Crafter.Graphics/interfaces/Crafter.Graphics-Types.cppm

/*
Crafter®.Graphics
Copyright (C) 2025 Catcrafts®
Catcrafts.net

This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 3.0 of the License, or (at your option) any later version.

This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.

You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301 USA
*/

export module Crafter.Graphics:Types;
import std;

namespace Crafter {
    export struct MousePoint {
        std::uint_fast32_t x;
        std::uint_fast32_t y;
    };
    
    export struct MouseMoveEvent {
        MousePoint lastMousePos;
        MousePoint currentMousePos;
        MousePoint mouseDelta;
    };

    export struct ScaleData {
        std::int_fast32_t x;
		std::int_fast32_t y;
		std::int_fast32_t width;
		std::int_fast32_t height;
    };
    
    export struct __attribute__((packed)) Pixel_BU8_GU8_RU8_AU8 {
        std::uint8_t b;
        std::uint8_t g;
        std::uint8_t r;
        std::uint8_t a;
    };

    export struct __attribute__((packed)) Pixel_RU8_GU8_BU8_AU8 {
        std::uint8_t r;
        std::uint8_t g;
        std::uint8_t b;
        std::uint8_t a;
    };

    export struct __attribute__((packed)) Vertex {
        float x;
        float y;
        float z;
        float w;
    };
    export struct __attribute__((packed)) VertexUV {
        float x;
        float y;
        float z;
        float w;

        float u;
        float v;

        float pad[2];
    };

    export struct __attribute__((packed)) VertexRGBA {
        float x;
        float y;
        float z;
        float w;

        float r;
        float g;
        float b;
        float a;
    };

    export struct __attribute__((packed)) HeightRGBA {
        float height;

        float pad[3];

        float r;
        float g;
        float b;
        float a;
    };


    export constexpr std::int_fast32_t BOUND = 9;
    export constexpr std::int_fast32_t SCALE = std::numeric_limits<std::int_fast32_t>::max() / BOUND;
    export constexpr double SCALEDOUBLE = static_cast<double>(std::numeric_limits<std::int_fast32_t>::max()) / BOUND;

    export constexpr std::int_fast32_t FractionalToMapped(double f) {
        return std::int_fast32_t(f * SCALEDOUBLE);
    }

    export constexpr std::int_fast32_t MappedToPixel(std::int_fast32_t mapped, std::int_fast32_t width) {
        return mapped / (SCALE / width);
    }

    export constexpr double MappedToFractional(std::int_fast32_t mapped) {
        return static_cast<double>(mapped) / SCALEDOUBLE;
    }

    export constexpr std::int_fast32_t PixelToMapped(std::int_fast32_t pixel, std::int_fast32_t width) {
        return pixel * (SCALE / width);
    }

    // export constexpr double bound = 10;

    // export constexpr std::uint_fast32_t FractionalToMapped(double fractional) {
    //     constexpr double min_x = -bound;
    //     constexpr double max_x = bound + 1.0;
    //     constexpr double range_x = max_x - min_x;

    //     constexpr double MAXD = static_cast<double>(
    //         std::numeric_limits<std::uint_fast32_t>::max()
    //     );

    //     // Normalize to [0,1]
    //     double t = (fractional - min_x) / range_x;

    //     // Clamp (important for constexpr safety and edge behavior)
    //     if (t < 0.0) t = 0.0;
    //     if (t > 1.0) t = 1.0;

    //     return static_cast<std::uint_fast32_t>(t * MAXD);
    // }

    // export constexpr double MappedToFractional(std::uint_fast32_t mapped) {
    //     constexpr double min_x = -bound;
    //     constexpr double max_x = bound + 1.0;
    //     constexpr double range_x = max_x - min_x;

    //     constexpr double MAXD = static_cast<double>(
    //         std::numeric_limits<std::uint_fast32_t>::max()
    //     );

    //     double t = static_cast<double>(mapped) / MAXD;

