441 lines
17 KiB
Python
441 lines
17 KiB
Python
#
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# Gramps - a GTK+/GNOME based genealogy program
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#
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# Copyright (C) 2000 Donald N. Allingham
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#
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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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#
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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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#
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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 TextDoc
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from latin_utf8 import latin_to_utf8
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import time
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import StringIO
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import gzip
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import Errors
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from TarFile import TarFile
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import Plugins
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import ImgManip
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from intl import gettext as _
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def points(val):
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inch = float(val)/2.54
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return (int(inch*72))
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#------------------------------------------------------------------------
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#
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#
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#
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#------------------------------------------------------------------------
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class KwordDoc(TextDoc.TextDoc):
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def open(self,filename):
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self.photo_list = []
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if filename[-4:] != ".kwd":
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self.filename = filename + ".kwd"
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else:
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self.filename = filename
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self.f = StringIO.StringIO()
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self.m = StringIO.StringIO()
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self.m.write('<?xml version="1.0" encoding="UTF-8"?>')
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self.m.write('<!DOCTYPE document-info ><document-info>\n')
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self.m.write('<log>\n')
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self.m.write('<text></text>\n')
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self.m.write('</log>\n')
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self.m.write('<author>\n')
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self.m.write('<full-name></full-name>\n')
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self.m.write('<title></title>\n')
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self.m.write('<company></company>\n')
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self.m.write('<email></email>\n')
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self.m.write('<telephone></telephone>\n')
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self.m.write('<fax></fax>\n')
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self.m.write('<country></country>\n')
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self.m.write('<postal-code></postal-code>\n')
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self.m.write('<city></city>\n')
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self.m.write('<street></street>\n')
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self.m.write('</author>\n')
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self.m.write('<about>\n')
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self.m.write('<abstract><![CDATA[]]></abstract>\n')
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self.m.write('<title></title>\n')
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self.m.write('</about>\n')
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self.m.write('</document-info>\n')
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self.f.write('<?xml version="1.0" encoding="UTF-8"?>')
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self.f.write('<!DOCTYPE DOC >')
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self.f.write('<DOC mime="application/x-kword" syntaxVersion="2" ')
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self.f.write('editor="KWord" >\n')
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self.mtime = time.time()
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if self.paper.name == "A3":
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self.f.write('<PAPER format="0" ')
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elif self.paper.name == "A4":
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self.f.write('<PAPER format="1" ')
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elif self.paper.name == "A5":
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self.f.write('<PAPER format="2" ')
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elif self.paper.name == "Letter":
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self.f.write('<PAPER format="3" ')
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elif self.paper.name == "Legal":
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self.f.write('<PAPER format="4" ')
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elif self.paper.name == "B5":
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self.f.write('<PAPER format="7" ')
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else:
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self.f.write('<PAPER format="6" ')
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self.f.write('width="%d" ' % points(self.width))
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self.f.write('height="%d" ' % points(self.height))
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if self.orientation == TextDoc.PAPER_PORTRAIT:
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self.f.write('orientation="0" ')
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else:
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self.f.write('orientation="1" ')
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self.f.write('columns="1" ')
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self.f.write('columnspacing="2.83" ')
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self.f.write('hType="0" ')
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self.f.write('fType="0" ')
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self.f.write('spHeadBody="9" ')
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self.f.write('spFootBody="9">\n')
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self.f.write('<PAPERBORDERS ')
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self.f.write('top="%d" ' % points(self.tmargin))
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self.f.write('right="%d" ' % points(self.rmargin))
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self.f.write('bottom="%d" ' % points(self.bmargin))
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self.f.write('left="%d"/>' % points(self.lmargin))
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self.f.write('</PAPER>\n')
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self.f.write('<ATTRIBUTES processing="0" ')
