python/google/protobuf/text_encoding.py - third_party/github/protocolbuffers/protobuf - Git at Google

 # Protocol Buffers - Google's data interchange format
 # Copyright 2008 Google Inc.  All rights reserved.
 #
 # Use of this source code is governed by a BSD-style
 # license that can be found in the LICENSE file or at
 # https://developers.google.com/open-source/licenses/bsd

 """Encoding related utilities."""
 import re

 def _AsciiIsPrint(i):
   return i >= 32 and i < 127

 def _MakeStrEscapes():
   ret = {}
   for i in range(0, 128):
     if not _AsciiIsPrint(i):
       ret[i] = r'\%03o' % i
   ret[ord('\t')] = r'\t'  # optional escape
   ret[ord('\n')] = r'\n'  # optional escape
   ret[ord('\r')] = r'\r'  # optional escape
   ret[ord('"')] = r'\"'  # necessary escape
   ret[ord('\'')] = r"\'"  # optional escape
   ret[ord('\\')] = r'\\'  # necessary escape
   return ret

 # Maps int -> char, performing string escapes.
 _str_escapes = _MakeStrEscapes()

 # Maps int -> char, performing byte escaping and string escapes
 _byte_escapes = {i: chr(i) for i in range(0, 256)}
 _byte_escapes.update(_str_escapes)
 _byte_escapes.update({i: r'\%03o' % i for i in range(128, 256)})


 def _DecodeUtf8EscapeErrors(text_bytes):
   ret = ''
   while text_bytes:
     try:
       ret += text_bytes.decode('utf-8').translate(_str_escapes)
       text_bytes = ''
     except UnicodeDecodeError as e:
       ret += text_bytes[:e.start].decode('utf-8').translate(_str_escapes)
       ret += _byte_escapes[text_bytes[e.start]]
       text_bytes = text_bytes[e.start+1:]
   return ret


 def CEscape(text, as_utf8) -> str:
   """Escape a bytes string for use in an text protocol buffer.

   Args:
     text: A byte string to be escaped.
     as_utf8: Specifies if result may contain non-ASCII characters.
         In Python 3 this allows unescaped non-ASCII Unicode characters.
         In Python 2 the return value will be valid UTF-8 rather than only ASCII.
   Returns:
     Escaped string (str).
   """
   # Python's text.encode() 'string_escape' or 'unicode_escape' codecs do not
   # satisfy our needs; they encodes unprintable characters using two-digit hex
   # escapes whereas our C++ unescaping function allows hex escapes to be any
   # length.  So, "\0011".encode('string_escape') ends up being "\\x011", which
   # will be decoded in C++ as a single-character string with char code 0x11.
   text_is_unicode = isinstance(text, str)
   if as_utf8:
     if text_is_unicode:
       return text.translate(_str_escapes)
     else:
       return _DecodeUtf8EscapeErrors(text)
   else:
     if text_is_unicode:
       text = text.encode('utf-8')
     return ''.join([_byte_escapes[c] for c in text])


 _CUNESCAPE_HEX = re.compile(r'(\\+)x([0-9a-fA-F])(?![0-9a-fA-F])')


 def CUnescape(text: str) -> bytes:
   """Unescape a text string with C-style escape sequences to UTF-8 bytes.

   Args:
     text: The data to parse in a str.
   Returns:
     A byte string.
   """

   def ReplaceHex(m):
     # Only replace the match if the number of leading back slashes is odd. i.e.
     # the slash itself is not escaped.
     if len(m.group(1)) & 1:
       return m.group(1) + 'x0' + m.group(2)
     return m.group(0)

   # This is required because the 'string_escape' encoding doesn't
   # allow single-digit hex escapes (like '\xf').
   result = _CUNESCAPE_HEX.sub(ReplaceHex, text)

   # Replaces Unicode escape sequences with their character equivalents.
   result = result.encode('raw_unicode_escape').decode('raw_unicode_escape')
   # Encode Unicode characters as UTF-8, then decode to Latin-1 escaping
   # unprintable characters.
   result = result.encode('utf-8').decode('unicode_escape')
   # Convert Latin-1 text back to a byte string (latin-1 codec also works here).
   return result.encode('latin-1')
	# Protocol Buffers - Google's data interchange format
	# Copyright 2008 Google Inc. All rights reserved.
	#
	# Use of this source code is governed by a BSD-style
	# license that can be found in the LICENSE file or at
	# https://developers.google.com/open-source/licenses/bsd

