third_party/py/abseil/absl/flags/_argument_parser.py - bazel - Git at Google

 # Copyright 2017 The Abseil Authors.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 """Contains base classes used to parse and convert arguments.

 Do NOT import this module directly. Import the flags package and use the
 aliases defined at the package level instead.
 """

 from __future__ import absolute_import
 from __future__ import division
 from __future__ import print_function

 import csv
 import io
 import string

 from absl.flags import _helpers
 import six


 def _is_integer_type(instance):
   """Returns True if instance is an integer, and not a bool."""
   return (isinstance(instance, six.integer_types) and
           not isinstance(instance, bool))


 class _ArgumentParserCache(type):
   """Metaclass used to cache and share argument parsers among flags."""

   _instances = {}

   def __call__(cls, *args, **kwargs):
     """Returns an instance of the argument parser cls.

     This method overrides behavior of the __new__ methods in
     all subclasses of ArgumentParser (inclusive). If an instance
     for cls with the same set of arguments exists, this instance is
     returned, otherwise a new instance is created.

     If any keyword arguments are defined, or the values in args
     are not hashable, this method always returns a new instance of
     cls.

     Args:
       *args: Positional initializer arguments.
       **kwargs: Initializer keyword arguments.

     Returns:
       An instance of cls, shared or new.
     """
     if kwargs:
       return type.__call__(cls, *args, **kwargs)
     else:
       instances = cls._instances
       key = (cls,) + tuple(args)
       try:
         return instances[key]
       except KeyError:
         # No cache entry for key exists, create a new one.
         return instances.setdefault(key, type.__call__(cls, *args))
       except TypeError:
         # An object in args cannot be hashed, always return
         # a new instance.
         return type.__call__(cls, *args)


 class ArgumentParser(six.with_metaclass(_ArgumentParserCache, object)):
   """Base class used to parse and convert arguments.

   The parse() method checks to make sure that the string argument is a
   legal value and convert it to a native type.  If the value cannot be
   converted, it should throw a 'ValueError' exception with a human
   readable explanation of why the value is illegal.

   Subclasses should also define a syntactic_help string which may be
   presented to the user to describe the form of the legal values.

   Argument parser classes must be stateless, since instances are cached
   and shared between flags. Initializer arguments are allowed, but all
   member variables must be derived from initializer arguments only.
   """

   syntactic_help = ''

   def parse(self, argument):
     """Parses the string argument and returns the native value.

     By default it returns its argument unmodified.

     Args:
       argument: string argument passed in the commandline.

     Raises:
       ValueError: Raised when it fails to parse the argument.
       TypeError: Raised when the argument has the wrong type.

     Returns:
       The parsed value in native type.
     """
     if not isinstance(argument, six.string_types):
       raise TypeError('flag value must be a string, found "{}"'.format(
           type(argument)))
     return argument

   def flag_type(self):
     """Returns a string representing the type of the flag."""
     return 'string'

   def _custom_xml_dom_elements(self, doc):
     """Returns a list of minidom.Element to add additional flag information.

     Args:
       doc: minidom.Document, the DOM document it should create nodes from.
     """
     del doc  # Unused.
     return []


 class ArgumentSerializer(object):
   """Base class for generating string representations of a flag value."""

   def serialize(self, value):
     """Returns a serialized string of the value."""
     return _helpers.str_or_unicode(value)


 class NumericParser(ArgumentParser):
   """Parser of numeric values.

   Parsed value may be bounded to a given upper and lower bound.
   """

   def is_outside_bounds(self, val):
     """Returns whether the value is outside the bounds or not."""
     return ((self.lower_bound is not None and val < self.lower_bound) or
             (self.upper_bound is not None and val > self.upper_bound))

   def parse(self, argument):
     """See base class."""
     val = self.convert(argument)
     if self.is_outside_bounds(val):
       raise ValueError('%s is not %s' % (val, self.syntactic_help))
     return val

   def _custom_xml_dom_elements(self, doc):
     elements = []
     if self.lower_bound is not None:
       elements.append(_helpers.create_xml_dom_element(
           doc, 'lower_bound', self.lower_bound))
     if self.upper_bound is not None:
       elements.append(_helpers.create_xml_dom_element(
           doc, 'upper_bound', self.upper_bound))
     return elements

   def convert(self, argument):
     """Returns the correct numeric value of argument.