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self.f.write('standardpage="1" ')
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self.f.write('hasTOC="0" ')
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self.f.write('hasHeader="0" ')
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self.f.write('hasFooter="0" ')
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self.f.write('unit="mm"/>\n')
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self.f.write('<FRAMESETS>\n')
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self.f.write('<FRAMESET frameType="1" ')
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self.f.write('frameInfo="0" ')
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self.f.write('name="Frameset 1">\n')
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self.f.write('<FRAME left="%d" ' % points(self.lmargin))
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self.f.write('top="%d" ' % points(self.tmargin))
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self.f.write('right="%d" ' % points(self.width-self.rmargin))
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self.f.write('bottom="%d" ' % points(self.height-self.bmargin))
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self.f.write('runaround="1" />\n')
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self.cell_row= 0
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self.cell_col= 0
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self.frameset_flg= 1
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self.table_no= 0
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self.cell_style= ""
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self.cell_span= 1
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def close(self):
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if self.frameset_flg == 1:
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self.f.write('</FRAMESET>\n')
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self.frameset_flg= 0
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for p in self.photo_list:
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self.f.write('<FRAMESET frameType="2" frameInfo="0" ')
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self.f.write('name="%s" visible="1">\n' % p[1])
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self.f.write('<FRAME runaround="1" copy="0" newFrameBehaviour="1" ')
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self.f.write('right="%d" ' % p[2])
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self.f.write('left="0" ')
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self.f.write('bottom="%d" ' % p[3])
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self.f.write('top="0" ')
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self.f.write('runaroundGap="2.8"/>\n')
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self.f.write('<IMAGE keepAspectRatio="true">\n')
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self.f.write('<KEY filename="%s" ' % p[1])
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a = time.localtime(self.mtime)
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self.f.write('msec="%d" ' % a[6])
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self.f.write('second="%d" ' % a[5])
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self.f.write('minute="%d" ' % a[4])
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self.f.write('hour="%d" ' % a[3])
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self.f.write('day="%d" ' % a[2])
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self.f.write('month="%d" ' % a[1])
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self.f.write('year="%d"/>\n' % a[0])
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self.f.write('</IMAGE>\n')
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self.f.write('</FRAMESET>\n')
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self.f.write('</FRAMESETS>\n')
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self.f.write('<STYLES>\n')
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for name in self.style_list.keys():
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self.f.write('<STYLE>\n')
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self.f.write('<NAME value="%s"/>\n' % name)
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p = self.style_list[name]
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pad = points(p.get_padding())/2
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self.f.write('<OFFSETS before="%d" after="%d"/>\n' % (pad,pad))
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if p.get_alignment() == TextDoc.PARA_ALIGN_CENTER:
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self.f.write('<FLOW value="center"/>\n')
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elif p.get_alignment() == TextDoc.PARA_ALIGN_JUSTIFY:
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self.f.write('<FLOW value="justify"/>\n')
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elif p.get_alignment() == TextDoc.PARA_ALIGN_RIGHT:
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self.f.write('<FLOW value="right"/>\n')
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else:
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self.f.write('<FLOW value="left"/>\n')
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first = p.get_first_indent()
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left = p.get_left_margin()
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right = p.get_right_margin()
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self.f.write('<INDENTS first="%d" ' % points(first))
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self.f.write('left="%d" right="%d"/>\n' % (points(left),points(right)))
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font = p.get_font()
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self.f.write('<FORMAT>\n')
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if font.get_type_face==TextDoc.FONT_SANS_SERIF:
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self.f.write('<FONT name="helvetica"/>\n')
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else:
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self.f.write('<FONT name="times"/>\n')
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self.f.write('<SIZE value="%d"/>\n' % font.get_size())
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self.f.write('<COLOR red="%d" green="%d" blue="%d"/>\n' % font.get_color())
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if font.get_bold():
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self.f.write('<WEIGHT value="75"/>\n')
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if font.get_italic():
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self.f.write('<ITALIC value="1"/>\n')
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if font.get_underline():
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self.f.write('<UNDERLINE value="1"/>\n')
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self.f.write('</FORMAT>\n')
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if p.get_top_border():
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self.f.write('<TOPBORDER red="0" green="0"')
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self.f.write('blue="0" style="0" width="1"/>\n')
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if p.get_bottom_border():
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self.f.write('<BOTTOMBORDER red="0" green="0" ')
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self.f.write('blue="0" style="0" width="1"/>\n')
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if p.get_right_border():
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self.f.write('<RIGHTBORDER red="0" green="0" ')
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self.f.write('blue="0" style="0" width="1"/>\n')
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if p.get_left_border():
