npm package discovery and stats viewer.

Discover Tips

  • General search

    [free text search, go nuts!]

  • Package details

    pkg:[package-name]

  • User packages

    @[username]

Sponsor

Optimize Toolset

I’ve always been into building performant and accessible sites, but lately I’ve been taking it extremely seriously. So much so that I’ve been building a tool to help me optimize and monitor the sites that I build to make sure that I’m making an attempt to offer the best experience to those who visit them. If you’re into performant, accessible and SEO friendly sites, you might like it too! You can check it out at Optimize Toolset.

About

Hi, 👋, I’m Ryan Hefner  and I built this site for me, and you! The goal of this site was to provide an easy way for me to check the stats on my npm packages, both for prioritizing issues and updates, and to give me a little kick in the pants to keep up on stuff.

As I was building it, I realized that I was actually using the tool to build the tool, and figured I might as well put this out there and hopefully others will find it to be a fast and useful way to search and browse npm packages as I have.

If you’re interested in other things I’m working on, follow me on Twitter or check out the open source projects I’ve been publishing on GitHub.

I am also working on a Twitter bot for this site to tweet the most popular, newest, random packages from npm. Please follow that account now and it will start sending out packages soon–ish.

Open Software & Tools

This site wouldn’t be possible without the immense generosity and tireless efforts from the people who make contributions to the world and share their work via open source initiatives. Thank you 🙏

© 2024 – Pkg Stats / Ryan Hefner

lamina

v1.1.23

Published

🍰 An extensable, layer based shader material for ThreeJS.

Downloads

16,477

Readme

lamina lets you create materials with a declarative, system of layers. Layers make it incredibly easy to stack and blend effects. This approach was first made popular by the Spline team.

import { LayerMaterial, Depth } from 'lamina'

function GradientSphere() {
  return (
    <Sphere>
      <LayerMaterial
        color="#ffffff" //
        lighting="physical"
        transmission={1}
      >
        <Depth
          colorA="#810000" //
          colorB="#ffd0d0"
          alpha={0.5}
          mode="multiply"
          near={0}
          far={2}
          origin={[1, 1, 1]}
        />
      </LayerMaterial>
    </Sphere>
  )
}

Lamina can be used with vanilla Three.js. Each layer is just a class.

import { LayerMaterial, Depth } from 'lamina/vanilla'

const geometry = new THREE.SphereGeometry(1, 128, 64)
const material = new LayerMaterial({
  color: '#d9d9d9',
  lighting: 'physical',
  transmission: 1,
  layers: [
    new Depth({
      colorA: '#002f4b',
      colorB: '#f2fdff',
      alpha: 0.5,
      mode: 'multiply',
      near: 0,
      far: 2,
      origin: new THREE.Vector3(1, 1, 1),
    }),
  ],
})

const mesh = new THREE.Mesh(geometry, material)

Note: To match the colors of the react example, you must convert all colors to Linear encoding like so:

new Depth({
  colorA: new THREE.Color('#002f4b').convertSRGBToLinear(),
  colorB: new THREE.Color('#f2fdff').convertSRGBToLinear(),
  alpha: 0.5,
  mode: 'multiply',
  near: 0,
  far: 2,
  origin: new THREE.Vector3(1, 1, 1),
}),

Layers

LayerMaterial

LayerMaterial can take in the following parameters:

| Prop | Type | Default | | ---------- | ----------------------------------------------------------------------- | ----------------- | | name | string | "LayerMaterial" | | color | THREE.ColorRepresentation \| THREE.Color | "white" | | alpha | number | 1 | | lighting | 'phong' \| 'physical' \| 'toon' \| 'basic' \| 'lambert' \| 'standard' | 'basic' | | layers* | Abstract[] | [] |

The lighting prop controls the shading that is applied on the material. The material then accepts all the material properties supported by ThreeJS of the material type specified by the lighting prop.

* Note: the layers prop is only available on the LayerMaterial class, not the component. Pass in layers as children in React.

Built-in layers

Here are the layers that lamina currently provides

| Name | Function | | ----------------------- | -------------------------------------- | | Fragment Layers | | | Color | Flat color. | | Depth | Depth based gradient. | | Fresnel | Fresnel shading (strip or rim-lights). | | Gradient | Linear gradient. | | Matcap | Load in a Matcap. | | Noise | White, perlin or simplex noise . | | Normal | Visualize vertex normals. | | Texture | Image texture. | | Vertex Layers | | | Displace | Displace vertices using. noise |

See the section for each layer for the options on it.

