TEST(Interrupt, handleThenInterrupt) {
Promise<int> p;
bool flag = false;
- p.setInterruptHandler([&](const exception_wrapper& e) { flag = true; });
+ p.setInterruptHandler([&](const exception_wrapper& /* e */) { flag = true; });
p.getFuture().cancel();
EXPECT_TRUE(flag);
}
Promise<int> p;
bool flag = false;
p.getFuture().cancel();
- p.setInterruptHandler([&](const exception_wrapper& e) { flag = true; });
+ p.setInterruptHandler([&](const exception_wrapper& /* e */) { flag = true; });
EXPECT_TRUE(flag);
}
TEST(Interrupt, interruptAfterFulfilNoop) {
Promise<Unit> p;
bool flag = false;
- p.setInterruptHandler([&](const exception_wrapper& e) { flag = true; });
+ p.setInterruptHandler([&](const exception_wrapper& /* e */) { flag = true; });
p.setValue();
p.getFuture().cancel();
EXPECT_FALSE(flag);
TEST(Interrupt, secondInterruptNoop) {
Promise<Unit> p;
int count = 0;
- p.setInterruptHandler([&](const exception_wrapper& e) { count++; });
+ p.setInterruptHandler([&](const exception_wrapper& /* e */) { count++; });
auto f = p.getFuture();
f.cancel();
f.cancel();
TEST(Interrupt, withinTimedOut) {
Promise<int> p;
Baton<> done;
- p.setInterruptHandler([&](const exception_wrapper& e) { done.post(); });
+ p.setInterruptHandler([&](const exception_wrapper& /* e */) { done.post(); });
p.getFuture().within(std::chrono::milliseconds(1));
// Give it 100ms to time out and call the interrupt handler
auto t = std::chrono::steady_clock::now() + std::chrono::milliseconds(100);