gl-geometry

A flexible wrapper for gl-vao and gl-buffer that you can use to set up renderable WebGL geometries from a variety of different formats.

Usage

geom = createGeometry(gl)

Creates a new geometry attached to the WebGL canvas context gl.

geom.attr(name, values)

Define a new attribute value, for example using a simplicial complex:

var createGeometry = require('gl-geometry')
var bunny = require('bunny')

var geom = createGeometry(gl)
  .attr('positions', bunny)

The following vertex formats are supported and will be normalized:

Arrays of arrays, e.g. [[0, 0, 0], [1, 0, 0], [1, 1, 0]].
Flat arrays, e.g. [0, 0, 0, 1, 0, 0, 1, 1, 0].
Typed arrays, preferably a Float32Array.
1-dimensional ndarrays.
simplicial complexes, i.e. an object with a positions array and a cells array. The former is a list of unique vertices in the mesh (if you've used three.js, think THREE.Vector3), and the latter is an index mapping these vertices to faces (THREE.Face3) in the mesh. It looks something like this:
```
{
  "positions": [
    [0.0, 0.0, 0.0],
    [1.5, 0.0, 0.0],
    [1.5, 1.5, 0.0],
    [0.0, 1.5, 0.0]
  ],
  "cells": [
    [0, 1, 2],
    [1, 2, 3]
  ]
}
```

geom.faces(values)

Pass a simplicial complex's cells property here in any of the above formats to use it as your index when drawing the geometry. For example:

var createGeometry = require('gl-geometry')
var bunny = require('bunny')

bunny.normals = normals.vertexNormals(
    bunny.cells
  , bunny.positions
)

var geom = createGeometry(gl)
  .attr('positions', bunny.positions)
  .attr('normals', bunny.normals)
  .faces(bunny.cells)

geom.bind([shader])

Binds the underlying VAO – this must be called before calling geom.draw. Optionally, you can pass in a gl-shader or glslify shader instance to automatically set up your attribute locations for you.

geom.draw(mode, start, stop)

Draws the geometry to the screen using the currently bound shader.

Optionally, you can pass in the drawing mode, which should be one of the following:

gl.POINTS
gl.LINES
gl.LINE_STRIP
gl.LINE_LOOP
gl.TRIANGLES
gl.TRIANGLE_STRIP
gl.TRIANGLE_FAN

The default value is gl.TRIANGLES. You're also able to pass in a start and stop range for the points you want to render, just the same as you would with gl.drawArrays or gl.drawElements.

geom.unbind()

Unbinds the underlying VAO. This must be done when you're finished drawing, unless you're binding to another gl-geometry or gl-vao instance.

License

MIT. See LICENSE.md for details.

Name		Name	Last commit message	Last commit date
Latest commit History 1 Commit
README.md		README.md
index.js		index.js
normalize.js		normalize.js
package.json		package.json
test.frag		test.frag
test.js		test.js
test.vert		test.vert

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gl-geometry

Usage

geom = createGeometry(gl)

geom.attr(name, values)

geom.faces(values)

geom.bind([shader])

geom.draw(mode, start, stop)

geom.unbind()

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gl-geometry

Usage

geom = createGeometry(gl)

geom.attr(name, values)

geom.faces(values)

geom.bind([shader])

geom.draw(mode, start, stop)

geom.unbind()

See Also

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