pervognsen/Xeno_Example.cpp

## Xeno_Example.cpp
int WINAPI WinMain(HINSTANCE, HINSTANCE, LPSTR, int) {
    output_file = CreateFileA("output.txt", GENERIC_WRITE, 0, 0, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0);

    Xeno_PrintType(&xeno_uint8);
    Printf("\n");
    Xeno_PrintType(&xeno_uint32);
    Printf("\n");
    Xeno_PrintType(&xeno_uint64);
    Printf("\n");

    Xeno_Type pointer_uint8 = {XENO_POINTER, "pointer_uint8", sizeof(void *), 1, &xeno_uint8};
    Xeno_PrintType(&pointer_uint8);
    Printf("\n");

    Xeno_Type pointer_pointer_uint8 = {XENO_POINTER, "pointer_pointer_uint8", sizeof(void *), 1, &pointer_uint8};
    Xeno_PrintType(&pointer_pointer_uint8);
    Printf("\n");

    struct Person {
        uint8_t *name;
        uint8_t age;
    };

    Xeno_Field person_fields[] = {{&pointer_uint8, "name", offsetof(Person, name)}, {&xeno_uint8, "age", offsetof(Person, age)}};
    Xeno_Type person_type = {XENO_AGGREGATE, "Person", sizeof(Person), 1};
    person_type.fields.count = 2;
    person_type.fields.array = person_fields;

    Xeno_PrintType(&person_type);
    Printf("\n");

    uint8_t byte = 42;
    Xeno_Data byte_data = {&byte, &xeno_uint8};
    Xeno_Print(byte_data);
    Printf("\n");

    uint8_t bytes[3] = {12, 34, 56};
    Xeno_Type bytes_type = {XENO_UINT8, "bytes_type", sizeof(uint8_t), 3};
    Xeno_Data bytes_data = {bytes, &bytes_type};
    Xeno_Print(bytes_data);
    Printf("\n");

    Person per = {(uint8_t *)0x12345678, 33};
    Xeno_Data per_data = {&per, &person_type};
    Xeno_Print(per_data);
    Printf("\n");

    float f = 3.14f;
    Xeno_Data f_data = {&f, &xeno_float};
    int32_t i;
    Xeno_Data i_data = {&i, &xeno_int32};
    Xeno_Cast(i_data, f_data);
    Printf("i=%d\n", i);

    i = 123;
    Xeno_Cast(f_data, i_data);
    Printf("f=%f\n", f);

    uint8_t b = 123;
    uint8_t *p = &b;
    Printf("%u\n", b);
    Xeno_Data p_data = {&p, &xeno_uint8_pointer};
    Xeno_Data b_data;
    Xeno_Dereference(&b_data, p_data);
    Assert(b_data.type == &xeno_uint8);
    *(uint8_t *)b_data.pointer = 42;
    Printf("%u\n", b);

    struct Trim {
        float length;
    };

    Xeno_Field trim_fields[] = {{&xeno_float, "length", offsetof(Trim, length)}};
    Xeno_Type trim_type = {XENO_AGGREGATE, "Trim", sizeof(Trim), 1};
    trim_type.fields.count = 1;
    trim_type.fields.array = trim_fields;

    struct Window {
        uint16_t type;
        float width;
        float height;
        Trim trims[4];
    };

    Xeno_Type window_trims_type = trim_type;
    window_trims_type.count = 4;

    Xeno_Field window_fields[] = {{&xeno_uint16, "type", offsetof(Window, type)},
                                  {&xeno_float, "width", offsetof(Window, width)},
                                  {&xeno_float, "height", offsetof(Window, height)},
                                  {&window_trims_type, "trims", offsetof(Window, trims)}};
    Xeno_Type window_type = {XENO_AGGREGATE, "Window", sizeof(Window), 1};
    window_type.fields.count = 4;
    window_type.fields.array = window_fields;

    struct Building {
        char *title;
        float width;
        float height;
        Window windows[6];
    };

    Xeno_Type building_windows_type = window_type;
    building_windows_type.count = 6;

