Skip to content

Translates native shader languages into CrossGL universal shader language and vice versa.

License

Notifications You must be signed in to change notification settings

MashyBasker/crosstl

 
 

Repository files navigation




CrossTL

The CrossTL is a core component of our platform, enabling the conversion of CrossGL shader code directly into various graphics APIs, such as DirectX, Metal, Vulkan, and OpenGL and vice-versa. This translator simplifies shader development by allowing a single, unified shader language to be used across multiple platforms.

🌟 CrossGL-Graphica: Revolutionizing Shader Development

The Universal Shader Language

In the ever-evolving world of graphics programming, CrossGL emerges as a solution to bridge the gap between diverse graphics APIs.

🚀 Write Once, Run Everywhere

Imagine writing a shader once and deploying it across:

  • 🍎 Metal
  • 🎮 DirectX
  • 🖥️ OpenGL
  • 🖥️ Vulkan
  • ⚙️ Slang
  • 🔥 Mojo

...all without changing a single line of code!

Supported Backends

  • Metal
  • DirectX
  • OpenGL
  • Slang

💡 Key Benefits

  1. ⏱️ Time-Saving: Slash development time by eliminating the need for multiple shader versions.
  2. 🛠️ Consistency: Ensure uniform behavior across all platforms.
  3. 🧠 Simplified Learning Curve: Master one language instead of many.
  4. 🔍 Enhanced Debugging: Develop universal tools for shader analysis.
  5. 🔮 Future-Proof: Easily adapt to new graphics APIs as they emerge.

How It Works

The translator takes CrossGL shader code and processes it through several stages:

  1. Parsing: The code is parsed into an abstract syntax tree (AST).
  2. Intermediate Representation: The AST is converted into an intermediate representation (IR) for optimization.
  3. Code Generation: The IR is translated into the target backend code.
  4. Optimization: Various optimization passes are applied to ensure maximum performance.
  5. Source Output: The final output is produced and ready for use.

🔄 Two-Way Translation: From Platform-Specific to CrossGL

CrossGL doesn't just translate from a universal language to platform-specific shaders - it also works in reverse! This powerful feature allows developers to convert existing shaders from various platforms into CrossGL.

🌈 CrossGL Shader

shader main {
    vertex {
        input vec3 position;
        output vec2 vUV;

        void main() {
            vUV = position.xy * 10.0;
            gl_Position = vec4(position, 1.0);
        }
    }

    float perlinNoise(vec2 p) {
        return fract(sin(dot(p, vec2(12.9898, 78.233))) * 43758.5453);
    }

    fragment {
        input vec2 vUV;
        output vec4 fragColor;

        void main() {
            float noise = perlinNoise(vUV);
            float height = noise * 10.0;
            vec3 color = vec3(height / 10.0, 1.0 - height / 10.0, 0.0);
            fragColor = vec4(color, 1.0);
        }
    }
}

Getting started

First, install CrossGL's translation library using pip:

pip install crosstl

Using CrossGL

  1. Create a CrossGL shader file (e.g., shader.cgl):
shader main {
    vertex {
        input vec3 position;
        output vec2 vUV;

        void main() {
            vUV = position.xy * 10.0;
            gl_Position = vec4(position, 1.0);
        }
    }

    fragment {
        input vec2 vUV;
        output vec4 fragColor;

        void main() {
            fragColor = vec4(vUV, 0.0, 1.0);
        }
    }
}
  1. Translate to your desired backend:
import crosstl

# Translate to Metal
metal_code = crosstl.translate('shader.cgl', backend='metal', save_shader= 'shader.metal')

# Translate to DirectX (HLSL)
hlsl_code = crosstl.translate('shader.cgl', backend='directx', save_shader= 'shader.hlsl')

# Translate to OpenGL
opengl_code = crosstl.translate('shader.cgl', backend='opengl', save_shader= 'shader.glsl')

Converting from HLSL to CrossGL

  1. write your HLSL shader (e.g., shader.hlsl):
struct VS_INPUT {
    float3 position : POSITION;
};

struct PS_INPUT {
    float4 position : SV_POSITION;
    float2 uv : TEXCOORD0;
};

PS_INPUT VSMain(VS_INPUT input) {
    PS_INPUT output;
    output.position = float4(input.position, 1.0);
    output.uv = input.position.xy * 10.0;
    return output;
}

float4 PSMain(PS_INPUT input) : SV_TARGET {
    return float4(input.uv, 0.0, 1.0);
}
  1. Convert to CrossGL:
import crosstl

crossgl_code = crosstl.translate('shader.hlsl', backend='cgl', save_shader= 'shader.cgl')
print(crossgl_code)

Converting from Metal to CrossGL

  1. write your Metal shader (e.g., shader.metal):
#include <metal_stdlib>
using namespace metal;

struct VertexInput {
    float3 position [[attribute(0)]];
};

struct VertexOutput {
    float4 position [[position]];
    float2 uv;
};

vertex VertexOutput vertexShader(VertexInput in [[stage_in]]) {
    VertexOutput out;
    out.position = float4(in.position, 1.0);
    out.uv = in.position.xy * 10.0;
    return out;
}

fragment float4 fragmentShader(VertexOutput in [[stage_in]]) {
    return float4(in.uv, 0.0, 1.0);
}
  1. Convert to CrossGL:
import crosstl

crossgl_code = crosstl.translate('shader.metal', backend='cgl')
print(crossgl_code)

With these examples, you can easily get started with CrossGL, translating between different shader languages, and integrating existing shaders into your CrossGL workflow. Happy shader coding! 🚀✨

For more deep dive into crosstl , check out our Getting Started Notebook.

Contributing

We believe that everyone can contribute and make a difference. Whether it's writing code, fixing bugs, or simply sharing feedback, your contributions are definitely welcome and appreciated 🙌

find out more info in our Contributing guide

Community

Stay connected and follow our latest updates and announcements

See you there!


License

The CrossGL Translator is open-source and licensed under the License.


Thank you for using the CrossGL Translator!

The CrossGL Team

About

Translates native shader languages into CrossGL universal shader language and vice versa.

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Python 94.5%
  • Jupyter Notebook 5.5%