mightyscape-1.2/extensions/fablabchemnitz/laserdraw_export/lyz_inkex.py

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2022-10-10 03:43:34 +02:00
#!/usr/bin/env python3
"""
inkex.py
A helper module for creating Inkscape extensions
Copyright (C) 2005,2010 Aaron Spike <aaron@ekips.org> and contributors
Contributors:
Aurelio A. Heckert <aurium(a)gmail.com>
Bulia Byak <buliabyak@users.sf.net>
Nicolas Dufour, nicoduf@yahoo.fr
Peter J. R. Moulder <pjrm@users.sourceforge.net>
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.
"""
import copy
import gettext
import optparse
import os
import random
import re
import sys
from math import *
from lxml import etree
# a dictionary of all of the xmlns prefixes in a standard inkscape doc
NSS = {
u'sodipodi' :u'http://sodipodi.sourceforge.net/DTD/sodipodi-0.dtd',
u'cc' :u'http://creativecommons.org/ns#',
u'ccOLD' :u'http://web.resource.org/cc/',
u'svg' :u'http://www.w3.org/2000/svg',
u'dc' :u'http://purl.org/dc/elements/1.1/',
u'rdf' :u'http://www.w3.org/1999/02/22-rdf-syntax-ns#',
u'inkscape' :u'http://www.inkscape.org/namespaces/inkscape',
u'xlink' :u'http://www.w3.org/1999/xlink',
u'xml' :u'http://www.w3.org/XML/1998/namespace'
}
def localize():
domain = 'inkscape'
if sys.platform.startswith('win'):
import locale
current_locale, encoding = locale.getdefaultlocale()
os.environ['LANG'] = current_locale
try:
localdir = os.environ['INKSCAPE_LOCALEDIR']
trans = gettext.translation(domain, localdir, [current_locale], fallback=True)
except KeyError:
trans = gettext.translation(domain, fallback=True)
elif sys.platform.startswith('darwin'):
try:
localdir = os.environ['INKSCAPE_LOCALEDIR']
trans = gettext.translation(domain, localdir, fallback=True)
except KeyError:
try:
localdir = os.environ['PACKAGE_LOCALE_DIR']
trans = gettext.translation(domain, localdir, fallback=True)
except KeyError:
trans = gettext.translation(domain, fallback=True)
else:
try:
localdir = os.environ['PACKAGE_LOCALE_DIR']
trans = gettext.translation(domain, localdir, fallback=True)
except KeyError:
trans = gettext.translation(domain, fallback=True)
#sys.stderr.write(str(localdir) + "\n")
trans.install()
def debug(what):
sys.stderr.write(str(what) + "\n")
return what
def errormsg(msg):
"""Intended for end-user-visible error messages.
(Currently just writes to stderr with an appended newline, but could do
something better in future: e.g. could add markup to distinguish error
messages from status messages or debugging output.)
Note that this should always be combined with translation:
import inkex
...
inkex.errormsg("This extension requires two selected paths.")
"""
#if isinstance(msg, unicode):
# sys.stderr.write(msg.encode("utf-8") + "\n")
#else:
# sys.stderr.write((unicode(msg, "utf-8", errors='replace') + "\n").encode("utf-8"))
print(msg)
def are_near_relative(a, b, eps):
return (a-b <= a*eps) and (a-b >= -a*eps)
def check_inkbool(option, opt, value):
if str(value).capitalize() == 'True':
return True
elif str(value).capitalize() == 'False':
return False
else:
raise optparse.OptionValueError("option %s: invalid inkbool value: %s" % (opt, value))
def addNS(tag, ns=None):
val = tag
if ns is not None and len(ns) > 0 and ns in NSS and len(tag) > 0 and tag[0] != '{':
val = "{%s}%s" % (NSS[ns], tag)
return val
class InkOption(optparse.Option):
TYPES = optparse.Option.TYPES + ("inkbool",)
TYPE_CHECKER = copy.copy(optparse.Option.TYPE_CHECKER)
TYPE_CHECKER["inkbool"] = check_inkbool
class Effect:
"""A class for creating Inkscape SVG Effects"""
def __init__(self, *args, **kwargs):
self.document = None
self.original_document = None
self.ctx = None
self.selected = {}
self.doc_ids = {}
self.options = None
self.args = None
self.OptionParser = optparse.OptionParser(usage="usage: %prog [options] SVGfile", option_class=InkOption)
self.OptionParser.add_option("--id", dest="ids", default=[], help="id attribute of object to manipulate")
self.OptionParser.add_option("--selected-nodes", dest="selected_nodes", default=[], help="id:subpath:position of selected nodes, if any")
# TODO write a parser for this
def effect(self):
"""Apply some effects on the document. Extensions subclassing Effect
must override this function and define the transformations
in it."""