	"""Encoding related utilities."""
	import re

	def _AsciiIsPrint(i):
	return i >= 32 and i < 127

	def _MakeStrEscapes():
	ret = {}
	for i in range(0, 128):
	if not _AsciiIsPrint(i):
	ret[i] = r'\%03o' % i
	ret[ord('\t')] = r'\t' # optional escape
	ret[ord('\n')] = r'\n' # optional escape
	ret[ord('\r')] = r'\r' # optional escape
	ret[ord('"')] = r'\"' # necessary escape
	ret[ord('\'')] = r"\'" # optional escape
	ret[ord('\\')] = r'\\' # necessary escape
	return ret

	# Maps int -> char, performing string escapes.
	_str_escapes = _MakeStrEscapes()

	# Maps int -> char, performing byte escaping and string escapes
	_byte_escapes = {i: chr(i) for i in range(0, 256)}
	_byte_escapes.update(_str_escapes)
	_byte_escapes.update({i: r'\%03o' % i for i in range(128, 256)})


	def _DecodeUtf8EscapeErrors(text_bytes):
	ret = ''
	while text_bytes:
	try:
	ret += text_bytes.decode('utf-8').translate(_str_escapes)
	text_bytes = ''
	except UnicodeDecodeError as e:
	ret += text_bytes[:e.start].decode('utf-8').translate(_str_escapes)
	ret += _byte_escapes[text_bytes[e.start]]
	text_bytes = text_bytes[e.start+1:]
	return ret


	def CEscape(text, as_utf8) -> str:
	"""Escape a bytes string for use in an text protocol buffer.

	Args:
	text: A byte string to be escaped.
	as_utf8: Specifies if result may contain non-ASCII characters.
	In Python 3 this allows unescaped non-ASCII Unicode characters.
	In Python 2 the return value will be valid UTF-8 rather than only ASCII.
	Returns:
	Escaped string (str).
	"""
	# Python's text.encode() 'string_escape' or 'unicode_escape' codecs do not
	# satisfy our needs; they encodes unprintable characters using two-digit hex
	# escapes whereas our C++ unescaping function allows hex escapes to be any
	# length. So, "\0011".encode('string_escape') ends up being "\\x011", which
	# will be decoded in C++ as a single-character string with char code 0x11.
	text_is_unicode = isinstance(text, str)
	if as_utf8:
	if text_is_unicode:
	return text.translate(_str_escapes)
	else:
	return _DecodeUtf8EscapeErrors(text)
	else:
	if text_is_unicode:
	text = text.encode('utf-8')
	return ''.join([_byte_escapes[c] for c in text])


	_CUNESCAPE_HEX = re.compile(r'(\\+)x([0-9a-fA-F])(?![0-9a-fA-F])')


	def CUnescape(text: str) -> bytes:
	"""Unescape a text string with C-style escape sequences to UTF-8 bytes.

	Args:
	text: The data to parse in a str.
	Returns:
	A byte string.
	"""

	def ReplaceHex(m):
	# Only replace the match if the number of leading back slashes is odd. i.e.
	# the slash itself is not escaped.
	if len(m.group(1)) & 1:
	return m.group(1) + 'x0' + m.group(2)
	return m.group(0)

	# This is required because the 'string_escape' encoding doesn't
	# allow single-digit hex escapes (like '\xf').
	result = _CUNESCAPE_HEX.sub(ReplaceHex, text)

	# Replaces Unicode escape sequences with their character equivalents.
	result = result.encode('raw_unicode_escape').decode('raw_unicode_escape')
	# Encode Unicode characters as UTF-8, then decode to Latin-1 escaping
	# unprintable characters.
	result = result.encode('utf-8').decode('unicode_escape')
	# Convert Latin-1 text back to a byte string (latin-1 codec also works here).
	return result.encode('latin-1')