pw_env_setup/py/pw_env_setup/environment.py - pigweed/pigweed - Git at Google

 # Copyright 2020 The Pigweed 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
 #
 #     https://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.
 """Stores the environment changes necessary for Pigweed."""

 import contextlib
 import os
 import re

 # The order here is important. On Python 2 we want StringIO.StringIO and not
 # io.StringIO. On Python 3 there is no StringIO module so we want io.StringIO.
 # Not using six because six is not a standard package we can expect to have
 # installed in the system Python.
 try:
     from StringIO import StringIO  # type: ignore
 except ImportError:
     from io import StringIO

 from . import apply_visitor
 from . import batch_visitor
 from . import json_visitor
 from . import shell_visitor

 # Disable super() warnings since this file must be Python 2 compatible.
 # pylint: disable=super-with-arguments


 class BadNameType(TypeError):
     pass


 class BadValueType(TypeError):
     pass


 class EmptyValue(ValueError):
     pass


 class NewlineInValue(TypeError):
     pass


 class BadVariableName(ValueError):
     pass


 class UnexpectedAction(ValueError):
     pass


 class AcceptNotOverridden(TypeError):
     pass


 class _Action(object):  # pylint: disable=useless-object-inheritance
     def unapply(self, env, orig_env):
         pass

     def accept(self, visitor):
         del visitor
         raise AcceptNotOverridden('accept() not overridden for {}'.format(
             self.__class__.__name__))

     def write_deactivate(self,
                          outs,
                          windows=(os.name == 'nt'),
                          replacements=()):
         pass


 class _VariableAction(_Action):
     # pylint: disable=keyword-arg-before-vararg
     def __init__(self, name, value, allow_empty_values=False, *args, **kwargs):
         super(_VariableAction, self).__init__(*args, **kwargs)
         self.name = name
         self.value = value
         self.allow_empty_values = allow_empty_values

         self._check()

     def _check(self):
         try:
             # In python2, unicode is a distinct type.
             valid_types = (str, unicode)
         except NameError:
             valid_types = (str, )

         if not isinstance(self.name, valid_types):
             raise BadNameType('variable name {!r} not of type str'.format(
                 self.name))
         if not isinstance(self.value, valid_types):
             raise BadValueType('{!r} value {!r} not of type str'.format(
                 self.name, self.value))

         # Empty strings as environment variable values have different behavior
         # on different operating systems. Just don't allow them.
         if not self.allow_empty_values and self.value == '':
             raise EmptyValue('{!r} value {!r} is the empty string'.format(
                 self.name, self.value))

         # Many tools have issues with newlines in environment variable values.
         # Just don't allow them.
         if '\n' in self.value:
             raise NewlineInValue('{!r} value {!r} contains a newline'.format(
                 self.name, self.value))

         if not re.match(r'^[A-Z_][A-Z0-9_]*$', self.name, re.IGNORECASE):
             raise BadVariableName('bad variable name {!r}'.format(self.name))

     def unapply(self, env, orig_env):
         if self.name in orig_env:
             env[self.name] = orig_env[self.name]
         else:
             env.pop(self.name, None)

     def __repr__(self):
         return '{}({}, {})'.format(self.__class__.__name__, self.name,
                                    self.value)


 class Set(_VariableAction):
     """Set a variable."""
     def __init__(self, *args, **kwargs):
         deactivate = kwargs.pop('deactivate', True)
         super(Set, self).__init__(*args, **kwargs)
         self.deactivate = deactivate

     def accept(self, visitor):
         visitor.visit_set(self)


 class Clear(_VariableAction):
     """Remove a variable from the environment."""
     def __init__(self, *args, **kwargs):
         kwargs['value'] = ''
         kwargs['allow_empty_values'] = True
         super(Clear, self).__init__(*args, **kwargs)

     def accept(self, visitor):
         visitor.visit_clear(self)


 class Remove(_VariableAction):
     """Remove a value from a PATH-like variable."""
     def accept(self, visitor):
         visitor.visit_remove(self)


 class BadVariableValue(ValueError):
     pass


 def _append_prepend_check(action):
     if '=' in action.value:
         raise BadVariableValue('"{}" contains "="'.format(action.value))


 class Prepend(_VariableAction):
     """Prepend a value to a PATH-like variable."""
     def __init__(self, name, value, join, *args, **kwargs):
         super(Prepend, self).__init__(name, value, *args, **kwargs)
         self._join = join

