A modern set of Typescript tools for manipulating the d
(description) attribute for SVGPathElement items. The library is implementing modern JavaScript API to produce reusable path strings with lossless quality. In addition, you also have a powerful tool to convert other SVG shapes like <circle>
or <rect>
to <path>
.
While you may find familiar tools inside, this library brings new additions:
- the build in
getBBox
,getPointAtLength
andgetTotalLength
are more reliable and much more accurate than the native methods, not to mention their world class performance ratings; - thanks to the community contributions we've implemented useful tools like
getPropertiesAtLength
,getSegmentOfPoint
orisPointInStroke
; - a tool that can reverse path draw direction without altering path commands, even with specific shorthand path commands;
- a unique tool that can reverse path draw direction for path strings with only 'C' path commands;
- a new and unique tool to apply transform functions to path commands via the modern DOMMatrix API.
The key differences with other libraries:
- Typescript sourced with modernized codebase and build tools; all inherited codebase has been modernized as well;
- along with the modern codebase, the library also comes with strong TypeScript definitions;
- this library can create 3D to 2D projections, making your SVGs look like 3D but in the SVG coordinate system;
- you can use this library in both web apps and Node.js, you are not restricted to a single environment;
- path command transformations are all consistent with the SVG coordinates system, where others compute transform origin only for rotation transformation.
SVGPathCommander can use the DOMMatrix API for SVGPathElement path command transformation and implements a very fast and modernized DOMMatrix shim. There are a couple of good reasons for this implementation:
- WebKitCSSMatrix and SVGMatrix APIs are slowly pushed away by DOMMatrix, the green light for new and modern implementations;
- we can actually apply a 3D transformation matrix to SVG path commands, by calculating a 2D projection of the actual shape in 3D coordinates;
- when most tools available will be rendered absolete, we are ready for new challenges.
This library is available on CDN and npm.
npm install svg-path-commander
<script src="https://cdn.jsdelivr.net/npm/svg-path-commander/dist/svg-path-commander.js">
Flip a path on the X axis:
import SVGPathCommander from 'svg-path-commander';
const path = 'M0 0L100 0L50 100';
const flippedPathString = new SVGPathCommander(path).flipX().toString();
// result => 'M0 100h100L50 0'
Optimize a path string for best outcome by using the round: 'auto'
option which will determine the amount of decimals based on the shape's bounding box:
const optimizedPathString = new SVGPathCommander(path, {round: 'auto'}).optimize().toString();
Or why not apply a 2D transformation and even a 3D transformation:
// a transform object
const transform = {
translate: 15, // X axis translation
rotate: 15, // Z axis rotation
scale: 0.75, // uniform scale on X, Y, Z axis
skew: 15, // skew 15deg on the X axis
origin: [15, 0] // if not specified, it will calculate a bounding box to determine a proper `transform-origin`
}
const transformed2DPathString = new SVGPathCommander(path).transform(transform).toString();
// apply a 3D transformation
const transform = {
translate: [15, 15, 15], // `[15, 15]` would apply a 2D translation, and only `15` for X axis translation
rotate: [15, 15, 15], // or only "15" for 2D rotation on Z axis
scale: [0.7, 0.75, 0.8], // or only "0.7" for 2D scale on all X, Y, Z axis
skew: [15, 15], // or only "15" for the X axis
origin: [15, 15, 15] // full `transform-origin` for a typical 3D transformation
}
const transformed3DPathString = new SVGPathCommander(path).transform(transform).toString();
SVGPathCommander comes with a full range of additional static methods, here's how to normalize a path:
const path = 'M0 0 H50';
const normalizedPath = SVGPathCommander.normalizePath(path);
// result => [['M', 0, 0], ['L', 50, 0]]
Reverse a path:
const path = 'M0 0 H50';
const reversedPath = SVGPathCommander.reversePath(path);
// result => [['M', 50, 0], ['H', 0]]
Export to string:
const myPathString = SVGPathCommander.pathToString([['M', 0, 0], ['L', 50, 0]]);
// result => 'M0 0 L50 0'
Check a path string validity:
