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mightyscape-1.1-deprecated/extensions/fablabchemnitz/create_links/create_links.py

333 lines
20 KiB
Python

#!/usr/bin/env python3
# coding=utf-8
#
# Copyright (C) 2005,2007 Aaron Spike, aaron@ekips.org
# Copyright (C) 2009 Alvin Penner, penner@vaxxine.com
#
# 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.
#
"""
This extension converts a path into a dashed line using 'stroke-dasharray'
It is a modification of the file addelements.py
It is a modification of the file convert2dash.py
Extension to convert paths into dash-array line
Extension for InkScape 1.X
Author: Mario Voigt / FabLab Chemnitz
Mail: mario.voigt@stadtfabrikanten.org
Date: 09.04.2021
Last patch: 14.04.2021
License: GNU GPL v3
"""
import copy
import re
import inkex
from inkex import bezier, CubicSuperPath, Group, PathElement
from inkex.bezier import csplength
class LinksCreator(inkex.EffectExtension):
def add_arguments(self, pars):
pars.add_argument("--tab")
pars.add_argument("--path_types", default="closed_paths", help="Apply for closed paths, open paths or both")
pars.add_argument("--creationunit", default="mm", help="Creation Units")
pars.add_argument("--creationtype", default="entered_values", help="Creation")
pars.add_argument("--link_count", type=int, default=1, help="Link count")
pars.add_argument("--link_multiplicator", type=int, default=1, help="If set, we create a set of multiple gaps of same size next to the main gap")
pars.add_argument("--length_link", type=float, default=1.000, help="Link length")
pars.add_argument("--link_offset", type=float, default=0.000, help="Link offset (+/-)")
pars.add_argument("--switch_pattern", type=inkex.Boolean, default=False, help="If enabled, we use gap length as dash length (switches the dasharray pattern")
pars.add_argument("--custom_dasharray_value", default="", help="A list of separated lengths that specify the lengths of alternating dashes and gaps. Input only accepts numbers. It ignores percentages or other characters.")
pars.add_argument("--custom_dashoffset_value", type=float, default=0.000, help="Link offset (+/-)")
pars.add_argument("--length_filter", type=inkex.Boolean, default=False, help="Enable path length filtering")
pars.add_argument("--length_filter_value", type=float, default=0.000, help="Paths with length more than")
pars.add_argument("--length_filter_unit", default="mm", help="Length filter unit")
pars.add_argument("--keep_selected", type=inkex.Boolean, default=False, help="Keep selected elements")
pars.add_argument("--no_convert", type=inkex.Boolean, default=False, help="Do not create segments (cosmetic gaps only)")
pars.add_argument("--breakapart", type=inkex.Boolean, default=False, help="Performs CTRL + SHIFT + K to break the new output path into it's parts")
pars.add_argument("--show_info", type=inkex.Boolean, default=False, help="Print some length and pattern information")
pars.add_argument("--skip_errors", type=inkex.Boolean, default=False, help="Skip errors")
def breakContours(self, element, breakelements = None): #this does the same as "CTRL + SHIFT + K"
if breakelements == None:
breakelements = []
if element.tag == inkex.addNS('path','svg'):
parent = element.getparent()
idx = parent.index(element)
idSuffix = 0
raw = element.path.to_arrays()
subPaths, prev = [], 0
for i in range(len(raw)): # Breaks compound paths into simple paths
if raw[i][0] == 'M' and i != 0:
subPaths.append(raw[prev:i])
prev = i
subPaths.append(raw[prev:])
for subpath in subPaths:
replacedelement = copy.copy(element)
oldId = replacedelement.get('id')
replacedelement.set('d', CubicSuperPath(subpath))
replacedelement.set('id', oldId + str(idSuffix).zfill(5))
parent.insert(idx, replacedelement)
idSuffix += 1
breakelements.append(replacedelement)
parent.remove(element)
for child in element.getchildren():
self.breakContours(child, breakelements)
return breakelements
def effect(self):
def createLinks(element):
elementParent = element.getparent()
path = element.path.to_arrays() #to_arrays() is deprecated. How to make more modern?