     def _check(self):
         super(Prepend, self)._check()
         _append_prepend_check(self)

     def accept(self, visitor):
         visitor.visit_prepend(self)


 class Append(_VariableAction):
     """Append a value to a PATH-like variable. (Uncommon, see Prepend.)"""
     def __init__(self, name, value, join, *args, **kwargs):
         super(Append, self).__init__(name, value, *args, **kwargs)
         self._join = join

     def _check(self):
         super(Append, self)._check()
         _append_prepend_check(self)

     def accept(self, visitor):
         visitor.visit_append(self)


 class BadEchoValue(ValueError):
     pass


 class Echo(_Action):
     """Echo a value to the terminal."""
     def __init__(self, value, newline, *args, **kwargs):
         # These values act funny on Windows.
         if value.lower() in ('off', 'on'):
             raise BadEchoValue(value)
         super(Echo, self).__init__(*args, **kwargs)
         self.value = value
         self.newline = newline

     def accept(self, visitor):
         visitor.visit_echo(self)

     def __repr__(self):
         return 'Echo({}, newline={})'.format(self.value, self.newline)


 class Comment(_Action):
     """Add a comment to the init script."""
     def __init__(self, value, *args, **kwargs):
         super(Comment, self).__init__(*args, **kwargs)
         self.value = value

     def accept(self, visitor):
         visitor.visit_comment(self)

     def __repr__(self):
         return 'Comment({})'.format(self.value)


 class Command(_Action):
     """Run a command."""
     def __init__(self, command, *args, **kwargs):
         exit_on_error = kwargs.pop('exit_on_error', True)
         super(Command, self).__init__(*args, **kwargs)
         assert isinstance(command, (list, tuple))
         self.command = command
         self.exit_on_error = exit_on_error

     def accept(self, visitor):
         visitor.visit_command(self)

     def __repr__(self):
         return 'Command({})'.format(self.command)


 class Doctor(Command):
     def __init__(self, *args, **kwargs):
         log_level = 'warn' if 'PW_ENVSETUP_QUIET' in os.environ else 'info'
         super(Doctor, self).__init__(
             command=['pw', '--no-banner', '--loglevel', log_level, 'doctor'],
             *args,
             **kwargs)

     def accept(self, visitor):
         visitor.visit_doctor(self)

     def __repr__(self):
         return 'Doctor()'


 class BlankLine(_Action):
     """Write a blank line to the init script."""
     def accept(self, visitor):
         visitor.visit_blank_line(self)

     def __repr__(self):
         return 'BlankLine()'


 class Function(_Action):
     def __init__(self, name, body, *args, **kwargs):
         super(Function, self).__init__(*args, **kwargs)
         self.name = name
         self.body = body

     def accept(self, visitor):
         visitor.visit_function(self)

     def __repr__(self):
         return 'Function({}, {})'.format(self.name, self.body)


 class Hash(_Action):
     def accept(self, visitor):
         visitor.visit_hash(self)

     def __repr__(self):
         return 'Hash()'


 class Join(object):  # pylint: disable=useless-object-inheritance
     def __init__(self, pathsep=os.pathsep):
         self.pathsep = pathsep


 # TODO(mohrr) remove disable=useless-object-inheritance once in Python 3.
 # pylint: disable=useless-object-inheritance
 class Environment(object):
     """Stores the environment changes necessary for Pigweed.

     These changes can be accessed by writing them to a file for bash-like
     shells to source or by using this as a context manager.
     """
     def __init__(self, *args, **kwargs):
         pathsep = kwargs.pop('pathsep', os.pathsep)
         windows = kwargs.pop('windows', os.name == 'nt')
         allcaps = kwargs.pop('allcaps', windows)
         super(Environment, self).__init__(*args, **kwargs)
         self._actions = []
         self._pathsep = pathsep
         self._windows = windows
         self._allcaps = allcaps
         self.replacements = []
         self._join = Join(pathsep)
         self._finalized = False

     def add_replacement(self, variable, value=None):
         self.replacements.append((variable, value))

     def normalize_key(self, name):
         if self._allcaps:
             try:
                 return name.upper()
             except AttributeError:
                 # The _Action class has code to handle incorrect types, so
                 # we just ignore this error here.
                 pass
         return name

     # A newline is printed after each high-level operation. Top-level
     # operations should not invoke each other (this is why _remove() exists).

