571 lines
24 KiB
Python
571 lines
24 KiB
Python
#!/usr/bin/env python3
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'''
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This file output script for Inkscape creates Laser Draw (LaserDRW) LYZ files.
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File history:
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0.1 Initial code (2/5/2017)
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0.2 - Added support for rectangle, circle and ellipse (2/7/2017)
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- Added option to automatically convert text to paths
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0.3 - Fixed x,y translation when view box is used in SVG file for scaling (2/10/2017)
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0.4 - Changed limits in resolution to 100 dpi minimum and 1000 dpi maximum (if you get an out of memory error in LaserDRW try reducing the resolution)
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0.5 - Removed some messages that were not needed
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- Fixed default resolution in inx files
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0.6 - Made compatible with Python 3 and Inkscape 1.0
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Copyright (C) 2017-2020 Scorch www.scorchworks.com
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Derived from dxf_outlines.py by Aaron Spike and Alvin Penner
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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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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'''
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import math
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import tempfile, os, sys, shutil
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from subprocess import Popen, PIPE
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import zipfile
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import re
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import lyz_inkex as inkex
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import lyz_simplestyle as simplestyle
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import lyz_simpletransform as simpletransform
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import lyz_cubicsuperpath as cubicsuperpath
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import lyz_cspsubdiv as cspsubdiv
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from lyz_library import LYZ_CLASS
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## Subprocess timout stuff ######
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from threading import Timer
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def run_external(cmd, timeout_sec):
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proc = Popen(cmd, stdout=PIPE, stderr=PIPE)
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kill_proc = lambda p: p.kill()
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timer = Timer(timeout_sec, kill_proc, [proc])
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try:
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timer.start()
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stdout,stderr = proc.communicate()
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finally:
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timer.cancel()
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##################################
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class LYZExport(inkex.Effect):
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def __init__(self):
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inkex.Effect.__init__(self)
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self.flatness = 0.01
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self.lines =[]
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self.Cut_Type = {}
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self.Xsize=40
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self.Ysize=40
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self.margin = 2
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self.PNG_DATA = None
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self.png_area = "--export-area-page"
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self.timout = 60 #timeout time for external calls to Inkscape in seconds
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self.OptionParser.add_option("--area_select", type="string", default="page_area")
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self.OptionParser.add_option("--cut_select", type="string", default="zip")
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self.OptionParser.add_option("--resolution", type="int", default=1000)
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self.OptionParser.add_option("--margin", type="float", default=2.00)
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self.OptionParser.add_option("--inkscape_version", type="int", default=100)
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self.OptionParser.add_option("--txt2paths", type="inkbool", default=False)
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self.layers = ['0']
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self.layer = '0'
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self.layernames = []
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self.PYTHON_VERSION = sys.version_info[0]
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def stream_binary_data(self,filename):
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# Change the format for STDOUT to binary to support
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# writing the binary output file through STDOUT
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if os.name == 'nt': #if sys.platform == "win32":
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try:
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import msvcrt
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#msvcrt.setmode(sys.stdout.fileno(), os.O_BINARY)
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msvcrt.setmode(1, os.O_BINARY)
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except:
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pass
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# Open the temporary file for reading
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out = open(filename,'rb')
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# Send the contents of the temp file to STDOUT
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if self.PYTHON_VERSION < 3:
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sys.stdout.write(out.read())
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else:
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sys.stdout.buffer.write(out.read())
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out.close()
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def output(self):
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#create OS temp folder
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self.tmp_dir = tempfile.mkdtemp()
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if (self.cut_select=="image" ):
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LYZ=LYZ_CLASS()
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LYZ.setup_new_header()
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LYZ.add_png(self.PNG_DATA,self.Xsize,self.Ysize)
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LYZ.set_size(self.Xsize+self.margin,self.Ysize+self.margin)
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LYZ.set_margin(self.margin)
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image_file = os.path.join(self.tmp_dir, "image.lyz")
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LYZ.write_file(image_file)
