FabLab_Chemnitz/mightyscape-0.92-deprecated
FabLab_Chemnitz/mightyscape-0.92-deprecated
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mightyscape-0.92-deprecated/extensions/fablabchemnitz_chain_paths.py
Mario Voigt 19bc05d45d moved all files into "extensions" sub directory
2019-11-14 20:09:28 +01:00

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#!/usr/bin/env python
#
# Inkscape extension making long continuous paths from shorter pieces.
# (C) 2015 juewei@fabmail.org
#
# code snippets visited to learn the extension 'effect' interface:
# - convert2dashes.py
# - http://github.com/jnweiger/inkscape-silhouette
# - http://github.com/jnweiger/inkscape-gears-dev
# - http://sourceforge.net/projects/inkcut/
# - http://code.google.com/p/inkscape2tikz/
# - http://code.google.com/p/eggbotcode/
#
# 2015-11-15 jw, V0.1 -- initial draught
# 2015-11-16 jw, V0.2 -- fixed endpoints after chaining.
# 2015-11-16 jw, V0.3 -- all possible chains connected. Yeah
# 2015-11-16 jw, V0.4 -- gui fully functional.
# 2015-11-26 jw, V0.5 -- HACK to resolve some self-reversing path segments.
# https://github.com/fablabnbg/inkscape-chain-paths/issues/1
__version__ = '0.5' # Keep in sync with chain_paths.inx ca line 22
__author__ = 'Juergen Weigert <juewei@fabmail.org>'
import sys, os, shutil, time, logging, tempfile, math
#debug = True
debug = False
# search path, so that inkscape libraries are found when we are standalone.
sys_platform = sys.platform.lower()
if sys_platform.startswith('win'): # windows
sys.path.append('C:\Program Files\Inkscape\share\extensions')
elif sys_platform.startswith('darwin'): # mac
sys.path.append('/Applications/Inkscape.app/Contents/Resources/extensions')
else: # linux
# if sys_platform.startswith('linux'):
sys.path.append('/usr/share/inkscape/extensions')
# inkscape libraries
import inkex
import cubicsuperpath
inkex.localize()
from optparse import SUPPRESS_HELP
def uutounit(self,nn,uu):
try:
return self.uutounit(nn,uu) # inkscape 0.91
except:
return inkex.uutounit(nn,uu) # inkscape 0.48
class ChainPaths(inkex.Effect):
"""
Inkscape Extension make long continuous paths from smaller parts
"""
def __init__(self):
# Call the base class constructor.
inkex.Effect.__init__(self)
# For handling an SVG viewbox attribute, we will need to know the
# values of the document's <svg> width and height attributes as well
# as establishing a transform from the viewbox to the display.
self.chain_epsilon = 0.01
self.snap_ends = True
self.segments_done = {}
self.min_missed_distance_sq = None
self.chained_count = 0
try:
self.tty = open("/dev/tty", 'w')
except:
try:
self.tty = open("CON:", 'w') # windows. Does this work???
except:
self.tty = open(os.devnull, 'w') # '/dev/null' for POSIX, 'nul' for Windows.
if debug: print >>self.tty, "__init__"
self.OptionParser.add_option('-V', '--version',
action = 'store_const', const=True, dest='version', default=False,
help='Just print version number ("'+__version__+'") and exit.')
self.OptionParser.add_option('-s', '--snap', action='store', dest='snap_ends', type='inkbool', default=True, help='snap end-points together when connecting')
self.OptionParser.add_option('-u', '--units', action='store', dest="units", type="string", default="mm", help="measurement unit for epsilon")
self.OptionParser.add_option('-e', '--epsilon', action='store',
type='float', dest='chain_epsilon', default=0.01, help="Max. distance to connect [mm]")
def version(self):
print "hiuhu"
return __version__
def author(self):
return __author__
def calc_unit_factor(self, units='mm'):
""" return the scale factor for all dimension conversions.
- The document units are always irrelevant as
everything in inkscape is expected to be in 90dpi pixel units
"""
dialog_units = uutounit(self, 1.0, units)
self.unit_factor = 1.0 / dialog_units
return self.unit_factor
def reverse_segment(self, seg):
r = []
for s in reversed(seg):
# s has 3 elements: handle1, point, handle2
# Swap handles.
s.reverse()
r.append(s)
return r
def set_segment_done(self, id, n, msg=''):
if not id in self.segments_done:
self.segments_done[id] = {}
self.segments_done[id][n] = True
if debug: print >>self.tty, "done", id, n, msg
def is_segment_done(self, id, n):
if not id in self.segments_done:
return False
if n in self.segments_done[id]:
return True
return False
def link_segments(self, seg1, seg2):
if self.snap_ends:
seg = seg1[:-1]
p1 = seg1[-1]
p2 = seg2[0]
# fuse p1 and p2 to create one new point:
# first handle from p1, point coordinates averaged, second handle from p2
seg.append([ [ p1[0][0] , p1[0][1] ],
[(p1[1][0]+p2[1][0])*.5, (p1[1][1]+p2[1][1])*.5],
[ p2[2][0] , p2[2][1] ] ])
seg.extend(seg2[1:])
else:
seg = seg1[:]
seg.extend(seg2[:])
self.chained_count += 1
return seg
def near_ends(self, end1, end2):
""" requires self.eps_sq to be the square of the near distance """
dx = end1[0] - end2[0]
dy = end1[1] - end2[1]
d_sq = dx * dx + dy * dy
if d_sq > self.eps_sq:
if self.min_missed_distance_sq is None:
self.min_missed_distance_sq = d_sq
elif self.min_missed_distance_sq > d_sq:
self.min_missed_distance_sq = d_sq
return False
else:
return True
def effect(self):
if self.options.version:
print __version__
sys.exit(0)
self.calc_unit_factor(self.options.units)
if self.options.snap_ends is not None: self.snap_ends = self.options.snap_ends
if self.options.chain_epsilon is not None: self.chain_epsilon = self.options.chain_epsilon
if self.chain_epsilon < 0.001: self.chain_epsilon = 0.001 # keep a minimum.
