Low level toolkit for SVG paths transformations. Sometimes you can't use
transform
attributes and have to apply changes to svg paths directly. Then this package is for you :) !
Note: this package works with path data strings, not with full svg xml sources.
npm install svgpath
var svgpath = require('svgpath');
var transformed = svgpath(__your_path__)
.scale(0.5)
.translate(100,200)
.rel()
.round(1)
.toString();
All methods are chainable (return self).
Constructor. Creates new SvgPath
class instance with chainable methods.
new
can be omited.
Converts all path commands to absolute.
Converts all path commands to relative. Useful to reduce output size.
Rescale path (the same as SVG scale
transformation). sy
= sx
by default.
Rescale path (the same as SVG translate
transformation). y
= 0 by default.
Rotate path to angle
degrees around (rx, ry) point. If rotation center not set,
(0, 0) used. The same as SVG rotate
transformation.
Skew path along the X axis by degrees
angle.
Skew path along the Y axis by degrees
angle.
Apply 2x3 affine transform matrix to path. Params - array. The same as SVG
matrix
transformation.
Any SVG transform or their combination. For example rotate(90) scale(2,3)
.
The same format, as described in SVG standard for transform
attribute.
Converts smooth curves T
/t
/S
/s
with "missed" control point to
generic curves (Q
/q
/C
/c
).
Replaces all arcs with bezier curves.
Returns final path string.
Round all coordinates to given decimal precision. By default round to integer. Useful to reduce resulting output string size.
Apply iterator to all path segments.
- Each iterator receives
segment
,index
,x
andy
params. Where (x, y) - absolute coordinates of segment start point. - Iterator can modify current segment directly (return nothing in this case).
- Iterator can return array of new segments to replace current one (
[]
means that current segment should be delated).
If second param keepLazyStack
set to true
, then iterator will not evaluate
stacked transforms prior to run. That can be useful to optimize calculations.
You can support this project via Tidelift subscription.