RymlConverters for various pieces of math + tests

tests/Extensions/RymlConverters.cpp

@@ -172,3 +172,273 @@ TEST_CASE("UUID to_chars and from_chars", "[RymlConverters]")
 	REQUIRE(from_chars("123e4567-e89b-12d3-a456-426655440000", &parsed_uuid));
 	REQUIRE(parsed_uuid.string() == uuid.string());
 }
+
+TEST_CASE("DenseVector3i to_chars and from_chars", "[RymlConverters]")
+{
+	using MyDenseVector3i = DenseVector3i<int64_t, false, true, -1>;
+	MyDenseVector3i vec(12, -5, 7);
+	char buffer[64];
+
+	size_t len = to_chars(ryml::substr(buffer, sizeof(buffer)), vec);
+	REQUIRE(len > 0);
+
+	std::string expected = "(12,-5,7)";
+	REQUIRE(std::string(buffer, len) == expected);
+
+	std::string serialized = "(12,-5,7)";
+	MyDenseVector3i deserialized_vec(0, 0, 0);
+
+	bool success = from_chars(ryml::csubstr(serialized.c_str(), serialized.size()), &deserialized_vec);
+	REQUIRE(success);
+
+	REQUIRE(deserialized_vec.X() == 12);
+	REQUIRE(deserialized_vec.Y() == -5);
+	REQUIRE(deserialized_vec.Z() == 7);
+
+	len = to_chars(ryml::substr(buffer, sizeof(buffer)), vec);
+
+	MyDenseVector3i roundtrip_vec(0, 0, 0);
+	success = from_chars(ryml::csubstr(buffer, len), &roundtrip_vec);
+	REQUIRE(success);
+
+	REQUIRE(roundtrip_vec.X() == vec.X());
+	REQUIRE(roundtrip_vec.Y() == vec.Y());
+	REQUIRE(roundtrip_vec.Z() == vec.Z());
+}
+
+TEST_CASE("int24 to_chars and from_chars", "[RymlConverters]")
+{
+	char buffer[20];
+	int24 originalValue = 1234567;
+	c4::substr buf(buffer);
+
+	size_t written = to_chars(buf, originalValue);
+	REQUIRE(written > 0);
+	REQUIRE(std::string(buffer, written) == "1234567");
+
+	{
+		int24 parsedValue;
+		c4::csubstr buf("1234567");
+		bool success = from_chars(buf, &parsedValue);
+		REQUIRE(success);
+		REQUIRE(static_cast<int>(parsedValue) == 1234567);
+	}
+
+	originalValue = -7654321;
+	written = to_chars(buf, originalValue);
+	REQUIRE(written > 0);
+	REQUIRE(std::string(buffer, written) == "-7654321");
+
+	{
+		int24 parsedValue;
+		c4::csubstr buf("-7654321");
+		bool success = from_chars(buf, &parsedValue);
+		REQUIRE(success);
+		REQUIRE(static_cast<int>(parsedValue) == -7654321);
+	}
+}
+
+TEST_CASE("Range serialization and deserialization", "[RymlConverters]")
+{
+	char buffer[30];
+	c4::substr buf(buffer);
+
+	SECTION("Serialization")
+	{
+		Range<int> range(5, 15);
+		size_t written = to_chars(buf, range);
+		REQUIRE(written > 0);
+		REQUIRE(std::string(buffer, written) == "[5,15]");
+	}
+
+	SECTION("Deserialization")
+	{
+		Range<int> range;
+		c4::csubstr buf("[5, 15]");
+		bool success = from_chars(buf, &range);
+		REQUIRE(success);
+		REQUIRE(range.GetMin() == 5);
+		REQUIRE(range.GetMax() == 15);
+	}
+
+	SECTION("Negative Range")
+	{
+		Range<int> range(-10, -2);
+		size_t written = to_chars(buf, range);
+		REQUIRE(written > 0);
+		REQUIRE(std::string(buffer, written) == "[-10,-2]");
+
+		Range<int> parsedRange;
+		c4::csubstr negBuf("[-10,-2]");
+		bool success = from_chars(negBuf, &parsedRange);
+		REQUIRE(success);
+		REQUIRE(parsedRange.GetMin() == -10);
+		REQUIRE(parsedRange.GetMax() == -2);
+	}
+
+	SECTION("Floating Point Range")
+	{
+		Range<double> range(1.5, 3.75);
+		size_t written = to_chars(buf, range);
+		REQUIRE(written > 0);
+		REQUIRE(std::string(buffer, written) == "[1.5,3.75]");
+
+		Range<double> parsedRange;
+		c4::csubstr floatBuf("[1.5,3.75]");
+		bool success = from_chars(floatBuf, &parsedRange);
+		REQUIRE(success);
+		REQUIRE(parsedRange.GetMin() == 1.5);
+		REQUIRE(parsedRange.GetMax() == 3.75);
+	}
+}
+
+TEST_CASE("RGB10A2 serialization and deserialization", "[RymlConverters]")
+{
+	char buffer[50];
+	c4::substr buf(buffer);
+
+	SECTION("Serialization")
+	{
+		RGB10A2<uint32_t> color(0);
+		color.r = 512;
