forked from varia/varia.website
352 lines
10 KiB
Python
352 lines
10 KiB
Python
# -*- coding: utf-8 -*-
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"""
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pygments.util
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~~~~~~~~~~~~~
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Utility functions.
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:copyright: Copyright 2006-2019 by the Pygments team, see AUTHORS.
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:license: BSD, see LICENSE for details.
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"""
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import re
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import sys
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from io import TextIOWrapper
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split_path_re = re.compile(r'[/\\ ]')
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doctype_lookup_re = re.compile(r'''
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(<\?.*?\?>)?\s*
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<!DOCTYPE\s+(
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[a-zA-Z_][a-zA-Z0-9]*
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(?: \s+ # optional in HTML5
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[a-zA-Z_][a-zA-Z0-9]*\s+
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"[^"]*")?
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)
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[^>]*>
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''', re.DOTALL | re.MULTILINE | re.VERBOSE)
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tag_re = re.compile(r'<(.+?)(\s.*?)?>.*?</.+?>',
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re.UNICODE | re.IGNORECASE | re.DOTALL | re.MULTILINE)
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xml_decl_re = re.compile(r'\s*<\?xml[^>]*\?>', re.I)
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class ClassNotFound(ValueError):
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"""Raised if one of the lookup functions didn't find a matching class."""
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class OptionError(Exception):
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pass
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def get_choice_opt(options, optname, allowed, default=None, normcase=False):
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string = options.get(optname, default)
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if normcase:
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string = string.lower()
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if string not in allowed:
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raise OptionError('Value for option %s must be one of %s' %
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(optname, ', '.join(map(str, allowed))))
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return string
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def get_bool_opt(options, optname, default=None):
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string = options.get(optname, default)
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if isinstance(string, bool):
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return string
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elif isinstance(string, int):
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return bool(string)
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elif not isinstance(string, str):
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raise OptionError('Invalid type %r for option %s; use '
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'1/0, yes/no, true/false, on/off' % (
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string, optname))
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elif string.lower() in ('1', 'yes', 'true', 'on'):
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return True
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elif string.lower() in ('0', 'no', 'false', 'off'):
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return False
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else:
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raise OptionError('Invalid value %r for option %s; use '
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'1/0, yes/no, true/false, on/off' % (
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string, optname))
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def get_int_opt(options, optname, default=None):
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string = options.get(optname, default)
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try:
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return int(string)
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except TypeError:
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raise OptionError('Invalid type %r for option %s; you '
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'must give an integer value' % (
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string, optname))
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except ValueError:
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raise OptionError('Invalid value %r for option %s; you '
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'must give an integer value' % (
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string, optname))
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def get_list_opt(options, optname, default=None):
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val = options.get(optname, default)
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if isinstance(val, str):
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return val.split()
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elif isinstance(val, (list, tuple)):
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return list(val)
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else:
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raise OptionError('Invalid type %r for option %s; you '
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'must give a list value' % (
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val, optname))
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def docstring_headline(obj):
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if not obj.__doc__:
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return ''
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res = []
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for line in obj.__doc__.strip().splitlines():
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if line.strip():
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res.append(" " + line.strip())
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else:
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break
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return ''.join(res).lstrip()
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def make_analysator(f):
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"""Return a static text analyser function that returns float values."""
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def text_analyse(text):
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try:
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rv = f(text)
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except Exception:
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return 0.0
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if not rv:
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return 0.0
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try:
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return min(1.0, max(0.0, float(rv)))
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except (ValueError, TypeError):
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return 0.0
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text_analyse.__doc__ = f.__doc__
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return staticmethod(text_analyse)
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def shebang_matches(text, regex):
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r"""Check if the given regular expression matches the last part of the
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shebang if one exists.
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>>> from pygments.util import shebang_matches
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>>> shebang_matches('#!/usr/bin/env python', r'python(2\.\d)?')
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True
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>>> shebang_matches('#!/usr/bin/python2.4', r'python(2\.\d)?')
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True
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>>> shebang_matches('#!/usr/bin/python-ruby', r'python(2\.\d)?')
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False
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>>> shebang_matches('#!/usr/bin/python/ruby', r'python(2\.\d)?')
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False
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>>> shebang_matches('#!/usr/bin/startsomethingwith python',
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... r'python(2\.\d)?')
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True
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It also checks for common windows executable file extensions::
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>>> shebang_matches('#!C:\\Python2.4\\Python.exe', r'python(2\.\d)?')
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True
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Parameters (``'-f'`` or ``'--foo'`` are ignored so ``'perl'`` does
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the same as ``'perl -e'``)
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Note that this method automatically searches the whole string (eg:
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the regular expression is wrapped in ``'^$'``)
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"""
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index = text.find('\n')
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if index >= 0:
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first_line = text[:index].lower()
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else:
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first_line = text.lower()
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if first_line.startswith('#!'):
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try:
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found = [x for x in split_path_re.split(first_line[2:].strip())
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if x and not x.startswith('-')][-1]
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except IndexError:
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return False
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regex = re.compile(r'^%s(\.(exe|cmd|bat|bin))?$' % regex, re.IGNORECASE)
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if regex.search(found) is not None:
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return True
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return False
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def doctype_matches(text, regex):
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"""Check if the doctype matches a regular expression (if present).
