PrioritizedTile
[chromium-blink-merge.git] / cc / resources / task_graph_runner_perftest.cc
blobcbd5c5cfc6cacaf77ab36ae23efea597094853ae
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "cc/resources/task_graph_runner.h"
7 #include <vector>
9 #include "base/memory/scoped_ptr.h"
10 #include "base/time/time.h"
11 #include "cc/base/completion_event.h"
12 #include "cc/debug/lap_timer.h"
13 #include "testing/gtest/include/gtest/gtest.h"
14 #include "testing/perf/perf_test.h"
16 namespace cc {
17 namespace {
19 static const int kTimeLimitMillis = 2000;
20 static const int kWarmupRuns = 5;
21 static const int kTimeCheckInterval = 10;
23 class PerfTaskImpl : public Task {
24 public:
25 typedef std::vector<scoped_refptr<PerfTaskImpl>> Vector;
27 PerfTaskImpl() {}
29 // Overridden from Task:
30 void RunOnWorkerThread() override {}
32 void Reset() { did_run_ = false; }
34 private:
35 ~PerfTaskImpl() override {}
37 DISALLOW_COPY_AND_ASSIGN(PerfTaskImpl);
40 class TaskGraphRunnerPerfTest : public testing::Test {
41 public:
42 TaskGraphRunnerPerfTest()
43 : timer_(kWarmupRuns,
44 base::TimeDelta::FromMilliseconds(kTimeLimitMillis),
45 kTimeCheckInterval) {}
47 // Overridden from testing::Test:
48 void SetUp() override {
49 task_graph_runner_ = make_scoped_ptr(new TaskGraphRunner);
50 namespace_token_ = task_graph_runner_->GetNamespaceToken();
52 void TearDown() override { task_graph_runner_ = nullptr; }
54 void RunBuildTaskGraphTest(const std::string& test_name,
55 int num_top_level_tasks,
56 int num_tasks,
57 int num_leaf_tasks) {
58 PerfTaskImpl::Vector top_level_tasks;
59 PerfTaskImpl::Vector tasks;
60 PerfTaskImpl::Vector leaf_tasks;
61 CreateTasks(num_top_level_tasks, &top_level_tasks);
62 CreateTasks(num_tasks, &tasks);
63 CreateTasks(num_leaf_tasks, &leaf_tasks);
65 // Avoid unnecessary heap allocations by reusing the same graph.
66 TaskGraph graph;
68 timer_.Reset();
69 do {
70 graph.Reset();
71 BuildTaskGraph(top_level_tasks, tasks, leaf_tasks, &graph);
72 timer_.NextLap();
73 } while (!timer_.HasTimeLimitExpired());
75 perf_test::PrintResult("build_task_graph",
76 TestModifierString(),
77 test_name,
78 timer_.LapsPerSecond(),
79 "runs/s",
80 true);
83 void RunScheduleTasksTest(const std::string& test_name,
84 int num_top_level_tasks,
85 int num_tasks,
86 int num_leaf_tasks) {
87 PerfTaskImpl::Vector top_level_tasks;
88 PerfTaskImpl::Vector tasks;
89 PerfTaskImpl::Vector leaf_tasks;
90 CreateTasks(num_top_level_tasks, &top_level_tasks);
91 CreateTasks(num_tasks, &tasks);
92 CreateTasks(num_leaf_tasks, &leaf_tasks);
94 // Avoid unnecessary heap allocations by reusing the same graph and
95 // completed tasks vector.
96 TaskGraph graph;
97 Task::Vector completed_tasks;
99 timer_.Reset();
100 do {
101 graph.Reset();
102 BuildTaskGraph(top_level_tasks, tasks, leaf_tasks, &graph);
103 task_graph_runner_->ScheduleTasks(namespace_token_, &graph);
104 // Shouldn't be any tasks to collect as we reschedule the same set
105 // of tasks.
