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Code Editor : misc.py
# -*- coding: utf-8 -*- # Copyright (c) 2011 Red Hat, Inc # Copyright (c) 2010 Seth Vidal # # kitchen is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # kitchen is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with kitchen; if not, see <http://www.gnu.org/licenses/> # # Authors: # James Antill # Toshio Kuratomi <toshio@fedoraproject.org> # Seth Vidal # # Portions of this code taken from yum/misc.py and yum/i18n.py ''' --------------------------------------------- Miscellaneous functions for manipulating text --------------------------------------------- Collection of text functions that don't fit in another category. ''' import htmlentitydefs import itertools import re try: import chardet except ImportError: chardet = None # We need to access b_() for localizing our strings but we'll end up with # a circular import if we import it directly. import kitchen as k from kitchen.pycompat24 import sets from kitchen.text.exceptions import ControlCharError sets.add_builtin_set() # Define a threshold for chardet confidence. If we fall below this we decode # byte strings we're guessing about as latin1 _CHARDET_THRESHHOLD = 0.6 # ASCII control codes that are illegal in xml 1.0 _CONTROL_CODES = frozenset(range(0, 8) + [11, 12] + range(14, 32)) _CONTROL_CHARS = frozenset(itertools.imap(unichr, _CONTROL_CODES)) # _ENTITY_RE _ENTITY_RE = re.compile(r'(?s)<[^>]*>|&#?\w+;') def guess_encoding(byte_string, disable_chardet=False): '''Try to guess the encoding of a byte :class:`str` :arg byte_string: byte :class:`str` to guess the encoding of :kwarg disable_chardet: If this is True, we never attempt to use :mod:`chardet` to guess the encoding. This is useful if you need to have reproducibility whether :mod:`chardet` is installed or not. Default: :data:`False`. :raises TypeError: if :attr:`byte_string` is not a byte :class:`str` type :returns: string containing a guess at the encoding of :attr:`byte_string`. This is appropriate to pass as the encoding argument when encoding and decoding unicode strings. We start by attempting to decode the byte :class:`str` as :term:`UTF-8`. If this succeeds we tell the world it's :term:`UTF-8` text. If it doesn't and :mod:`chardet` is installed on the system and :attr:`disable_chardet` is False this function will use it to try detecting the encoding of :attr:`byte_string`. If it is not installed or :mod:`chardet` cannot determine the encoding with a high enough confidence then we rather arbitrarily claim that it is ``latin-1``. Since ``latin-1`` will encode to every byte, decoding from ``latin-1`` to :class:`unicode` will not cause :exc:`UnicodeErrors` although the output might be mangled. ''' if not isinstance(byte_string, str): raise TypeError(k.b_('byte_string must be a byte string (str)')) input_encoding = 'utf-8' try: unicode(byte_string, input_encoding, 'strict') except UnicodeDecodeError: input_encoding = None if not input_encoding and chardet and not disable_chardet: detection_info = chardet.detect(byte_string) if detection_info['confidence'] >= _CHARDET_THRESHHOLD: input_encoding = detection_info['encoding'] if not input_encoding: input_encoding = 'latin-1' return input_encoding def str_eq(str1, str2, encoding='utf-8', errors='replace'): '''Compare two stringsi, converting to byte :class:`str` if one is :class:`unicode` :arg str1: First string to compare :arg str2: Second string to compare :kwarg encoding: If we need to convert one string into a byte :class:`str` to compare, the encoding to use. Default is :term:`utf-8`. :kwarg errors: What to do if we encounter errors when encoding the string. See the :func:`kitchen.text.converters.to_bytes` documentation for possible values. The default is ``replace``. This function prevents :exc:`UnicodeError` (python-2.4 or less) and :exc:`UnicodeWarning` (python 2.5 and higher) when we compare a :class:`unicode` string to a byte :class:`str`. The errors normally arise because the conversion is done to :term:`ASCII`. This function lets you convert to :term:`utf-8` or another encoding instead. .. note:: When we need to convert one of the strings from :class:`unicode` in order to compare them we convert the :class:`unicode` string into a byte :class:`str`. That means that strings can compare differently if you use different encodings for each. Note that ``str1 == str2`` is faster than this function if you can accept the following limitations: * Limited to python-2.5+ (otherwise a :exc:`UnicodeDecodeError` may be thrown) * Will generate a :exc:`UnicodeWarning` if non-:term:`ASCII` byte :class:`str` is compared to :class:`unicode` string. ''' try: return (not str1 < str2) and (not str1 > str2) except UnicodeError: pass if isinstance(str1, unicode): str1 = str1.encode(encoding, errors) else: str2 = str2.encode(encoding, errors) if str1 == str2: return True return False def process_control_chars(string, strategy='replace'): '''Look for and transform :term:`control characters` in a string :arg string: string to search for and transform :term:`control characters` within :kwarg strategy: XML does not allow :term:`ASCII` :term:`control characters`. When we encounter those we need to know what to do. Valid options are: :replace: (default) Replace the :term:`control characters` with ``"?"