     def set(self, name, value, deactivate=True):
         """Set a variable."""
         assert not self._finalized
         name = self.normalize_key(name)
         self._actions.append(Set(name, value, deactivate=deactivate))
         self._blankline()

     def clear(self, name):
         """Remove a variable."""
         assert not self._finalized
         name = self.normalize_key(name)
         self._actions.append(Clear(name))
         self._blankline()

     def _remove(self, name, value):
         """Remove a value from a variable."""
         assert not self._finalized
         name = self.normalize_key(name)
         if self.get(name, None):
             self._actions.append(Remove(name, value, self._pathsep))

     def remove(self, name, value):
         """Remove a value from a PATH-like variable."""
         assert not self._finalized
         self._remove(name, value)
         self._blankline()

     def append(self, name, value):
         """Add a value to a PATH-like variable. Rarely used, see prepend()."""
         assert not self._finalized
         name = self.normalize_key(name)
         if self.get(name, None):
             self._remove(name, value)
             self._actions.append(Append(name, value, self._join))
         else:
             self._actions.append(Set(name, value))
         self._blankline()

     def prepend(self, name, value):
         """Add a value to the beginning of a PATH-like variable."""
         assert not self._finalized
         name = self.normalize_key(name)
         if self.get(name, None):
             self._remove(name, value)
             self._actions.append(Prepend(name, value, self._join))
         else:
             self._actions.append(Set(name, value))
         self._blankline()

     def echo(self, value='', newline=True):
         """Echo a value to the terminal."""
         # echo() deliberately ignores self._finalized.
         self._actions.append(Echo(value, newline))
         if value:
             self._blankline()

     def comment(self, comment):
         """Add a comment to the init script."""
         # comment() deliberately ignores self._finalized.
         self._actions.append(Comment(comment))
         self._blankline()

     def command(self, command, exit_on_error=True):
         """Run a command."""
         # command() deliberately ignores self._finalized.
         self._actions.append(Command(command, exit_on_error=exit_on_error))
         self._blankline()

     def doctor(self):
         """Run 'pw doctor'."""
         self._actions.append(Doctor())

     def function(self, name, body):
         """Define a function."""
         assert not self._finalized
         self._actions.append(Command(name, body))
         self._blankline()

     def _blankline(self):
         self._actions.append(BlankLine())

     def finalize(self):
         """Run cleanup at the end of environment setup."""
         assert not self._finalized
         self._finalized = True
         self._actions.append(Hash())
         self._blankline()

         if not self._windows:
             buf = StringIO()
             self.write_deactivate(buf)
             self._actions.append(Function('_pw_deactivate', buf.getvalue()))
             self._blankline()

     def accept(self, visitor):
         for action in self._actions:
             action.accept(visitor)

     def json(self, outs):
         json_visitor.JSONVisitor().serialize(self, outs)

     def write(self, outs):
         if self._windows:
             visitor = batch_visitor.BatchVisitor(pathsep=self._pathsep)
         else:
             visitor = shell_visitor.ShellVisitor(pathsep=self._pathsep)
         visitor.serialize(self, outs)

     def write_deactivate(self, outs):
         if self._windows:
             return
         visitor = shell_visitor.DeactivateShellVisitor(pathsep=self._pathsep)
         visitor.serialize(self, outs)

     @contextlib.contextmanager
     def __call__(self, export=True):
         """Set environment as if this was written to a file and sourced.

         Within this context os.environ is updated with the environment
         defined by this object. If export is False, os.environ is not updated,
         but in both cases the updated environment is yielded.

         On exit, previous environment is restored. See contextlib documentation
         for details on how this function is structured.

         Args:
           export(bool): modify the environment of the running process (and
             thus, its subprocesses)

         Yields the new environment object.
         """
         try:
             if export:
                 orig_env = os.environ.copy()
                 env = os.environ
             else:
                 env = os.environ.copy()

             apply = apply_visitor.ApplyVisitor(pathsep=self._pathsep)
             apply.apply(self, env)

             yield env

         finally:
             if export:
                 for key in set(os.environ):
                     try:
                         os.environ[key] = orig_env[key]
                     except KeyError:
                         del os.environ[key]
                 for key in set(orig_env) - set(os.environ):
                     os.environ[key] = orig_env[key]

     def get(self, key, default=None):
         """Get the value of a variable within context of this object."""
         key = self.normalize_key(key)
         with self(export=False) as env:
             return env.get(key, default)

     def __getitem__(self, key):
         """Get the value of a variable within context of this object."""
         key = self.normalize_key(key)
         with self(export=False) as env:
             return env[key]
	# Copyright 2020 The Pigweed 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
	#
	# https://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.
	"""Stores the environment changes necessary for Pigweed."""