pass
def getoptions(self,args=sys.argv[1:]):
"""Collect command line arguments"""
self.options, self.args = self.OptionParser.parse_args(args)
def parse(self, filename=None, encoding=None):
"""Parse document in specified file or on stdin"""
# First try to open the file from the function argument
if filename is not None:
try:
stream = open(filename, 'r')
except IOError:
errormsg("Unable to open specified file: %s" % filename)
sys.exit()
# If it wasn't specified, try to open the file specified as
# an object member
elif self.svg_file is not None:
try:
stream = open(self.svg_file, 'r')
except IOError:
errormsg("Unable to open object member file: %s" % self.svg_file)
sys.exit()
# Finally, if the filename was not specified anywhere, use
# standard input stream
else:
stream = sys.stdin
if encoding == None:
p = etree.XMLParser(huge_tree=True, recover=True)
else:
p = etree.XMLParser(huge_tree=True, recover=True, encoding=encoding)
self.document = etree.parse(stream, parser=p)
self.original_document = copy.deepcopy(self.document)
stream.close()
# defines view_center in terms of document units
def getposinlayer(self):
#defaults
self.current_layer = self.document.getroot()
self.view_center = (0.0, 0.0)
layerattr = self.document.xpath('//sodipodi:namedview/@inkscape:current-layer', namespaces=NSS)
if layerattr:
layername = layerattr[0]
layer = self.document.xpath('//svg:g[@id="%s"]' % layername, namespaces=NSS)
if layer:
self.current_layer = layer[0]
xattr = self.document.xpath('//sodipodi:namedview/@inkscape:cx', namespaces=NSS)
yattr = self.document.xpath('//sodipodi:namedview/@inkscape:cy', namespaces=NSS)
if xattr and yattr:
x = self.unittouu(xattr[0] + 'px')
y = self.unittouu(yattr[0] + 'px')
doc_height = self.unittouu(self.getDocumentHeight())
if x and y:
self.view_center = (float(x), doc_height - float(y))
# FIXME: y-coordinate flip, eliminate it when it's gone in Inkscape
def getselected(self):
"""Collect selected nodes"""
for i in self.options.ids:
path = '//*[@id="%s"]' % i
for node in self.document.xpath(path, namespaces=NSS):
self.selected[i] = node
def getElementById(self, id):
path = '//*[@id="%s"]' % id
el_list = self.document.xpath(path, namespaces=NSS)
if el_list:
return el_list[0]
else:
return None
def getParentNode(self, node):
for parent in self.document.getiterator():
if node in parent.getchildren():
return parent
def getdocids(self):
docIdNodes = self.document.xpath('//@id', namespaces=NSS)
for m in docIdNodes:
self.doc_ids[m] = 1
def getNamedView(self):
return self.document.xpath('//sodipodi:namedview', namespaces=NSS)[0]
def createGuide(self, posX, posY, angle):
atts = {
'position': str(posX)+','+str(posY),
'orientation': str(sin(radians(angle)))+','+str(-cos(radians(angle)))
}
guide = etree.SubElement(
self.getNamedView(),
addNS('guide','sodipodi'), atts)
return guide
def output(self):
"""Serialize document into XML on stdout"""
original = etree.tostring(self.original_document)
result = etree.tostring(self.document)
if original != result:
self.document.write(sys.stdout)
def affect(self, args=sys.argv[1:], output=True):
"""Affect an SVG document with a callback effect"""
self.svg_file = args[-1]
localize()
self.getoptions(args)
self.parse()
self.getposinlayer()
self.getselected()
self.getdocids()
self.effect()
if output:
self.output()
def uniqueId(self, old_id, make_new_id=True):
new_id = old_id
if make_new_id:
while new_id in self.doc_ids:
new_id += random.choice('0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ')
