File: //usr/share/inkscape/extensions/jitternodes.py
#!/usr/bin/env python
'''
Copyright (C) 2012 Juan Pablo Carbajal ajuanpi-dev@gmail.com
Copyright (C) 2005 Aaron Spike, aaron@ekips.org
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
'''
import random, math, inkex, cubicsuperpath
def randomize((x, y), rx, ry, dist):
if dist == "Gaussian":
r1 = random.gauss(0.0,rx)
r2 = random.gauss(0.0,ry)
elif dist == "Pareto":
'''
sign is used ot fake a double sided pareto distribution.
for parameter value between 1 and 2 the distribution has infinite variance
I truncate the distribution to a high value and then normalize it.
The idea is to get spiky distributions, any distribution with long-tails is
good (ideal would be Levy distribution).
'''
sign = random.uniform(-1.0,1.0)
r1 = min(random.paretovariate(1.0), 20.0)/20.0
r2 = min(random.paretovariate(1.0), 20.0)/20.0
r1 = rx * math.copysign(r1, sign)
r2 = ry * math.copysign(r2, sign)
elif dist == "Lognorm":
sign = random.uniform(-1.0,1.0)
r1 = rx * math.copysign(random.lognormvariate(0.0,1.0)/3.5,sign)
r2 = ry * math.copysign(random.lognormvariate(0.0,1.0)/3.5,sign)
elif dist == "Uniform":
r1 = random.uniform(-rx,rx)
r2 = random.uniform(-ry,ry)
x += r1
y += r2
return [x, y]
class JitterNodes(inkex.Effect):
def __init__(self):
inkex.Effect.__init__(self)
self.OptionParser.add_option("--title")
self.OptionParser.add_option("-x", "--radiusx",
action="store", type="float",
dest="radiusx", default=10.0,
help="Randomly move nodes and handles within this radius, X")
self.OptionParser.add_option("-y", "--radiusy",
action="store", type="float",
dest="radiusy", default=10.0,
help="Randomly move nodes and handles within this radius, Y")
self.OptionParser.add_option("-c", "--ctrl",
action="store", type="inkbool",
dest="ctrl", default=True,
help="Randomize control points")
self.OptionParser.add_option("-e", "--end",
action="store", type="inkbool",
dest="end", default=True,
help="Randomize nodes")
self.OptionParser.add_option("-d", "--dist",
action="store", type="string",
dest="dist", default="Uniform",
help="Choose the distribution of the displacements")
self.OptionParser.add_option("--tab",
action="store", type="string",
dest="tab",
help="The selected UI-tab when OK was pressed")
def effect(self):
for id, node in self.selected.iteritems():
if node.tag == inkex.addNS('path','svg'):
d = node.get('d')
p = cubicsuperpath.parsePath(d)
for subpath in p:
for csp in subpath:
if self.options.end:
delta=randomize([0,0], self.options.radiusx, self.options.radiusy, self.options.dist)
csp[0][0]+=delta[0]
csp[0][1]+=delta[1]
csp[1][0]+=delta[0]
csp[1][1]+=delta[1]
csp[2][0]+=delta[0]
csp[2][1]+=delta[1]
if self.options.ctrl:
csp[0]=randomize(csp[0], self.options.radiusx, self.options.radiusy, self.options.dist)
csp[2]=randomize(csp[2], self.options.radiusx, self.options.radiusy, self.options.dist)
node.set('d',cubicsuperpath.formatPath(p))
if __name__ == '__main__':
e = JitterNodes()
e.affect()
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