SFML/test/Graphics/VertexArray.test.cpp

#include <SFML/Graphics/VertexArray.hpp>

#include <catch2/catch_test_macros.hpp>

#include <GraphicsUtil.hpp>
#include <type_traits>
#include <utility>

TEST_CASE("[Graphics] sf::VertexArray")
{
    SECTION("Type traits")
    {
        STATIC_CHECK(std::is_copy_constructible_v<sf::VertexArray>);
        STATIC_CHECK(std::is_copy_assignable_v<sf::VertexArray>);
        STATIC_CHECK(std::is_nothrow_move_constructible_v<sf::VertexArray>);
        STATIC_CHECK(std::is_nothrow_move_assignable_v<sf::VertexArray>);
    }

    SECTION("Construction")
    {
        SECTION("Default constructor")
        {
            const sf::VertexArray vertexArray;
            CHECK(vertexArray.getVertexCount() == 0);
            CHECK(vertexArray.getPrimitiveType() == sf::PrimitiveType::Points);
            CHECK(vertexArray.getBounds() == sf::FloatRect({0, 0}, {0, 0}));
        }

        SECTION("Explicit constructor with default argument")
        {
            const sf::VertexArray vertexArray(sf::PrimitiveType::Lines);
            CHECK(vertexArray.getVertexCount() == 0);
            CHECK(vertexArray.getPrimitiveType() == sf::PrimitiveType::Lines);
            CHECK(vertexArray.getBounds() == sf::FloatRect({0, 0}, {0, 0}));
        }

        SECTION("Explicit constructor")
        {
            const sf::VertexArray vertexArray(sf::PrimitiveType::Lines, 10);
            CHECK(vertexArray.getVertexCount() == 10);
            CHECK(vertexArray.getPrimitiveType() == sf::PrimitiveType::Lines);
            CHECK(vertexArray.getBounds() == sf::FloatRect({0, 0}, {0, 0}));
            for (const auto& vertex : vertexArray)
            {
                CHECK(vertex.position == sf::Vertex{}.position);
                CHECK(vertex.color == sf::Vertex{}.color);
                CHECK(vertex.texCoords == sf::Vertex{}.texCoords);
            }
        }
    }

    SECTION("Resize array")
    {
        sf::VertexArray vertexArray;
        vertexArray.resize(42);
        CHECK(vertexArray.getVertexCount() == 42);
        for (const auto& vertex : vertexArray)
        {
            CHECK(vertex.position == sf::Vertex{}.position);
            CHECK(vertex.color == sf::Vertex{}.color);
            CHECK(vertex.texCoords == sf::Vertex{}.texCoords);
        }
    }

    SECTION("Clear array")
    {
        sf::VertexArray vertexArray;
        vertexArray.append({});
        vertexArray.clear();
        CHECK(vertexArray.getVertexCount() == 0);
    }

    SECTION("Append to array")
    {
        sf::VertexArray  vertexArray;
        const sf::Vertex vertex{{1.0f, 2.0f}, {3, 4, 5, 6}, {7.0f, 8.0f}};
        vertexArray.append(vertex);
        CHECK(vertexArray.getVertexCount() == 1);
        CHECK(vertexArray[0].position == vertex.position);
        CHECK(vertexArray[0].color == vertex.color);
        CHECK(vertexArray[0].texCoords == vertex.texCoords);
    }

    SECTION("Write to array")
    {
        sf::VertexArray vertexArray;
        vertexArray.resize(10);
        const sf::Vertex otherVertex{{2.0f, 3.0f}, {4, 5, 6, 7}, {8.0f, 9.0f}};
        vertexArray[9] = otherVertex;
        CHECK(vertexArray[9].position == otherVertex.position);
        CHECK(vertexArray[9].color == otherVertex.color);
        CHECK(vertexArray[9].texCoords == otherVertex.texCoords);
    }

    SECTION("Read from array")
    {
        sf::VertexArray vertexArray;
        vertexArray.append({{1.0f, 2.0f}});
        vertexArray.append({{10.0f, 20.0f}});

        SECTION("Const")
        {
            const auto& constVertexArray = vertexArray;
            CHECK(constVertexArray[0].position == sf::Vector2f(1, 2));
            CHECK(constVertexArray[1].position == sf::Vector2f(10, 20));
        }

        SECTION("Non const")
        {
            auto& nonConstVertexArray = vertexArray;
            CHECK(nonConstVertexArray[0].position == sf::Vector2f(1, 2));
            CHECK(nonConstVertexArray[1].position == sf::Vector2f(10, 20));
        }
    }

    SECTION("Set primitive type")
    {
        sf::VertexArray vertexArray;
        vertexArray.setPrimitiveType(sf::PrimitiveType::TriangleStrip);
        CHECK(vertexArray.getPrimitiveType() == sf::PrimitiveType::TriangleStrip);
    }