self.doc_ids[new_id] = 1
return new_id
def xpathSingle(self, path):
try:
retval = self.document.xpath(path, namespaces=NSS)[0]
except:
errormsg("No matching node for expression: %s" % path)
retval = None
return retval
# a dictionary of unit to user unit conversion factors
__uuconv = {'in': 96.0, 'pt': 1.33333333333, 'px': 1.0, 'mm': 3.77952755913, 'cm': 37.7952755913,
'm': 3779.52755913, 'km': 3779527.55913, 'pc': 16.0, 'yd': 3456.0, 'ft': 1152.0}
# Fault tolerance for lazily defined SVG
def getDocumentWidth(self):
width = self.document.getroot().get('width')
if width:
return width
else:
viewbox = self.document.getroot().get('viewBox')
if viewbox:
return viewbox.split()[2]
else:
return '0'
# Fault tolerance for lazily defined SVG
def getDocumentHeight(self):
"""Returns a string corresponding to the height of the document, as
defined in the SVG file. If it is not defined, returns the height
as defined by the viewBox attribute. If viewBox is not defined,
returns the string '0'."""
height = self.document.getroot().get('height')
if height:
return height
else:
viewbox = self.document.getroot().get('viewBox')
if viewbox:
return viewbox.split()[3]
else:
return '0'
def getDocumentUnit(self):
"""Returns the unit used for in the SVG document.
In the case the SVG document lacks an attribute that explicitly
defines what units are used for SVG coordinates, it tries to calculate
the unit from the SVG width and viewBox attributes.
Defaults to 'px' units."""
svgunit = 'px' # default to pixels
svgwidth = self.getDocumentWidth()
viewboxstr = self.document.getroot().get('viewBox')
if viewboxstr:
unitmatch = re.compile('(%s)$' % '|'.join(self.__uuconv.keys()))
param = re.compile(r'(([-+]?[0-9]+(\.[0-9]*)?|[-+]?\.[0-9]+)([eE][-+]?[0-9]+)?)')
p = param.match(svgwidth)
u = unitmatch.search(svgwidth)
width = 100 # default
viewboxwidth = 100 # default
svgwidthunit = 'px' # default assume 'px' unit
if p:
width = float(p.string[p.start():p.end()])
else:
errormsg("SVG Width not set correctly! Assuming width = 100")
if u:
svgwidthunit = u.string[u.start():u.end()]
viewboxnumbers = []
for t in viewboxstr.split():
try:
viewboxnumbers.append(float(t))
except ValueError:
pass
if len(viewboxnumbers) == 4: # check for correct number of numbers
viewboxwidth = viewboxnumbers[2]
svgunitfactor = self.__uuconv[svgwidthunit] * width / viewboxwidth
# try to find the svgunitfactor in the list of units known. If we don't find something, ...
eps = 0.01 # allow 1% error in factor
for key in self.__uuconv:
if are_near_relative(self.__uuconv[key], svgunitfactor, eps):
# found match!
svgunit = key
return svgunit
def unittouu(self, string):
"""Returns userunits given a string representation of units in another system"""
unit = re.compile('(%s)$' % '|'.join(self.__uuconv.keys()))
param = re.compile(r'(([-+]?[0-9]+(\.[0-9]*)?|[-+]?\.[0-9]+)([eE][-+]?[0-9]+)?)')
p = param.match(string)
u = unit.search(string)
if p:
retval = float(p.string[p.start():p.end()])
else:
retval = 0.0
if u:
try:
return retval * (self.__uuconv[u.string[u.start():u.end()]] / self.__uuconv[self.getDocumentUnit()])
except KeyError:
pass
else: # default assume 'px' unit
return retval / self.__uuconv[self.getDocumentUnit()]
return retval
def uutounit(self, val, unit):
return val / (self.__uuconv[unit] / self.__uuconv[self.getDocumentUnit()])
def addDocumentUnit(self, value):
"""Add document unit when no unit is specified in the string """
try:
float(value)
return value + self.getDocumentUnit()
except ValueError:
return value