self.eps_sq = self.chain_epsilon * self.unit_factor * self.chain_epsilon * self.unit_factor
if not len(self.selected.items()):
inkex.errormsg(_("Please select one or more objects."))
return
segments = []
for id, node in self.selected.iteritems():
if node.tag != inkex.addNS('path','svg'):
inkex.errormsg(_("Object "+id+" is not a path. Try\n - Path->Object to Path\n - Object->Ungroup"))
return
if debug: print >>self.tty, "id="+str(id), "tag="+str(node.tag)
path_d = cubicsuperpath.parsePath(node.get('d'))
sub_idx = -1
for sub in path_d:
sub_idx += 1
# sub=[[[200.0, 300.0], [200.0, 300.0], [175.0, 290.0]], [[175.0, 265.0], [220.37694, 256.99876], [175.0, 240.0]], [[175.0, 215.0], [200.0, 200.0], [200.0, 200.0]]]
# this is a path of three points. All the bezier handles are included. the Structure is:
# [[handle0_x, point0, handle0_1], [handle1_0, point1, handle1_2], [handle2_1, point2, handle2_x]]
if debug: print >>self.tty, " sub="+str(sub)
end1=[sub[0][1][0],sub[0][1][1]]
end2=[sub[-1][1][0],sub[-1][1][1]]
while ((len(sub) > 1) and self.near_ends(end1, end2)):
if debug: print >>self.tty, "splitting self-reversing path, length:", len(sub)
## We split the path and generate more snippets.
splitp=[sub[-2][1][0],sub[-2][1][1]]
segments.append({'id': id, 'n': sub_idx, 'end1': splitp, 'end2':end2, 'seg': [sub[-2],sub[-1]]})
sub_idx += 1
sub.pop()
end2=splitp
segments.append({'id': id, 'n': sub_idx, 'end1': end1, 'end2':end2, 'seg': sub})
if node.get(inkex.addNS('type','sodipodi')):
del node.attrib[inkex.addNS('type', 'sodipodi')]
if debug: print >>self.tty, "-------- seen:"
for s in segments:
if debug: print >>self.tty, s['id'],s['n'],s['end1'],s['end2']
# chain the segments
obsoleted = 0
remaining = 0
for id, node in self.selected.iteritems():
# path_style = simplestyle.parseStyle(node.get('style'))
path_d = cubicsuperpath.parsePath(node.get('d'))
new=[]
cur_idx = -1
for cur in path_d:
cur_idx += 1
if not self.is_segment_done(id, cur_idx):
# quadratic algorithm: we check both ends of the current segment.
# If one of them is near another known end from the segments list, we
# chain this segment to the current segment and remove it from the
# list,
# end1-end1 or end2-end2: The new segment is reversed.
# end1-end2: The new segment is prepended to the current segment.
# end2-end1: The new segment is appended to the current segment.
self.set_segment_done(id, cur_idx, "output") # do not cross with ourselves.
end1=[cur[0][1][0],cur[0][1][1]]
end2=[cur[-1][1][0],cur[-1][1][1]]
segments_idx = 0
while segments_idx < len(segments):
seg = segments[segments_idx]
if self.is_segment_done(seg['id'], seg['n']):
segments_idx += 1
continue
if (self.near_ends(end1, seg['end1']) or
self.near_ends(end2, seg['end2'])):
seg['seg'] = self.reverse_segment(seg['seg'])
seg['end1'],seg['end2'] = seg['end2'],seg['end1']
if debug: print >>self.tty, "reversed seg", seg['id'], seg['n']
if self.near_ends(end1, seg['end2']):
# prepend seg to cur
self.set_segment_done(seg['id'], seg['n'], 'prepended to '+id+' '+str(cur_idx))
cur = self.link_segments(seg['seg'], cur)
end1=[cur[0][1][0],cur[0][1][1]]
segments_idx = 0
continue
if self.near_ends(end2, seg['end1']):
# append seg to cur
self.set_segment_done(seg['id'], seg['n'], 'appended to '+id+' '+str(cur_idx))
cur = self.link_segments(cur, seg['seg'])
end2=[cur[-1][1][0],cur[-1][1][1]]
segments_idx = 0
continue
segments_idx += 1
new.append(cur)
if not len(new):
# node.clear()
node.getparent().remove(node)
obsoleted += 1
if debug: print >>self.tty, "Path node obsoleted:", id
else:
remaining += 1
node.set('d',cubicsuperpath.formatPath(new))
# statistics:
print >>self.tty, "Path nodes obsoleted:", obsoleted, "\nPath nodes remaining:", remaining
if self.min_missed_distance_sq is not None:
print >>self.tty, "min_missed_distance:", math.sqrt(float(self.min_missed_distance_sq))/self.unit_factor, '>', self.chain_epsilon, self.options.units
print >>self.tty, "Successful link operations: ", self.chained_count
if __name__ == '__main__':
e = ChainPaths()
e.affect()
sys.exit(0) # helps to keep the selection
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