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README.md 4f7d048853 first commit 1 year ago

README.md

CustomShader Documentation

Note: This README is stored in ModelExperimental/ temporarily while this is an experimental feature. In the future, this may move to the Documentation/ directory.

Constructor

var customShader = new Cesium.CustomShader({
  // Any custom uniforms the user wants to add to the shader.
  // these can be changed at runtime via customShader.setUniform()
  uniforms: {
    u_time: {
      value: 0, // initial value
      type: Cesium.UniformType.FLOAT
    },
    // Textures can be loaded from a URL, a Resource, or a TypedArray.
    // See the Uniforms section for more detail
    u_externalTexture: {
      value: new Cesium.TextureUniform({
        url: "http://example.com/image.png"
      }),
      type: Cesium.UniformType.SAMPLER_2D
    }
  }
  // Custom varyings that will appear in the custom vertex and fragment shader
  // text.
  varyings: {
    v_customTexCoords: Cesium.VaryingType.VEC2
  },
  // configure where in the fragment shader's materials/lighting pipeline the
  // custom shader goes. More on this below.
  mode: Cesium.CustomShaderMode.MODIFY_MATERIAL,
  // either PBR (physically-based rendering) or UNLIT depending on the desired
  // results.
  lightingModel: Cesium.LightingModel.PBR,
  // required when setting material.alpha in the fragment shader
  isTranslucent: true,
  // Custom vertex shader. This is a function from model space -> model space.
  // VertexInput is documented below
  vertexShaderText: `
    void vertexMain(VertexInput vsInput, inout vec3 position) {
        // code goes here. e.g. for a no-op:
        return position;
    }
  `,
  // Custom fragment shader.
  // FragmentInput will be documented below
  // Regardless of the mode, this always takes in a material and modifies it in place.
  fragmentShaderText: `
    void fragmentMain(FragmentInput fsInput, inout czm_modelMaterial material) {
        // code goes here. e.g. to set the diffuse color to a translucent red:
        material.diffuse = vec3(1.0, 0.0, 0.0);
        material.alpha = 0.5;
    }
  `,
});

Applying A Custom Shader

Custom shaders can be applied to either 3D Tiles or ModelExperimental as follows:

var customShader = new Cesium.CustomShader(/* ... */);

// Applying to all tiles in a tileset.
var tileset = viewer.scene.primitives.add(new Cesium.Cesium3DTileset({
  url: "http://example.com/tileset.json",
  customShader: customShader
}));

// Applying to a model directly
var model = Cesium.ModelExperimental.fromGltf({,
  gltf: "http://example.com/model.gltf",
  customShader: customShader
});

Note: As of this writing, only tilesets that use the 3DTILES_content_gltf extension will support CustomShaders. Future releases will add support for other formats such as B3DM.

Uniforms

Custom Shaders currently supports the following uniform types:

UniformType GLSL type JS type
FLOAT float Number
VEC2 vec2 Cartesian2
VEC3 vec3 Cartesian3
VEC4 vec4 Cartesian4
INT int Number
INT_VEC2 ivec2 Cartesian2
INT_VEC3 ivec3 Cartesian3
INT_VEC4 ivec4 Cartesian4
BOOL bool Boolean
BOOL_VEC2 bvec2 Cartesian2
BOOL_VEC3 bvec3 Cartesian3
BOOL_VEC4 bvec4 Cartesian4
MAT2 mat2 Matrix2
MAT3 mat3 Matrix3
MAT4 mat4 Matrix4
SAMPLER_2D sampler2D TextureUniform

Texture Uniforms

Texture uniforms have more options, which have been encapsulated in the TextureUniform class. Textures can be loaded from a URL, a Resource or a typed array. Here are some examples:

var textureFromUrl = new Cesium.TextureUniform({
  url: "https://example.com/image.png",
});

var textureFromTypedArray = new Cesium.TextureUniform({
  typedArray: new Uint8Array([255, 0, 0, 255]),
  width: 1,
  height: 1,
  pixelFormat: Cesium.PixelFormat.RGBA,
  pixelDatatype: Cesium.PixelDatatype.UNSIGNED_BYTE,
});

// TextureUniform also provides options for controlling the sampler
var textureWithSampler = new Cesium.TextureUniform({
  url: "https://example.com/image.png",
  repeat: false,
  minificationFilter: Cesium.TextureMinificationFilter.NEAREST,
  magnificationFilter: Cesium.TextureMagnificationFilter.NEAREST,
});

Varyings

Varyings are declared in the CustomShader constructor. This automatically adds a line such as varying float v_userDefinedVarying; to the top of the GLSL shader.

