[page:Material] →

[name]

A material rendered with custom shaders. A shader is a small program written in [link:https://www.khronos.org/files/opengles_shading_language.pdf GLSL] that runs on the GPU. You may want to use a custom shader if you need to:

There are the following notes to bear in mind when using a `ShaderMaterial`:

Code Example

const material = new THREE.ShaderMaterial( { uniforms: { time: { value: 1.0 }, resolution: { value: new THREE.Vector2() } }, vertexShader: document.getElementById( 'vertexShader' ).textContent, fragmentShader: document.getElementById( 'fragmentShader' ).textContent } );

Examples

[example:webgl_buffergeometry_custom_attributes_particles webgl / buffergeometry / custom / attributes / particles]
[example:webgl_buffergeometry_selective_draw webgl / buffergeometry / selective / draw]
[example:webgl_custom_attributes webgl / custom / attributes]
[example:webgl_custom_attributes_lines webgl / custom / attributes / lines]
[example:webgl_custom_attributes_points webgl / custom / attributes / points]
[example:webgl_custom_attributes_points2 webgl / custom / attributes / points2]
[example:webgl_custom_attributes_points3 webgl / custom / attributes / points3]
[example:webgl_depth_texture webgl / depth / texture]
[example:webgl_gpgpu_birds webgl / gpgpu / birds]
[example:webgl_gpgpu_protoplanet webgl / gpgpu / protoplanet]
[example:webgl_gpgpu_water webgl / gpgpu / water]
[example:webgl_interactive_points webgl / interactive / points]
[example:webgl_video_kinect webgl / video / kinect]
[example:webgl_lights_hemisphere webgl / lights / hemisphere]
[example:webgl_marchingcubes webgl / marchingcubes]
[example:webgl_materials_envmaps webgl / materials / envmaps]
[example:webgl_materials_lightmap webgl / materials / lightmap]
[example:webgl_materials_wireframe webgl / materials / wireframe]
[example:webgl_modifier_tessellation webgl / modifier / tessellation]
[example:webgl_postprocessing_dof2 webgl / postprocessing / dof2]
[example:webgl_postprocessing_godrays webgl / postprocessing / godrays]

Vertex shaders and fragment shaders

You can specify two different types of shaders for each material:

There are three types of variables in shaders: uniforms, attributes, and varyings:

Note that `within` the shader itself, uniforms and attributes act like constants; you can only modify their values by passing different values to the buffers from your JavaScript code.

Built-in attributes and uniforms

The [page:WebGLRenderer] provides many attributes and uniforms to shaders by default; definitions of these variables are prepended to your `fragmentShader` and `vertexShader` code by the [page:WebGLProgram] when the shader is compiled; you don't need to declare them yourself. See [page:WebGLProgram] for details of these variables.

Some of these uniforms or attributes (e.g. those pertaining lighting, fog, etc.) require properties to be set on the material in order for [page:WebGLRenderer] to copy the appropriate values to the GPU - make sure to set these flags if you want to use these features in your own shader.

If you don't want [page:WebGLProgram] to add anything to your shader code, you can use [page:RawShaderMaterial] instead of this class.

Custom attributes and uniforms

Both custom attributes and uniforms must be declared in your GLSL shader code (within `vertexShader` and/or `fragmentShader`). Custom uniforms must be defined in `both` the `uniforms` property of your `ShaderMaterial`, whereas any custom attributes must be defined via [page:BufferAttribute] instances. Note that `varying`s only need to be declared within the shader code (not within the material).

To declare a custom attribute, please reference the [page:BufferGeometry] page for an overview, and the [page:BufferAttribute] page for a detailed look at the `BufferAttribute` API.

When creating your attributes, each typed array that you create to hold your attribute's data must be a multiple of your data type's size. For example, if your attribute is a [page:Vector3 THREE.Vector3] type, and you have 3000 vertices in your [page:BufferGeometry], your typed array value must be created with a length of 3000 * 3, or 9000 (one value per-component). A table of each data type's size is shown below for reference:

Attribute sizes
GLSL type JavaScript type Size
float [page:Number] 1
vec2 [page:Vector2 THREE.Vector2] 2
vec3 [page:Vector3 THREE.Vector3] 3
vec3 [page:Color THREE.Color] 3
vec4 [page:Vector4 THREE.Vector4] 4

Note that attribute buffers are `not` refreshed automatically when their values change. To update custom attributes, set the `needsUpdate` flag to true on the [page:BufferAttribute] of the geometry (see [page:BufferGeometry] for further details).

To declare a custom [page:Uniform], use the `uniforms` property: uniforms: { time: { value: 1.0 }, resolution: { value: new THREE.Vector2() } }

You're recommended to update custom [page:Uniform] values depending on [page:Object3D object] and [page:Camera camera] in [page:Object3D.onBeforeRender] because [page:Material] can be shared among [page:Mesh meshes], [page:Matrix4 matrixWorld] of [page:Scene] and [page:Camera] are updated in [page:WebGLRenderer.render], and some effects render a [page:Scene scene] with their own private [page:Camera cameras].

