#include #include "SystemUtil.hpp" #include // Use sf::Vector2i for tests. Test coverage is given, as there are no template specializations. TEST_CASE("sf::Vector2 class template - [system]") { SUBCASE("Construction") { SUBCASE("Default constructor") { sf::Vector2i vector; CHECK(vector.x == 0); CHECK(vector.y == 0); } SUBCASE("(x, y) coordinate constructor") { sf::Vector2i vector(1, 2); CHECK(vector.x == 1); CHECK(vector.y == 2); } SUBCASE("Conversion constructor") { sf::Vector2f sourceVector(1.0f, 2.0f); sf::Vector2i vector(sourceVector); CHECK(vector.x == static_cast(sourceVector.x)); CHECK(vector.y == static_cast(sourceVector.y)); } } SUBCASE("Unary operations") { SUBCASE("-vector") { sf::Vector2i vector(1, 2); sf::Vector2i negatedVector = -vector; CHECK(negatedVector.x == -1); CHECK(negatedVector.y == -2); } } SUBCASE("Arithmetic operations between two vectors") { sf::Vector2i firstVector(2, 5); sf::Vector2i secondVector(8, 3); SUBCASE("vector += vector") { firstVector += secondVector; CHECK(firstVector.x == 10); CHECK(firstVector.y == 8); } SUBCASE("vector -= vector") { firstVector -= secondVector; CHECK(firstVector.x == -6); CHECK(firstVector.y == 2); } SUBCASE("vector + vector") { sf::Vector2i result = firstVector + secondVector; CHECK(result.x == 10); CHECK(result.y == 8); } SUBCASE("vector - vector") { sf::Vector2i result = firstVector - secondVector; CHECK(result.x == -6); CHECK(result.y == 2); } } SUBCASE("Arithmetic operations between vector and scalar value") { sf::Vector2i vector(26, 12); int scalar = 2; SUBCASE("vector * scalar") { sf::Vector2i result = vector * scalar; CHECK(result.x == 52); CHECK(result.y == 24); } SUBCASE("scalar * vector") { sf::Vector2i result = scalar * vector; CHECK(result.x == 52); CHECK(result.y == 24); } SUBCASE("vector *= scalar") { vector *= scalar; CHECK(vector.x == 52); CHECK(vector.y == 24); } SUBCASE("vector / scalar") { sf::Vector2i result = vector / scalar; CHECK(result.x == 13); CHECK(result.y == 6); } SUBCASE("vector /= scalar") { vector /= scalar; CHECK(vector.x == 13); CHECK(vector.y == 6); } } SUBCASE("Comparison operations (two equal and one different vector)") { sf::Vector2i firstEqualVector(1, 5); sf::Vector2i secondEqualVector(1, 5); sf::Vector2i differentVector(6, 9); SUBCASE("vector == vector") { CHECK(firstEqualVector == secondEqualVector); CHECK_FALSE(firstEqualVector == differentVector); } SUBCASE("vector != vector") { CHECK(firstEqualVector != differentVector); CHECK_FALSE(firstEqualVector != secondEqualVector); } } SUBCASE("Structured bindings") { sf::Vector2i vector(1, 2); SUBCASE("destructure by value") { auto [x, y] = vector; CHECK(x == 1); CHECK(y == 2); static_assert(std::is_same_v); x = 3; CHECK(x == 3); CHECK(vector.x == 1); } SUBCASE("destructure by ref") { auto& [x, y] = vector; CHECK(x == 1); CHECK(y == 2); static_assert(std::is_same_v); x = 3; CHECK(x == 3); CHECK(vector.x == 3); } } SUBCASE("Constexpr support") { constexpr sf::Vector2i vector(1, 2); static_assert(vector.x == 1); static_assert(vector.y == 2); static_assert(vector + sf::Vector2i(2, 1) == sf::Vector2i(3, 3)); } }