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finish plumbing config to Session objects...

finish plumbing config to Session objects This means that the qtconsole now has full access to HMAC message digests and non-JSON serialization (pickle, msgpack, etc.).

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      #!/usr/bin/env python

      # encoding: utf-8

      """

      A base class for objects that are configurable.

      Authors:

      * Brian Granger

      * Fernando Perez

      """

      #-----------------------------------------------------------------------------

      #  Copyright (C) 2008-2010  The IPython Development Team

      #

      #  Distributed under the terms of the BSD License.  The full license is in

      #  the file COPYING, distributed as part of this software.

      #-----------------------------------------------------------------------------

      #-----------------------------------------------------------------------------

      # Imports

      #-----------------------------------------------------------------------------

      from copy import deepcopy

      import datetime

      from loader import Config

      from IPython.utils.traitlets import HasTraits, Instance

      from IPython.utils.text import indent

      #-----------------------------------------------------------------------------

      # Helper classes for Configurables

      #-----------------------------------------------------------------------------

      class ConfigurableError(Exception):

          pass

      class MultipleInstanceError(ConfigurableError):

          pass

      #-----------------------------------------------------------------------------

      # Configurable implementation

      #-----------------------------------------------------------------------------

      class Configurable(HasTraits):

          config = Instance(Config,(),{})

          created = None

          def __init__(self, **kwargs):

              """Create a conigurable given a config config.

              Parameters

              ----------

              config : Config

                  If this is empty, default values are used. If config is a 

                  :class:`Config` instance, it will be used to configure the

                  instance.

              Notes

              -----

              Subclasses of Configurable must call the :meth:`__init__` method of

              :class:`Configurable` *before* doing anything else and using 

              :func:`super`::

                  class MyConfigurable(Configurable):

                      def __init__(self, config=None):

                          super(MyConfigurable, self).__init__(config)

                          # Then any other code you need to finish initialization.

              This ensures that instances will be configured properly.

              """

              config = kwargs.pop('config', None)

              if config is not None:

                  # We used to deepcopy, but for now we are trying to just save

                  # by reference.  This *could* have side effects as all components

                  # will share config. In fact, I did find such a side effect in

                  # _config_changed below. If a config attribute value was a mutable type

                  # all instances of a component were getting the same copy, effectively

                  # making that a class attribute.

                  # self.config = deepcopy(config)

                  self.config = config

              # This should go second so individual keyword arguments override 

              # the values in config.

              super(Configurable, self).__init__(**kwargs)

              self.created = datetime.datetime.now()

          #-------------------------------------------------------------------------

          # Static trait notifiations

          #-------------------------------------------------------------------------

          def _config_changed(self, name, old, new):

              """Update all the class traits having ``config=True`` as metadata.

              For any class trait with a ``config`` metadata attribute that is

              ``True``, we update the trait with the value of the corresponding

              config entry.

              """

              # Get all traits with a config metadata entry that is True

              traits = self.traits(config=True)

              # We auto-load config section for this class as well as any parent

              # classes that are Configurable subclasses.  This starts with Configurable

              # and works down the mro loading the config for each section.

              section_names = [cls.__name__ for cls in \

                  reversed(self.__class__.__mro__) if 

                  issubclass(cls, Configurable) and issubclass(self.__class__, cls)]

              for sname in section_names:

                  # Don't do a blind getattr as that would cause the config to 

                  # dynamically create the section with name self.__class__.__name__.

                  if new._has_section(sname):

                      my_config = new[sname]

                      for k, v in traits.iteritems():

                          # Don't allow traitlets with config=True to start with

                          # uppercase.  Otherwise, they are confused with Config

                          # subsections.  But, developers shouldn't have uppercase

                          # attributes anyways! (PEP 6)

                          if k[0].upper()==k[0] and not k.startswith('_'):

                              raise ConfigurableError('Configurable traitlets with '

                              'config=True must start with a lowercase so they are '

                              'not confused with Config subsections: %s.%s' % \

                              (self.__class__.__name__, k))

                          try:

                              # Here we grab the value from the config

                              # If k has the naming convention of a config

                              # section, it will be auto created.

                              config_value = my_config[k]

                          except KeyError:

                              pass

                          else:

