Content settings: remove some plugin-related code/resources when... there are no...
[chromium-blink-merge.git] / cc / base / delayed_unique_notifier_unittest.cc
blobf30834e460f4ad98b1fa618bd9490d9c44403f32
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 <deque>
7 #include "base/bind.h"
8 #include "base/bind_helpers.h"
9 #include "base/test/test_pending_task.h"
10 #include "base/test/test_simple_task_runner.h"
11 #include "cc/base/delayed_unique_notifier.h"
12 #include "testing/gtest/include/gtest/gtest.h"
14 namespace cc {
15 namespace {
17 class TestNotifier : public DelayedUniqueNotifier {
18 public:
19 TestNotifier(base::SequencedTaskRunner* task_runner,
20 const base::Closure& closure,
21 const base::TimeDelta& delay)
22 : DelayedUniqueNotifier(task_runner, closure, delay) {}
23 ~TestNotifier() override {}
25 // Overridden from DelayedUniqueNotifier:
26 base::TimeTicks Now() const override { return now_; }
28 void SetNow(base::TimeTicks now) { now_ = now; }
30 private:
31 base::TimeTicks now_;
34 class DelayedUniqueNotifierTest : public testing::Test {
35 public:
36 DelayedUniqueNotifierTest() : notification_count_(0) {}
38 void SetUp() override {
39 notification_count_ = 0;
40 task_runner_ = make_scoped_refptr(new base::TestSimpleTaskRunner);
43 void Notify() { ++notification_count_; }
45 int NotificationCount() const { return notification_count_; }
47 std::deque<base::TestPendingTask> TakePendingTasks() {
48 std::deque<base::TestPendingTask> tasks = task_runner_->GetPendingTasks();
49 task_runner_->ClearPendingTasks();
50 return tasks;
53 protected:
54 int notification_count_;
55 scoped_refptr<base::TestSimpleTaskRunner> task_runner_;
58 TEST_F(DelayedUniqueNotifierTest, ZeroDelay) {
59 base::TimeDelta delay = base::TimeDelta::FromInternalValue(0);
60 TestNotifier notifier(
61 task_runner_.get(),
62 base::Bind(&DelayedUniqueNotifierTest::Notify, base::Unretained(this)),
63 delay);
65 EXPECT_EQ(0, NotificationCount());
67 // Basic schedule for |delay| from now.
68 base::TimeTicks schedule_time =
69 base::TimeTicks() + base::TimeDelta::FromInternalValue(10);
71 notifier.SetNow(schedule_time);
72 notifier.Schedule();
74 std::deque<base::TestPendingTask> tasks = TakePendingTasks();
75 ASSERT_EQ(1u, tasks.size());
76 EXPECT_EQ(base::TimeTicks() + delay, tasks[0].GetTimeToRun());
78 tasks[0].task.Run();
79 EXPECT_EQ(1, NotificationCount());
81 // 5 schedules should result in only one run.
82 for (int i = 0; i < 5; ++i)
83 notifier.Schedule();
85 tasks = TakePendingTasks();
86 ASSERT_EQ(1u, tasks.size());
87 EXPECT_EQ(base::TimeTicks() + delay, tasks[0].GetTimeToRun());
89 tasks[0].task.Run();
90 EXPECT_EQ(2, NotificationCount());
93 TEST_F(DelayedUniqueNotifierTest, SmallDelay) {
94 base::TimeDelta delay = base::TimeDelta::FromInternalValue(20);
95 TestNotifier notifier(
96 task_runner_.get(),
97 base::Bind(&DelayedUniqueNotifierTest::Notify, base::Unretained(this)),
98 delay);
100 EXPECT_EQ(0, NotificationCount());
102 // Basic schedule for |delay| from now (now: 30, run time: 50).
103 base::TimeTicks schedule_time =
104 base::TimeTicks() + base::TimeDelta::FromInternalValue(30);
106 notifier.SetNow(schedule_time);
107 notifier.Schedule();
109 std::deque<base::TestPendingTask> tasks = TakePendingTasks();
111 ASSERT_EQ(1u, tasks.size());
112 EXPECT_EQ(base::TimeTicks() + delay, tasks[0].GetTimeToRun());
114 // It's not yet time to run, so we expect no notifications.
