This is the repository for the online module Bots as Digital Infrapuncture, commissioned by the Utrecht University
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# -*- coding: utf-8 -*-
"""
pygments.formatters.rtf
~~~~~~~~~~~~~~~~~~~~~~~
A formatter that generates RTF files.
:copyright: Copyright 2006-2019 by the Pygments team, see AUTHORS.
:license: BSD, see LICENSE for details.
"""
from pygments.formatter import Formatter
from pygments.util import get_int_opt, _surrogatepair
__all__ = ['RtfFormatter']
class RtfFormatter(Formatter):
"""
Format tokens as RTF markup. This formatter automatically outputs full RTF
documents with color information and other useful stuff. Perfect for Copy and
Paste into Microsoft(R) Word(R) documents.
Please note that ``encoding`` and ``outencoding`` options are ignored.
The RTF format is ASCII natively, but handles unicode characters correctly
thanks to escape sequences.
.. versionadded:: 0.6
Additional options accepted:
`style`
The style to use, can be a string or a Style subclass (default:
``'default'``).
`fontface`
The used font family, for example ``Bitstream Vera Sans``. Defaults to
some generic font which is supposed to have fixed width.
`fontsize`
Size of the font used. Size is specified in half points. The
default is 24 half-points, giving a size 12 font.
.. versionadded:: 2.0
"""
name = 'RTF'
aliases = ['rtf']
filenames = ['*.rtf']
def __init__(self, **options):
r"""
Additional options accepted:
``fontface``
Name of the font used. Could for example be ``'Courier New'``
to further specify the default which is ``'\fmodern'``. The RTF
specification claims that ``\fmodern`` are "Fixed-pitch serif
and sans serif fonts". Hope every RTF implementation thinks
the same about modern...
"""
Formatter.__init__(self, **options)
self.fontface = options.get('fontface') or ''
self.fontsize = get_int_opt(options, 'fontsize', 0)
def _escape(self, text):
return text.replace(u'\\', u'\\\\') \
.replace(u'{', u'\\{') \
.replace(u'}', u'\\}')
def _escape_text(self, text):
# empty strings, should give a small performance improvement
if not text:
return u''
# escape text
text = self._escape(text)
buf = []
for c in text:
cn = ord(c)
if cn < (2**7):
# ASCII character
buf.append(str(c))
elif (2**7) <= cn < (2**16):
# single unicode escape sequence
buf.append(u'{\\u%d}' % cn)
elif (2**16) <= cn:
# RTF limits unicode to 16 bits.
# Force surrogate pairs
buf.append(u'{\\u%d}{\\u%d}' % _surrogatepair(cn))
return u''.join(buf).replace(u'\n', u'\\par\n')
def format_unencoded(self, tokensource, outfile):
# rtf 1.8 header
outfile.write(u'{\\rtf1\\ansi\\uc0\\deff0'
u'{\\fonttbl{\\f0\\fmodern\\fprq1\\fcharset0%s;}}'
u'{\\colortbl;' % (self.fontface and
u' ' + self._escape(self.fontface) or
u''))
# convert colors and save them in a mapping to access them later.
color_mapping = {}
offset = 1
for _, style in self.style:
for color in style['color'], style['bgcolor'], style['border']:
if color and color not in color_mapping:
color_mapping[color] = offset
outfile.write(u'\\red%d\\green%d\\blue%d;' % (
int(color[0:2], 16),
int(color[2:4], 16),
int(color[4:6], 16)
))
offset += 1
outfile.write(u'}\\f0 ')
if self.fontsize:
outfile.write(u'\\fs%d' % (self.fontsize))
# highlight stream
for ttype, value in tokensource:
while not self.style.styles_token(ttype) and ttype.parent:
ttype = ttype.parent
style = self.style.style_for_token(ttype)
buf = []
if style['bgcolor']:
buf.append(u'\\cb%d' % color_mapping[style['bgcolor']])
if style['color']:
buf.append(u'\\cf%d' % color_mapping[style['color']])
if style['bold']:
buf.append(u'\\b')
if style['italic']:
buf.append(u'\\i')
if style['underline']:
buf.append(u'\\ul')
if style['border']:
buf.append(u'\\chbrdr\\chcfpat%d' %
color_mapping[style['border']])
start = u''.join(buf)
if start:
outfile.write(u'{%s ' % start)
outfile.write(self._escape_text(value))
if start:
outfile.write(u'}')
outfile.write(u'}')