106 DCHECK_EQ(0u, CollectCompletedTasks(&completed_tasks));
107 timer_.NextLap();
108 } while (!timer_.HasTimeLimitExpired());
110 TaskGraph empty;
111 task_graph_runner_->ScheduleTasks(namespace_token_, &empty);
112 CollectCompletedTasks(&completed_tasks);
114 perf_test::PrintResult("schedule_tasks",
115 TestModifierString(),
116 test_name,
117 timer_.LapsPerSecond(),
118 "runs/s",
119 true);
122 void RunScheduleAlternateTasksTest(const std::string& test_name,
123 int num_top_level_tasks,
124 int num_tasks,
125 int num_leaf_tasks) {
126 const size_t kNumVersions = 2;
127 PerfTaskImpl::Vector top_level_tasks[kNumVersions];
128 PerfTaskImpl::Vector tasks[kNumVersions];
129 PerfTaskImpl::Vector leaf_tasks[kNumVersions];
130 for (size_t i = 0; i < kNumVersions; ++i) {
131 CreateTasks(num_top_level_tasks, &top_level_tasks[i]);
132 CreateTasks(num_tasks, &tasks[i]);
133 CreateTasks(num_leaf_tasks, &leaf_tasks[i]);
136 // Avoid unnecessary heap allocations by reusing the same graph and
137 // completed tasks vector.
138 TaskGraph graph;
139 Task::Vector completed_tasks;
141 size_t count = 0;
142 timer_.Reset();
143 do {
144 graph.Reset();
145 BuildTaskGraph(top_level_tasks[count % kNumVersions],
146 tasks[count % kNumVersions],
147 leaf_tasks[count % kNumVersions],
148 &graph);
149 task_graph_runner_->ScheduleTasks(namespace_token_, &graph);
150 CollectCompletedTasks(&completed_tasks);
151 completed_tasks.clear();
152 ++count;
153 timer_.NextLap();
154 } while (!timer_.HasTimeLimitExpired());
156 TaskGraph empty;
157 task_graph_runner_->ScheduleTasks(namespace_token_, &empty);
158 CollectCompletedTasks(&completed_tasks);
160 perf_test::PrintResult("schedule_alternate_tasks",
161 TestModifierString(),
162 test_name,
163 timer_.LapsPerSecond(),
164 "runs/s",
165 true);
168 void RunScheduleAndExecuteTasksTest(const std::string& test_name,
169 int num_top_level_tasks,
170 int num_tasks,
171 int num_leaf_tasks) {
172 PerfTaskImpl::Vector top_level_tasks;
173 PerfTaskImpl::Vector tasks;
174 PerfTaskImpl::Vector leaf_tasks;
175 CreateTasks(num_top_level_tasks, &top_level_tasks);
176 CreateTasks(num_tasks, &tasks);
177 CreateTasks(num_leaf_tasks, &leaf_tasks);
179 // Avoid unnecessary heap allocations by reusing the same graph and
180 // completed tasks vector.
181 TaskGraph graph;
182 Task::Vector completed_tasks;
184 timer_.Reset();
185 do {
186 graph.Reset();
187 BuildTaskGraph(top_level_tasks, tasks, leaf_tasks, &graph);
188 task_graph_runner_->ScheduleTasks(namespace_token_, &graph);
189 task_graph_runner_->RunUntilIdle();
190 CollectCompletedTasks(&completed_tasks);
191 completed_tasks.clear();
192 ResetTasks(&top_level_tasks);
193 ResetTasks(&tasks);
194 ResetTasks(&leaf_tasks);
195 timer_.NextLap();
196 } while (!timer_.HasTimeLimitExpired());
198 perf_test::PrintResult("execute_tasks",
199 TestModifierString(),
200 test_name,
201 timer_.LapsPerSecond(),
202 "runs/s",
203 true);
206 private:
207 static std::string TestModifierString() {
208 return std::string("_task_graph_runner");
211 void CreateTasks(int num_tasks, PerfTaskImpl::Vector* tasks) {
212 for (int i = 0; i < num_tasks; ++i)
213 tasks->push_back(make_scoped_refptr(new PerfTaskImpl));
