273 lines
17 KiB
Python
273 lines
17 KiB
Python
#!/usr/bin/env python3
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"""
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Extension for InkScape 1.0+
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Paperfold is another flattener for triangle mesh files, heavily based on paperfoldmodels by Felix Scholz aka felixfeliz.
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Author: Mario Voigt / FabLab Chemnitz
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Mail: mario.voigt@stadtfabrikanten.org
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Date: 17.05.2021
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Last patch: 18.05.2021
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License: GNU GPL v3
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For each selected path element, this extension creates an additional path element
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consisting of horizontal line segments which are the same size as the original
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path segments. Has options to extrude as a band (adds height; adds vertical lines and another horizontal path as bottom enclosure)
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ToDos:
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- option to render separate rectangle shapes
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- option to duplicate vertical lines and then to group each 4 lines into one rect-shape like group
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- option to colorize vertical line start + end
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- option to add glue tabs/flaps
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- option to add length text to each segment
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- option to add segment/surface numbers
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"""
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import copy
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import inkex
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from inkex import Color, bezier, Path, CubicSuperPath, TextElement, Tspan
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from inkex.bezier import csplength
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from lxml import etree
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import math
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import random
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class UnwindPaths(inkex.EffectExtension):
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#draw an SVG line segment between the given (raw) points
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def drawline(self, pathData, name, parent, line_style):
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line_attribs = {'style' : str(inkex.Style(line_style)), inkex.addNS('label','inkscape') : name, 'd' : pathData}
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line = etree.SubElement(parent, inkex.addNS('path','svg'), line_attribs )
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def add_arguments(self, pars):
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pars.add_argument('--tab')
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pars.add_argument('--keep_original', type=inkex.Boolean, default=False, help="If not selected, the original paths get deleted")
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pars.add_argument('--break_apart', type=inkex.Boolean, default=False, help="Split each path into single curve segments")
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pars.add_argument('--break_only', type=inkex.Boolean, default=False, help="Only splits root paths into segments (no unwinding)")
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pars.add_argument('--colorize', type=inkex.Boolean, default=False, help="Colorize original paths and glue pairs")
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pars.add_argument('--color_increment', type=int, default=10000, help="For each segment we count up n colors. Does not apply if 'Randomize colors' is enabled.")
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pars.add_argument('--randomize_colors', type=inkex.Boolean, default=False, help="Randomize colors")
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pars.add_argument('--number', type=inkex.Boolean, default=False, help="Number segments")
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pars.add_argument('--unit', default="mm")
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pars.add_argument('--thickness_offset', type=float, default=0.000, help="Allows to add/subtract extra offset length for each curve segment.")
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pars.add_argument('--extrude', type=inkex.Boolean, default=False)
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pars.add_argument('--extrude_height', type=float, default=10.000)
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pars.add_argument('--render_vertical_dividers', type=inkex.Boolean, default=False)
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pars.add_argument('--render_with_dashes', type=inkex.Boolean, default=False)
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#if multiple curves are inside the path we split (break apart)
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def breakContours(self, element, breakelements = None): #this does the same as "CTRL + SHIFT + K"
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if breakelements == None:
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breakelements = []
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if element.tag == inkex.addNS('path','svg'):
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parent = element.getparent()
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idx = parent.index(element)
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idSuffix = 0
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raw = element.path.to_arrays()
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subPaths, prev = [], 0
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for i in range(len(raw)): # Breaks compound paths into simple paths
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if raw[i][0] == 'M' and i != 0:
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subPaths.append(raw[prev:i])
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prev = i
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subPaths.append(raw[prev:])
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if len(subPaths) > 1:
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for subpath in subPaths:
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replacedelement = copy.copy(element)
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oldId = replacedelement.get('id')
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csp = CubicSuperPath(subpath)
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if len(subpath) > 1 and csp[0][0] != csp[0][1]: #avoids pointy paths like M "31.4794 57.6024 Z"
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replacedelement.set('d', csp)
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if len(subPaths) == 1:
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replacedelement.set('id', oldId)
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else:
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replacedelement.set('id', oldId + str(idSuffix))
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idSuffix += 1
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parent.insert(idx, replacedelement)