     Subclass must implement this method, and raise TypeError if argument is not
     string or has the right numeric type.

     Args:
       argument: string argument passed in the commandline, or the numeric type.

     Raises:
       TypeError: Raised when argument is not a string or the right numeric type.
       ValueError: Raised when failed to convert argument to the numeric value.
     """
     raise NotImplementedError


 class FloatParser(NumericParser):
   """Parser of floating point values.

   Parsed value may be bounded to a given upper and lower bound.
   """
   number_article = 'a'
   number_name = 'number'
   syntactic_help = ' '.join((number_article, number_name))

   def __init__(self, lower_bound=None, upper_bound=None):
     super(FloatParser, self).__init__()
     self.lower_bound = lower_bound
     self.upper_bound = upper_bound
     sh = self.syntactic_help
     if lower_bound is not None and upper_bound is not None:
       sh = ('%s in the range [%s, %s]' % (sh, lower_bound, upper_bound))
     elif lower_bound == 0:
       sh = 'a non-negative %s' % self.number_name
     elif upper_bound == 0:
       sh = 'a non-positive %s' % self.number_name
     elif upper_bound is not None:
       sh = '%s <= %s' % (self.number_name, upper_bound)
     elif lower_bound is not None:
       sh = '%s >= %s' % (self.number_name, lower_bound)
     self.syntactic_help = sh

   def convert(self, argument):
     """Returns the float value of argument."""
     if (_is_integer_type(argument) or isinstance(argument, float) or
         isinstance(argument, six.string_types)):
       return float(argument)
     else:
       raise TypeError(
           'Expect argument to be a string, int, or float, found {}'.format(
               type(argument)))

   def flag_type(self):
     """See base class."""
     return 'float'


 class IntegerParser(NumericParser):
   """Parser of an integer value.

   Parsed value may be bounded to a given upper and lower bound.
   """
   number_article = 'an'
   number_name = 'integer'
   syntactic_help = ' '.join((number_article, number_name))

   def __init__(self, lower_bound=None, upper_bound=None):
     super(IntegerParser, self).__init__()
     self.lower_bound = lower_bound
     self.upper_bound = upper_bound
     sh = self.syntactic_help
     if lower_bound is not None and upper_bound is not None:
       sh = ('%s in the range [%s, %s]' % (sh, lower_bound, upper_bound))
     elif lower_bound == 1:
       sh = 'a positive %s' % self.number_name
     elif upper_bound == -1:
       sh = 'a negative %s' % self.number_name
     elif lower_bound == 0:
       sh = 'a non-negative %s' % self.number_name
     elif upper_bound == 0:
       sh = 'a non-positive %s' % self.number_name
     elif upper_bound is not None:
       sh = '%s <= %s' % (self.number_name, upper_bound)
     elif lower_bound is not None:
       sh = '%s >= %s' % (self.number_name, lower_bound)
     self.syntactic_help = sh

   def convert(self, argument):
     """Returns the int value of argument."""
     if _is_integer_type(argument):
       return argument
     elif isinstance(argument, six.string_types):
       base = 10
       if len(argument) > 2 and argument[0] == '0':
         if argument[1] == 'o':
           base = 8
         elif argument[1] == 'x':
           base = 16
       return int(argument, base)
     else:
       raise TypeError('Expect argument to be a string or int, found {}'.format(
           type(argument)))

   def flag_type(self):
     """See base class."""
     return 'int'


 class BooleanParser(ArgumentParser):
   """Parser of boolean values."""

   def parse(self, argument):
     """See base class."""
     if isinstance(argument, str):
       if argument.lower() in ('true', 't', '1'):
         return True
       elif argument.lower() in ('false', 'f', '0'):
         return False
     elif isinstance(argument, six.integer_types):
       # Only allow bool or integer 0, 1.
       # Note that float 1.0 == True, 0.0 == False.
       bool_value = bool(argument)
       if argument == bool_value:
         return bool_value

     raise ValueError('Non-boolean argument to boolean flag', argument)

   def flag_type(self):
     """See base class."""
     return 'bool'


 class EnumParser(ArgumentParser):
   """Parser of a string enum value (a string value from a given set)."""

   def __init__(self, enum_values, case_sensitive=True):
     """Initializes EnumParser.