216 void ResetTasks(PerfTaskImpl::Vector* tasks) {
217 for (PerfTaskImpl::Vector::iterator it = tasks->begin(); it != tasks->end();
218 ++it) {
219 PerfTaskImpl* task = it->get();
220 task->Reset();
224 void BuildTaskGraph(const PerfTaskImpl::Vector& top_level_tasks,
225 const PerfTaskImpl::Vector& tasks,
226 const PerfTaskImpl::Vector& leaf_tasks,
227 TaskGraph* graph) {
228 DCHECK(graph->nodes.empty());
229 DCHECK(graph->edges.empty());
231 for (PerfTaskImpl::Vector::const_iterator it = leaf_tasks.begin();
232 it != leaf_tasks.end();
233 ++it) {
234 graph->nodes.push_back(TaskGraph::Node(it->get(), 0u, 0u));
237 for (PerfTaskImpl::Vector::const_iterator it = tasks.begin();
238 it != tasks.end();
239 ++it) {
240 graph->nodes.push_back(TaskGraph::Node(it->get(), 0u, leaf_tasks.size()));
242 for (PerfTaskImpl::Vector::const_iterator leaf_it = leaf_tasks.begin();
243 leaf_it != leaf_tasks.end();
244 ++leaf_it) {
245 graph->edges.push_back(TaskGraph::Edge(leaf_it->get(), it->get()));
248 for (PerfTaskImpl::Vector::const_iterator top_level_it =
249 top_level_tasks.begin();
250 top_level_it != top_level_tasks.end();
251 ++top_level_it) {
252 graph->edges.push_back(TaskGraph::Edge(it->get(), top_level_it->get()));
256 for (PerfTaskImpl::Vector::const_iterator it = top_level_tasks.begin();
257 it != top_level_tasks.end();
258 ++it) {
259 graph->nodes.push_back(TaskGraph::Node(it->get(), 0u, tasks.size()));
263 size_t CollectCompletedTasks(Task::Vector* completed_tasks) {
264 DCHECK(completed_tasks->empty());
265 task_graph_runner_->CollectCompletedTasks(namespace_token_,
266 completed_tasks);
267 return completed_tasks->size();
270 scoped_ptr<TaskGraphRunner> task_graph_runner_;
271 NamespaceToken namespace_token_;
272 LapTimer timer_;
275 TEST_F(TaskGraphRunnerPerfTest, BuildTaskGraph) {
276 RunBuildTaskGraphTest("0_1_0", 0, 1, 0);
277 RunBuildTaskGraphTest("0_32_0", 0, 32, 0);
278 RunBuildTaskGraphTest("2_1_0", 2, 1, 0);
279 RunBuildTaskGraphTest("2_32_0", 2, 32, 0);
280 RunBuildTaskGraphTest("2_1_1", 2, 1, 1);
281 RunBuildTaskGraphTest("2_32_1", 2, 32, 1);
284 TEST_F(TaskGraphRunnerPerfTest, ScheduleTasks) {
285 RunScheduleTasksTest("0_1_0", 0, 1, 0);
286 RunScheduleTasksTest("0_32_0", 0, 32, 0);
287 RunScheduleTasksTest("2_1_0", 2, 1, 0);
288 RunScheduleTasksTest("2_32_0", 2, 32, 0);
289 RunScheduleTasksTest("2_1_1", 2, 1, 1);
290 RunScheduleTasksTest("2_32_1", 2, 32, 1);
293 TEST_F(TaskGraphRunnerPerfTest, ScheduleAlternateTasks) {
294 RunScheduleAlternateTasksTest("0_1_0", 0, 1, 0);
295 RunScheduleAlternateTasksTest("0_32_0", 0, 32, 0);
296 RunScheduleAlternateTasksTest("2_1_0", 2, 1, 0);
297 RunScheduleAlternateTasksTest("2_32_0", 2, 32, 0);
298 RunScheduleAlternateTasksTest("2_1_1", 2, 1, 1);
299 RunScheduleAlternateTasksTest("2_32_1", 2, 32, 1);
302 TEST_F(TaskGraphRunnerPerfTest, ScheduleAndExecuteTasks) {
303 RunScheduleAndExecuteTasksTest("0_1_0", 0, 1, 0);
304 RunScheduleAndExecuteTasksTest("0_32_0", 0, 32, 0);
305 RunScheduleAndExecuteTasksTest("2_1_0", 2, 1, 0);
306 RunScheduleAndExecuteTasksTest("2_32_0", 2, 32, 0);
307 RunScheduleAndExecuteTasksTest("2_1_1", 2, 1, 1);
308 RunScheduleAndExecuteTasksTest("2_32_1", 2, 32, 1);
311 } // namespace
312 } // namespace cc