    Xeno_Field building_fields[] = {{&xeno_uint8_pointer, "title", offsetof(Building, title)},
                                    {&xeno_float, "width", offsetof(Building, width)},
                                    {&xeno_float, "height", offsetof(Building, height)},
                                    {&building_windows_type, "windows", offsetof(Building, windows)}};
    Xeno_Type building_type = {XENO_AGGREGATE, "Building", sizeof(Building), 1};
    building_type.fields.count = 4;
    building_type.fields.array = building_fields;

    Building building = {0};
    Xeno_Data building_data = {&building, &building_type};

    Xeno_Print(building_data);
    Printf("\n");

    Xeno_Data data = building_data;

    Xeno_GetField(&data, data, Xeno_GetFieldIndex(data.type, "windows"));
    Xeno_GetElement(&data, data, 3);
    Xeno_Data height_data = data;
    Xeno_GetField(&height_data, data, Xeno_GetFieldIndex(data.type, "height"));
    Assert(height_data.type == &xeno_float);
    *(float *)height_data.pointer = 3.14f;
    Xeno_GetField(&data, data, Xeno_GetFieldIndex(data.type, "trims"));
    Xeno_GetElement(&data, data, 2);
    Xeno_GetField(&data, data, Xeno_GetFieldIndex(data.type, "length"));
    Assert(data.type == &xeno_float);
    *(float *)data.pointer = 1.23f;

    Xeno_Print(building_data);
    Printf("\n");

    union float_uint32 {
        float f;
        uint32_t u;
    };

    Xeno_Field float_uint32_fields[] = {{&xeno_float, "f", offsetof(float_uint32, f)},
                                        {&xeno_uint32, "u", offsetof(float_uint32, u)}};
    Xeno_Type float_uint32_type = {XENO_AGGREGATE, "float_uint32", sizeof(float_uint32), 1};
    float_uint32_type.fields.count = 2;
    float_uint32_type.fields.array = float_uint32_fields;

    float_uint32 fu;
    fu.f = 3.14f;

    Xeno_Data fu_data = {&fu, &float_uint32_type};

    Xeno_Print(fu_data);
    Printf("\n");

    fu.u += 10000;

    Xeno_Print(fu_data);
    Printf("\n");

    if (output_file != INVALID_HANDLE_VALUE) {
        CloseHandle(output_file);
    }


    return 0;
}
	int WINAPI WinMain(HINSTANCE, HINSTANCE, LPSTR, int) {
	output_file = CreateFileA("output.txt", GENERIC_WRITE, 0, 0, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0);

	Xeno_PrintType(&xeno_uint8);
	Printf("\n");
	Xeno_PrintType(&xeno_uint32);
	Printf("\n");
	Xeno_PrintType(&xeno_uint64);
	Printf("\n");

	Xeno_Type pointer_uint8 = {XENO_POINTER, "pointer_uint8", sizeof(void *), 1, &xeno_uint8};
	Xeno_PrintType(&pointer_uint8);
	Printf("\n");

	Xeno_Type pointer_pointer_uint8 = {XENO_POINTER, "pointer_pointer_uint8", sizeof(void *), 1, &pointer_uint8};
	Xeno_PrintType(&pointer_pointer_uint8);
	Printf("\n");

	struct Person {
	uint8_t *name;
	uint8_t age;
	};

	Xeno_Field person_fields[] = {{&pointer_uint8, "name", offsetof(Person, name)}, {&xeno_uint8, "age", offsetof(Person, age)}};
	Xeno_Type person_type = {XENO_AGGREGATE, "Person", sizeof(Person), 1};
	person_type.fields.count = 2;
	person_type.fields.array = person_fields;

	Xeno_PrintType(&person_type);
	Printf("\n");

	uint8_t byte = 42;
	Xeno_Data byte_data = {&byte, &xeno_uint8};
	Xeno_Print(byte_data);
	Printf("\n");

	uint8_t bytes[3] = {12, 34, 56};
	Xeno_Type bytes_type = {XENO_UINT8, "bytes_type", sizeof(uint8_t), 3};
	Xeno_Data bytes_data = {bytes, &bytes_type};
	Xeno_Print(bytes_data);
	Printf("\n");