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breakelements.append(replacedelement)
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parent.remove(element)
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else:
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breakelements.append(element)
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for child in element.getchildren():
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self.breakContours(child, breakelements)
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return breakelements
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def rgb(self, minimum, maximum, value):
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minimum, maximum = float(minimum), float(maximum)
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ratio = 2 * (value-minimum) / (maximum - minimum)
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b = int(max(0, 255 * (1 - ratio)))
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r = int(max(0, 255 * (ratio - 1)))
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g = 255 - b - r
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return r, g, b
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def effect(self):
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shifting = self.svg.unittouu(str(self.options.extrude_height) + self.options.unit)
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to = self.svg.unittouu(str(self.options.thickness_offset) + self.options.unit)
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#some mode handling
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if self.options.colorize is True or self.options.number:
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self.options.break_apart = True #required to make it work
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if len(self.svg.selected) > 0:
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#we break apart combined paths to get distinct contours
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breakApartPaths = []
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for element in self.svg.selection.filter(inkex.PathElement).values():
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breakApartPaths.append(self.breakContours(element))
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for breakApartPath in breakApartPaths:
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for element in breakApartPath:
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elemGroup = self.svg.get_current_layer().add(inkex.Group(id="unwinding-" + element.get('id')))
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#beginning point of the unwind band:
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bbox = element.bounding_box() #shift the element to the bottom of the element
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xmin = bbox.left
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ymax = bbox.bottom + bbox.height * 0.1 #10% additional spacing
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csp = element.path.to_superpath()
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subCount = len(element.path)
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#generate random colors; used to identify glue tab pairs
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if self.options.colorize is True:
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colorSet = []
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if self.options.randomize_colors is True:
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while len(colorSet) < subCount - 1:
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r = lambda: random.randint(0,255)
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newColor = '#%02X%02X%02X' % (r(),r(),r())
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if newColor not in colorSet:
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colorSet.append(newColor)
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else:
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for i in range(subCount):
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colorSet.append(Color(self.rgb(0, i+self.options.color_increment, 1*i)))
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slengths, stotal = csplength(csp) #get segment lengths and total length of path in document's internal unit
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#self.msg(stotal) #total length of the path
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for sub in csp:
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#generate new horizontal line data by measuring each segment
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new = []
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new.append([sub[0]])
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i = 1
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topPathData = "m {:0.6f},{:0.6f} ".format(xmin, ymax)
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bottomPathData = "m {:0.6f},{:0.6f} ".format(xmin, ymax + shifting)
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lengths = []
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if self.options.break_apart is True:
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topLineGroup = self.svg.get_current_layer().add(inkex.Group(id="hline-top-" + element.get('id')))
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bottomLineGroup = self.svg.get_current_layer().add(inkex.Group(id="hline-bottom-" + element.get('id')))
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elemGroup.append(topLineGroup)
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elemGroup.append(bottomLineGroup)
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newOriginalPathGroup = self.svg.get_current_layer().add(inkex.Group(id="new-original-" + element.get('id')))
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self.svg.get_current_layer().append(newOriginalPathGroup) #we want this to be one level above unwound stuff
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if self.options.extrude is True:
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vlinesGroup = self.svg.get_current_layer().add(inkex.Group(id="vlines-" + element.get('id')))
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elemGroup.append(vlinesGroup)
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if self.options.break_only is False:
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while i <= len(sub) - 1:
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stroke_color = '#000000'
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if self.options.colorize is True and self.options.break_apart is True:
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stroke_color =colorSet[i-1]
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horizontal_line_style = {'stroke':stroke_color,'stroke-width':self.svg.unittouu('1px'),'fill':'none'}
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length = bezier.cspseglength(new[-1][-1], sub[i]) + to #sub path length
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#if length <= 0:
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# inkex.utils.debug("Warning: path id={}, segment={} might overlap with previous and/or next segment. Maybe check for negative thickness offset.".format(element.get('id'), i))
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segment = "h {:0.6f} ".format(length)
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topPathData += segment
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bottomPathData += segment
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new[-1].append(sub[i]) #important line!