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if (self.cut_select=="all" ) or (self.cut_select=="zip" ):
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LYZ=LYZ_CLASS()
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LYZ.setup_new_header()
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LYZ.add_png(self.PNG_DATA,self.Xsize,self.Ysize)
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for line in self.lines:
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ID=line[7]
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if (self.Cut_Type[ID]=="cut") or (self.Cut_Type[ID]=="engrave"):
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LYZ.add_line(line[0],line[1],line[2],line[3],0.025)
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LYZ.set_size(self.Xsize+self.margin,self.Ysize+self.margin)
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LYZ.set_margin(self.margin)
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all_file = os.path.join(self.tmp_dir, "all.lyz")
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LYZ.write_file(all_file)
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if (self.cut_select=="raster" ) or (self.cut_select=="zip" ):
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LYZ=LYZ_CLASS()
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LYZ.setup_new_header()
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LYZ.add_png(self.PNG_DATA,self.Xsize,self.Ysize)
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LYZ.set_size(self.Xsize+self.margin,self.Ysize+self.margin)
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LYZ.set_margin(self.margin)
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raster_file = os.path.join(self.tmp_dir, "01_raster_engrave.lyz")
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LYZ.write_file(raster_file)
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if (self.cut_select=="vector_red" ) or (self.cut_select=="zip" ):
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LYZ=LYZ_CLASS()
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LYZ.setup_new_header()
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for line in self.lines:
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ID=line[7]
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if (self.Cut_Type[ID]=="cut"):
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LYZ.add_line(line[0],line[1],line[2],line[3],0.025)
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LYZ.set_size(self.Xsize+self.margin,self.Ysize+self.margin)
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LYZ.set_margin(self.margin)
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cut_file = os.path.join(self.tmp_dir, "03_vector_cut.lyz")
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LYZ.write_file(cut_file)
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if (self.cut_select=="vector_blue" ) or (self.cut_select=="zip" ):
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LYZ=LYZ_CLASS()
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LYZ.setup_new_header()
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for line in self.lines:
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ID=line[7]
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if (self.Cut_Type[ID]=="engrave"):
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LYZ.add_line(line[0],line[1],line[2],line[3],0.025)
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LYZ.set_size(self.Xsize+self.margin,self.Ysize+self.margin)
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LYZ.set_margin(self.margin)
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engrave_file = os.path.join(self.tmp_dir, "02_vector_engrave.lyz")
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LYZ.write_file(engrave_file)
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if (self.cut_select=="image" ):
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self.stream_binary_data(image_file)
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if (self.cut_select=="all" ):
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self.stream_binary_data(all_file)
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if (self.cut_select=="raster" ):
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self.stream_binary_data(raster_file)
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if (self.cut_select=="vector_red" ):
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self.stream_binary_data(cut_file)
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if (self.cut_select=="vector_blue"):
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self.stream_binary_data(engrave_file)
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if (self.cut_select=="zip" ):
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# Add image LYZ file? Encode zip file names?
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zip_file = os.path.join(self.tmp_dir, "lyz_files.zip")
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z = zipfile.ZipFile(zip_file, 'w')
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z.write(all_file , os.path.basename(all_file) )
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z.write(raster_file , os.path.basename(raster_file) )
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z.write(cut_file , os.path.basename(cut_file) )
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z.write(engrave_file, os.path.basename(engrave_file))
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z.write(sys.argv[-1], "design.svg" )
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z.close()
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self.stream_binary_data(zip_file)
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#Delete the temp folder and file
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shutil.rmtree(self.tmp_dir)
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def dxf_line(self,csp,pen_width=0.025,color=None,path_id="",layer="none"):
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x1 = csp[0][0]
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y1 = csp[0][1]
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x2 = csp[1][0]
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y2 = csp[1][1]
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self.lines.append([x1,-y1,x2,-y2,layer,pen_width,color,path_id])
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def colmod(self,r,g,b,path_id):
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if (r,g,b) ==(255,0,0):
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self.Cut_Type[path_id]="cut"
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(r,g,b) = (255,255,255)
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elif (r,g,b)==(0,0,255):
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self.Cut_Type[path_id]="engrave"
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(r,g,b) = (255,255,255)
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else:
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self.Cut_Type[path_id]="raster"
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(r,g,b) = (0,0,0)
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return '%02x%02x%02x' % (r,g,b)
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def process_shape(self, node, mat):
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rgb = (0,0,0)
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path_id = node.get('id')
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style = node.get('style')
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self.Cut_Type[path_id]="raster" # Set default type to raster
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color_props_fill = ('fill', 'stop-color', 'flood-color', 'lighting-color')
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color_props_stroke = ('stroke',)
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color_props = color_props_fill + color_props_stroke