	Person per = {(uint8_t *)0x12345678, 33};
	Xeno_Data per_data = {&per, &person_type};
	Xeno_Print(per_data);
	Printf("\n");

	float f = 3.14f;
	Xeno_Data f_data = {&f, &xeno_float};
	int32_t i;
	Xeno_Data i_data = {&i, &xeno_int32};
	Xeno_Cast(i_data, f_data);
	Printf("i=%d\n", i);

	i = 123;
	Xeno_Cast(f_data, i_data);
	Printf("f=%f\n", f);

	uint8_t b = 123;
	uint8_t *p = &b;
	Printf("%u\n", b);
	Xeno_Data p_data = {&p, &xeno_uint8_pointer};
	Xeno_Data b_data;
	Xeno_Dereference(&b_data, p_data);
	Assert(b_data.type == &xeno_uint8);
	(uint8_t )b_data.pointer = 42;
	Printf("%u\n", b);

	struct Trim {
	float length;
	};

	Xeno_Field trim_fields[] = {{&xeno_float, "length", offsetof(Trim, length)}};
	Xeno_Type trim_type = {XENO_AGGREGATE, "Trim", sizeof(Trim), 1};
	trim_type.fields.count = 1;
	trim_type.fields.array = trim_fields;

	struct Window {
	uint16_t type;
	float width;
	float height;
	Trim trims[4];
	};

	Xeno_Type window_trims_type = trim_type;
	window_trims_type.count = 4;

	Xeno_Field window_fields[] = {{&xeno_uint16, "type", offsetof(Window, type)},
	{&xeno_float, "width", offsetof(Window, width)},
	{&xeno_float, "height", offsetof(Window, height)},
	{&window_trims_type, "trims", offsetof(Window, trims)}};
	Xeno_Type window_type = {XENO_AGGREGATE, "Window", sizeof(Window), 1};
	window_type.fields.count = 4;
	window_type.fields.array = window_fields;

	struct Building {
	char *title;
	float width;
	float height;
	Window windows[6];
	};

	Xeno_Type building_windows_type = window_type;
	building_windows_type.count = 6;

	Xeno_Field building_fields[] = {{&xeno_uint8_pointer, "title", offsetof(Building, title)},
	{&xeno_float, "width", offsetof(Building, width)},
	{&xeno_float, "height", offsetof(Building, height)},
	{&building_windows_type, "windows", offsetof(Building, windows)}};
	Xeno_Type building_type = {XENO_AGGREGATE, "Building", sizeof(Building), 1};
	building_type.fields.count = 4;
	building_type.fields.array = building_fields;

	Building building = {0};
	Xeno_Data building_data = {&building, &building_type};

	Xeno_Print(building_data);
	Printf("\n");

	Xeno_Data data = building_data;

	Xeno_GetField(&data, data, Xeno_GetFieldIndex(data.type, "windows"));
	Xeno_GetElement(&data, data, 3);
	Xeno_Data height_data = data;
	Xeno_GetField(&height_data, data, Xeno_GetFieldIndex(data.type, "height"));
	Assert(height_data.type == &xeno_float);
	(float )height_data.pointer = 3.14f;
	Xeno_GetField(&data, data, Xeno_GetFieldIndex(data.type, "trims"));
	Xeno_GetElement(&data, data, 2);
	Xeno_GetField(&data, data, Xeno_GetFieldIndex(data.type, "length"));
	Assert(data.type == &xeno_float);
	(float )data.pointer = 1.23f;

	Xeno_Print(building_data);
	Printf("\n");

	union float_uint32 {
	float f;
	uint32_t u;
	};

	Xeno_Field float_uint32_fields[] = {{&xeno_float, "f", offsetof(float_uint32, f)},
	{&xeno_uint32, "u", offsetof(float_uint32, u)}};
	Xeno_Type float_uint32_type = {XENO_AGGREGATE, "float_uint32", sizeof(float_uint32), 1};
	float_uint32_type.fields.count = 2;
	float_uint32_type.fields.array = float_uint32_fields;

	float_uint32 fu;
	fu.f = 3.14f;

	Xeno_Data fu_data = {&fu, &float_uint32_type};

	Xeno_Print(fu_data);
	Printf("\n");

	fu.u += 10000;

	Xeno_Print(fu_data);
	Printf("\n");

	if (output_file != INVALID_HANDLE_VALUE) {
	CloseHandle(output_file);
	}


	return 0;
	}