     Args:
       enum_values: [str], a non-empty list of string values in the enum.
       case_sensitive: bool, whether or not the enum is to be case-sensitive.

     Raises:
       ValueError: When enum_values is empty.
     """
     if not enum_values:
       raise ValueError(
           'enum_values cannot be empty, found "{}"'.format(enum_values))
     super(EnumParser, self).__init__()
     self.enum_values = enum_values
     self.case_sensitive = case_sensitive

   def parse(self, argument):
     """Determines validity of argument and returns the correct element of enum.

     Args:
       argument: str, the supplied flag value.

     Returns:
       The first matching element from enum_values.

     Raises:
       ValueError: Raised when argument didn't match anything in enum.
     """
     if self.case_sensitive:
       if argument not in self.enum_values:
         raise ValueError('value should be one of <%s>' %
                          '|'.join(self.enum_values))
       else:
         return argument
     else:
       if argument.upper() not in [value.upper() for value in self.enum_values]:
         raise ValueError('value should be one of <%s>' %
                          '|'.join(self.enum_values))
       else:
         return [value for value in self.enum_values
                 if value.upper() == argument.upper()][0]

   def flag_type(self):
     """See base class."""
     return 'string enum'


 class ListSerializer(ArgumentSerializer):

   def __init__(self, list_sep):
     self.list_sep = list_sep

   def serialize(self, value):
     """See base class."""
     return self.list_sep.join([_helpers.str_or_unicode(x) for x in value])


 class CsvListSerializer(ArgumentSerializer):

   def __init__(self, list_sep):
     self.list_sep = list_sep

   def serialize(self, value):
     """Serializes a list as a CSV string or unicode."""
     if six.PY2:
       # In Python2 csv.writer doesn't accept unicode, so we convert to UTF-8.
       output = io.BytesIO()
       csv.writer(output).writerow([unicode(x).encode('utf-8') for x in value])
       serialized_value = output.getvalue().decode('utf-8').strip()
     else:
       # In Python3 csv.writer expects a text stream.
       output = io.StringIO()
       csv.writer(output).writerow([str(x) for x in value])
       serialized_value = output.getvalue().strip()

     # We need the returned value to be pure ascii or Unicodes so that
     # when the xml help is generated they are usefully encodable.
     return _helpers.str_or_unicode(serialized_value)


 class BaseListParser(ArgumentParser):
   """Base class for a parser of lists of strings.

   To extend, inherit from this class; from the subclass __init__, call

       BaseListParser.__init__(self, token, name)

   where token is a character used to tokenize, and name is a description
   of the separator.
   """

   def __init__(self, token=None, name=None):
     assert name
     super(BaseListParser, self).__init__()
     self._token = token
     self._name = name
     self.syntactic_help = 'a %s separated list' % self._name

   def parse(self, argument):
     """See base class."""
     if isinstance(argument, list):
       return argument
     elif not argument:
       return []
     else:
       return [s.strip() for s in argument.split(self._token)]

   def flag_type(self):
     """See base class."""
     return '%s separated list of strings' % self._name


 class ListParser(BaseListParser):
   """Parser for a comma-separated list of strings."""