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#####################################################
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## The following is ripped off from Coloreffect.py ##
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#####################################################
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if style:
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declarations = style.split(';')
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for i,decl in enumerate(declarations):
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parts = decl.split(':', 2)
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if len(parts) == 2:
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(prop, col) = parts
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prop = prop.strip().lower()
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#if prop in color_props:
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if prop == 'stroke':
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col= col.strip()
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if simplestyle.isColor(col):
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c=simplestyle.parseColor(col)
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new_val='#'+self.colmod(c[0],c[1],c[2],path_id)
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else:
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new_val = col
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if new_val != col:
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declarations[i] = prop + ':' + new_val
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node.set('style', ';'.join(declarations))
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#####################################################
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if node.tag == inkex.addNS('path','svg'):
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d = node.get('d')
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if not d:
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return
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p = cubicsuperpath.parsePath(d)
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elif node.tag == inkex.addNS('rect','svg'):
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x = float(node.get('x'))
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y = float(node.get('y'))
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width = float(node.get('width'))
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height = float(node.get('height'))
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#d = "M %f,%f %f,%f %f,%f %f,%f Z" %(x,y, x+width,y, x+width,y+height, x,y+height)
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#p = cubicsuperpath.parsePath(d)
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rx = 0.0
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ry = 0.0
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if node.get('rx'):
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rx=float(node.get('rx'))
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if node.get('ry'):
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ry=float(node.get('ry'))
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if max(rx,ry) > 0.0:
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if rx==0.0 or ry==0.0:
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rx = max(rx,ry)
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ry = rx
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#msg = "rx = %f ry = %f " %(rx,ry)
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#inkex.errormsg(msg)
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L1 = "M %f,%f %f,%f " %(x+rx , y , x+width-rx , y )
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C1 = "A %f,%f 0 0 1 %f,%f" %(rx , ry , x+width , y+ry )
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L2 = "M %f,%f %f,%f " %(x+width , y+ry , x+width , y+height-ry)
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C2 = "A %f,%f 0 0 1 %f,%f" %(rx , ry , x+width-rx , y+height )
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L3 = "M %f,%f %f,%f " %(x+width-rx , y+height , x+rx , y+height )
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C3 = "A %f,%f 0 0 1 %f,%f" %(rx , ry , x , y+height-ry)
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L4 = "M %f,%f %f,%f " %(x , y+height-ry, x , y+ry )
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C4 = "A %f,%f 0 0 1 %f,%f" %(rx , ry , x+rx , y )
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d = L1 + C1 + L2 + C2 + L3 + C3 + L4 + C4
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else:
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d = "M %f,%f %f,%f %f,%f %f,%f Z" %(x,y, x+width,y, x+width,y+height, x,y+height)
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p = cubicsuperpath.parsePath(d)
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elif node.tag == inkex.addNS('circle','svg'):
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cx = float(node.get('cx') )
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cy = float(node.get('cy'))
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r = float(node.get('r'))
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d = "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" %(cx+r,cy, r,r,cx,cy+r, r,r,cx-r,cy, r,r,cx,cy-r, r,r,cx+r,cy)
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p = cubicsuperpath.parsePath(d)
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elif node.tag == inkex.addNS('ellipse','svg'):
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cx = float(node.get('cx'))
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cy = float(node.get('cy'))
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rx = float(node.get('rx'))
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ry = float(node.get('ry'))
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d = "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" %(cx+rx,cy, rx,ry,cx,cy+ry, rx,ry,cx-rx,cy, rx,ry,cx,cy-ry, rx,ry,cx+rx,cy)
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p = cubicsuperpath.parsePath(d)
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else:
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return
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trans = node.get('transform')
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if trans:
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mat = simpletransform.composeTransform(mat, simpletransform.parseTransform(trans))
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simpletransform.applyTransformToPath(mat, p)
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###################################################
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## Break Curves down into small lines
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###################################################
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f = self.flatness
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is_flat = 0
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while is_flat < 1:
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try:
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cspsubdiv.cspsubdiv(p, f)
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is_flat = 1
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except IndexError:
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break
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except:
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f += 0.1
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if f>2 :
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break
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#something has gone very wrong.
