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SFML/test/System/Time.cpp
Chris Thrasher fd3526f742 Use <> for test utilities includes 
SFML convention is to only use "" includes when the header is in
the same directory as the file including it. Because these test
util headers are in a separate directory, it makes more sense to
include them via <>.
2022-06-27 00:22:16 +02:00

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#include <SFML/System/Time.hpp>
#include <SystemUtil.hpp>
#include <doctest.h>
TEST_CASE("sf::Time class - [system]")
{
SUBCASE("Construction")
{
SUBCASE("Default constructor")
{
const sf::Time time;
CHECK(time.asSeconds() == 0.0f);
CHECK(time.asMilliseconds() == 0);
CHECK(time.asMicroseconds() == 0);
}
SUBCASE("Construct from seconds")
{
const sf::Time time = sf::seconds(123);
CHECK(time.asSeconds() == 123.0f);
CHECK(time.asMilliseconds() == 123'000);
CHECK(time.asMicroseconds() == 123'000'000);
CHECK(sf::seconds(1'000.0f).asMicroseconds() == 1'000'000'000);
CHECK(sf::seconds(0.0000009f).asMicroseconds() == 0);
CHECK(sf::seconds(0.0000001f).asMicroseconds() == 0);
CHECK(sf::seconds(0.00000001f).asMicroseconds() == 0);
CHECK(sf::seconds(0.000000001f).asMicroseconds() == 0);
CHECK(sf::seconds(-0.000000001f).asMicroseconds() == 0);
CHECK(sf::seconds(-0.00000001f).asMicroseconds() == 0);
CHECK(sf::seconds(-0.0000001f).asMicroseconds() == 0);
CHECK(sf::seconds(-0.0000009f).asMicroseconds() == 0);
CHECK(sf::seconds(-1'000.0f).asMicroseconds() == -1'000'000'000);
}
SUBCASE("Construct from milliseconds")
{
const sf::Time time = sf::milliseconds(42);
CHECK(time.asSeconds() == 0.042f);
CHECK(time.asMilliseconds() == 42);
CHECK(time.asMicroseconds() == 42'000);
}
SUBCASE("Construct from microseconds")
{
const sf::Time time = sf::microseconds(987654);
CHECK(time.asSeconds() == 0.987654f);
CHECK(time.asMilliseconds() == 987);
CHECK(time.asMicroseconds() == 987'654);
}
}
SUBCASE("Zero time")
{
CHECK(sf::Time::Zero.asSeconds() == 0.0f);
CHECK(sf::Time::Zero.asMilliseconds() == 0);
CHECK(sf::Time::Zero.asMicroseconds() == 0);
}
SUBCASE("Operators")
{
SUBCASE("operator==")
{
CHECK(sf::Time() == sf::Time());
CHECK(sf::seconds(1) == sf::seconds(1));
CHECK(sf::seconds(10) == sf::milliseconds(10'000));
CHECK(sf::milliseconds(450'450) == sf::microseconds(450'450'000));
CHECK(sf::seconds(0.5f) == sf::microseconds(500'000));
}
SUBCASE("operator!=")
{
CHECK(sf::seconds(10.12f) != sf::milliseconds(10'121));
CHECK(sf::microseconds(123'456) != sf::milliseconds(123));
}
SUBCASE("operator<")
{
CHECK(sf::seconds(54.999f) < sf::seconds(55));
CHECK(sf::microseconds(10) < sf::milliseconds(10));
CHECK(sf::milliseconds(1'000) < sf::microseconds(1'000'001));
}
SUBCASE("operator>")
{
CHECK(sf::seconds(55.001f) > sf::seconds(55));
CHECK(sf::microseconds(1) > sf::seconds(0.0000001f));
