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#!/usr/bin/env python
"""
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 2 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.
Perspective approach & math by Dmitry Platonov, shadowjack@mail.ru, 2006
"""
# standard library
import sys
import os
import re
try:
from subprocess import Popen, PIPE
bsubprocess = True
except:
bsubprocess = False
# local library
import inkex
import simplepath
import cubicsuperpath
import simpletransform
from ffgeom import *
# third party
try:
from numpy import *
from numpy.linalg import *
except:
# Initialize gettext for messages outside an inkex derived class
inkex.localize()
inkex.errormsg(_("Failed to import the numpy or numpy.linalg modules. These modules are required by this extension. Please install them and try again. On a Debian-like system this can be done with the command, sudo apt-get install python-numpy."))
exit()
class Project(inkex.Effect):
def __init__(self):
inkex.Effect.__init__(self)
def effect(self):
if len(self.options.ids) < 2:
inkex.errormsg(_("This extension requires two selected paths."))
exit()
#obj is selected second
scale = self.unittouu('1px') # convert to document units
obj = self.selected[self.options.ids[0]]
envelope = self.selected[self.options.ids[1]]
if obj.get(inkex.addNS('type','sodipodi')):
inkex.errormsg(_("The first selected object is of type '%s'.\nTry using the procedure Path->Object to Path." % obj.get(inkex.addNS('type','sodipodi'))))
exit()
if obj.tag == inkex.addNS('path','svg') or obj.tag == inkex.addNS('g','svg'):
if envelope.tag == inkex.addNS('path','svg'):
mat = simpletransform.composeParents(envelope, [[1.0, 0.0, 0.0], [0.0, 1.0, 0.0]])
path = cubicsuperpath.parsePath(envelope.get('d'))
if len(path) < 1 or len(path[0]) < 4:
inkex.errormsg(_("This extension requires that the second selected path be four nodes long."))
exit()
simpletransform.applyTransformToPath(mat, path)
dp = zeros((4,2), dtype=float64)
for i in range(4):
dp[i][0] = path[0][i][1][0]
dp[i][1] = path[0][i][1][1]
#query inkscape about the bounding box of obj
q = {'x':0,'y':0,'width':0,'height':0}
file = self.args[-1]
id = self.options.ids[0]
for query in q.keys():
if bsubprocess:
p = Popen('inkscape --query-%s --query-id=%s "%s"' % (query,id,file), shell=True, stdout=PIPE, stderr=PIPE)
rc = p.wait()
q[query] = scale*float(p.stdout.read())
err = p.stderr.read()
else:
f,err = os.popen3('inkscape --query-%s --query-id=%s "%s"' % (query,id,file))[1:]
q[query] = scale*float(f.read())
f.close()
err.close()
sp = array([[q['x'], q['y']+q['height']],[q['x'], q['y']],[q['x']+q['width'], q['y']],[q['x']+q['width'], q['y']+q['height']]], dtype=float64)
else:
if envelope.tag == inkex.addNS('g','svg'):
inkex.errormsg(_("The second selected object is a group, not a path.\nTry using the procedure Object->Ungroup."))
else:
inkex.errormsg(_("The second selected object is not a path.\nTry using the procedure Path->Object to Path."))
exit()
else:
inkex.errormsg(_("The first selected object is not a path.\nTry using the procedure Path->Object to Path."))
exit()
solmatrix = zeros((8,8), dtype=float64)
free_term = zeros((8), dtype=float64)
for i in (0,1,2,3):
solmatrix[i][0] = sp[i][0]
solmatrix[i][1] = sp[i][1]
solmatrix[i][2] = 1
solmatrix[i][6] = -dp[i][0]*sp[i][0]
solmatrix[i][7] = -dp[i][0]*sp[i][1]
solmatrix[i+4][3] = sp[i][0]
solmatrix[i+4][4] = sp[i][1]
solmatrix[i+4][5] = 1
solmatrix[i+4][6] = -dp[i][1]*sp[i][0]
solmatrix[i+4][7] = -dp[i][1]*sp[i][1]
free_term[i] = dp[i][0]
free_term[i+4] = dp[i][1]
res = solve(solmatrix, free_term)
projmatrix = array([[res[0],res[1],res[2]],[res[3],res[4],res[5]],[res[6],res[7],1.0]],dtype=float64)
if obj.tag == inkex.addNS("path",'svg'):
self.process_path(obj,projmatrix)
if obj.tag == inkex.addNS("g",'svg'):
self.process_group(obj,projmatrix)
def process_group(self,group,m):
for node in group:
if node.tag == inkex.addNS('path','svg'):
self.process_path(node,m)
if node.tag == inkex.addNS('g','svg'):
self.process_group(node,m)
def process_path(self,path,m):
mat = simpletransform.composeParents(path, [[1.0, 0.0, 0.0], [0.0, 1.0, 0.0]])
d = path.get('d')
p = cubicsuperpath.parsePath(d)
simpletransform.applyTransformToPath(mat, p)
for subs in p:
for csp in subs:
csp[0] = self.project_point(csp[0],m)
csp[1] = self.project_point(csp[1],m)
csp[2] = self.project_point(csp[2],m)
mat = simpletransform.invertTransform(mat)
simpletransform.applyTransformToPath(mat, p)
path.set('d',cubicsuperpath.formatPath(p))
def project_point(self,p,m):
x = p[0]
y = p[1]
return [(x*m[0][0] + y*m[0][1] + m[0][2])/(x*m[2][0]+y*m[2][1]+m[2][2]),(x*m[1][0] + y*m[1][1] + m[1][2])/(x*m[2][0]+y*m[2][1]+m[2][2])]
if __name__ == '__main__':
e = Project()
e.affect()
# vim: expandtab shiftwidth=4 tabstop=8 softtabstop=4 fileencoding=utf-8 textwidth=99
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