GSL/tests/thread_tests.cpp

223 lines
5.2 KiB
C++

///////////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2017 Microsoft Corporation. All rights reserved.
//
// This code is licensed under the MIT License (MIT).
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
//
///////////////////////////////////////////////////////////////////////////////
#include <UnitTest++/UnitTest++.h>
#include <atomic>
#include <chrono>
#include <thread>
#include <gsl/gsl_assert>
#include <gsl/gsl_thread>
using std::chrono::steady_clock;
using std::this_thread::sleep_for;
const auto t_100ms = std::chrono::milliseconds(100);
SUITE(raii_thread_tests)
{
TEST(raii_thread_same_scope_clock_test)
{
auto start_time = steady_clock::now();
gsl::raii_thread t{[&]{ sleep_for(t_100ms); }};
auto end_time = steady_clock::now();
CHECK(end_time - start_time < t_100ms);
}
TEST(raii_thread_different_scope_clock_test)
{
auto start_time = steady_clock::now();
{
gsl::raii_thread t{[&]{ sleep_for(t_100ms); }};
}
auto end_time = steady_clock::now();
CHECK(end_time - start_time >= t_100ms);
}
TEST(raii_thread_ctor_test)
{
auto start_time = steady_clock::now();
gsl::raii_thread t1{[&]{ sleep_for(t_100ms); }};
{
gsl::raii_thread t2{std::move(t1)};
}
auto end_time = steady_clock::now();
CHECK(end_time - start_time >= t_100ms);
}
TEST(raii_thread_assign_test)
{
auto start_time = steady_clock::now();
gsl::raii_thread t1{[&]{ sleep_for(t_100ms); }};
{
gsl::raii_thread t2;
t2 = std::move(t1);
}
auto end_time = steady_clock::now();
CHECK(end_time - start_time >= t_100ms);
}
TEST(raii_thread_std_thread_ctor_test)
{
auto start_time = steady_clock::now();
std::thread t1{[&]{ sleep_for(t_100ms); }};
{
gsl::raii_thread t2{std::move(t1)};
}
auto end_time = steady_clock::now();
CHECK(end_time - start_time >= t_100ms);
}
TEST(raii_thread_std_thread_assign_test)
{
auto start_time = steady_clock::now();
std::thread t1{[&]{ sleep_for(t_100ms); }};
{
gsl::raii_thread t2;
t2 = std::move(t1);
}
auto end_time = steady_clock::now();
CHECK(end_time - start_time >= t_100ms);
}
TEST(raii_thread_swap_test)
{
gsl::raii_thread t1{[&]{ sleep_for(t_100ms); }};
gsl::raii_thread t2{[&]{ sleep_for(t_100ms); }};
auto id1 = t1.get_id();
auto id2 = t2.get_id();
std::swap(t1, t2);
CHECK(t1.get_id() == id2);
CHECK(t2.get_id() == id1);
t1.swap(t2);
CHECK(t1.get_id() == id1);
CHECK(t2.get_id() == id2);
}
}
SUITE(detached_thread_tests)
{
TEST(detached_thread_out_of_scope_test)
{
std::atomic_bool b{false};
{
gsl::detached_thread t{[&]{ sleep_for(t_100ms); b = true; }};
}
CHECK(b == false);
sleep_for(t_100ms * 2);
CHECK(b == true);
}
TEST(detached_thread_temporary_test)
{
std::atomic_bool b{false};
gsl::detached_thread{[&]{ sleep_for(t_100ms); b = true; }};
CHECK(b == false);
sleep_for(t_100ms * 2);
CHECK(b == true);
}
TEST(detached_thread_ctor_std_thread_test)
{
std::thread t1{[&]{ sleep_for(t_100ms); }};
gsl::detached_thread t2{std::move(t1)};
}
TEST(detached_thread_assign_std_thread_test)
{
std::thread t1{[&]{ sleep_for(t_100ms); }};
gsl::detached_thread t2;
t2 = std::move(t1);
}
TEST(detached_thread_temporary_assign_std_thread_test)
{
std::thread t1{[&]{ sleep_for(t_100ms); }};
gsl::detached_thread{std::move(t1)};
}
TEST(detached_thread_swap_test)
{
gsl::detached_thread t1{[&]{ sleep_for(t_100ms); }};
gsl::detached_thread t2{[&]{ sleep_for(t_100ms); }};
auto id1 = t1.get_id();
auto id2 = t2.get_id();
std::swap(t1, t2);
CHECK(t1.get_id() == id2);
CHECK(t2.get_id() == id1);
t1.swap(t2);
CHECK(t1.get_id() == id1);
CHECK(t2.get_id() == id2);
}
TEST(detached_thread_ctor_from_detached_std_thread)
{
std::thread t{[&]{ sleep_for(t_100ms); }};
t.detach();
gsl::detached_thread{std::move(t)};
sleep_for(t_100ms * 2);
}
TEST(detached_thread_assign_from_detached_std_thread)
{
std::thread t1{[&]{ sleep_for(t_100ms); }};
t1.detach();
gsl::detached_thread t2;
t2 = std::move(t1);
sleep_for(t_100ms * 2);
}
}
int main() { return UnitTest::RunAllTests(); }