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self.f.write('<LEFTBORDER red="0" green="0" ')
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self.f.write('blue="0" style="0" width="1"/>\n')
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if left != 0:
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self.f.write('<TABULATOR ptpos="%d" type="0"/>\n' % points(left))
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self.f.write('</STYLE>\n')
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self.f.write('</STYLES>\n')
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self.f.write('<PIXMAPS>\n')
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for file in self.photo_list:
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self.f.write('<KEY name="%s" filename="%s" ' % (file[1],file[1]))
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a = time.localtime(self.mtime)
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self.f.write('msec="%d" ' % a[6])
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self.f.write('second="%d" ' % a[5])
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self.f.write('minute="%d" ' % a[4])
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self.f.write('hour="%d" ' % a[3])
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self.f.write('day="%d" ' % a[2])
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self.f.write('month="%d" ' % a[1])
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self.f.write('year="%d"/>\n' % a[0])
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self.f.write('</PIXMAPS>\n')
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self.f.write('</DOC>\n')
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try:
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tar = TarFile(self.filename)
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except IOError, msg:
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text = _("Could not open %s") % self.filename
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Errors.ReportError(text + "\n" + str(msg))
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return
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except:
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Errors.ReportError(_("Could not open %s") % self.filename)
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return
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tar.add_file("documentinfo.xml",self.mtime,self.m)
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tar.add_file("maindoc.xml",self.mtime,self.f)
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for file in self.photo_list:
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f = open(file[0],"r")
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tar.add_file(file[1],self.mtime,f)
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f.close()
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tar.close()
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self.f.close()
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self.m.close()
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def start_page(self,orientation=None):
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pass
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def end_page(self):
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pass
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def start_paragraph(self,style_name,leader=None):
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self.format_list = []
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self.bold_start = 0
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self.text = ""
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self.style_name = style_name
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self.p = self.style_list[self.style_name]
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self.font = self.p.get_font()
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if self.font.get_type_face() == TextDoc.FONT_SERIF:
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self.font_face = "Arial"
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else:
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self.font_face = "Times New Roman"
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if leader != None:
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self.text = leader + '\t'
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txt = '<FORMAT id="1" pos="0" len="%d">\n' % (len(leader)+1)
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txt = txt + '<FONT name="%s"/>\n</FORMAT>\n' % self.font_face
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self.format_list.append(txt)
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self.bold_stop = len(self.text)
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def end_paragraph(self):
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if self.frameset_flg == 0:
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self.f.write('<FRAMESET>\n')
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self.frameset_flg= 1
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if self.bold_start != 0 and self.bold_stop != len(self.text):
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txt = '<FORMAT>\n<FONT name="%s"/>\n</FORMAT>\n' % self.font_face
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self.format_list.append(txt)
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self.f.write('<PARAGRAPH>\n')
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self.f.write('<TEXT>')
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self.f.write(latin_to_utf8(self.text))
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self.f.write('</TEXT>\n')
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self.f.write('<FORMATS>\n')
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for format in self.format_list:
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self.f.write(format)
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self.f.write('</FORMATS>\n')
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self.f.write('<LAYOUT>\n')
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self.f.write('<NAME value="%s"/>\n' % self.style_name)
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pad = points(self.p.get_padding())/2
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self.f.write('<OFFSETS before="%d" after="%d"/>\n' % (pad,pad))
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if self.p.get_alignment() == TextDoc.PARA_ALIGN_CENTER:
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self.f.write('<FLOW value="center"/>\n')
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elif self.p.get_alignment() == TextDoc.PARA_ALIGN_JUSTIFY:
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self.f.write('<FLOW value="justify"/>\n')
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elif self.p.get_alignment() == TextDoc.PARA_ALIGN_RIGHT:
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self.f.write('<FLOW value="right"/>\n')
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else:
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self.f.write('<FLOW value="left"/>\n')
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first = self.p.get_first_indent()
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left = self.p.get_left_margin()
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right = self.p.get_right_margin()
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self.f.write('<INDENTS first="%d" ' % points(first))
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self.f.write('left="%d" right="%d"/>\n' % (points(left),points(right)))
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self.f.write('<FORMAT>\n')
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self.f.write('<FONT name="%s"/>\n' % self.font_face)
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self.f.write('<SIZE value="%d"/>\n' % self.font.get_size())