   def __init__(self):
     super(ListParser, self).__init__(',', 'comma')

   def parse(self, argument):
     """Parses argument as comma-separated list of strings."""
     if isinstance(argument, list):
       return argument
     elif not argument:
       return []
     else:
       try:
         return [s.strip() for s in list(csv.reader([argument], strict=True))[0]]
       except csv.Error as e:
         # Provide a helpful report for case like
         #   --listflag="$(printf 'hello,\nworld')"
         # IOW, list flag values containing naked newlines.  This error
         # was previously "reported" by allowing csv.Error to
         # propagate.
         raise ValueError('Unable to parse the value %r as a %s: %s'
                          % (argument, self.flag_type(), e))

   def _custom_xml_dom_elements(self, doc):
     elements = super(ListParser, self)._custom_xml_dom_elements(doc)
     elements.append(_helpers.create_xml_dom_element(
         doc, 'list_separator', repr(',')))
     return elements


 class WhitespaceSeparatedListParser(BaseListParser):
   """Parser for a whitespace-separated list of strings."""

   def __init__(self, comma_compat=False):
     """Initializer.

     Args:
       comma_compat: bool, whether to support comma as an additional separator.
           If False then only whitespace is supported.  This is intended only for
           backwards compatibility with flags that used to be comma-separated.
     """
     self._comma_compat = comma_compat
     name = 'whitespace or comma' if self._comma_compat else 'whitespace'
     super(WhitespaceSeparatedListParser, self).__init__(None, name)

   def parse(self, argument):
     """Parses argument as whitespace-separated list of strings.

     It also parses argument as comma-separated list of strings if requested.

     Args:
       argument: string argument passed in the commandline.

     Returns:
       [str], the parsed flag value.
     """
     if isinstance(argument, list):
       return argument
     elif not argument:
       return []
     else:
       if self._comma_compat:
         argument = argument.replace(',', ' ')
       return argument.split()

   def _custom_xml_dom_elements(self, doc):
     elements = super(WhitespaceSeparatedListParser, self
                     )._custom_xml_dom_elements(doc)
     separators = list(string.whitespace)
     if self._comma_compat:
       separators.append(',')
     separators.sort()
     for sep_char in separators:
       elements.append(_helpers.create_xml_dom_element(
           doc, 'list_separator', repr(sep_char)))
     return elements
	# Copyright 2017 The Abseil Authors.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	"""Contains base classes used to parse and convert arguments.

	Do NOT import this module directly. Import the flags package and use the
	aliases defined at the package level instead.
	"""

	from __future__ import absolute_import
	from __future__ import division
	from __future__ import print_function

	import csv
	import io
	import string

	from absl.flags import _helpers
	import six


	def _is_integer_type(instance):
	"""Returns True if instance is an integer, and not a bool."""
	return (isinstance(instance, six.integer_types) and
	not isinstance(instance, bool))


	class _ArgumentParserCache(type):
	"""Metaclass used to cache and share argument parsers among flags."""

	_instances = {}

	def __call__(cls, args, *kwargs):
	"""Returns an instance of the argument parser cls.

	This method overrides behavior of the __new__ methods in
	all subclasses of ArgumentParser (inclusive). If an instance
	for cls with the same set of arguments exists, this instance is
	returned, otherwise a new instance is created.

	If any keyword arguments are defined, or the values in args
	are not hashable, this method always returns a new instance of
	cls.

	Args:
	*args: Positional initializer arguments.
	**kwargs: Initializer keyword arguments.

	Returns:
	An instance of cls, shared or new.
	"""
	if kwargs:
	return type.__call__(cls, args, *kwargs)
	else:
	instances = cls._instances
	key = (cls,) + tuple(args)
	try:
	return instances[key]
	except KeyError:
	# No cache entry for key exists, create a new one.
	return instances.setdefault(key, type.__call__(cls, *args))
	except TypeError:
	# An object in args cannot be hashed, always return
	# a new instance.
	return type.__call__(cls, *args)


	class ArgumentParser(six.with_metaclass(_ArgumentParserCache, object)):
	"""Base class used to parse and convert arguments.

	The parse() method checks to make sure that the string argument is a
	legal value and convert it to a native type. If the value cannot be
	converted, it should throw a 'ValueError' exception with a human
	readable explanation of why the value is illegal.