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Note that this method only checks the first part of a DOCTYPE.
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eg: 'html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN"'
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"""
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m = doctype_lookup_re.search(text)
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if m is None:
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return False
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doctype = m.group(2)
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return re.compile(regex, re.I).match(doctype.strip()) is not None
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def html_doctype_matches(text):
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"""Check if the file looks like it has a html doctype."""
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return doctype_matches(text, r'html')
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_looks_like_xml_cache = {}
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def looks_like_xml(text):
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"""Check if a doctype exists or if we have some tags."""
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if xml_decl_re.match(text):
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return True
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key = hash(text)
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try:
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return _looks_like_xml_cache[key]
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except KeyError:
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m = doctype_lookup_re.search(text)
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if m is not None:
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return True
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rv = tag_re.search(text[:1000]) is not None
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_looks_like_xml_cache[key] = rv
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return rv
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# Python narrow build compatibility
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def _surrogatepair(c):
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# Given a unicode character code
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# with length greater than 16 bits,
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# return the two 16 bit surrogate pair.
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# From example D28 of:
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# http://www.unicode.org/book/ch03.pdf
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return (0xd7c0 + (c >> 10), (0xdc00 + (c & 0x3ff)))
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def unirange(a, b):
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"""Returns a regular expression string to match the given non-BMP range."""
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if b < a:
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raise ValueError("Bad character range")
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if a < 0x10000 or b < 0x10000:
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raise ValueError("unirange is only defined for non-BMP ranges")
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if sys.maxunicode > 0xffff:
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# wide build
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return u'[%s-%s]' % (chr(a), chr(b))
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else:
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# narrow build stores surrogates, and the 're' module handles them
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# (incorrectly) as characters. Since there is still ordering among
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# these characters, expand the range to one that it understands. Some
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# background in http://bugs.python.org/issue3665 and
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# http://bugs.python.org/issue12749
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#
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# Additionally, the lower constants are using chr rather than
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# literals because jython [which uses the wide path] can't load this
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# file if they are literals.
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ah, al = _surrogatepair(a)
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bh, bl = _surrogatepair(b)
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if ah == bh:
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return u'(?:%s[%s-%s])' % (chr(ah), chr(al), chr(bl))
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else:
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buf = []
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buf.append(u'%s[%s-%s]' % (chr(ah), chr(al),
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ah == bh and chr(bl) or chr(0xdfff)))
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if ah - bh > 1:
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buf.append(u'[%s-%s][%s-%s]' %
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chr(ah+1), chr(bh-1), chr(0xdc00), chr(0xdfff))
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if ah != bh:
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buf.append(u'%s[%s-%s]' %
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(chr(bh), chr(0xdc00), chr(bl)))
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return u'(?:' + u'|'.join(buf) + u')'
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def format_lines(var_name, seq, raw=False, indent_level=0):
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"""Formats a sequence of strings for output."""
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lines = []
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base_indent = ' ' * indent_level * 4
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inner_indent = ' ' * (indent_level + 1) * 4
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lines.append(base_indent + var_name + ' = (')
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if raw:
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# These should be preformatted reprs of, say, tuples.
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for i in seq:
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lines.append(inner_indent + i + ',')
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else:
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for i in seq:
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# Force use of single quotes
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r = repr(i + '"')
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lines.append(inner_indent + r[:-2] + r[-1] + ',')
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lines.append(base_indent + ')')
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return '\n'.join(lines)
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def duplicates_removed(it, already_seen=()):
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"""
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Returns a list with duplicates removed from the iterable `it`.
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Order is preserved.
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"""
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lst = []
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seen = set()
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for i in it:
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if i in seen or i in already_seen:
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continue
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lst.append(i)
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seen.add(i)
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return lst
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class Future:
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"""Generic class to defer some work.
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Handled specially in RegexLexerMeta, to support regex string construction at
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first use.
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"""
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def get(self):
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raise NotImplementedError
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def guess_decode(text):
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"""Decode *text* with guessed encoding.
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First try UTF-8; this should fail for non-UTF-8 encodings.
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Then try the preferred locale encoding.
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Fall back to latin-1, which always works.
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"""
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try:
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text = text.decode('utf-8')
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return text, 'utf-8'
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except UnicodeDecodeError:
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try:
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import locale
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prefencoding = locale.getpreferredencoding()
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text = text.decode()
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return text, prefencoding
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except (UnicodeDecodeError, LookupError):
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text = text.decode('latin1')
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return text, 'latin1'
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def guess_decode_from_terminal(text, term):
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"""Decode *text* coming from terminal *term*.
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First try the terminal encoding, if given.
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Then try UTF-8. Then try the preferred locale encoding.
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Fall back to latin-1, which always works.
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"""
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if getattr(term, 'encoding', None):
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try:
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text = text.decode(term.encoding)
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except UnicodeDecodeError:
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pass
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else:
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return text, term.encoding
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return guess_decode(text)
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def terminal_encoding(term):
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"""Return our best guess of encoding for the given *term*."""
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if getattr(term, 'encoding', None):
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return term.encoding
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import locale
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return locale.getpreferredencoding()
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class UnclosingTextIOWrapper(TextIOWrapper):
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# Don't close underlying buffer on destruction.
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def close(self):
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self.flush()
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