* Test scheduling a timeout from another timeout callback.
*/
TEST_F(HHWheelTimerTest, TestSchedulingWithinCallback) {
- StackWheelTimer t(&eventBase, milliseconds(10));
+ HHWheelTimer& t = eventBase.timer();
TestTimeout t1;
// Delayed to simulate the steady_clock counter lagging
*/
TEST_F(HHWheelTimerTest, CancelTimeout) {
- StackWheelTimer t(&eventBase, milliseconds(1));
+ HHWheelTimer& t = eventBase.timer();
// Create several timeouts that will all fire in 5ms.
TestTimeout t5_1(&t, milliseconds(5));
*/
TEST_F(HHWheelTimerTest, SlowLoop) {
- StackWheelTimer t(&eventBase, milliseconds(1));
+ HHWheelTimer& t = eventBase.timer();
TestTimeout t1;
TestTimeout t2;
}
TEST_F(HHWheelTimerTest, lambda) {
- StackWheelTimer t(&eventBase, milliseconds(1));
+ HHWheelTimer& t = eventBase.timer();
size_t count = 0;
t.scheduleTimeoutFn([&]{ count++; }, milliseconds(1));
eventBase.loop();
// shouldn't crash because we swallow and log the error (you'll have to look
// at the console to confirm logging)
TEST_F(HHWheelTimerTest, lambdaThrows) {
- StackWheelTimer t(&eventBase, milliseconds(1));
+ HHWheelTimer& t = eventBase.timer();
t.scheduleTimeoutFn([&]{ throw std::runtime_error("expected"); },
milliseconds(1));
eventBase.loop();
}
TEST_F(HHWheelTimerTest, cancelAll) {
- StackWheelTimer t(&eventBase);
+ HHWheelTimer& t = eventBase.timer();
TestTimeout tt;
t.scheduleTimeout(&tt, std::chrono::minutes(1));
EXPECT_EQ(1, t.cancelAll());