	Subclasses should also define a syntactic_help string which may be
	presented to the user to describe the form of the legal values.

	Argument parser classes must be stateless, since instances are cached
	and shared between flags. Initializer arguments are allowed, but all
	member variables must be derived from initializer arguments only.
	"""

	syntactic_help = ''

	def parse(self, argument):
	"""Parses the string argument and returns the native value.

	By default it returns its argument unmodified.

	Args:
	argument: string argument passed in the commandline.

	Raises:
	ValueError: Raised when it fails to parse the argument.
	TypeError: Raised when the argument has the wrong type.

	Returns:
	The parsed value in native type.
	"""
	if not isinstance(argument, six.string_types):
	raise TypeError('flag value must be a string, found "{}"'.format(
	type(argument)))
	return argument

	def flag_type(self):
	"""Returns a string representing the type of the flag."""
	return 'string'

	def _custom_xml_dom_elements(self, doc):
	"""Returns a list of minidom.Element to add additional flag information.

	Args:
	doc: minidom.Document, the DOM document it should create nodes from.
	"""
	del doc # Unused.
	return []


	class ArgumentSerializer(object):
	"""Base class for generating string representations of a flag value."""

	def serialize(self, value):
	"""Returns a serialized string of the value."""
	return _helpers.str_or_unicode(value)


	class NumericParser(ArgumentParser):
	"""Parser of numeric values.

	Parsed value may be bounded to a given upper and lower bound.
	"""

	def is_outside_bounds(self, val):
	"""Returns whether the value is outside the bounds or not."""
	return ((self.lower_bound is not None and val < self.lower_bound) or
	(self.upper_bound is not None and val > self.upper_bound))

	def parse(self, argument):
	"""See base class."""
	val = self.convert(argument)
	if self.is_outside_bounds(val):
	raise ValueError('%s is not %s' % (val, self.syntactic_help))
	return val

	def _custom_xml_dom_elements(self, doc):
	elements = []
	if self.lower_bound is not None:
	elements.append(_helpers.create_xml_dom_element(
	doc, 'lower_bound', self.lower_bound))
	if self.upper_bound is not None:
	elements.append(_helpers.create_xml_dom_element(
	doc, 'upper_bound', self.upper_bound))
	return elements

	def convert(self, argument):
	"""Returns the correct numeric value of argument.

	Subclass must implement this method, and raise TypeError if argument is not
	string or has the right numeric type.

	Args:
	argument: string argument passed in the commandline, or the numeric type.

	Raises:
	TypeError: Raised when argument is not a string or the right numeric type.
	ValueError: Raised when failed to convert argument to the numeric value.
	"""
	raise NotImplementedError


	class FloatParser(NumericParser):
	"""Parser of floating point values.

	Parsed value may be bounded to a given upper and lower bound.
	"""
	number_article = 'a'
	number_name = 'number'
	syntactic_help = ' '.join((number_article, number_name))

	def __init__(self, lower_bound=None, upper_bound=None):
	super(FloatParser, self).__init__()
	self.lower_bound = lower_bound
	self.upper_bound = upper_bound
	sh = self.syntactic_help
	if lower_bound is not None and upper_bound is not None:
	sh = ('%s in the range [%s, %s]' % (sh, lower_bound, upper_bound))
	elif lower_bound == 0:
	sh = 'a non-negative %s' % self.number_name
	elif upper_bound == 0:
	sh = 'a non-positive %s' % self.number_name
	elif upper_bound is not None:
	sh = '%s <= %s' % (self.number_name, upper_bound)
	elif lower_bound is not None:
	sh = '%s >= %s' % (self.number_name, lower_bound)
	self.syntactic_help = sh

	def convert(self, argument):
	"""Returns the float value of argument."""
	if (_is_integer_type(argument) or isinstance(argument, float) or
	isinstance(argument, six.string_types)):
	return float(argument)
	else:
	raise TypeError(
	'Expect argument to be a string, int, or float, found {}'.format(
	type(argument)))

	def flag_type(self):
	"""See base class."""
	return 'float'


	class IntegerParser(NumericParser):
	"""Parser of an integer value.