The user is responsible for assigning a value to this varying in vertexShaderText and using it in fragmentShaderText. For example:

var customShader = new Cesium.CustomShader({
  // Varying is declared here
  varyings: {
    v_selectedColor: VaryingType.VEC3,
  },
  // User assigns the varying in the vertex shader
  vertexShaderText: `
    void vertexMain(VertexInput vsInput, inout vec3 position) {
        float positiveX = step(0.0, position.x);
        v_selectedColor = mix(
            vsInput.attributes.color_0,
            vsInput.attributes.color_1,
            position.x
        );
        return position;
    }
  `,
  // User uses the varying in the fragment shader
  fragmentShaderText: `
    void fragmentMain(FragmentInput fsInput, inout czm_modelMaterial material) {
        material.diffuse = v_selectedColor;
    }
  `,
});

Custom Shaders supports the following varying types:

VaryingType GLSL type
FLOAT float
VEC2 vec2
VEC3 vec3
VEC4 vec4
MAT2 mat2
MAT3 mat3
MAT4 mat4

Custom Shader Modes

The custom fragment shader is configurable so it can go before/after materials or lighting. here's a summary of what modes are available.

Mode Fragment shader pipeline Description
MODIFY_MATERIAL (default) material -> custom shader -> lighting The custom shader modifies the results of the material stage
REPLACE_MATERIAL custom shader -> lighting Don't run the material stage at all, but procedurally generate it in the custom shader

In the above, "material" does preprocessing of textures, resulting in a czm_modelMaterial. This is mostly relevant for PBR, but even for UNLIT, the base color texture is handled.

VertexInput struct

An automatically-generated GLSL struct that contains attributes.

// this struct represents the raw attribute values.
struct Attributes {
    // required semantics
    vec3 position; // model space position. Always present.

    // optional semantics (added if available in the 3D model file)
    vec3 normal; // corresponds to attribute with semantic "NORMAL"
    vec3 tangent;
    vec2 texCoord_0;
    // etc.

    // custom attribues
    vec3 custom_attribute; // corresponds to attribute "_CUSTOM_ATTRIBUTE"
};

struct VertexInput {
    // raw attribute values
    Attributes attributes;
    // in the future we may add another struct for derived attributes (e.g. positionEC)
};

FragmentInput struct

This struct is similar to VertexInput, but there are a few more automatic variables for positions in various coordinate spaces.

// this struct represents the raw attributes from the 3D model file. The
// varyings required to make this work are handled automatically.
struct Attributes {
    // required semantics
    vec3 position; // Raw model space position. always present as POSITION is required

    // optional semantics (added if available in the 3D model file)
    vec3 normal; // corresponds to attribute with semantic "NORMAL"
    vec3 tangent;
    vec2 texCoord_0;
    // etc.

    // custom attribues
    vec3 custom_attribute; // corresponds to attribute "_CUSTOM_ATTRIBUTE"
};

struct FragmentInput {
    // raw attribute values interpolated (but not normalized) from varyings.
    Attributes attributes;
    vec3 positionMC; // model space
    vec3 positionWC; // World coords (ECEF). Low precision.
    vec3 positionEC; // Eye coordinates
};

czm_modelMaterial struct

This one is a built-in, see the documentation comment. This is similar to czm_material from the old Fabric system, but slightly different fields as this one supports PBR lighting.

This struct serves as the basic input/output of the fragment shader pipeline stages. For example:

  • the material stage produces a material
  • the lighting stage takes in a material, computes lighting, and stores the result into material.diffuse
  • Custom shaders (regardless of where in the pipeline it is) takes in a material (even if it's a material with default values) and modifies this.