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###################################################
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for sub in p:
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for i in range(len(sub)-1):
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s = sub[i]
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e = sub[i+1]
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self.dxf_line([s[1],e[1]],0.025,rgb,path_id)
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def process_clone(self, node):
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trans = node.get('transform')
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x = node.get('x')
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y = node.get('y')
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mat = [[1.0, 0.0, 0.0], [0.0, 1.0, 0.0]]
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if trans:
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mat = simpletransform.composeTransform(mat, simpletransform.parseTransform(trans))
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if x:
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mat = simpletransform.composeTransform(mat, [[1.0, 0.0, float(x)], [0.0, 1.0, 0.0]])
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if y:
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mat = simpletransform.composeTransform(mat, [[1.0, 0.0, 0.0], [0.0, 1.0, float(y)]])
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# push transform
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if trans or x or y:
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self.groupmat.append(simpletransform.composeTransform(self.groupmat[-1], mat))
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# get referenced node
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refid = node.get(inkex.addNS('href','xlink'))
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refnode = self.getElementById(refid[1:])
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if refnode is not None:
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if refnode.tag == inkex.addNS('g','svg'):
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self.process_group(refnode)
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elif refnode.tag == inkex.addNS('use', 'svg'):
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self.process_clone(refnode)
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else:
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self.process_shape(refnode, self.groupmat[-1])
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# pop transform
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if trans or x or y:
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self.groupmat.pop()
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def process_group(self, group):
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if group.get(inkex.addNS('groupmode', 'inkscape')) == 'layer':
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style = group.get('style')
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if style:
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style = simplestyle.parseStyle(style)
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if style.has_key('display'):
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if style['display'] == 'none' and self.options.layer_option and self.options.layer_option=='visible':
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return
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layer = group.get(inkex.addNS('label', 'inkscape'))
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layer = layer.replace(' ', '_')
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if layer in self.layers:
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self.layer = layer
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trans = group.get('transform')
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if trans:
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self.groupmat.append(simpletransform.composeTransform(self.groupmat[-1], simpletransform.parseTransform(trans)))
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for node in group:
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if node.tag == inkex.addNS('g','svg'):