                              # print "Setting %s.%s from %s.%s=%r" % \

                              #     (self.__class__.__name__,k,sname,k,config_value)

                              # We have to do a deepcopy here if we don't deepcopy the entire

                              # config object. If we don't, a mutable config_value will be

                              # shared by all instances, effectively making it a class attribute.

                              setattr(self, k, deepcopy(config_value))

          @classmethod

          def class_get_help(cls):

              """Get the help string for this class in ReST format."""

              cls_traits = cls.class_traits(config=True)

              final_help = []

              final_help.append(u'%s options' % cls.__name__)

              final_help.append(len(final_help[0])*u'-')

              for k,v in cls.class_traits(config=True).iteritems():

                  help = cls.class_get_trait_help(v)

                  final_help.append(help)

              return '\n'.join(final_help)

          @classmethod

          def class_get_trait_help(cls, trait):

              """Get the help string for a single """

              lines = []

              header = "%s.%s : %s" % (cls.__name__, trait.name, trait.__class__.__name__)

              try:

                  dvr = repr(trait.get_default_value())

              except Exception:

                  dvr = None # ignore defaults we can't construct

              if dvr is not None:

                  header += ' [default: %s]'%dvr

              lines.append(header)

              help = trait.get_metadata('help')

              if help is not None:

                  lines.append(indent(help.strip(), flatten=True))

              if 'Enum' in trait.__class__.__name__:

                  # include Enum choices

                  lines.append(indent('Choices: %r'%(trait.values,), flatten=True))

              return '\n'.join(lines)

          @classmethod

          def class_print_help(cls):

              print cls.class_get_help()

      class SingletonConfigurable(Configurable):

          """A configurable that only allows one instance.

          This class is for classes that should only have one instance of itself

          or *any* subclass. To create and retrieve such a class use the

          :meth:`SingletonConfigurable.instance` method.

          """

          _instance = None

          @classmethod

          def _walk_mro(cls):

              """Walk the cls.mro() for parent classes that are also singletons

              For use in instance()

              """

              for subclass in cls.mro():

                  if issubclass(cls, subclass) and \

                          issubclass(subclass, SingletonConfigurable) and \

                          subclass != SingletonConfigurable:

                      yield subclass

          @classmethod

          def clear_instance(cls):

              """unset _instance for this class and singleton parents.

              """

              if not cls.initialized():

                  return

              for subclass in cls._walk_mro():

                  if isinstance(subclass._instance, cls):

                      # only clear instances that are instances

                      # of the calling class

                      subclass._instance = None

          @classmethod

          def instance(cls, *args, **kwargs):

              """Returns a global instance of this class.

              This method create a new instance if none have previously been created

              and returns a previously created instance is one already exists.

              The arguments and keyword arguments passed to this method are passed

              on to the :meth:`__init__` method of the class upon instantiation.

              Examples

              --------

              Create a singleton class using instance, and retrieve it::

                  >>> from IPython.config.configurable import SingletonConfigurable

                  >>> class Foo(SingletonConfigurable): pass

                  >>> foo = Foo.instance()

                  >>> foo == Foo.instance()

                  True

              Create a subclass that is retrived using the base class instance::

                  >>> class Bar(SingletonConfigurable): pass

                  >>> class Bam(Bar): pass

                  >>> bam = Bam.instance()

                  >>> bam == Bar.instance()

                  True

              """

              # Create and save the instance

              if cls._instance is None:

                  inst = cls(*args, **kwargs)

                  # Now make sure that the instance will also be returned by

                  # parent classes' _instance attribute.

                  for subclass in cls._walk_mro():

                      subclass._instance = inst

              if isinstance(cls._instance, cls):

                  return cls._instance

              else:

                  raise MultipleInstanceError(

                      'Multiple incompatible subclass instances of '

                      '%s are being created.' % cls.__name__

                  )

          @classmethod

          def initialized(cls):

              """Has an instance been created?"""

              return hasattr(cls, "_instance") and cls._instance is not None

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				#!/usr/bin/env python
				# encoding: utf-8
				"""
				A base class for objects that are configurable.