Debugger

Lamina comes with a handy debugger that lets you tweek parameters till you're satisfied with the result! Then, just copy the JSX and paste!

Replace LayerMaterial with DebugLayerMaterial to enable it.

<DebugLayerMaterial color="#ffffff">
  <Depth
    colorA="#810000" //
    colorB="#ffd0d0"
    alpha={0.5}
    mode="multiply"
    near={0}
    far={2}
    origin={[1, 1, 1]}
  />
</DebugLayerMaterial>

Any custom layers are automatically compatible with the debugger. However, for advanced inputs, see the Advanced Usage section.

Writing your own layers

You can write your own layers by extending the Abstract class. The concept is simple:

Each layer can be treated as an isolated shader program that produces a vec4 color.

The color of each layer will be blended together using the specified blend mode. A list of all available blend modes can be found here

import { Abstract } from 'lamina/vanilla'

// Extend the Abstract layer
class CustomLayer extends Abstract {
  // Define stuff as static properties!

  // Uniforms: Must begin with prefix "u_".
  // Assign them their default value.
  // Any unifroms here will automatically be set as properties on the class as setters and getters.
  // There setters and getters will update the underlying unifrom.
  static u_color = 'red' // Can be accessed as CustomLayer.color
  static u_alpha = 1 // Can be accessed as CustomLayer.alpha

  // Define your fragment shader just like you already do!
  // Only difference is, you must return the final color of this layer
  static fragmentShader = `   
    uniform vec3 u_color;
    uniform float u_alpha;

    // Varyings must be prefixed by "v_"
    varying vec3 v_Position;

    vec4 main() {
      // Local variables must be prefixed by "f_"
      vec4 f_color = vec4(u_color, u_alpha);
      return f_color;
    }
  `

  // Optionally Define a vertex shader!
  // Same rules as fragment shaders, except no blend modes.
  // Return a non-projected vec3 position.
  static vertexShader = `   
    // Varyings must be prefixed by "v_"
    varying vec3 v_Position;

    void main() {
      v_Position = position;
      return position * 2.;
    }
  `

  constructor(props) {
    // You MUST call `super` with the current constructor as the first argument.
    // Second argument is optional and provides non-uniform parameters like blend mode, name and visibility.
    super(CustomLayer, {
      name: 'CustomLayer',
      ...props,
    })
  }
}

👉 Note: The vertex shader must return a vec3. You do not need to set gl_Position or transform the model view. lamina will handle this automatically down the chain.

👉 Note: You can use lamina's noise functions inside of your own layer without any additional imports: lamina_noise_perlin(), lamina_noise_simplex(), lamina_noise_worley(), lamina_noise_white(), lamina_noise_swirl().

If you need a specialized or advance use-case, see the Advanced Usage section

Using your own layers

Custom layers are Vanilla compatible by default.

To use them with React-three-fiber, you must use the extend function to add the layer to your component library!

import { extend } from "@react-three/fiber"

extend({ CustomLayer })

// ...
const ref = useRef();

// Animate uniforms using a ref.
useFrame(({ clock }) => {
  ref.current.color.setRGB(
    Math.sin(clock.elapsedTime),
    Math.cos(clock.elapsedTime),
    Math.sin(clock.elapsedTime),
  )
})

<LayerMaterial>
  <customLayer
    ref={ref}     // Imperative instance of CustomLayer. Can be used to animate unifroms
    color="green" // Uniforms can be set directly
    alpha={0.5}
  />
</LayerMaterial>

Advanced Usage

For more advanced custom layers, lamina provides the onParse event.

This event runs after the layer's shader and uniforms are parsed.

This means you can use it to inject functionality that isn't by the basic layer extension syntax.

Here is a common use case - Adding non-uniform options to layers that directly sub out shader code.

class CustomLayer extends Abstract {
  static u_color = 'red'
  static u_alpha = 1

  static vertexShader = `...`
  static fragmentShader = `
    // ...
    float f_dist = lamina_mapping_template; // Temp value, will be used to inject code later on.
    // ...
  `

  // Get some shader code based off mapping parameter
  static getMapping(mapping) {
    switch (mapping) {
      default:
      case 'uv':
        return `some_shader_code`

      case 'world':
        return `some_other_shader_code`
    }
  }

  // Set non-uniform defaults.
  mapping: 'uv' | 'world' = 'uv'

  // Non unifrom params must be passed to the constructor
  constructor(props) {
    super(
      CustomLayer,
      {
        name: 'CustomLayer',
        ...props,
      },
      // This is onParse callback
      (self: CustomLayer) => {
        // Add to Leva (debugger) schema.
        // This will create a dropdown select component on the debugger.
        self.schema.push({
          value: self.mapping,
          label: 'mapping',
          options: ['uv', 'world'],
        })

        // Get shader chunk based off selected mapping value
        const mapping = CustomLayer.getMapping(self.mapping)

        // Inject shader chunk in current layer's shader code
        self.fragmentShader = self.fragmentShader.replace('lamina_mapping_template', mapping)
      }
    )
  }
}

In react...