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self.f.write('<COLOR red="%d" green="%d" blue="%d"/>\n' % self.font.get_color())
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if self.font.get_bold():
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self.f.write('<WEIGHT value="75"/>\n')
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if self.font.get_italic():
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self.f.write('<ITALIC value="1"/>\n')
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if self.font.get_underline():
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self.f.write('<UNDERLINE value="1"/>\n')
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if self.p.get_top_border():
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self.f.write('<TOPBORDER red="0" green="0" blue="0" style="0" width="1"/>\n')
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if self.p.get_bottom_border():
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self.f.write('<BOTTOMBORDER red="0" green="0" blue="0" style="0" width="1"/>\n')
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if self.p.get_right_border():
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self.f.write('<RIGHTBORDER red="0" green="0" blue="0" style="0" width="1"/>\n')
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if self.p.get_left_border():
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self.f.write('<LEFTBORDER red="0" green="0" blue="0" style="0" width="1"/>\n')
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self.f.write('</FORMAT>\n')
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if left != 0:
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self.f.write('<TABULATOR ptpos="%d" type="0"/>\n' % points(left))
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self.f.write('</LAYOUT>\n')
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self.f.write('</PARAGRAPH>\n')
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def start_bold(self):
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self.bold_start = len(self.text)
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if self.bold_stop != self.bold_start:
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length = self.bold_stop - self.bold_start
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txt = '<FORMAT id="1" pos="%d" len="%d">\n' % (self.bold_stop,length)
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txt = txt + '<FONT name="%s"/>\n</FORMAT>\n' % self.font_face
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self.format_list.append(txt)
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def end_bold(self):
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self.bold_stop = len(self.text)
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length = self.bold_stop - self.bold_start
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txt = '<FORMAT id="1" pos="%d" len="%d">\n' % (self.bold_start,length)
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txt = txt + '<FONT name="%s"/>\n<WEIGHT value="75"/>\n</FORMAT>\n' % self.font_face
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self.format_list.append(txt)
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def start_table(self,name,style_name):
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self.tbl= self.table_styles[style_name]
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self.cell_left= (self.lmargin * 72)/ 2.54
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self.tbl_width= ((self.width - self.lmargin - self.rmargin) * 72 ) / 2.54
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self.f.write(' </FRAMESET> \n')
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self.cell_row= 0
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self.cell_col= 0
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self.frameset_flg= 0
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def end_table(self):
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self.table_no= self.table_no + 1
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def start_row(self):
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pass
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def end_row(self):
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self.cell_row= self.cell_row + 1
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self.cell_col= 0
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self.cell_left= (self.lmargin * 72)/ 2.54
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def start_cell(self,style_name,span=1):
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self.cell_span= span
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self.cell_style= style_name
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self.cell_right = self.cell_left
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for i in range(0,span):
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col_width = self.tbl.get_column_width(self.cell_col+i)
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spc = (self.tbl_width * col_width) / 100
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self.cell_right = self.cell_right + spc
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self.f.write('<FRAMESET removable="0" cols="%d" rows="1" ' % span)
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self.f.write('grpMgr="Table %d" frameType="1" ' % self.table_no)
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self.f.write('frameInfo="0" row="%d" col="%d" ' % (self.cell_row,self.cell_col))
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self.f.write('name="Table %d Cell %d,%d" visible="1" >\n' % (self.table_no, self.cell_row, self.cell_col))
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self.f.write('<FRAME bleftpt="2.83465" ')
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self.f.write('copy="0" bbottompt="2.83465" btoppt="2.83465" ')
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self.f.write('right="%d" left="%d" ' % (self.cell_right, self.cell_left))
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self.f.write('newFrameBehaviour="1" brightpt="2.83465" ')
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self.f.write('bottom="%d" runaroundGap="2.83465" ' % (self.cell_row*23+self.table_no*125+117))
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self.f.write(' top="%d" autoCreateNewFrame="0" />\n' % (self.cell_row*23+self.table_no*125+95))
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self.frameset_flg= 1
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self.cell_col = self.cell_col + span - 1
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def end_cell(self):
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self.f.write('</FRAMESET>\n')
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self.cell_col= self.cell_col + 1
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self.frameset_flg= 0
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self.cell_left= self.cell_right
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def add_photo(self,name,pos,x_cm,y_cm):
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im = ImgManip.ImgManip(name)
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(x,y)= im.size()
|
|
ratio = float(x_cm)*float(y)/(float(y_cm)*float(x))
|
|
|
|
if ratio < 1:
|
|
act_width = x_cm
|
|
act_height = y_cm*ratio
|
|
else:
|
|
act_height = y_cm
|
|
act_width = x_cm/ratio
|
|
|
|
index = len(self.photo_list)+1
|
|
tag = 'pictures/picture%d.jpeg' % index
|
|
self.photo_list.append((name,tag,act_width,act_height))
|
|
txt = '<FORMAT id="6" pos="%d" len="1">\n' % len(self.text)
|
|
txt = txt + '<ANCHOR type="frameset" instance="%s"/>\n' % tag
|
|
txt = txt + '</FORMAT>\n'
|
|
|
|
self.bold_stop = len(self.text)
|
|
self.format_list.append(txt)
|
|
|
|
self.text = self.text + '#'
|
|
|
|
def horizontal_line(self):
|
|
pass
|
|
|
|
def write_text(self,text):
|
|
self.text = self.text + text
|
|
|
|
Plugins.register_text_doc(_("KWord"),KwordDoc,1,1,1,".kwd")
|