115 tasks[0].task.Run();
116 EXPECT_EQ(0, NotificationCount());
118 tasks = TakePendingTasks();
120 ASSERT_EQ(1u, tasks.size());
121 // Now the time should be delay minus whatever the value of now happens to be
122 // (now: 30, run time: 50).
123 base::TimeTicks scheduled_run_time = notifier.Now() + delay;
124 base::TimeTicks scheduled_delay =
125 base::TimeTicks() + (scheduled_run_time - notifier.Now());
126 EXPECT_EQ(scheduled_delay, tasks[0].GetTimeToRun());
128 // Move closer to the run time (time: 49, run time: 50).
129 notifier.SetNow(notifier.Now() + base::TimeDelta::FromInternalValue(19));
131 // It's not yet time to run, so we expect no notifications.
132 tasks[0].task.Run();
133 EXPECT_EQ(0, NotificationCount());
135 tasks = TakePendingTasks();
136 ASSERT_EQ(1u, tasks.size());
138 // Now the time should be delay minus whatever the value of now happens to be.
139 scheduled_delay = base::TimeTicks() + (scheduled_run_time - notifier.Now());
140 EXPECT_EQ(scheduled_delay, tasks[0].GetTimeToRun());
142 // Move to exactly the run time (time: 50, run time: 50).
143 notifier.SetNow(notifier.Now() + base::TimeDelta::FromInternalValue(1));
145 // It's time to run!
146 tasks[0].task.Run();
147 EXPECT_EQ(1, NotificationCount());
149 tasks = TakePendingTasks();
150 EXPECT_EQ(0u, tasks.size());
153 TEST_F(DelayedUniqueNotifierTest, RescheduleDelay) {
154 base::TimeDelta delay = base::TimeDelta::FromInternalValue(20);
155 TestNotifier notifier(
156 task_runner_.get(),
157 base::Bind(&DelayedUniqueNotifierTest::Notify, base::Unretained(this)),
158 delay);
160 base::TimeTicks schedule_time;
161 // Move time 19 units forward and reschedule, expecting that we still need to
162 // run in |delay| time and we don't get a notification.
163 for (int i = 0; i < 10; ++i) {
164 EXPECT_EQ(0, NotificationCount());
166 // Move time forward 19 units.
167 schedule_time = notifier.Now() + base::TimeDelta::FromInternalValue(19);
168 notifier.SetNow(schedule_time);
169 notifier.Schedule();
171 std::deque<base::TestPendingTask> tasks = TakePendingTasks();
173 ASSERT_EQ(1u, tasks.size());
174 EXPECT_EQ(base::TimeTicks() + delay, tasks[0].GetTimeToRun());
176 // It's not yet time to run, so we expect no notifications.
177 tasks[0].task.Run();
178 EXPECT_EQ(0, NotificationCount());
181 // Move time forward 20 units, expecting a notification.
182 schedule_time = notifier.Now() + base::TimeDelta::FromInternalValue(20);
183 notifier.SetNow(schedule_time);
185 std::deque<base::TestPendingTask> tasks = TakePendingTasks();
187 ASSERT_EQ(1u, tasks.size());
188 EXPECT_EQ(base::TimeTicks() + delay, tasks[0].GetTimeToRun());
190 // Time to run!
191 tasks[0].task.Run();
192 EXPECT_EQ(1, NotificationCount());
195 TEST_F(DelayedUniqueNotifierTest, CancelAndHasPendingNotification) {
196 base::TimeDelta delay = base::TimeDelta::FromInternalValue(20);
197 TestNotifier notifier(
198 task_runner_.get(),
199 base::Bind(&DelayedUniqueNotifierTest::Notify, base::Unretained(this)),
200 delay);
202 EXPECT_EQ(0, NotificationCount());
204 // Schedule for |delay| seconds from now.
205 base::TimeTicks schedule_time =
206 notifier.Now() + base::TimeDelta::FromInternalValue(10);
207 notifier.SetNow(schedule_time);
208 notifier.Schedule();
209 EXPECT_TRUE(notifier.HasPendingNotification());
211 // Cancel the run.
212 notifier.Cancel();
213 EXPECT_FALSE(notifier.HasPendingNotification());
215 std::deque<base::TestPendingTask> tasks = TakePendingTasks();
217 ASSERT_EQ(1u, tasks.size());
218 EXPECT_EQ(base::TimeTicks() + delay, tasks[0].GetTimeToRun());
220 // Time to run, but a canceled task!
