spdlog/tests/test_mpmc_q.cpp

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2018-08-14 22:57:55 +08:00
#include "includes.h"
using namespace std::chrono;
using std::chrono::system_clock;
using std::chrono::milliseconds;
system_clock::time_point now_millis()
{
return time_point_cast<milliseconds>(system_clock::now());
}
TEST_CASE("dequeue-empty-nowait", "[mpmc_blocking_q]")
{
size_t q_size = 100;
milliseconds tolerance_wait(10);
spdlog::details::mpmc_blocking_queue<int> q(q_size);
int popped_item;
auto millis_0 = now_millis();
auto rv = q.dequeue_for(popped_item, milliseconds::zero());
auto millis_1 = now_millis();
REQUIRE(rv == false);
REQUIRE((millis_1-millis_0) <= tolerance_wait);
}
TEST_CASE("dequeue-empty-wait", "[mpmc_blocking_q]")
{
size_t q_size = 100;
milliseconds wait_ms(250);
milliseconds tolerance_wait(10);
spdlog::details::mpmc_blocking_queue<int> q(q_size);
int popped_item;
auto millis_0 = now_millis();
auto rv = q.dequeue_for(popped_item, wait_ms);
auto millis_1 = now_millis();
auto delta_ms = millis_1 - millis_0;
REQUIRE(rv == false);
REQUIRE(delta_ms >= wait_ms);
REQUIRE(delta_ms <= wait_ms + tolerance_wait);
}
TEST_CASE("enqueue_nowait", "[mpmc_blocking_q]")
{
size_t q_size = 1;
spdlog::details::mpmc_blocking_queue<int> q(q_size);
milliseconds tolerance_wait(10);
q.enqueue(1);
REQUIRE(q.overrun_counter() == 0);
auto millis_0 = now_millis();
q.enqueue_nowait(2);
auto millis_1 = now_millis();
REQUIRE((millis_1-millis_0) <= tolerance_wait);
REQUIRE(q.overrun_counter() == 1);
}
TEST_CASE("bad_queue", "[mpmc_blocking_q]")
{
size_t q_size = 0;
spdlog::details::mpmc_blocking_queue<int> q(q_size);
q.enqueue_nowait(1);
REQUIRE(q.overrun_counter() == 1);
int i;
REQUIRE(q.dequeue_for(i, milliseconds(0)) == false);
}
TEST_CASE("empty_queue", "[mpmc_blocking_q]")
{
size_t q_size = 10;
spdlog::details::mpmc_blocking_queue<int> q(q_size);
int i;
REQUIRE(q.dequeue_for(i, milliseconds(10)) == false);
}
TEST_CASE("full_queue", "[mpmc_blocking_q]")
{
size_t q_size = 100;
spdlog::details::mpmc_blocking_queue<int> q(q_size);
for(int i = 0; i < static_cast<int>(q_size); i++)
{
q.enqueue(std::move(i));
}
q.enqueue_nowait(123456);
REQUIRE(q.overrun_counter() == 1);
for(int i = 1; i < static_cast<int>(q_size); i++)
{
int item;
q.dequeue_for(item, milliseconds(0));
REQUIRE(item == i);
}
// last item pushed has overridden the oldest.
int item;
q.dequeue_for(item, milliseconds(0));
REQUIRE(item == 123456);
}