pathIsClosed = False
if path[-1][0] == 'Z' or \
(path[-1][0] == 'L' and path[0][1] == path[-1][1]) or \
(path[-1][0] == 'C' and path[0][1] == [path[-1][1][-2], path[-1][1][-1]]) \
: #if first is last point the path is also closed. The "Z" command is not required
pathIsClosed = True
if self.options.path_types == 'open_paths' and pathIsClosed is True:
return #skip this loop iteration
elif self.options.path_types == 'closed_paths' and pathIsClosed is False:
return #skip this loop iteration
elif self.options.path_types == 'both':
pass
# if keeping is enabled we make of copy of the current element and insert it while modifying the original ones. We could also delete the original and modify a copy...
if self.options.keep_selected is True:
parent = element.getparent()
idx = parent.index(element)
copyelement = copy.copy(element)
parent.insert(idx, copyelement)
# we measure the length of the path to calculate the required dash configuration
csp = element.path.transform(element.composed_transform()).to_superpath()
slengths, stotal = csplength(csp) #get segment lengths and total length of path in document's internal unit
if self.options.length_filter is True:
if stotal < self.svg.unittouu(str(self.options.length_filter_value) + self.options.length_filter_unit):
if self.options.show_info is True: self.msg("element " + element.get('id') + " is shorter than minimum allowed length of {:1.3f} {}. Path length is {:1.3f} {}".format(self.options.length_filter_value, self.options.length_filter_unit, stotal, self.options.creationunit))
return #skip this loop iteration
if self.options.creationunit == "percent":
length_link = (self.options.length_link / 100.0) * stotal
else:
length_link = self.svg.unittouu(str(self.options.length_link) + self.options.creationunit)
dashes = [] #central dashes array
if self.options.creationtype == "entered_values":
dash_length = ((stotal - length_link * self.options.link_count) / self.options.link_count) - 2 * length_link * self.options.link_multiplicator
dashes.append(dash_length)
dashes.append(length_link)
for i in range(0, self.options.link_multiplicator):
dashes.append(length_link) #stroke (=gap)
dashes.append(length_link) #gap
if self.options.switch_pattern is True:
dashes = dashes[::-1] #reverse the array
#validate dashes. May not be negative (dash or gap cannot be longer than the path itself). Otherwise Inkscape will freeze forever. Reason: rendering issue
if any(dash <= 0.0 for dash in dashes) == True:
if self.options.show_info is True: self.msg("element " + element.get('id') + ": Error! Dash array may not contain negative numbers: " + ' '.join(format(dash, "1.3f") for dash in dashes) + ". Path skipped. Maybe it's too short. Adjust your link count, multiplicator and length accordingly, or set to unit '%'")
return False if self.options.skip_errors is True else exit(1)
if self.options.creationunit == "percent":
stroke_dashoffset = self.options.link_offset / 100.0
else:
stroke_dashoffset = self.svg.unittouu(str(self.options.link_offset) + self.options.creationunit)
if self.options.switch_pattern is True:
stroke_dashoffset = stroke_dashoffset + ((self.options.link_multiplicator * 2) + 1) * length_link
if self.options.creationtype == "use_existing":
if self.options.no_convert is True:
if self.options.show_info is True: self.msg("element " + element.get('id') + ": Nothing to do. Please select another creation method or disable cosmetic style output paths.")
return False if self.options.skip_errors is True else exit(1)
stroke_dashoffset = 0
style = element.style
if 'stroke-dashoffset' in style:
stroke_dashoffset = style['stroke-dashoffset']
try:
floats = [float(dash) for dash in re.findall(r"[+]?\d*\.\d+|\d+", style['stroke-dasharray'])] #allow only positive values
if len(floats) > 0:
dashes = floats #overwrite previously calculated values with custom input
else:
raise ValueError
except:
if self.options.show_info is True: self.msg("element " + element.get('id') + ": No dash style to continue with.")