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self.process_group(node)
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elif node.tag == inkex.addNS('use', 'svg'):
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self.process_clone(node)
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else:
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self.process_shape(node, self.groupmat[-1])
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if trans:
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self.groupmat.pop()
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def Make_PNG(self):
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#create OS temp folder
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tmp_dir = tempfile.mkdtemp()
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svg_temp_file = os.path.join(tmp_dir, "LYZimage.svg")
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png_temp_file = os.path.join(tmp_dir, "LYZpngdata.png")
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dpi = "%d" %(self.options.resolution)
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if self.inkscape_version >= 100:
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cmd = [ "inkscape", self.png_area, "--export-dpi", dpi, \
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"--export-background","rgb(255, 255, 255)","--export-background-opacity", \
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"255" ,"--export-type=png", "--export-filename=%s" %(png_temp_file), svg_temp_file ]
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else:
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cmd = [ "inkscape", self.png_area, "--export-dpi", dpi, \
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"--export-background","rgb(255, 255, 255)","--export-background-opacity", \
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"255" ,"--export-png", png_temp_file, svg_temp_file ]
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if (self.cut_select=="raster") or (self.cut_select=="all") or (self.cut_select=="zip"):
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self.document.write(svg_temp_file)
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#cmd = [ "inkscape", self.png_area, "--export-dpi", dpi, "--export-background","rgb(255, 255, 255)","--export-background-opacity", "255" ,"--export-png", png_temp_file, svg_temp_file ]
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#p = Popen(cmd, stdout=PIPE, stderr=PIPE)
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#stdout, stderr = p.communicate()
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run_external(cmd, self.timout)
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else:
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shutil.copyfile(sys.argv[-1], svg_temp_file)
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#cmd = [ "inkscape", self.png_area, "--export-dpi", dpi, "--export-background","rgb(255, 255, 255)","--export-background-opacity", "255" ,"--export-png", png_temp_file, svg_temp_file ]
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#p = Popen(cmd, stdout=PIPE, stderr=PIPE)
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#stdout, stderr = p.communicate()
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run_external(cmd, self.timout)
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try:
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with open(png_temp_file, 'rb') as f:
|
|
self.PNG_DATA = f.read()
|
|
except:
|
|
inkex.errormsg("PNG generation timed out.\nTry saving again.\n\n")
|
|
|
|
#Delete the temp folder and any files
|
|
shutil.rmtree(tmp_dir)
|
|
|
|
def unit2mm(self, string):
|
|
# Returns mm given a string representation of units in another system
|
|
# a dictionary of unit to user unit conversion factors
|
|
uuconv = {'in': 25.4,
|
|
'pt': 25.4/72.0,
|
|
'px': 25.4/self.inkscape_dpi,
|
|
'mm': 1.0,
|
|
'cm': 10.0,
|
|
'm' : 1000.0,
|
|
'km': 1000.0*1000.0,
|
|
'pc': 25.4/6.0,
|
|
'yd': 25.4*12*3,
|
|
'ft': 25.4*12}
|
|
|
|
unit = re.compile('(%s)$' % '|'.join(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:
|
|
inkex.errormsg("Size was not determined returning zero value")
|
|
retval = 0.0
|
|
if u:
|
|
retunit = u.string[u.start():u.end()]
|
|
else:
|
|
inkex.errormsg("units not understood assuming px at %d dpi" %(self.inkscape_dpi))
