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JS library for converting vector graphics paths into triangles for GL-like APIs
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README.md

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Description

Tesspathy is a Javascript utility library for converting vector representation (aka path) of 2d graphics into the form (basically triangles) capable of being fed to GL-like (e.g. WebGL) APIs.

Features

  • Tessellate not only polygons, but also quadratic Bezier curves, into a resolution independent form.
  • Tessellate not only filled regions, but also straight/curve strokes.
  • Holes and separated regions supported, with no need of explicit declaration.
  • Without any post-processing, all necessary basic data for rendering by WebGL is ready in output.
  • No extra dependencies. Input and output are all plain Javascript Arrays.
  • Reasonable degree of error tolerance.

Installation

Install using npm

npm install tesspathy

Then require it into any module

var Tesspathy = require('tesspathy');
var tLoactions = [/* ... */], tLabels = [/* ... */];
var tResult = Tesspathy.triangulate(tLocations, tLabels);

To use Tesspathy from a browser, download the appropriate file(s) from the following:

And then add it as a script tag to your page

<script src="tesspathy.min.js"></script>
<script>
  var tLoactions = [/* ... */], tLabels = [/* ... */];
  var tResult = Tesspathy.triangulate(tLocations, tLabels);
</script>

Usage

Live demo

API

Input data of shape contours with one or multiple separated regions, zero or multiple holes, can be all passed in together, without explicit separation. The same for lines with one or multiple connected/disconnected strokes.

Tesspathy.triangulate(locations, labels)

Tessellate one or multiple closed shapes (with zero or multiple holes possibly) defined by locations and labels.

Tesspathy.triangulateLine(locations, labels, lineStyle)

Tessellate one or multiple strokes defined by locations, labels, and lineStyle.

Tesspathy.setFillCoordinates(fillCoordinates)

Set the values to be used when generating the fillCoordinates field of the output object of both Tesspathy.triangulate and Tesspathy.triangulateLine. The meaning and usage of this fillCoordinates is not defined in the scope of Tesspathy project. One possible usage is to pass it as another vertex attribute to shader program for certain rendering effects, such as resolution independent curve (live demo).

Tesspathy.getFillCoordinates()

Get the current values used to generate the fillCoordinates field of the output object.

Parameters

locations

Array of point locations, of the following form:

[ 
  [x0, y0], [x1, y1], [x2, y2], ... , [xN, yN],    // 1st shape or line
  [xN+1, yN+1], [xN+2, yN+2], ... , [xN+M, yN+M],  // 2nd shape or line
  ...   // more shapes or lines
]
  • For each single closed shape (not line), the last point location must be the same with the first location.
  • The order of point locations (clockwise or counterclockwise) is not restricted, but within a single locations array, all the contours should be in the same order while all the holes should be in the reversed order.

labels

Array of point labels to indicating

  1. the start of a new shape or line,
  2. normal point or control point(of Bezier curve).

For example:

// START = [Tesspathy.PATH_START], ANCHOR = [Tesspathy.PATH_ANCHOR], CONTROL = [Tesspathy.PATH_CONTROL];

[
  START, ANCHOR, CONTROL, ..., ANCHOR,   // 1st shape or line
  START, CONTROL, ANCHOR, ..., ANCHOR,   // 2nd shape or line
  ...   // more shapes or lines
]
  • For each single closed shape or line, the first label must be START and the last must be ANCHOR.
  • The label of point with location locations[i] should be labels[i][0].

lineStyle

Object defining the line style used to render strokes, of the following form:

{
  width: 20,
  cap: 'round',
  join: 'round'
};
  • The value of width will be regarded as using the same length unit of locations.
  • By now, the only supported line join/cap is 'round'.

fillCoordinates

Object defining the values to be used when generating the fillCoordinates field of the output. For example:

{
  straight: {s: STRAIGHT_S, t: STRAIGHT_T},
  out_anchor0: {s: OUT_ANCHOR0_S, t: OUT_ANCHOR0_T},
  out_control: {s: OUT_CONTROL_S, t: OUT_CONTROL_T},
  out_anchor1: {s: OUT_ANCHOR1_S, t: OUT_ANCHOR1_T},
  in_anchor0: {s: IN_ANCHOR0_S, t: IN_ANCHOR0_T},
  in_control: {s: IN_CONTROL_S, t: IN_CONTROL_T},
  in_anchor1: {s: IN_ANCHOR1_S, t: IN_ANCHOR1_T}
}

Output

The output of both Tesspathy.triangulate and Tesspathy.triangulateLine will be an Object of the following form:

{
  triangleLocations: [x0, y0, x1, y1, ..., xK, yK]
  fillCoordinates: [s0, t0, s1, t1, ..., sK, yK]
  triangleIndices: [0, 1, 2, 1, 3, 4, ..., K-5, K-3, K-2]
}

This output can be used directly by WebGL. For example:

 ... 
var tPosition = gl.getAttribLocation(...);
gl.bufferData(gl.ARRAY_BUFFER, new Float32Array(result.triangleLocations), gl.STATIC_DRAW);
gl.vertexAttribPointer(tPosition, 2, gl.FLOAT, false, 0, 0);

var tCoord = gl.getAttribLocation(...);
gl.bufferData(gl.ARRAY_BUFFER, new Float32Array(result.fillCoordinates), gl.STATIC_DRAW);
gl.vertexAttribPointer(tCoord, 2, gl.FLOAT, false, 0, 0);

gl.bufferData(gl.ELEMENT_ARRAY_BUFFER, new Uint16Array(result.triangleIndices), gl.STATIC_DRAW); 

gl.drawElements(gl.TRIANGLES, result.triangleIndices.length, gl.UNSIGNED_SHORT, 0);

Thus, if you set your GL status and matrix uniform(s) correctly, and write your shaders (especially fragment shader) well, you will see your shapes or lines defined in vector form being rendered by using WebGL. If there is any problem, please first have a look at the live demo provided.

Note

  • Shapes with self-crossing contours will result in undefined behaviour.
  • By now, the only supported curve type is quadratic Bezier curve.

Author

Guangyao Liu

Contributions

We use GitHub issues to track requests and public bugs. Please ensure your description is clear and has sufficient instructions to be able to reproduce the issue.

Licence

Copyright © 2015 Guangyao Liu / GREE, Inc.

Licensed under the MIT License.

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