return False if self.options.skip_errors is True else exit(1)
if self.options.creationtype == "custom_dashpattern":
stroke_dashoffset = self.options.custom_dashoffset_value
try:
floats = [float(dash) for dash in re.findall(r"[+]?\d*\.\d+|\d+", self.options.custom_dasharray_value)] #allow only positive values
if len(floats) > 0:
dashes = floats #overwrite previously calculated values with custom input
else:
raise ValueError
except:
if self.options.show_info is True: self.msg("element " + element.get('id') + ": Error in custom dasharray string (might be empty or does not contain any numbers).")
return False if self.options.skip_errors is True else exit(1)
#assign stroke dasharray from entered values, existing style or custom dashpattern
stroke_dasharray = ' '.join(format(dash, "1.3f") for dash in dashes)
# check if the element has a style attribute. If not we create a blank one with a black stroke and without fill
style = None
default_fill = 'none'
default_stroke_width = '1px'
default_stroke = '#000000'
if element.attrib.has_key('style'):
style = element.get('style')
if style.endswith(';') is False:
style += ';'
# if has style attribute and dasharray and/or dashoffset are present we modify it accordingly
declarations = style.split(';') # parse the style content and check what we need to adjust
for i, decl in enumerate(declarations):
parts = decl.split(':', 2)
if len(parts) == 2:
(prop, val) = parts
prop = prop.strip().lower()
#if prop == 'fill':
# declarations[i] = prop + ':{}'.format(default_fill)
#if prop == 'stroke':
# declarations[i] = prop + ':{}'.format(default_stroke)
#if prop == 'stroke-width':
# declarations[i] = prop + ':{}'.format(default_stroke_width)
if prop == 'stroke-dasharray': #comma separated list of one or more float values
declarations[i] = prop + ':{}'.format(stroke_dasharray)
if prop == 'stroke-dashoffset':
declarations[i] = prop + ':{}'.format(stroke_dashoffset)
element.set('style', ';'.join(declarations)) #apply new style to element
#if has style attribute but the style attribute does not contain fill, stroke, stroke-width, stroke-dasharray or stroke-dashoffset yet
style = element.style
if re.search('fill:(.*?)(;|$)', str(style)) is None:
style += 'fill:{};'.format(default_fill)
if re.search('(;|^)stroke:(.*?)(;|$)', str(style)) is None: #if "stroke" is None, add one. We need to distinguish because there's also attribute "-inkscape-stroke" that's why we check starting with ^ or ;
style += 'stroke:{};'.format(default_stroke)
if not 'stroke-width' in style:
style += 'stroke-width:{};'.format(default_stroke_width)
if not 'stroke-dasharray' in style:
style += 'stroke-dasharray:{};'.format(stroke_dasharray)
if not 'stroke-dashoffset' in style:
style += 'stroke-dashoffset:{};'.format(stroke_dashoffset)
element.set('style', style)
else:
style = 'fill:{};stroke:{};stroke-width:{};stroke-dasharray:{};stroke-dashoffset:{};'.format(default_fill, default_stroke, default_stroke_width, stroke_dasharray, stroke_dashoffset)
element.set('style', style)
# Print some info about values
if self.options.show_info is True:
self.msg("element " + element.get('id') + ":")
if self.options.creationunit == "percent":
self.msg(" * total path length = {:1.3f} {}".format(stotal, self.svg.unit)) #show length, converted in selected unit
self.msg(" * (calculated) offset: {:1.3f} %".format(stroke_dashoffset))
if self.options.creationtype == "entered_values":
self.msg(" * (calculated) gap length: {:1.3f} %".format(length_link))
else:
self.msg(" * total path length = {:1.3f} {} ({:1.3f} {})".format(self.svg.uutounit(stotal, self.options.creationunit), self.options.creationunit, stotal, self.svg.unit)) #show length, converted in selected unit