// ...
<LayerMaterial>
  <customLayer
    ref={ref}
    color="green"
    alpha={0.5}
    args={[mapping]} // Non unifrom params must be passed to the constructor using `args`
  />
</LayerMaterial>

Layers

Every layer has these props in common.

| Prop | Type | Default | | --------- | ------------------------- | ------------------------- | | mode | BlendMode | "normal" | | name | string | <this.constructor.name> | | visible | boolean | true |

All props are optional.

Color

Flat color.

| Prop | Type | Default | | ------- | ------------------------------------------ | ------- | | color | THREE.ColorRepresentation \| THREE.Color | "red" | | alpha | number | 1 |

Normal

Visualize vertex normals

| Prop | Type | Default | | ----------- | ----------------------------------------- | ----------- | | direction | THREE.Vector3 \| [number,number,number] | [0, 0, 0] | | alpha | number | 1 |

Depth

Depth based gradient. Colors are lerp-ed based on mapping props which may have the following values:

  • vector: distance from origin to fragment's world position.
  • camera: distance from camera to fragment's world position.
  • world: distance from fragment to center (0, 0, 0).

| Prop | Type | Default | | --------- | ------------------------------------------ | ----------- | | colorA | THREE.ColorRepresentation \| THREE.Color | "white" | | colorB | THREE.ColorRepresentation \| THREE.Color | "black" | | alpha | number | 1 | | near | number | 2 | | far | number | 10 | | origin | THREE.Vector3 \| [number,number,number] | [0, 0, 0] | | mapping | "vector" \| "camera" \| "world" | "vector" |

Fresnel

Fresnel shading.

| Prop | Type | Default | | ----------- | ------------------------------------------ | --------- | | color | THREE.ColorRepresentation \| THREE.Color | "white" | | alpha | number | 1 | | power | number | 0 | | intensity | number | 1 | | bias | number | 2 |

Gradient

Linear gradient based off distance from start to end in a specified axes. start and end are points on the axes selected. The distance between start and end is used to lerp the colors.

| Prop | Type | Default | | ---------- | ------------------------------------------ | --------- | | colorA | THREE.ColorRepresentation \| THREE.Color | "white" | | colorB | THREE.ColorRepresentation \| THREE.Color | "black" | | alpha | number | 1 | | contrast | number | 1 | | start | number | 1 | | end | number | -1 | | axes | "x" \| "y" \| "z" | "x" | | mapping | "local" \| "world" \| "uv" | "local" |

Noise

Various noise functions.

| Prop | Type | Default | | --------- | ------------------------------------------- | ----------- | | colorA | THREE.ColorRepresentation \| THREE.Color | "white" | | colorB | THREE.ColorRepresentation \| THREE.Color | "black" | | colorC | THREE.ColorRepresentation \| THREE.Color | "white" | | colorD | THREE.ColorRepresentation \| THREE.Color | "black" | | alpha | number | 1 | | scale | number | 1 | | offset | THREE.Vector3 \| [number, number, number] | [0, 0, 0] | | mapping | "local" \| "world" \| "uv" | "local" | | type | "perlin' \| "simplex" \| "cell" \| "curl" | "perlin" |

Matcap

Set a Matcap texture.

| Prop | Type | Default | | ------- | --------------- | ----------- | | map | THREE.Texture | undefined | | alpha | number | 1 |

Texture

Set a texture.

| Prop | Type | Default | | ------- | --------------- | ----------- | | map | THREE.Texture | undefined | | alpha | number | 1 |

BlendMode

Blend modes currently available in lamina

| normal | divide | | ---------- | ----------- | | add | overlay | | subtract | screen | | multiply | softlight | | lighten | reflect | | darken | negation |

Vertex layers

Layers that affect the vertex shader

Displace

Displace vertices with various noise.

| Prop | Type | Default | | ---------- | ------------------------------------------- | ----------- | | strength | number | 1 | | scale | number | 1 | | mapping | "local" \| "world" \| "uv" | "local" | | type | "perlin' \| "simplex" \| "cell" \| "curl" | "perlin" | | offset | THREE.Vector3 \| [number,number,number] | [0, 0, 0] |