	Parsed value may be bounded to a given upper and lower bound.
	"""
	number_article = 'an'
	number_name = 'integer'
	syntactic_help = ' '.join((number_article, number_name))

	def __init__(self, lower_bound=None, upper_bound=None):
	super(IntegerParser, self).__init__()
	self.lower_bound = lower_bound
	self.upper_bound = upper_bound
	sh = self.syntactic_help
	if lower_bound is not None and upper_bound is not None:
	sh = ('%s in the range [%s, %s]' % (sh, lower_bound, upper_bound))
	elif lower_bound == 1:
	sh = 'a positive %s' % self.number_name
	elif upper_bound == -1:
	sh = 'a negative %s' % self.number_name
	elif lower_bound == 0:
	sh = 'a non-negative %s' % self.number_name
	elif upper_bound == 0:
	sh = 'a non-positive %s' % self.number_name
	elif upper_bound is not None:
	sh = '%s <= %s' % (self.number_name, upper_bound)
	elif lower_bound is not None:
	sh = '%s >= %s' % (self.number_name, lower_bound)
	self.syntactic_help = sh

	def convert(self, argument):
	"""Returns the int value of argument."""
	if _is_integer_type(argument):
	return argument
	elif isinstance(argument, six.string_types):
	base = 10
	if len(argument) > 2 and argument[0] == '0':
	if argument[1] == 'o':
	base = 8
	elif argument[1] == 'x':
	base = 16
	return int(argument, base)
	else:
	raise TypeError('Expect argument to be a string or int, found {}'.format(
	type(argument)))

	def flag_type(self):
	"""See base class."""
	return 'int'


	class BooleanParser(ArgumentParser):
	"""Parser of boolean values."""

	def parse(self, argument):
	"""See base class."""
	if isinstance(argument, str):
	if argument.lower() in ('true', 't', '1'):
	return True
	elif argument.lower() in ('false', 'f', '0'):
	return False
	elif isinstance(argument, six.integer_types):
	# Only allow bool or integer 0, 1.
	# Note that float 1.0 == True, 0.0 == False.
	bool_value = bool(argument)
	if argument == bool_value:
	return bool_value

	raise ValueError('Non-boolean argument to boolean flag', argument)

	def flag_type(self):
	"""See base class."""
	return 'bool'


	class EnumParser(ArgumentParser):
	"""Parser of a string enum value (a string value from a given set)."""

	def __init__(self, enum_values, case_sensitive=True):
	"""Initializes EnumParser.

	Args:
	enum_values: [str], a non-empty list of string values in the enum.
	case_sensitive: bool, whether or not the enum is to be case-sensitive.

	Raises:
	ValueError: When enum_values is empty.
	"""
	if not enum_values:
	raise ValueError(
	'enum_values cannot be empty, found "{}"'.format(enum_values))
	super(EnumParser, self).__init__()
	self.enum_values = enum_values
	self.case_sensitive = case_sensitive

	def parse(self, argument):
	"""Determines validity of argument and returns the correct element of enum.

	Args:
	argument: str, the supplied flag value.

	Returns:
	The first matching element from enum_values.

	Raises:
	ValueError: Raised when argument didn't match anything in enum.
	"""
	if self.case_sensitive:
	if argument not in self.enum_values:
	raise ValueError('value should be one of <%s>' %
	'\|'.join(self.enum_values))
	else:
	return argument
	else:
	if argument.upper() not in [value.upper() for value in self.enum_values]:
	raise ValueError('value should be one of <%s>' %
	'\|'.join(self.enum_values))
	else:
	return [value for value in self.enum_values
	if value.upper() == argument.upper()][0]

	def flag_type(self):
	"""See base class."""
	return 'string enum'


	class ListSerializer(ArgumentSerializer):

	def __init__(self, list_sep):
	self.list_sep = list_sep

	def serialize(self, value):
	"""See base class."""
	return self.list_sep.join([_helpers.str_or_unicode(x) for x in value])