221 tasks[0].task.Run();
222 EXPECT_EQ(0, NotificationCount());
223 EXPECT_FALSE(notifier.HasPendingNotification());
225 tasks = TakePendingTasks();
226 EXPECT_EQ(0u, tasks.size());
228 notifier.Schedule();
229 EXPECT_TRUE(notifier.HasPendingNotification());
230 tasks = TakePendingTasks();
232 ASSERT_EQ(1u, tasks.size());
233 EXPECT_EQ(base::TimeTicks() + delay, tasks[0].GetTimeToRun());
235 // Advance the time.
236 notifier.SetNow(notifier.Now() + delay);
238 // This should run since it wasn't canceled.
239 tasks[0].task.Run();
240 EXPECT_EQ(1, NotificationCount());
241 EXPECT_FALSE(notifier.HasPendingNotification());
243 for (int i = 0; i < 10; ++i) {
244 notifier.Schedule();
245 EXPECT_TRUE(notifier.HasPendingNotification());
246 notifier.Cancel();
247 EXPECT_FALSE(notifier.HasPendingNotification());
250 tasks = TakePendingTasks();
252 ASSERT_EQ(1u, tasks.size());
253 EXPECT_EQ(base::TimeTicks() + delay, tasks[0].GetTimeToRun());
255 // Time to run, but a canceled task!
256 notifier.SetNow(notifier.Now() + delay);
257 tasks[0].task.Run();
258 EXPECT_EQ(1, NotificationCount());
260 tasks = TakePendingTasks();
261 EXPECT_EQ(0u, tasks.size());
262 EXPECT_FALSE(notifier.HasPendingNotification());
265 TEST_F(DelayedUniqueNotifierTest, ShutdownWithScheduledTask) {
266 base::TimeDelta delay = base::TimeDelta::FromInternalValue(20);
267 TestNotifier notifier(
268 task_runner_.get(),
269 base::Bind(&DelayedUniqueNotifierTest::Notify, base::Unretained(this)),
270 delay);
272 EXPECT_EQ(0, NotificationCount());
274 // Schedule for |delay| seconds from now.
275 base::TimeTicks schedule_time =
276 notifier.Now() + base::TimeDelta::FromInternalValue(10);
277 notifier.SetNow(schedule_time);
278 notifier.Schedule();
279 EXPECT_TRUE(notifier.HasPendingNotification());
281 // Shutdown the notifier.
282 notifier.Shutdown();
284 // The task is still there, but...
285 std::deque<base::TestPendingTask> tasks = TakePendingTasks();
286 ASSERT_EQ(1u, tasks.size());
288 // Running the task after shutdown does nothing since it's cancelled.
289 tasks[0].task.Run();
290 EXPECT_EQ(0, NotificationCount());
292 tasks = TakePendingTasks();
293 EXPECT_EQ(0u, tasks.size());
295 // We are no longer able to schedule tasks.
296 notifier.Schedule();
297 tasks = TakePendingTasks();
298 ASSERT_EQ(0u, tasks.size());
300 // Verify after the scheduled time happens there is still no task.
301 notifier.SetNow(notifier.Now() + delay);
302 tasks = TakePendingTasks();
303 ASSERT_EQ(0u, tasks.size());
306 TEST_F(DelayedUniqueNotifierTest, ShutdownPreventsSchedule) {
307 base::TimeDelta delay = base::TimeDelta::FromInternalValue(20);
308 TestNotifier notifier(
309 task_runner_.get(),
310 base::Bind(&DelayedUniqueNotifierTest::Notify, base::Unretained(this)),
311 delay);
313 EXPECT_EQ(0, NotificationCount());
315 // Schedule for |delay| seconds from now.
316 base::TimeTicks schedule_time =
317 notifier.Now() + base::TimeDelta::FromInternalValue(10);
318 notifier.SetNow(schedule_time);
320 // Shutdown the notifier.
321 notifier.Shutdown();
323 // Scheduling a task no longer does anything.
324 notifier.Schedule();
325 std::deque<base::TestPendingTask> tasks = TakePendingTasks();
326 ASSERT_EQ(0u, tasks.size());
328 // Verify after the scheduled time happens there is still no task.
329 notifier.SetNow(notifier.Now() + delay);
330 tasks = TakePendingTasks();
331 ASSERT_EQ(0u, tasks.size());
334 } // namespace
335 } // namespace cc