+		color.g = 768;
+		color.b = 256;
+		color.a = 3;
+
+		size_t written = to_chars(buf, color);
+		REQUIRE(written > 0);
+		REQUIRE(std::string(buffer, written) == "[512,768,256,3]");
+	}
+
+	SECTION("Deserialization")
+	{
+		RGB10A2<uint32_t> color;
+		c4::csubstr buf("[512,768,256,3]");
+		bool success = from_chars(buf, &color);
+		REQUIRE(success);
+		REQUIRE(color.r == 512);
+		REQUIRE(color.g == 768);
+		REQUIRE(color.b == 256);
+		REQUIRE(color.a == 3);
+	}
+
+	SECTION("Boundary Values")
+	{
+		RGB10A2<uint32_t> color;
+		color.r = RGB10A2<uint32_t>::MAX_VALUE;
+		color.g = RGB10A2<uint32_t>::MAX_VALUE;
+		color.b = RGB10A2<uint32_t>::MAX_VALUE;
+		color.a = RGB10A2<uint32_t>::MAX_ALPHA_VALUE;
+
+		size_t written = to_chars(buf, color);
+		REQUIRE(written > 0);
+		REQUIRE(std::string(buffer, written)
+		        == "[" + std::to_string(RGB10A2<uint32_t>::MAX_VALUE) + ","
+		           + std::to_string(RGB10A2<uint32_t>::MAX_VALUE) + "," + std::to_string(RGB10A2<uint32_t>::MAX_VALUE)
+		           + "," + std::to_string(RGB10A2<uint32_t>::MAX_ALPHA_VALUE) + "]");
+
+		RGB10A2<uint32_t> parsedColor;
+		c4::csubstr boundaryBuf(buffer, written);
+		bool success = from_chars(boundaryBuf, &parsedColor);
+		REQUIRE(success);
+		REQUIRE(parsedColor.r == RGB10A2<uint32_t>::MAX_VALUE);
+		REQUIRE(parsedColor.g == RGB10A2<uint32_t>::MAX_VALUE);
+		REQUIRE(parsedColor.b == RGB10A2<uint32_t>::MAX_VALUE);
+		REQUIRE(parsedColor.a == RGB10A2<uint32_t>::MAX_ALPHA_VALUE);
+	}
+
+	SECTION("Negative Values (Signed Type)")
+	{
+		RGB10A2<int32_t> color;
+		color.r = -512;
+		color.g = -256;
+		color.b = -128;
+		color.a = -1;
+
+		size_t written = to_chars(buf, color);
+		REQUIRE(written > 0);
+		REQUIRE(std::string(buffer, written) == "[-512,-256,-128,-1]");
+
+		RGB10A2<int32_t> parsedColor;
+		c4::csubstr negBuf(buffer, written);
+		bool success = from_chars(negBuf, &parsedColor);
+		REQUIRE(success);
+		REQUIRE(parsedColor.r == -512);
+		REQUIRE(parsedColor.g == -256);
+		REQUIRE(parsedColor.b == -128);
+		REQUIRE(parsedColor.a == -1);
+	}
+}
+
+TEST_CASE("RGB565 Serialization and Deserialization", "[RymlConverters]")
+{
+	Vector3<uint8_t> color { 255, 128, 64 };
+	RGB565 rgb(color);
+
+	char buffer[50];
+	c4::substr buf(buffer);
+	size_t written = to_chars(buffer, rgb);
+	REQUIRE(written > 0);
+
+	RGB565 rgbDeserialized;
+	bool success = from_chars(buffer, &rgbDeserialized);
+	REQUIRE(success);
+
+	REQUIRE(rgb.GetR() == rgbDeserialized.GetR());
+	REQUIRE(rgb.GetG() == rgbDeserialized.GetG());
+	REQUIRE(rgb.GetB() == rgbDeserialized.GetB());
+}
+
+TEST_CASE("RGBA5551 serialization and deserialization", "[RymlConverters]")
+{
+	char buffer[50];
+	c4::substr buf(buffer);
+
+	SECTION("Serialization")
+	{
+		RGBA5551 color;
+		color.r = 31;
+		color.g = 31;
+		color.b = 31;
+		color.a = 1;
+
+		size_t written = to_chars(buf, color);
+		REQUIRE(written > 0);
+		REQUIRE(std::string(buffer, written) == "[31,31,31,1]");
+	}
+
+	SECTION("Deserialization")
+	{
+		RGBA5551 color;
+		c4::csubstr buf("[31,31,31,1]");
+		bool success = from_chars(buf, &color);
+		REQUIRE(success);
+		REQUIRE(color.r == 31);
+		REQUIRE(color.g == 31);
+		REQUIRE(color.b == 31);
+		REQUIRE(color.a == 1);
+	}
+}
+
+TEST_CASE("Timestamp serialization and deserialization", "[RymlConverters]")
+{
+	char buffer[50];
+	c4::substr buf(buffer);
+
+	SECTION("Serialization")
+	{
+		Timestamp ts((uint64_t)123);
+		size_t written = to_chars(buf, ts);
+		REQUIRE(written > 0);
+		REQUIRE(std::string(buffer, written) == "123");
+	}
+
+	SECTION("Deserialization")
+	{
+		Timestamp ts;
+		c4::csubstr buf("123");
+		bool success = from_chars(buf, &ts);
+		REQUIRE(success);
+		REQUIRE(ts.GetNanos() == 123);
+	}
+}