	class CsvListSerializer(ArgumentSerializer):

	def __init__(self, list_sep):
	self.list_sep = list_sep

	def serialize(self, value):
	"""Serializes a list as a CSV string or unicode."""
	if six.PY2:
	# In Python2 csv.writer doesn't accept unicode, so we convert to UTF-8.
	output = io.BytesIO()
	csv.writer(output).writerow([unicode(x).encode('utf-8') for x in value])
	serialized_value = output.getvalue().decode('utf-8').strip()
	else:
	# In Python3 csv.writer expects a text stream.
	output = io.StringIO()
	csv.writer(output).writerow([str(x) for x in value])
	serialized_value = output.getvalue().strip()

	# We need the returned value to be pure ascii or Unicodes so that
	# when the xml help is generated they are usefully encodable.
	return _helpers.str_or_unicode(serialized_value)


	class BaseListParser(ArgumentParser):
	"""Base class for a parser of lists of strings.

	To extend, inherit from this class; from the subclass __init__, call

	BaseListParser.__init__(self, token, name)

	where token is a character used to tokenize, and name is a description
	of the separator.
	"""

	def __init__(self, token=None, name=None):
	assert name
	super(BaseListParser, self).__init__()
	self._token = token
	self._name = name
	self.syntactic_help = 'a %s separated list' % self._name

	def parse(self, argument):
	"""See base class."""
	if isinstance(argument, list):
	return argument
	elif not argument:
	return []
	else:
	return [s.strip() for s in argument.split(self._token)]

	def flag_type(self):
	"""See base class."""
	return '%s separated list of strings' % self._name


	class ListParser(BaseListParser):
	"""Parser for a comma-separated list of strings."""

	def __init__(self):
	super(ListParser, self).__init__(',', 'comma')

	def parse(self, argument):
	"""Parses argument as comma-separated list of strings."""
	if isinstance(argument, list):
	return argument
	elif not argument:
	return []
	else:
	try:
	return [s.strip() for s in list(csv.reader([argument], strict=True))[0]]
	except csv.Error as e:
	# Provide a helpful report for case like
	# --listflag="$(printf 'hello,\nworld')"
	# IOW, list flag values containing naked newlines. This error
	# was previously "reported" by allowing csv.Error to
	# propagate.
	raise ValueError('Unable to parse the value %r as a %s: %s'
	% (argument, self.flag_type(), e))

	def _custom_xml_dom_elements(self, doc):
	elements = super(ListParser, self)._custom_xml_dom_elements(doc)
	elements.append(_helpers.create_xml_dom_element(
	doc, 'list_separator', repr(',')))
	return elements


	class WhitespaceSeparatedListParser(BaseListParser):
	"""Parser for a whitespace-separated list of strings."""

	def __init__(self, comma_compat=False):
	"""Initializer.

	Args:
	comma_compat: bool, whether to support comma as an additional separator.
	If False then only whitespace is supported. This is intended only for
	backwards compatibility with flags that used to be comma-separated.
	"""
	self._comma_compat = comma_compat
	name = 'whitespace or comma' if self._comma_compat else 'whitespace'
	super(WhitespaceSeparatedListParser, self).__init__(None, name)

	def parse(self, argument):
	"""Parses argument as whitespace-separated list of strings.

	It also parses argument as comma-separated list of strings if requested.

	Args:
	argument: string argument passed in the commandline.

	Returns:
	[str], the parsed flag value.
	"""
	if isinstance(argument, list):
	return argument
	elif not argument:
	return []
	else:
	if self._comma_compat:
	argument = argument.replace(',', ' ')
	return argument.split()

	def _custom_xml_dom_elements(self, doc):
	elements = super(WhitespaceSeparatedListParser, self
	)._custom_xml_dom_elements(doc)
	separators = list(string.whitespace)
	if self._comma_compat:
	separators.append(',')
	separators.sort()
	for sep_char in separators:
	elements.append(_helpers.create_xml_dom_element(
	doc, 'list_separator', repr(sep_char)))
	return elements