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mid_coord_x = xmin + sum([length for length in lengths]) + length/2
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font_size = 5
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font_y_offset = font_size + 1
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if self.options.number is True:
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text = topLineGroup.add(TextElement(id=element.get('id') + "_TextNr{}".format(i)))
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text.set("x", "{:0.6f}".format(mid_coord_x))
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text.set("y", "{:0.6f}".format(ymax - font_y_offset))
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text.set("font-size", "{:0.6f}".format(font_size))
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text.set("style", "text-anchor:middle;text-align:center;fill:{}".format(stroke_color))
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tspan = text.add(Tspan(id=element.get('id') + "_TSpanNr{}".format(i)))
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tspan.set("x", "{:0.6f}".format(mid_coord_x))
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if length <= 0:
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tspan.set("y", "{:0.6f}".format(ymax - font_y_offset - i))
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else:
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tspan.set("y", "{:0.6f}".format(ymax - font_y_offset))
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tspan.text = str(i)
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if self.options.break_apart is True:
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self.drawline("m {:0.6f},{:0.6f} ".format(xmin + sum([length for length in lengths]), ymax) + segment,
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"segmented-top-{}-{}".format(element.get('id'), i), topLineGroup, horizontal_line_style)
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if length <= 0:
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self.drawline("m {:0.6f},{:0.6f} ".format(mid_coord_x, ymax) + "v {} ".format(-5-i),
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"segmented-top-overlap-{}-{}".format(element.get('id'), i), topLineGroup, horizontal_line_style)
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if self.options.extrude is True:
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self.drawline("m {:0.6f},{:0.6f} ".format(xmin + sum([length for length in lengths]), ymax + shifting) + segment,
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"segmented-bottom-{}-{}".format(element.get('id'), i), bottomLineGroup, horizontal_line_style)
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lengths.append(length)
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i += 1
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if self.options.break_apart is False:
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self.drawline(topPathData, "combined-top-{0}".format(element.get('id')), elemGroup, horizontal_line_style)
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if self.options.extrude is True:
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self.drawline(bottomPathData, "combined-bottom-{0}".format(element.get('id')), elemGroup, horizontal_line_style)
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#draw as much vertical lines as segments in bezier + start + end vertical line
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vertical_end_lines_style = {'stroke':'#000000','stroke-width':self.svg.unittouu('1px'),'fill':'none'}
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if self.options.extrude is True:
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#render start line
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self.drawline("m {:0.6f},{:0.6f} v {:0.6f}".format(xmin, ymax, shifting),"vline-{}-start".format(element.get('id')), vlinesGroup, vertical_end_lines_style)
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#render divider lines
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if self.options.render_vertical_dividers is True:
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vertical_mid_lines_style = {'stroke':'#000000','stroke-width':self.svg.unittouu('1px'),'fill':'none'}
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if self.options.render_with_dashes is True:
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vertical_mid_lines_style = {'stroke':'#000000','stroke-width':self.svg.unittouu('1px'),"stroke-dasharray":"2 2", 'fill':'none'}
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x = 0
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for n in range(0, i-2):
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x += lengths[n]
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self.drawline("m {:0.6f},{:0.6f} v {:0.6f}".format(xmin + x, ymax, shifting),"vline-{}-{}".format(element.get('id'), n + 1), vlinesGroup, vertical_mid_lines_style)
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#render end line
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self.drawline("m {:0.6f},{:0.6f} v {:0.6f}".format(xmin + sum([length for length in lengths]), ymax, shifting),"vline-{}-end".format(element.get('id')), vlinesGroup, vertical_end_lines_style)
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if self.options.break_apart is True:
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# Split (already broken apart) paths into detached segments
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raw = Path(element.get("d")).to_arrays() #returns Uppercase Command Letters; does not include H, V
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for i in range(len(raw)):
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if i > 0:
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if raw[i-1][0] in ("M", "L"):
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startPoint = "M {},{}".format(raw[i-1][1][0], raw[i-1][1][1])
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elif raw[i-1][0] == 'C':
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startPoint = "M {},{}".format(raw[i-1][1][-2], raw[i-1][1][-1])
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else:
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inkex.utils.debug("Start point error. Unknown command!")
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if raw[i][0] in ("M", "L"):
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segment = " {},{}".format(raw[i][1][0], raw[i][1][1])
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elif raw[i][0] == 'C':
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segment = "{} {}".format(raw[i][0], ''.join(str(raw[i][1]))[1:-1])
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elif raw[i][0] == 'Z':
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segment = "{},{}".format(raw[0][1][0], raw[0][1][1])
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else:
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inkex.utils.debug("Segment error. Unknown command!")
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d = str(Path("{} {}".format(startPoint, segment)))
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stroke_color = '#000000'
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if self.options.colorize is True:
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stroke_color =colorSet[i-1]
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new_original_line_style = {'stroke':stroke_color,'stroke-width':self.svg.unittouu('1px'),'fill':'none'}
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self.drawline(d, "segmented-" + element.get('id'), newOriginalPathGroup, new_original_line_style)
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if self.options.keep_original is False:
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element.delete()
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else:
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self.msg('Please select some paths first.')
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return
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if __name__ == '__main__':
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UnwindPaths().run()
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