CHECK(sf::microseconds(1'000'001) > sf::milliseconds(1'000));
}
SUBCASE("operator<=")
{
CHECK(sf::milliseconds(100) <= sf::milliseconds(100));
CHECK(sf::seconds(0.0012f) <= sf::microseconds(1'201));
}
SUBCASE("operator>=")
{
CHECK(sf::milliseconds(100) >= sf::milliseconds(-100));
CHECK(sf::microseconds(1'201) >= sf::seconds(0.0012f));
}
SUBCASE("operator-")
{
CHECK(sf::seconds(-1) == -sf::seconds(1));
CHECK(sf::microseconds(1'234) == -sf::microseconds(-1'234));
}
SUBCASE("operator+")
{
CHECK(sf::seconds(1) + sf::seconds(1) == sf::seconds(2));
CHECK(sf::milliseconds(400) + sf::microseconds(400) == sf::microseconds(400400));
}
SUBCASE("operator+=")
{
sf::Time time = sf::seconds(1.5f);
time += sf::seconds(1);
CHECK(time == sf::seconds(2.5f));
}
SUBCASE("operator-")
{
CHECK(sf::seconds(1) - sf::seconds(1) == sf::seconds(0));
CHECK(sf::milliseconds(400) - sf::microseconds(400) == sf::microseconds(399600));
}
SUBCASE("operator-=")
{
sf::Time time = sf::seconds(1.5f);
time -= sf::seconds(10);
CHECK(time == sf::seconds(-8.5f));
}
SUBCASE("operator*")
{
CHECK(sf::seconds(1) * 2.0f == sf::seconds(2));
CHECK(sf::seconds(12) * 0.5f == sf::seconds(6));
CHECK(sf::seconds(1) * static_cast<sf::Int64>(2) == sf::seconds(2));
CHECK(sf::seconds(42) * static_cast<sf::Int64>(2) == sf::seconds(84));
CHECK(2.0f * sf::seconds(1) == sf::seconds(2));
CHECK(0.5f * sf::seconds(12) == sf::seconds(6));
CHECK(static_cast<sf::Int64>(2) * sf::seconds(1) == sf::seconds(2));
CHECK(static_cast<sf::Int64>(2) * sf::seconds(42) == sf::seconds(84));
}
SUBCASE("operator*=")
{
sf::Time time = sf::milliseconds(1'000);
time *= static_cast<sf::Int64>(10);
CHECK(time == sf::milliseconds(10'000));
time *= 0.1f;
CHECK(time.asMilliseconds() == 1'000);
}
SUBCASE("operator/")
{
CHECK(sf::seconds(1) / 2.0f == sf::seconds(0.5f));
CHECK(sf::seconds(12) / 0.5f == sf::seconds(24));
CHECK(sf::seconds(1) / static_cast<sf::Int64>(2) == sf::seconds(0.5f));
CHECK(sf::seconds(42) / static_cast<sf::Int64>(2) == sf::seconds(21));
CHECK(sf::seconds(1) / sf::seconds(1) == 1.0f);
CHECK(sf::milliseconds(10) / sf::microseconds(1) == doctest::Approx(10'000.0).epsilon(1e-6));
}
SUBCASE("operator/=")
{
sf::Time time = sf::milliseconds(1'000);
time /= static_cast<sf::Int64>(2);
CHECK(time == sf::milliseconds(500));
time /= 0.5f;
CHECK(time.asMilliseconds() == 1'000);
}
SUBCASE("operator%")
{
CHECK(sf::seconds(10) % sf::seconds(3) == sf::seconds(1));
CHECK(sf::milliseconds(100) % sf::microseconds(10) == sf::seconds(0));
}
SUBCASE("operator%=")
{
sf::Time time = sf::milliseconds(100);
time %= sf::milliseconds(99);
CHECK(time == sf::milliseconds(1));
}
}
SUBCASE("Constexpr support")
{
constexpr auto result = []
{
sf::Time time = sf::milliseconds(100);
time %= sf::milliseconds(99);
return time;
}();
static_assert(result == sf::milliseconds(1));
}
}
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