    SECTION("Get bounds")
    {
        sf::VertexArray vertexArray;
        vertexArray.append({{1, 1}});
        vertexArray.append({{2, 2}});
        CHECK(vertexArray.getBounds() == sf::FloatRect({1, 1}, {1, 1}));
        vertexArray[0] = {{0, 0}};
        CHECK(vertexArray.getBounds() == sf::FloatRect({0, 0}, {2, 2}));
        vertexArray[0] = {{5, 5}};
        CHECK(vertexArray.getBounds() == sf::FloatRect({2, 2}, {3, 3}));
        vertexArray.append({{10, 10}});
        CHECK(vertexArray.getBounds() == sf::FloatRect({2, 2}, {8, 8}));
    }

    SECTION("Ranged loop")
    {
        sf::VertexArray vertexArray;
        vertexArray.append({{1, 1}});
        vertexArray.append({{1, 1}});
        vertexArray.append({{1, 1}});

        std::size_t count = 0;

        SECTION("Const")
        {
            for (const auto& vertex : std::as_const(vertexArray))
            {
                CHECK(vertex.position == sf::Vector2f(1, 1));
                ++count;
            }
        }

        SECTION("Non const")
        {
            for (const auto& vertex : vertexArray)
            {
                CHECK(vertex.position == sf::Vector2f(1, 1));
                ++count;
            }
        }

        CHECK(count == vertexArray.getVertexCount());
    }
}
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`#include <SFML/Graphics/VertexArray.hpp>`

Switch to Catch2 2023-01-17 21:51:08 -07:00			`#include <catch2/catch_test_macros.hpp>`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00
Run clang-format 2022-07-04 11:20:58 -05:00			`#include <GraphicsUtil.hpp>`
Test existence of copy and move semantics 2022-07-25 00:36:05 -06:00			`#include <type_traits>`
Enable range based looping of `sf::VertexArray` 2024-10-01 09:38:40 -06:00			`#include <utility>`
Test existence of copy and move semantics 2022-07-25 00:36:05 -06:00
Make test case names more readable Test output now shows the module name left-aligned so you can easily browse to see what modules have what tests and know what module a failing test is coming from. 2022-07-04 23:51:18 -06:00			`TEST_CASE("[Graphics] sf::VertexArray")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Type traits")`
			`{`
			`STATIC_CHECK(std::is_copy_constructible_v<sf::VertexArray>);`
			`STATIC_CHECK(std::is_copy_assignable_v<sf::VertexArray>);`
			`STATIC_CHECK(std::is_nothrow_move_constructible_v<sf::VertexArray>);`
			`STATIC_CHECK(std::is_nothrow_move_assignable_v<sf::VertexArray>);`
			`}`

			`SECTION("Construction")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Default constructor")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
			`const sf::VertexArray vertexArray;`
			`CHECK(vertexArray.getVertexCount() == 0);`
			`CHECK(vertexArray.getPrimitiveType() == sf::PrimitiveType::Points);`
			`CHECK(vertexArray.getBounds() == sf::FloatRect({0, 0}, {0, 0}));`
			`}`

Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Explicit constructor with default argument")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
			`const sf::VertexArray vertexArray(sf::PrimitiveType::Lines);`
			`CHECK(vertexArray.getVertexCount() == 0);`
			`CHECK(vertexArray.getPrimitiveType() == sf::PrimitiveType::Lines);`
			`CHECK(vertexArray.getBounds() == sf::FloatRect({0, 0}, {0, 0}));`
			`}`

Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Explicit constructor")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
			`const sf::VertexArray vertexArray(sf::PrimitiveType::Lines, 10);`
			`CHECK(vertexArray.getVertexCount() == 10);`
			`CHECK(vertexArray.getPrimitiveType() == sf::PrimitiveType::Lines);`
			`CHECK(vertexArray.getBounds() == sf::FloatRect({0, 0}, {0, 0}));`
Enable range based looping of `sf::VertexArray` 2024-10-01 09:38:40 -06:00			`for (const auto& vertex : vertexArray)`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
Enable range based looping of `sf::VertexArray` 2024-10-01 09:38:40 -06:00			`CHECK(vertex.position == sf::Vertex{}.position);`
			`CHECK(vertex.color == sf::Vertex{}.color);`
			`CHECK(vertex.texCoords == sf::Vertex{}.texCoords);`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`}`
			`}`
			`}`

Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Resize array")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
			`sf::VertexArray vertexArray;`
			`vertexArray.resize(42);`
			`CHECK(vertexArray.getVertexCount() == 42);`
Enable range based looping of `sf::VertexArray` 2024-10-01 09:38:40 -06:00			`for (const auto& vertex : vertexArray)`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
Enable range based looping of `sf::VertexArray` 2024-10-01 09:38:40 -06:00			`CHECK(vertex.position == sf::Vertex{}.position);`
			`CHECK(vertex.color == sf::Vertex{}.color);`
			`CHECK(vertex.texCoords == sf::Vertex{}.texCoords);`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`}`
			`}`

Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Clear array")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
			`sf::VertexArray vertexArray;`
			`vertexArray.append({});`
			`vertexArray.clear();`
			`CHECK(vertexArray.getVertexCount() == 0);`
			`}`

Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Append to array")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
Run clang-format 2022-07-04 11:20:58 -05:00			`sf::VertexArray vertexArray;`
Turn 'sf::Vertex' into an aggregate 'struct' 2024-02-09 13:21:44 +01:00			`const sf::Vertex vertex{{1.0f, 2.0f}, {3, 4, 5, 6}, {7.0f, 8.0f}};`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`vertexArray.append(vertex);`
			`CHECK(vertexArray.getVertexCount() == 1);`
			`CHECK(vertexArray[0].position == vertex.position);`
			`CHECK(vertexArray[0].color == vertex.color);`
			`CHECK(vertexArray[0].texCoords == vertex.texCoords);`
			`}`

Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Write to array")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
			`sf::VertexArray vertexArray;`
			`vertexArray.resize(10);`
Turn 'sf::Vertex' into an aggregate 'struct' 2024-02-09 13:21:44 +01:00			`const sf::Vertex otherVertex{{2.0f, 3.0f}, {4, 5, 6, 7}, {8.0f, 9.0f}};`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`vertexArray[9] = otherVertex;`
			`CHECK(vertexArray[9].position == otherVertex.position);`
			`CHECK(vertexArray[9].color == otherVertex.color);`
			`CHECK(vertexArray[9].texCoords == otherVertex.texCoords);`
			`}`

Enable range based looping of `sf::VertexArray` 2024-10-01 09:38:40 -06:00			`SECTION("Read from array")`
			`{`
			`sf::VertexArray vertexArray;`
			`vertexArray.append({{1.0f, 2.0f}});`
			`vertexArray.append({{10.0f, 20.0f}});`

			`SECTION("Const")`
			`{`
			`const auto& constVertexArray = vertexArray;`
			`CHECK(constVertexArray[0].position == sf::Vector2f(1, 2));`
			`CHECK(constVertexArray[1].position == sf::Vector2f(10, 20));`
			`}`

			`SECTION("Non const")`
			`{`
			`auto& nonConstVertexArray = vertexArray;`
			`CHECK(nonConstVertexArray[0].position == sf::Vector2f(1, 2));`
			`CHECK(nonConstVertexArray[1].position == sf::Vector2f(10, 20));`
			`}`
			`}`

Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Set primitive type")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
			`sf::VertexArray vertexArray;`
			`vertexArray.setPrimitiveType(sf::PrimitiveType::TriangleStrip);`
			`CHECK(vertexArray.getPrimitiveType() == sf::PrimitiveType::TriangleStrip);`
			`}`

Switch to Catch2 2023-01-17 21:51:08 -07:00			`SECTION("Get bounds")`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`{`
			`sf::VertexArray vertexArray;`
Turn 'sf::Vertex' into an aggregate 'struct' 2024-02-09 13:21:44 +01:00			`vertexArray.append({{1, 1}});`
			`vertexArray.append({{2, 2}});`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`CHECK(vertexArray.getBounds() == sf::FloatRect({1, 1}, {1, 1}));`
Turn 'sf::Vertex' into an aggregate 'struct' 2024-02-09 13:21:44 +01:00			`vertexArray[0] = {{0, 0}};`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`CHECK(vertexArray.getBounds() == sf::FloatRect({0, 0}, {2, 2}));`
Turn 'sf::Vertex' into an aggregate 'struct' 2024-02-09 13:21:44 +01:00			`vertexArray[0] = {{5, 5}};`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`CHECK(vertexArray.getBounds() == sf::FloatRect({2, 2}, {3, 3}));`
Turn 'sf::Vertex' into an aggregate 'struct' 2024-02-09 13:21:44 +01:00			`vertexArray.append({{10, 10}});`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`CHECK(vertexArray.getBounds() == sf::FloatRect({2, 2}, {8, 8}));`
			`}`
Enable range based looping of `sf::VertexArray` 2024-10-01 09:38:40 -06:00
			`SECTION("Ranged loop")`
			`{`
			`sf::VertexArray vertexArray;`
			`vertexArray.append({{1, 1}});`
			`vertexArray.append({{1, 1}});`
			`vertexArray.append({{1, 1}});`

			`std::size_t count = 0;`

			`SECTION("Const")`
			`{`
			`for (const auto& vertex : std::as_const(vertexArray))`
			`{`
			`CHECK(vertex.position == sf::Vector2f(1, 1));`
			`++count;`
			`}`
			`}`

			`SECTION("Non const")`
			`{`
			`for (const auto& vertex : vertexArray)`
			`{`
			`CHECK(vertex.position == sf::Vector2f(1, 1));`
			`++count;`
			`}`
			`}`

			`CHECK(count == vertexArray.getVertexCount());`
			`}`
Add tests for sf::VertexArray 2022-03-01 23:02:38 -06:00			`}`