	import contextlib
	import os
	import re

	# The order here is important. On Python 2 we want StringIO.StringIO and not
	# io.StringIO. On Python 3 there is no StringIO module so we want io.StringIO.
	# Not using six because six is not a standard package we can expect to have
	# installed in the system Python.
	try:
	from StringIO import StringIO # type: ignore
	except ImportError:
	from io import StringIO

	from . import apply_visitor
	from . import batch_visitor
	from . import json_visitor
	from . import shell_visitor

	# Disable super() warnings since this file must be Python 2 compatible.
	# pylint: disable=super-with-arguments


	class BadNameType(TypeError):
	pass


	class BadValueType(TypeError):
	pass


	class EmptyValue(ValueError):
	pass


	class NewlineInValue(TypeError):
	pass


	class BadVariableName(ValueError):
	pass


	class UnexpectedAction(ValueError):
	pass


	class AcceptNotOverridden(TypeError):
	pass


	class _Action(object): # pylint: disable=useless-object-inheritance
	def unapply(self, env, orig_env):
	pass

	def accept(self, visitor):
	del visitor
	raise AcceptNotOverridden('accept() not overridden for {}'.format(
	self.__class__.__name__))

	def write_deactivate(self,
	outs,
	windows=(os.name == 'nt'),
	replacements=()):
	pass


	class _VariableAction(_Action):
	# pylint: disable=keyword-arg-before-vararg
	def __init__(self, name, value, allow_empty_values=False, args, *kwargs):
	super(_VariableAction, self).__init__(args, *kwargs)
	self.name = name
	self.value = value
	self.allow_empty_values = allow_empty_values

	self._check()

	def _check(self):
	try:
	# In python2, unicode is a distinct type.
	valid_types = (str, unicode)
	except NameError:
	valid_types = (str, )

	if not isinstance(self.name, valid_types):
	raise BadNameType('variable name {!r} not of type str'.format(
	self.name))
	if not isinstance(self.value, valid_types):
	raise BadValueType('{!r} value {!r} not of type str'.format(
	self.name, self.value))

	# Empty strings as environment variable values have different behavior
	# on different operating systems. Just don't allow them.
	if not self.allow_empty_values and self.value == '':
	raise EmptyValue('{!r} value {!r} is the empty string'.format(
	self.name, self.value))

	# Many tools have issues with newlines in environment variable values.
	# Just don't allow them.
	if '\n' in self.value:
	raise NewlineInValue('{!r} value {!r} contains a newline'.format(
	self.name, self.value))

	if not re.match(r'^[A-Z_][A-Z0-9_]*$', self.name, re.IGNORECASE):
	raise BadVariableName('bad variable name {!r}'.format(self.name))

	def unapply(self, env, orig_env):
	if self.name in orig_env:
	env[self.name] = orig_env[self.name]
	else:
	env.pop(self.name, None)

	def __repr__(self):
	return '{}({}, {})'.format(self.__class__.__name__, self.name,
	self.value)


	class Set(_VariableAction):
	"""Set a variable."""
	def __init__(self, args, *kwargs):
	deactivate = kwargs.pop('deactivate', True)
	super(Set, self).__init__(args, *kwargs)
	self.deactivate = deactivate

	def accept(self, visitor):
	visitor.visit_set(self)


	class Clear(_VariableAction):
	"""Remove a variable from the environment."""
	def __init__(self, args, *kwargs):
	kwargs['value'] = ''
	kwargs['allow_empty_values'] = True
	super(Clear, self).__init__(args, *kwargs)

	def accept(self, visitor):
	visitor.visit_clear(self)


	class Remove(_VariableAction):
	"""Remove a value from a PATH-like variable."""
	def accept(self, visitor):
	visitor.visit_remove(self)


	class BadVariableValue(ValueError):
	pass


	def _append_prepend_check(action):
	if '=' in action.value:
	raise BadVariableValue('"{}" contains "="'.format(action.value))


	class Prepend(_VariableAction):
	"""Prepend a value to a PATH-like variable."""
	def __init__(self, name, value, join, args, *kwargs):
	super(Prepend, self).__init__(name, value, args, *kwargs)
	self._join = join

	def _check(self):
	super(Prepend, self)._check()
	_append_prepend_check(self)

