spdlog/tests/test_circular_q.cpp

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#include "includes.h"
#include "spdlog/details/circular_q.h"
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using q_type = spdlog::details::circular_q<size_t>;
TEST_CASE("test_size", "[circular_q]")
{
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const size_t q_size = 4;
q_type q(q_size);
REQUIRE(q.size() == 0);
REQUIRE(q.empty() == true);
REQUIRE(q.full() == false);
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for (size_t i = 0; i < q_size; i++)
{
q.push_back(10);
}
REQUIRE(q.size() == q_size);
q.push_back(999);
REQUIRE(q.size() == q_size);
}
TEST_CASE("test_rolling", "[circular_q]")
{
const size_t q_size = 4;
q_type q(q_size);
for (size_t i = 0; i < q_size + 2; i++)
{
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auto val = i;
q.push_back(std::move(val)); // arg to push_back must be r value
}
REQUIRE(q.size() == q_size);
REQUIRE(q.front() == 2);
q.pop_front();
REQUIRE(q.front() == 3);
q.pop_front();
REQUIRE(q.front() == 4);
q.pop_front();
REQUIRE(q.front() == 5);
q.pop_front();
REQUIRE(q.empty());
q.push_back(6);
REQUIRE(q.front() == 6);
}
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TEST_CASE("test_empty", "[circular_q]")
{
q_type q1(0);
REQUIRE(q1.empty());
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REQUIRE(q1.full()); // q with capacity 0 is considered full
q1.push_back(1);
REQUIRE(q1.empty());
q_type q2(1);
REQUIRE(q2.empty());
q2.push_back(1);
REQUIRE(!q2.empty());
q2.pop_front();
REQUIRE(q2.empty());
}
TEST_CASE("test_full", "[circular_q]")
{
q_type q1(0);
REQUIRE(q1.full());
q_type q2(2);
REQUIRE(!q2.full());
q2.push_back(1);
REQUIRE(!q2.full());
q2.push_back(2);
REQUIRE(q2.full());
}
TEST_CASE("test_operator[]", "[circular_q]")
{
q_type q(2);
q.push_back(100);
q.push_back(200);
REQUIRE(q[0] == 100);
REQUIRE(q[1] == 200);
}
TEST_CASE("test_operator=", "[circular_q]")
{
q_type q1(2);
q1.push_back(100);
q1.push_back(200);
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q_type q2 = q1;
REQUIRE(q2.size() == 2);
REQUIRE(q2[0] == 100);
REQUIRE(q2[1] == 200);
}
TEST_CASE("test_front", "[circular_q]")
{
q_type q(2);
q.push_back(100);
q.push_back(200);
REQUIRE(q.front() == 100);
}
TEST_CASE("test_overrun_counter", "[circular_q]")
{
q_type q(2);
REQUIRE(q.overrun_counter() == 0);
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for (size_t i = 0; i < 10; i++)
{
q.push_back(100);
}
REQUIRE(q.overrun_counter() == 8);
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q.reset_overrun_counter();
REQUIRE(q.overrun_counter() == 0);
}
TEST_CASE("test_move", "[circular_q]")
{
q_type q1(2);
q1.push_back(100);
q1.push_back(200);
q1.push_back(300);
q_type q2 = std::move(q1);
REQUIRE(q2.size() == 2);
REQUIRE(q2[0] == 200);
REQUIRE(q2[1] == 300);
REQUIRE(q2.overrun_counter() == 1);
REQUIRE(q1.empty());
REQUIRE(q1.overrun_counter() == 0);
}