SVGPathCommander.isValidPath(path);
// result => boolean
Convert a shape to <path>
and transfer all non-specific attributes
const myCircle = document.getElementById('myCircle');
SVGPathCommander.shapeToPath(myCircle, true);
Alternatively you can create <path>
from specific attributes:
const myRectAttr = {
type: 'rect',
x: 25,
y: 25,
width: 50,
height: 50,
rx: 5
};
const myRectPath = SVGPathCommander.shapeToPath(myRectAttr);
document.getElementById('mySVG').append(myRectPath);
Server-side using jsdom
:
const { document } = new JSDOM(
`<html>
<head></head>
<body>
<svg id="mySVG" viewBox="0 0 100 100" xmlns="http://www.w3.org/2000/svg">
<rect id="myRect" x="0" width="100" height="100" rx="15" />
</svg>
</body>
</html>`,
{
pretendToBeVisual: true,
}
).window;
const myRect = document.getElementById('myRect');
SVGPathCommander.shapeToPath(myRect, true, document);
Get the path length:
const myPathLength = SVGPathCommander.getTotalLength('M0 0L50 0L25 50z');
// result => 161.80339887498948
Get a point along the path:
const myPoint = SVGPathCommander.getPointAtLength('M0 0L50 0L25 50z', 85);
// result => {x: 34.34752415750147, y: 31.304951684997057}
Get the path bounding box:
const myPathBBox = SVGPathCommander.getPathBBox('M0 0L50 0L25 50z');
// result => {width: 50, height: 50, x: 0, y: 0, x2: 50, y2: 50, cx: 25, cy: 25, cz: 75}
For developer guidelines, and a complete list of static methods, head over to the wiki pages.
- converting and optimizing SVGPathElement for use in third party application; our KUTE.js animation engine is using it to process SVGPathElement coordinates for SVG morphing and SVG cubic morphing;
- animators that work with SVGs and need tools for performing specific path command processing;
- front-end developers looking to spice up the content by combining, splitting or transforming paths;
- font-icon creators can use it in both Node.js and web applications to process, optimize and test their creations.
- the
optimize()
instance method will not merge path segments (for instance two or more cubic-bezier segments into one or more arc segments); however, the script will try to provide shorthand notations where possible, pick the shortest string for each segment, and generally try to deliver the best possible outcome; - all tools processing path segments will never round float values, however
pathToString
,optimizePath
and especiallyroundPath
will always round values to the default of 4 decimals; EG: 0.56676 => 0.567, 0.50 => 0.5; you can change the default option withSVGPathCommander.options.round = 2
or remove the value rounding all together withSVGPathCommander.options.round = false
; you can also control this feature via instance options; - the
getSVGMatrix
utility we developed will always compute the matrix by applying the transform functions in the following order:translate
,rotate
,skew
andscale
, which is the default composition/recomposition order specified in the W3C draft; - all 3d transformations as well as skews will convert
A
(arc) path commands toC
(cubic bezier) due to the lack of resources; - most tools included with SVGPathCommander should work in your Node.js apps, but feel free to report any issue;
- other path commands like
R
(catmulRomBezier),O
,U
(ellipse and shorthand ellipse) are not present in the current draft and are not supported; - normalization can mean many things to many people and our library is developed to convert path command values to absolute and shorthand to longhand commands to provide a solid foundation for the main processing tools of our library;
- when compared to the native methods like
SVGPathElement.getTotalLength()
orSVGPathElement.getPointAtLength()
, the output of our static methods is within a [0.002 - 0.05] margin delta, but from our experience it's proven to be a more consistent outcome.
- Dmitry Baranovskiy for his Raphael.js
- Vitaly Puzrin & Alex Kocharin for their SvgPath
- Jürg Lehni & Jonathan Puckey for their Paper.js
- Andrew Willems for his awesome guide
- Mike 'Pomax' Kamermans for his awesome svg-path-reverse, bezierjs and bezierinfo
- Nicolas Debeissat for the inspiration on svg3d
- Mike Bostock for his awesome closestPoint
- James Halliday for his excelent point-at-length
- Eric Eastwood for his excelent svg-curve-lib
- PhET Interactive Simulations for their kite
SVGPathCommander is released under MIT Licence.