    //     return min_x + t * range_x;
    // }

    // export constexpr std::int_fast32_t MappedToPixel(std::uint_fast32_t mapped, std::uint_fast32_t size) {
    //     constexpr double MAXD = static_cast<double>(
    //         std::numeric_limits<std::uint_fast32_t>::max()
    //     );

    //     // scale mapped ∈ [0, MAX] to pixel ∈ [0, size]
    //     double t = static_cast<double>(mapped) / MAXD;

    //     // Clamp (shouldn't be necessary, but protects constexpr eval)
    //     if (t < 0.0) t = 0.0;
    //     if (t > 1.0) t = 1.0;

    //     return static_cast<std::int_fast32_t>(t * static_cast<double>(size));
    // }

    export constexpr std::uint_fast32_t PixelToMapped(double pixel, std::uint_fast32_t size) {
        return static_cast<std::uint_fast32_t>((pixel / size) *  static_cast<double>((std::numeric_limits<std::uint_fast32_t>::max() / 10)));
    }
}
removed pipeline arg 2025-05-07 19:21:51 +02:00			`/*`
			`Crafter®.Graphics`
			`Copyright (C) 2025 Catcrafts®`
			`Catcrafts.net`

			`This library is free software; you can redistribute it and/or`
			`modify it under the terms of the GNU Lesser General Public`
			`License as published by the Free Software Foundation; either`
			`version 3.0 of the License, or (at your option) any later version.`

			`This library is distributed in the hope that it will be useful,`
			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
			`Lesser General Public License for more details.`

			`You should have received a copy of the GNU Lesser General Public`
			`License along with this library; if not, write to the Free Software`
			`Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA`
			`*/`

initial commit 2025-04-16 00:43:33 +02:00			`export module Crafter.Graphics:Types;`
new structure 2025-11-16 15:32:11 +01:00			`import std;`
initial commit 2025-04-16 00:43:33 +02:00
			`namespace Crafter {`
			`export struct MousePoint {`
integer math 2025-11-23 04:04:53 +01:00			`std::uint_fast32_t x;`
			`std::uint_fast32_t y;`
initial commit 2025-04-16 00:43:33 +02:00			`};`

			`export struct MouseMoveEvent {`
			`MousePoint lastMousePos;`
			`MousePoint currentMousePos;`
			`MousePoint mouseDelta;`
			`};`
rewrite time 2025-11-22 20:58:42 +01:00
			`export struct ScaleData {`
			`std::int_fast32_t x;`
			`std::int_fast32_t y;`
			`std::int_fast32_t width;`
			`std::int_fast32_t height;`
			`};`
initial commit 2025-04-16 00:43:33 +02:00
documentation 2025-06-13 23:59:36 +02:00			`export struct __attribute__((packed)) Pixel_BU8_GU8_RU8_AU8 {`
			`std::uint8_t b;`
			`std::uint8_t g;`
			`std::uint8_t r;`
			`std::uint8_t a;`
			`};`

			`export struct __attribute__((packed)) Pixel_RU8_GU8_BU8_AU8 {`
initial commit 2025-04-16 00:43:33 +02:00			`std::uint8_t r;`
			`std::uint8_t g;`
			`std::uint8_t b;`
			`std::uint8_t a;`
			`};`
buffer 2025-04-27 00:05:21 +02:00
documentation 2025-06-13 23:59:36 +02:00			`export struct __attribute__((packed)) Vertex {`
buffer 2025-04-27 00:05:21 +02:00			`float x;`
			`float y;`
			`float z;`
MESH BUFFER 2025-04-27 01:57:25 +02:00			`float w;`
buffer 2025-04-27 00:05:21 +02:00			`};`
WIP crafter.math 2025-05-04 05:15:31 +02:00			`export struct __attribute__((packed)) VertexUV {`
texture 2025-05-03 06:51:33 +02:00			`float x;`
			`float y;`
			`float z;`
			`float w;`