Constructor

[name]( [param:Object parameters] )

[page:Object parameters] - (optional) an object with one or more properties defining the material's appearance. Any property of the material (including any property inherited from [page:Material]) can be passed in here.

Properties

See the base [page:Material] class for common properties.

[property:Boolean clipping]

Defines whether this material supports clipping; true to let the renderer pass the clippingPlanes uniform. Default is false.

[property:Object defaultAttributeValues]

When the rendered geometry doesn't include these attributes but the material does, these default values will be passed to the shaders. This avoids errors when buffer data is missing. this.defaultAttributeValues = { 'color': [ 1, 1, 1 ], 'uv': [ 0, 0 ], 'uv2': [ 0, 0 ] };

[property:Object defines]

Defines custom constants using `#define` directives within the GLSL code for both the vertex shader and the fragment shader; each key/value pair yields another directive: defines: { FOO: 15, BAR: true } yields the lines #define FOO 15 #define BAR true in the GLSL code.

[property:Object extensions]

An object with the following properties: this.extensions = { derivatives: false, // set to use derivatives fragDepth: false, // set to use fragment depth values drawBuffers: false, // set to use draw buffers shaderTextureLOD: false // set to use shader texture LOD };

[property:Boolean fog]

Define whether the material color is affected by global fog settings; true to pass fog uniforms to the shader. Default is false.

[property:String fragmentShader]

Fragment shader GLSL code. This is the actual code for the shader. In the example above, the `vertexShader` and `fragmentShader` code is extracted from the DOM; it could be passed as a string directly or loaded via AJAX instead.

[property:String glslVersion]

Defines the GLSL version of custom shader code. Only relevant for WebGL 2 in order to define whether to specify GLSL 3.0 or not. Valid values are `THREE.GLSL1` or `THREE.GLSL3`. Default is `null`.

[property:String index0AttributeName]

If set, this calls [link:https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/bindAttribLocation gl.bindAttribLocation] to bind a generic vertex index to an attribute variable. Default is undefined.

[property:Boolean isShaderMaterial]

Read-only flag to check if a given object is of type [name].

[property:Boolean lights]

Defines whether this material uses lighting; true to pass uniform data related to lighting to this shader. Default is false.

[property:Float linewidth]

Controls wireframe thickness. Default is 1.

Due to limitations of the [link:https://www.khronos.org/registry/OpenGL/specs/gl/glspec46.core.pdf OpenGL Core Profile] with the [page:WebGLRenderer WebGL] renderer on most platforms linewidth will always be 1 regardless of the set value.

[property:Boolean flatShading]

Define whether the material is rendered with flat shading. Default is false.

[property:Object uniforms]

An object of the form: { "uniform1": { value: 1.0 }, "uniform2": { value: 2 } } specifying the uniforms to be passed to the shader code; keys are uniform names, values are definitions of the form { value: 1.0 } where `value` is the value of the uniform. Names must match the name of the uniform, as defined in the GLSL code. Note that uniforms are refreshed on every frame, so updating the value of the uniform will immediately update the value available to the GLSL code.

[property:Boolean uniformsNeedUpdate]

Can be used to force a uniform update while changing uniforms in [page:Object3D.onBeforeRender](). Default is `false`.

[property:Boolean vertexColors]

Defines whether vertex coloring is used. Default is `false`.

[property:String vertexShader]

Vertex shader GLSL code. This is the actual code for the shader. In the example above, the `vertexShader` and `fragmentShader` code is extracted from the DOM; it could be passed as a string directly or loaded via AJAX instead.

[property:Boolean wireframe]

Render geometry as wireframe (using GL_LINES instead of GL_TRIANGLES). Default is false (i.e. render as flat polygons).

[property:Float wireframeLinewidth]

Controls wireframe thickness. Default is 1.

Due to limitations of the [link:https://www.khronos.org/registry/OpenGL/specs/gl/glspec46.core.pdf OpenGL Core Profile] with the [page:WebGLRenderer WebGL] renderer on most platforms linewidth will always be 1 regardless of the set value.

Methods

See the base [page:Material] class for common methods.

[method:ShaderMaterial clone]() [param:ShaderMaterial this]

Generates a shallow copy of this material. Note that the vertexShader and fragmentShader are copied `by reference`, as are the definitions of the `attributes`; this means that clones of the material will share the same compiled [page:WebGLProgram]. However, the `uniforms` are copied `by value`, which allows you to have different sets of uniforms for different copies of the material.

Source

[link:https://github.com/mrdoob/three.js/blob/master/src/[path].js src/[path].js]