	def accept(self, visitor):
	visitor.visit_prepend(self)


	class Append(_VariableAction):
	"""Append a value to a PATH-like variable. (Uncommon, see Prepend.)"""
	def __init__(self, name, value, join, args, *kwargs):
	super(Append, self).__init__(name, value, args, *kwargs)
	self._join = join

	def _check(self):
	super(Append, self)._check()
	_append_prepend_check(self)

	def accept(self, visitor):
	visitor.visit_append(self)


	class BadEchoValue(ValueError):
	pass


	class Echo(_Action):
	"""Echo a value to the terminal."""
	def __init__(self, value, newline, args, *kwargs):
	# These values act funny on Windows.
	if value.lower() in ('off', 'on'):
	raise BadEchoValue(value)
	super(Echo, self).__init__(args, *kwargs)
	self.value = value
	self.newline = newline

	def accept(self, visitor):
	visitor.visit_echo(self)

	def __repr__(self):
	return 'Echo({}, newline={})'.format(self.value, self.newline)


	class Comment(_Action):
	"""Add a comment to the init script."""
	def __init__(self, value, args, *kwargs):
	super(Comment, self).__init__(args, *kwargs)
	self.value = value

	def accept(self, visitor):
	visitor.visit_comment(self)

	def __repr__(self):
	return 'Comment({})'.format(self.value)


	class Command(_Action):
	"""Run a command."""
	def __init__(self, command, args, *kwargs):
	exit_on_error = kwargs.pop('exit_on_error', True)
	super(Command, self).__init__(args, *kwargs)
	assert isinstance(command, (list, tuple))
	self.command = command
	self.exit_on_error = exit_on_error

	def accept(self, visitor):
	visitor.visit_command(self)

	def __repr__(self):
	return 'Command({})'.format(self.command)


	class Doctor(Command):
	def __init__(self, args, *kwargs):
	log_level = 'warn' if 'PW_ENVSETUP_QUIET' in os.environ else 'info'
	super(Doctor, self).__init__(
	command=['pw', '--no-banner', '--loglevel', log_level, 'doctor'],
	*args,
	**kwargs)

	def accept(self, visitor):
	visitor.visit_doctor(self)

	def __repr__(self):
	return 'Doctor()'


	class BlankLine(_Action):
	"""Write a blank line to the init script."""
	def accept(self, visitor):
	visitor.visit_blank_line(self)

	def __repr__(self):
	return 'BlankLine()'


	class Function(_Action):
	def __init__(self, name, body, args, *kwargs):
	super(Function, self).__init__(args, *kwargs)
	self.name = name
	self.body = body

	def accept(self, visitor):
	visitor.visit_function(self)

	def __repr__(self):
	return 'Function({}, {})'.format(self.name, self.body)


	class Hash(_Action):
	def accept(self, visitor):
	visitor.visit_hash(self)

	def __repr__(self):
	return 'Hash()'


	class Join(object): # pylint: disable=useless-object-inheritance
	def __init__(self, pathsep=os.pathsep):
	self.pathsep = pathsep


	# TODO(mohrr) remove disable=useless-object-inheritance once in Python 3.
	# pylint: disable=useless-object-inheritance
	class Environment(object):
	"""Stores the environment changes necessary for Pigweed.

	These changes can be accessed by writing them to a file for bash-like
	shells to source or by using this as a context manager.
	"""
	def __init__(self, args, *kwargs):
	pathsep = kwargs.pop('pathsep', os.pathsep)
	windows = kwargs.pop('windows', os.name == 'nt')
	allcaps = kwargs.pop('allcaps', windows)
	super(Environment, self).__init__(args, *kwargs)
	self._actions = []
	self._pathsep = pathsep
	self._windows = windows
	self._allcaps = allcaps
	self.replacements = []
	self._join = Join(pathsep)
	self._finalized = False

	def add_replacement(self, variable, value=None):
	self.replacements.append((variable, value))

	def normalize_key(self, name):
	if self._allcaps:
	try:
	return name.upper()
	except AttributeError:
	# The _Action class has code to handle incorrect types, so
	# we just ignore this error here.
	pass
	return name

	# A newline is printed after each high-level operation. Top-level
	# operations should not invoke each other (this is why _remove() exists).