			`float u;`
			`float v;`

			`float pad[2];`
			`};`
working heightmap shader? 2025-05-25 23:04:56 +02:00
			`export struct __attribute__((packed)) VertexRGBA {`
			`float x;`
			`float y;`
			`float z;`
			`float w;`

			`float r;`
			`float g;`
			`float b;`
			`float a;`
			`};`

			`export struct __attribute__((packed)) HeightRGBA {`
			`float height;`

			`float pad[3];`

			`float r;`
			`float g;`
			`float b;`
			`float a;`
			`};`
integer math 2025-11-23 04:04:53 +01:00


			`export constexpr std::int_fast32_t BOUND = 9;`
			`export constexpr std::int_fast32_t SCALE = std::numeric_limits<std::int_fast32_t>::max() / BOUND;`
			`export constexpr double SCALEDOUBLE = static_cast<double>(std::numeric_limits<std::int_fast32_t>::max()) / BOUND;`

			`export constexpr std::int_fast32_t FractionalToMapped(double f) {`
			`return std::int_fast32_t(f * SCALEDOUBLE);`
			`}`

			`export constexpr std::int_fast32_t MappedToPixel(std::int_fast32_t mapped, std::int_fast32_t width) {`
			`return mapped / (SCALE / width);`
			`}`

			`export constexpr double MappedToFractional(std::int_fast32_t mapped) {`
			`return static_cast<double>(mapped) / SCALEDOUBLE;`
			`}`

			`export constexpr std::int_fast32_t PixelToMapped(std::int_fast32_t pixel, std::int_fast32_t width) {`
			`return pixel * (SCALE / width);`
			`}`

			`// export constexpr double bound = 10;`

			`// export constexpr std::uint_fast32_t FractionalToMapped(double fractional) {`
			`// constexpr double min_x = -bound;`
			`// constexpr double max_x = bound + 1.0;`
			`// constexpr double range_x = max_x - min_x;`

			`// constexpr double MAXD = static_cast<double>(`
			`// std::numeric_limits<std::uint_fast32_t>::max()`
			`// );`

			`// // Normalize to [0,1]`
			`// double t = (fractional - min_x) / range_x;`

			`// // Clamp (important for constexpr safety and edge behavior)`
			`// if (t < 0.0) t = 0.0;`
			`// if (t > 1.0) t = 1.0;`

			`// return static_cast<std::uint_fast32_t>(t * MAXD);`
			`// }`

			`// export constexpr double MappedToFractional(std::uint_fast32_t mapped) {`
			`// constexpr double min_x = -bound;`
			`// constexpr double max_x = bound + 1.0;`
			`// constexpr double range_x = max_x - min_x;`

			`// constexpr double MAXD = static_cast<double>(`
			`// std::numeric_limits<std::uint_fast32_t>::max()`
			`// );`

			`// double t = static_cast<double>(mapped) / MAXD;`

			`// return min_x + t * range_x;`
			`// }`

			`// export constexpr std::int_fast32_t MappedToPixel(std::uint_fast32_t mapped, std::uint_fast32_t size) {`
			`// constexpr double MAXD = static_cast<double>(`
			`// std::numeric_limits<std::uint_fast32_t>::max()`
			`// );`

			`// // scale mapped ∈ [0, MAX] to pixel ∈ [0, size]`
			`// double t = static_cast<double>(mapped) / MAXD;`

			`// // Clamp (shouldn't be necessary, but protects constexpr eval)`
			`// if (t < 0.0) t = 0.0;`
			`// if (t > 1.0) t = 1.0;`

			`// return static_cast<std::int_fast32_t>(t * static_cast<double>(size));`
			`// }`

			`export constexpr std::uint_fast32_t PixelToMapped(double pixel, std::uint_fast32_t size) {`
			`return static_cast<std::uint_fast32_t>((pixel / size) * static_cast<double>((std::numeric_limits<std::uint_fast32_t>::max() / 10)));`
			`}`
initial commit 2025-04-16 00:43:33 +02:00			`}`