self.msg(" * (calculated) offset: {:1.3f} {}".format(self.svg.uutounit(stroke_dashoffset, self.options.creationunit), self.options.creationunit))
if self.options.creationtype == "entered_values":
self.msg(" * (calculated) gap length: {:1.3f} {}".format(length_link, self.options.creationunit))
if self.options.creationtype == "entered_values":
self.msg(" * total gaps = {}".format(self.options.link_count))
self.msg(" * (calculated) dash/gap pattern: {} ({})".format(stroke_dasharray, self.svg.unit))
# Conversion step (split cosmetic path into real segments)
if self.options.no_convert is False:
style = element.style #get the style again, but this time as style class
new = []
for sub in element.path.to_superpath():
idash = 0
dash = dashes[0]
length = float(stroke_dashoffset)
while dash < length:
length = length - dash
idash = (idash + 1) % len(dashes)
dash = dashes[idash]
new.append([sub[0][:]])
i = 1
while i < len(sub):
dash = dash - length
length = bezier.cspseglength(new[-1][-1], sub[i])
while dash < length:
new[-1][-1], nxt, sub[i] = bezier.cspbezsplitatlength(new[-1][-1], sub[i], dash/length)
if idash % 2: # create a gap
new.append([nxt[:]])
else: # splice the curve
new[-1].append(nxt[:])
length = length - dash
idash = (idash + 1) % len(dashes)
dash = dashes[idash]
if idash % 2:
new.append([sub[i]])
else:
new[-1].append(sub[i])
i += 1
style.pop('stroke-dasharray')
element.pop('sodipodi:type')
csp = CubicSuperPath(new)
element.path = CubicSuperPath(new)
element.style = style
# break apart the combined path to have multiple elements
if self.options.breakapart is True:
breakOutputelements = None
breakOutputelements = self.breakContours(element, breakOutputelements)
breakApartGroup = elementParent.add(inkex.Group())
for breakOutputelement in breakOutputelements:
breakApartGroup.append(breakOutputelement)
#self.msg(replacedelement.get('id'))
#self.svg.selection.set(replacedelement.get('id')) #update selection to split paths segments (does not work, so commented out)
#cleanup useless points
p = breakOutputelement.path
commandsCoords = p.to_arrays()
# "m 45.250809,91.692739" - this path contains onyl one command - a single point
if len(commandsCoords) == 1:
breakOutputelement.delete()
# "m 45.250809,91.692739 z" - this path contains two commands, but only one coordinate.
# It's a single point, the path is closed by a Z command
elif len(commandsCoords) == 2 and commandsCoords[0][1] == commandsCoords[1][1]:
breakOutputelement.delete()
# "m 45.250809,91.692739 l 45.250809,91.692739" - this path contains two commands,
# but the first and second coordinate are the same. It will render als point
elif len(commandsCoords) == 2 and commandsCoords[-1][0] == 'Z':
breakOutputelement.delete()
# "m 45.250809,91.692739 l 45.250809,91.692739 z" - this path contains three commands,
# but the first and second coordinate are the same. It will render als point, the path is closed by a Z command
elif len(commandsCoords) == 3 and commandsCoords[0][1] == commandsCoords[1][1] and commandsCoords[2][1] == 'Z':
breakOutputelement.delete()
if len(self.svg.selected) > 0:
for element in self.svg.selection.values():
#at first we need to break down combined elements to single path, otherwise dasharray cannot properly be applied
breakInputelements = None
breakInputelements = self.breakContours(element, breakInputelements)
for breakInputelement in breakInputelements:
createLinks(breakInputelement)
else:
self.msg('Please select some paths first.')
return
if __name__ == '__main__':
LinksCreator().run()