295 lines
12 KiB
Python
295 lines
12 KiB
Python
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#! /usr/bin/python2
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'''
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Copyright (C) 2018 Tao Wei taowei@buffalo.edu
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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'''
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import inkex, simplestyle, math
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from simpletransform import computePointInNode
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import svgpathtools
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KAPPA = 4/3. * (math.sqrt(2)-1)
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def cround(cnumber, ndigits):
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return round(cnumber.real, ndigits) + round(cnumber.imag, ndigits)*1j
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def round_seg(seg, ndigits):
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seg.start = cround(seg.start, ndigits)
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seg.end = cround(seg.end, ndigits)
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return seg
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def round_path(p, ndigits=6):
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"""fix for precision issue"""
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for seg in p:
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round_seg(seg, ndigits)
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return p
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def remove_zero_length_segments(p, eps=1e-6):
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"z will add a zero length line segment"
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return svgpathtools.Path(*filter(lambda seg: seg.length() > eps, p))
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def iscontinuous(p):
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for seg1, seg2 in zip(p[:-1], p[1:]):
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if abs(seg1.end-seg2.start) >= 1e-6:
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return False
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return True
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def isclosedac(p):
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return abs(p.start-p.end) < 1e-6
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def isclosed(p):
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assert iscontinuous(p)
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return isclosedac(p)
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from svgpathtools.path import Line, CubicBezier, QuadraticBezier, Arc
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def d_str(self, useSandT=False, use_closed_attrib=False, rel=False):
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"""Returns a path d-string for the path object.
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For an explanation of useSandT and use_closed_attrib, see the
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compatibility notes in the README."""
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if use_closed_attrib:
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self_closed = self.iscontinuous() and self.isclosed()
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if self_closed:
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segments = self[:-1]
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else:
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segments = self[:]
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else:
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self_closed = False
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segments = self[:]
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current_pos = None
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parts = []
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previous_segment = None
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end = self[-1].end
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for segment in segments:
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seg_start = segment.start
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# If the start of this segment does not coincide with the end of
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# the last segment or if this segment is actually the close point
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# of a closed path, then we should start a new subpath here.
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if current_pos != seg_start or \
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(self_closed and seg_start == end and use_closed_attrib):
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if rel:
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_seg_start = seg_start - current_pos if current_pos is not None else seg_start
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else:
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_seg_start = seg_start
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parts.append('M {},{}'.format(_seg_start.real, _seg_start.imag))
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if isinstance(segment, Line):
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if rel:
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_seg_end = segment.end - seg_start
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else:
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_seg_end = segment.end
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parts.append('L {},{}'.format(_seg_end.real, _seg_end.imag))
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elif isinstance(segment, CubicBezier):
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if useSandT and segment.is_smooth_from(previous_segment,
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warning_on=False):
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if rel:
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_seg_control2 = segment.control2 - seg_start
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_seg_end = segment.end - seg_start
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else:
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_seg_control2 = segment.control2
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_seg_end = segment.end
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args = (_seg_control2.real, _seg_control2.imag,
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_seg_end.real, _seg_end.imag)
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parts.append('S {},{} {},{}'.format(*args))
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else:
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if rel:
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_seg_control1 = segment.control1 - seg_start
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_seg_control2 = segment.control2 - seg_start
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_seg_end = segment.end - seg_start
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else:
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_seg_control1 = segment.control1
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_seg_control2 = segment.control2
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_seg_end = segment.end
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args = (_seg_control1.real, _seg_control1.imag,
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_seg_control2.real, _seg_control2.imag,
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_seg_end.real, _seg_end.imag)
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parts.append('C {},{} {},{} {},{}'.format(*args))
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elif isinstance(segment, QuadraticBezier):
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if useSandT and segment.is_smooth_from(previous_segment,
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warning_on=False):
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if rel:
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_seg_end = segment.end - seg_start
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else:
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_seg_end = segment.end
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args = _seg_end.real, _seg_end.imag
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parts.append('T {},{}'.format(*args))
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else:
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if rel:
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_seg_control = segment.control - seg_start
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_seg_end = segment.end - seg_start
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else:
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_seg_control = segment.control
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_seg_end = segment.end
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args = (_seg_control.real, _seg_control.imag,
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_seg_end.real, _seg_end.imag)
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parts.append('Q {},{} {},{}'.format(*args))
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elif isinstance(segment, Arc):
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if rel:
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_seg_end = segment.end - seg_start
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else:
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_seg_end = segment.end
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args = (segment.radius.real, segment.radius.imag,
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segment.rotation,int(segment.large_arc),
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int(segment.sweep),_seg_end.real, _seg_end.imag)
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parts.append('A {},{} {} {:d},{:d} {},{}'.format(*args))
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current_pos = segment.end
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previous_segment = segment
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if self_closed:
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parts.append('Z')
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s = ' '.join(parts)