	def set(self, name, value, deactivate=True):
	"""Set a variable."""
	assert not self._finalized
	name = self.normalize_key(name)
	self._actions.append(Set(name, value, deactivate=deactivate))
	self._blankline()

	def clear(self, name):
	"""Remove a variable."""
	assert not self._finalized
	name = self.normalize_key(name)
	self._actions.append(Clear(name))
	self._blankline()

	def _remove(self, name, value):
	"""Remove a value from a variable."""
	assert not self._finalized
	name = self.normalize_key(name)
	if self.get(name, None):
	self._actions.append(Remove(name, value, self._pathsep))

	def remove(self, name, value):
	"""Remove a value from a PATH-like variable."""
	assert not self._finalized
	self._remove(name, value)
	self._blankline()

	def append(self, name, value):
	"""Add a value to a PATH-like variable. Rarely used, see prepend()."""
	assert not self._finalized
	name = self.normalize_key(name)
	if self.get(name, None):
	self._remove(name, value)
	self._actions.append(Append(name, value, self._join))
	else:
	self._actions.append(Set(name, value))
	self._blankline()

	def prepend(self, name, value):
	"""Add a value to the beginning of a PATH-like variable."""
	assert not self._finalized
	name = self.normalize_key(name)
	if self.get(name, None):
	self._remove(name, value)
	self._actions.append(Prepend(name, value, self._join))
	else:
	self._actions.append(Set(name, value))
	self._blankline()

	def echo(self, value='', newline=True):
	"""Echo a value to the terminal."""
	# echo() deliberately ignores self._finalized.
	self._actions.append(Echo(value, newline))
	if value:
	self._blankline()

	def comment(self, comment):
	"""Add a comment to the init script."""
	# comment() deliberately ignores self._finalized.
	self._actions.append(Comment(comment))
	self._blankline()

	def command(self, command, exit_on_error=True):
	"""Run a command."""
	# command() deliberately ignores self._finalized.
	self._actions.append(Command(command, exit_on_error=exit_on_error))
	self._blankline()

	def doctor(self):
	"""Run 'pw doctor'."""
	self._actions.append(Doctor())

	def function(self, name, body):
	"""Define a function."""
	assert not self._finalized
	self._actions.append(Command(name, body))
	self._blankline()

	def _blankline(self):
	self._actions.append(BlankLine())

	def finalize(self):
	"""Run cleanup at the end of environment setup."""
	assert not self._finalized
	self._finalized = True
	self._actions.append(Hash())
	self._blankline()

	if not self._windows:
	buf = StringIO()
	self.write_deactivate(buf)
	self._actions.append(Function('_pw_deactivate', buf.getvalue()))
	self._blankline()

	def accept(self, visitor):
	for action in self._actions:
	action.accept(visitor)

	def json(self, outs):
	json_visitor.JSONVisitor().serialize(self, outs)

	def write(self, outs):
	if self._windows:
	visitor = batch_visitor.BatchVisitor(pathsep=self._pathsep)
	else:
	visitor = shell_visitor.ShellVisitor(pathsep=self._pathsep)
	visitor.serialize(self, outs)

	def write_deactivate(self, outs):
	if self._windows:
	return
	visitor = shell_visitor.DeactivateShellVisitor(pathsep=self._pathsep)
	visitor.serialize(self, outs)

	@contextlib.contextmanager
	def __call__(self, export=True):
	"""Set environment as if this was written to a file and sourced.

	Within this context os.environ is updated with the environment
	defined by this object. If export is False, os.environ is not updated,
	but in both cases the updated environment is yielded.

	On exit, previous environment is restored. See contextlib documentation
	for details on how this function is structured.

	Args:
	export(bool): modify the environment of the running process (and
	thus, its subprocesses)

	Yields the new environment object.
	"""
	try:
	if export:
	orig_env = os.environ.copy()
	env = os.environ
	else:
	env = os.environ.copy()

	apply = apply_visitor.ApplyVisitor(pathsep=self._pathsep)
	apply.apply(self, env)

	yield env

	finally:
	if export:
	for key in set(os.environ):
	try:
	os.environ[key] = orig_env[key]
	except KeyError:
	del os.environ[key]
	for key in set(orig_env) - set(os.environ):
	os.environ[key] = orig_env[key]

	def get(self, key, default=None):
	"""Get the value of a variable within context of this object."""
	key = self.normalize_key(key)
	with self(export=False) as env:
	return env.get(key, default)

	def __getitem__(self, key):
	"""Get the value of a variable within context of this object."""
	key = self.normalize_key(key)
	with self(export=False) as env:
	return env[key]