`` :ignore: Remove the characters altogether from the output :strict: Raise a :exc:`~kitchen.text.exceptions.ControlCharError` when we encounter a control character :raises TypeError: if :attr:`string` is not a unicode string. :raises ValueError: if the strategy is not one of replace, ignore, or strict. :raises kitchen.text.exceptions.ControlCharError: if the strategy is ``strict`` and a :term:`control character` is present in the :attr:`string` :returns: :class:`unicode` string with no :term:`control characters` in it. ''' if not isinstance(string, unicode): raise TypeError(k.b_('process_control_char must have a unicode type as' ' the first argument.')) if strategy == 'ignore': control_table = dict(zip(_CONTROL_CODES, [None] * len(_CONTROL_CODES))) elif strategy == 'replace': control_table = dict(zip(_CONTROL_CODES, [u'?'] * len(_CONTROL_CODES))) elif strategy == 'strict': control_table = None # Test that there are no control codes present data = frozenset(string) if [c for c in _CONTROL_CHARS if c in data]: raise ControlCharError(k.b_('ASCII control code present in string' ' input')) else: raise ValueError(k.b_('The strategy argument to process_control_chars' ' must be one of ignore, replace, or strict')) if control_table: string = string.translate(control_table) return string # Originally written by Fredrik Lundh (January 15, 2003) and placed in the # public domain:: # # Unless otherwise noted, source code can be be used freely. Examples, test # scripts and other short code fragments can be considered as being in the # public domain. # # http://effbot.org/zone/re-sub.htm#unescape-html # http://effbot.org/zone/copyright.htm # def html_entities_unescape(string): '''Substitute unicode characters for HTML entities :arg string: :class:`unicode` string to substitute out html entities :raises TypeError: if something other than a :class:`unicode` string is given :rtype: :class:`unicode` string :returns: The plain text without html entities ''' def fixup(match): string = match.group(0) if string[:1] == u"<": return "" # ignore tags if string[:2] == u"&#": try: if string[:3] == u"&#x": return unichr(int(string[3:-1], 16)) else: return unichr(int(string[2:-1])) except ValueError: # If the value is outside the unicode codepoint range, leave # it in the output as is pass elif string[:1] == u"&": entity = htmlentitydefs.entitydefs.get(string[1:-1].encode('utf-8')) if entity: if entity[:2] == "&#": try: return unichr(int(entity[2:-1])) except ValueError: # If the value is outside the unicode codepoint range, # leave it in the output as is pass else: return unicode(entity, "iso-8859-1") return string # leave as is if not isinstance(string, unicode): raise TypeError(k.b_('html_entities_unescape must have a unicode type' ' for its first argument')) return re.sub(_ENTITY_RE, fixup, string) def byte_string_valid_xml(byte_string, encoding='utf-8'): '''Check that a byte :class:`str` would be valid in xml :arg byte_string: Byte :class:`str` to check :arg encoding: Encoding of the xml file. Default: :term:`UTF-8` :returns: :data:`True` if the string is valid. :data:`False` if it would be invalid in the xml file In some cases you'll have a whole bunch of byte strings and rather than transforming them to :class:`unicode` and back to byte :class:`str` for output to xml, you will just want to make sure they work with the xml file you're constructing. This function will help you do that. Example:: ARRAY_OF_MOSTLY_UTF8_STRINGS = [...] processed_array = [] for string in ARRAY_OF_MOSTLY_UTF8_STRINGS: if byte_string_valid_xml(string, 'utf-8'): processed_array.append(string) else: processed_array.append(guess_bytes_to_xml(string, encoding='utf-8')) output_xml(processed_array) ''' if not isinstance(byte_string, str): # Not a byte string return False try: u_string = unicode(byte_string, encoding) except UnicodeError: # Not encoded with the xml file's encoding return False data = frozenset(u_string) if data.intersection(_CONTROL_CHARS): # Contains control codes return False # The byte string is compatible with this xml file return True def byte_string_valid_encoding(byte_string, encoding='utf-8'): '''Detect if a byte :class:`str` is valid in a specific encoding :arg byte_string: Byte :class:`str` to test for bytes not valid in this encoding :kwarg encoding: encoding to test against. Defaults to :term:`UTF-8`. :returns: :data:`True` if there are no invalid :term:`UTF-8` characters. :data:`False` if an invalid character is detected. .. note:: This function checks whether the byte :class:`str` is valid in the specified encoding. It **does not** detect whether the byte :class:`str` actually was encoded in that encoding. If you want that sort of functionality, you probably want to use :func:`~kitchen.text.misc.guess_encoding` instead. ''' try: unicode(byte_string, encoding) except UnicodeError: # Not encoded with the xml file's encoding return False # byte string is valid in this encoding return True __all__ = ('byte_string_valid_encoding', 'byte_string_valid_xml', 'guess_encoding', 'html_entities_unescape', 'process_control_chars', 'str_eq')
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