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return s if not rel else s.lower()
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class FilletChamfer(inkex.Effect):
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def __init__(self):
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inkex.Effect.__init__(self)
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self.OptionParser.add_option("-t", "--type",
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action="store", type="string",
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dest="fillet_type", default="fillet",
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help="Selects whether using fillet or chamfer")
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self.OptionParser.add_option("-R", "--radius",
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action="store", type="float",
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dest="radius", default=60.0,
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help="The radius")
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def addEle(self, ele, parent, props):
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# https://inkscape.org/~pacogarcia/%E2%98%85new-version-of-shapes-extension
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elem = inkex.etree.SubElement(parent, ele)
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for n in props: elem.set(n,props[n])
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return elem
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def circle(self, c, r):
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return svgpathtools.parse_path("m %f,%f a %f,%f 0 0 1 -%f,%f %f,%f 0 0 1 -%f,-%f %f,%f 0 0 1 %f,-%f %f,%f 0 0 1 %f,%f z" % tuple((c.real+r, c.imag) + (r,)*16))
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def _calc_fillet_for_joint(self, p, i):
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seg1 = p[(i) % len(p)]
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seg2 = p[(i+1) % len(p)]
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ori_p = svgpathtools.Path(seg1, seg2)
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new_p = svgpathtools.Path()
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# ignore the node if G1 continuity
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tg1 = seg1.unit_tangent(1.0)
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tg2 = seg2.unit_tangent(0.0)
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cosA = abs(tg1.real * tg2.real + tg1.imag * tg2.imag)
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if abs(cosA - 1.0) < 1e-6:
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new_p.append(seg1.cropped(self._prev_t, 1.0))
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self._prev_t = 0.0
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if self._very_first_t is None:
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self._very_first_t = 1.0
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if not isclosedac(p) and i == len(p) - 2:
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new_p.append(seg2.cropped(0.0, 1.0)) # add last segment if not closed
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else:
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cir = self.circle(seg1.end, self.options.radius)
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# new_p.extend(cir)
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intersects = ori_p.intersect(cir)
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if len(intersects) != 2:
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inkex.errormsg("Some fillet or chamfer may not be drawn: %d intersections!" % len(intersects))
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new_p.append(seg1.cropped(self._prev_t, 1.0))
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self._prev_t = 0.0
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if self._very_first_t is None:
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self._very_first_t = 1.0
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if not isclosedac(p) and i == len(p) - 2:
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new_p.append(seg2.cropped(0.0, 1.0)) # add last segment if not closed
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else:
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cb = []; segs = []; ts = []
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for (T1, seg1, t1), (T2, seg2, t2) in intersects:
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c1 = seg1.point(t1)
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tg1 = seg1.unit_tangent(t1) * (self.options.radius * KAPPA)
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cb.extend([c1, tg1])
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segs.append(seg1); ts.append(t1)
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# cir1 = self.circle(c1, self.options.radius * KAPPA)
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# new_p.extend(cir1)
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# new_p.append(svgpathtools.Line(c1, c1+tg1))
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assert len(cb) == 4
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new_p.append(segs[0].cropped(self._prev_t, ts[0]))
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if self.options.fillet_type == 'fillet':
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fillet = svgpathtools.CubicBezier(cb[0], cb[0]+cb[1], cb[2]-cb[3], cb[2])
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else:
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fillet = svgpathtools.Line(cb[0], cb[2])
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new_p.append(fillet)
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self._prev_t = ts[1]
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if self._very_first_t is None:
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self._very_first_t = ts[0]
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if isclosedac(p) and i == len(p) - 1:
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new_p.append(segs[1].cropped(ts[1], self._very_first_t)) # update first segment if closed
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elif not isclosedac(p) and i == len(p) - 2:
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new_p.append(segs[1].cropped(ts[1], 1.0)) # add last segment if not closed
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# # fix for the first segment
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# if p.isclosed():
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# new_p[0] = p[0].cropped(ts[1], self._very_first_t)
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# new_p.append(segs[0].cropped(ts[0], 1.0))
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# new_p.append(segs[1].cropped(0.0, ts[1]))
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# if self.options.fillet_type == 'fillet':
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# fillet = svgpathtools.CubicBezier(cb[0], cb[0]+cb[1], cb[2]-cb[3], cb[2])
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# else:
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# fillet = svgpathtools.Line(cb[0], cb[2])
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# new_p.append(fillet.reversed())
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return new_p
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def add_fillet_to_path(self, d):
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p = svgpathtools.parse_path(d)
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p = remove_zero_length_segments(p) # for z, a zero length line segment is possibly added
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if len(p) <= 1:
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return d
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new_p = svgpathtools.Path()
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self._prev_t = 0 # used as cache
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self._very_first_t = None # update first segment if closed
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if isclosedac(p):
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for i in range(len(p)):
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new_p.extend(self._calc_fillet_for_joint(p, i))
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if not isclosedac(new_p):
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del new_p[0] # remove first segment if closed
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else:
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for i in range(len(p)-1):
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new_p.extend(self._calc_fillet_for_joint(p, i))
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new_p = round_path(new_p, 6)
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# inkex.errormsg(d_str(new_p, use_closed_attrib=True, rel=True))
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return d_str(new_p, use_closed_attrib=True, rel=True)
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def effect(self):
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self.options.radius = self.unittouu(str(self.options.radius) + 'px')
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if self.options.radius == 0:
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return
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for id, node in self.selected.iteritems():
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_shape = inkex.etree.QName(node.tag).localname
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if _shape != "path":
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inkex.errormsg("Fillet and chamfer only operates on path: %s is %s" % (id, _shape))
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else:
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# inkex.errormsg(inkex.etree.tostring(node))
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attrib = {k:v for k,v in node.attrib.items()}
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attrib['d'] = self.add_fillet_to_path(attrib['d'])
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self.addEle(inkex.addNS('path','svg'), node.getparent(), attrib)
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if __name__ == '__main__':
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e = FilletChamfer()
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e.affect()
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