|
|
retunit = 'px'
|
|
|
|
try:
|
|
return retval * uuconv[retunit]
|
|
except KeyError:
|
|
return retval
|
|
|
|
def effect(self):
|
|
msg = ""
|
|
#area_select = self.options.area_select # "page_area", "object_area"
|
|
area_select = "page_area"
|
|
self.cut_select = self.options.cut_select # "vector_red", "vector_blue", "raster", "all", "image", "Zip"
|
|
self.margin = self.options.margin # float value
|
|
#self.inkscape_dpi = self.options.inkscape_dpi # float value
|
|
self.inkscape_version = self.options.inkscape_version # float value
|
|
self.txt2paths = self.options.txt2paths # boolean Value
|
|
|
|
|
|
if self.inkscape_version > 91:
|
|
self.inkscape_dpi = 96
|
|
else:
|
|
self.inkscape_dpi = 90
|
|
|
|
if (self.txt2paths):
|
|
#create OS temp folder
|
|
tmp_dir = tempfile.mkdtemp()
|
|
txt2path_file = os.path.join(tmp_dir, "txt2path.svg")
|
|
if self.inkscape_version >= 100:
|
|
cmd = [ "inkscape", "--export-text-to-path","--export-plain-svg", "--export-filename=%s" %(txt2path_file), sys.argv[-1] ]
|
|
else:
|
|
cmd = [ "inkscape", "--export-text-to-path","--export-plain-svg",txt2path_file, sys.argv[-1] ]
|
|
|
|
run_external(cmd, self.timout)
|
|
self.document.parse(txt2path_file)
|
|
#Delete the temp folder and any files
|
|
shutil.rmtree(tmp_dir)
|
|
|
|
h_uu = self.svg.unittouu(self.document.getroot().xpath('@height', namespaces=inkex.NSS)[0])
|
|
w_uu = self.svg.unittouu(self.document.getroot().xpath('@width' , namespaces=inkex.NSS)[0])
|
|
|
|
h_mm = self.unit2mm(self.document.getroot().xpath('@height', namespaces=inkex.NSS)[0])
|
|
w_mm = self.unit2mm(self.document.getroot().xpath('@width', namespaces=inkex.NSS)[0])
|
|
|
|
try:
|
|
view_box_str = self.document.getroot().xpath('@viewBox', namespaces=inkex.NSS)[0]
|
|
view_box_list = view_box_str.split(' ')
|
|
Wpix = float(view_box_list[2])
|
|
Hpix = float(view_box_list[3])
|
|
scale = h_mm/Hpix
|
|
Dx = float(view_box_list[0]) / ( float(view_box_list[2])/w_mm )
|
|
Dy = float(view_box_list[1]) / ( float(view_box_list[3])/h_mm )
|
|
except:
|
|
#inkex.errormsg("Using Default Inkscape Scale")
|
|
scale = 25.4/self.inkscape_dpi
|
|
Dx = 0
|
|
Dy = 0
|
|
|
|
for node in self.document.getroot().xpath('//svg:g', namespaces=inkex.NSS):
|
|
if node.get(inkex.addNS('groupmode', 'inkscape')) == 'layer':
|
|
layer = node.get(inkex.addNS('label', 'inkscape'))
|
|
self.layernames.append(layer.lower())
|
|
# if self.options.layer_name and self.options.layer_option and self.options.layer_option=='name' and not layer.lower() in self.options.layer_name:
|
|
# continue
|
|
layer = layer.replace(' ', '_')
|
|
if layer and not layer in self.layers:
|
|
self.layers.append(layer)
|
|
|
|
#self.groupmat = [[[scale, 0.0, 0.0], [0.0, -scale, h_mm]]]
|
|
self.groupmat = [[[scale, 0.0, 0.0-Dx],
|
|
[0.0 , -scale, h_mm+Dy]]]
|
|
#doc = self.document.getroot()
|
|
self.process_group(self.document.getroot())
|
|
#################################################
|
|
|
|
# msg = msg + self.getDocumentUnit() + "\n"
|
|
# msg = msg + "scale = %f\n" %(scale)
|
|
msg = msg + "Height(mm)= %f\n" %(h_mm)
|
|
msg = msg + "Width (mm)= %f\n" %(w_mm)
|
|
# msg = msg + "h_uu = %f\n" %(h_uu)
|
|
# msg = msg + "w_uu = %f\n" %(w_uu)
|
|
|
|
#inkex.errormsg(msg)
|
|
|
|
if (area_select=="object_area"):
|
|
self.png_area = "--export-area-drawing"
|
|
xmin= self.lines[0][0]+0.0
|
|
xmax= self.lines[0][0]+0.0
|
|
ymin= self.lines[0][1]+0.0
|
|
ymax= self.lines[0][1]+0.0
|
|
for line in self.lines:
|
|
x1= line[0]
|
|
y1= line[1]
|
|
x2= line[2]
|
|
y2= line[3]
|
|
xmin = min(min(xmin,x1),x2)
|
|
ymin = min(min(ymin,y1),y2)
|
|
xmax = max(max(xmax,x1),x2)
|
|
ymax = max(max(ymax,y1),y2)
|
|
else:
|
|
self.png_area = "--export-area-page"
|
|
xmin= 0.0
|
|
xmax= w_mm
|
|
ymin= -h_mm
|
|
ymax= 0.0
|
|
|
|
self.Xsize=xmax-xmin
|
|
self.Ysize=ymax-ymin
|
|
Xcenter=(xmax+xmin)/2.0
|
|
Ycenter=(ymax+ymin)/2.0
|
|
for ii in range(len(self.lines)):
|
|
self.lines[ii][0] = self.lines[ii][0]-Xcenter
|
|
self.lines[ii][1] = self.lines[ii][1]-Ycenter
|
|
self.lines[ii][2] = self.lines[ii][2]-Xcenter
|
|
self.lines[ii][3] = self.lines[ii][3]-Ycenter
|
|
|
|
if (self.cut_select=="raster") or \
|
|
(self.cut_select=="all" ) or \
|
|
(self.cut_select=="image" ) or \
|
|
(self.cut_select=="zip" ):
|
|
self.Make_PNG()
|
|
|
|
LYZExport().affect() |