				Authors:

				* Brian Granger
				* Fernando Perez
				"""

				#-----------------------------------------------------------------------------
				# Copyright (C) 2008-2010 The IPython Development Team
				#
				# Distributed under the terms of the BSD License. The full license is in
				# the file COPYING, distributed as part of this software.
				#-----------------------------------------------------------------------------

				#-----------------------------------------------------------------------------
				# Imports
				#-----------------------------------------------------------------------------

				from copy import deepcopy
				import datetime

				from loader import Config
				from IPython.utils.traitlets import HasTraits, Instance
				from IPython.utils.text import indent


				#-----------------------------------------------------------------------------
				# Helper classes for Configurables
				#-----------------------------------------------------------------------------


				class ConfigurableError(Exception):
				pass


				class MultipleInstanceError(ConfigurableError):
				pass

				#-----------------------------------------------------------------------------
				# Configurable implementation
				#-----------------------------------------------------------------------------

				class Configurable(HasTraits):

				config = Instance(Config,(),{})
				created = None

				def __init__(self, **kwargs):
				"""Create a conigurable given a config config.

				Parameters
				----------
				config : Config
				If this is empty, default values are used. If config is a
				:class:`Config` instance, it will be used to configure the
				instance.

				Notes
				-----
				Subclasses of Configurable must call the :meth:`__init__` method of
				:class:`Configurable` before doing anything else and using
				:func:`super`::

				class MyConfigurable(Configurable):
				def __init__(self, config=None):
				super(MyConfigurable, self).__init__(config)
				# Then any other code you need to finish initialization.

				This ensures that instances will be configured properly.
				"""
				config = kwargs.pop('config', None)
				if config is not None:
				# We used to deepcopy, but for now we are trying to just save
				# by reference. This could have side effects as all components
				# will share config. In fact, I did find such a side effect in
				# _config_changed below. If a config attribute value was a mutable type
				# all instances of a component were getting the same copy, effectively
				# making that a class attribute.
				# self.config = deepcopy(config)
				self.config = config
				# This should go second so individual keyword arguments override
				# the values in config.
				super(Configurable, self).__init__(**kwargs)
				self.created = datetime.datetime.now()

				#-------------------------------------------------------------------------
				# Static trait notifiations
				#-------------------------------------------------------------------------

				def _config_changed(self, name, old, new):
				"""Update all the class traits having ``config=True`` as metadata.

				For any class trait with a ``config`` metadata attribute that is
				``True``, we update the trait with the value of the corresponding
				config entry.
				"""
				# Get all traits with a config metadata entry that is True
				traits = self.traits(config=True)

				# We auto-load config section for this class as well as any parent
				# classes that are Configurable subclasses. This starts with Configurable
				# and works down the mro loading the config for each section.
				section_names = [cls.__name__ for cls in \
				reversed(self.__class__.__mro__) if
				issubclass(cls, Configurable) and issubclass(self.__class__, cls)]

				for sname in section_names:
				# Don't do a blind getattr as that would cause the config to
				# dynamically create the section with name self.__class__.__name__.
				if new._has_section(sname):
				my_config = new[sname]
				for k, v in traits.iteritems():
				# Don't allow traitlets with config=True to start with
				# uppercase. Otherwise, they are confused with Config
				# subsections. But, developers shouldn't have uppercase
				# attributes anyways! (PEP 6)
				if k[0].upper()==k[0] and not k.startswith('_'):
				raise ConfigurableError('Configurable traitlets with '
				'config=True must start with a lowercase so they are '
				'not confused with Config subsections: %s.%s' % \
				(self.__class__.__name__, k))
				try:
				# Here we grab the value from the config
				# If k has the naming convention of a config
				# section, it will be auto created.
				config_value = my_config[k]
				except KeyError:
				pass
				else:
				# print "Setting %s.%s from %s.%s=%r" % \
				# (self.__class__.__name__,k,sname,k,config_value)
				# We have to do a deepcopy here if we don't deepcopy the entire
				# config object. If we don't, a mutable config_value will be
				# shared by all instances, effectively making it a class attribute.
				setattr(self, k, deepcopy(config_value))

				@classmethod
				def class_get_help(cls):
				"""Get the help string for this class in ReST format."""
				cls_traits = cls.class_traits(config=True)
				final_help = []
				final_help.append(u'%s options' % cls.__name__)
				final_help.append(len(final_help[0])*u'-')
				for k,v in cls.class_traits(config=True).iteritems():
				help = cls.class_get_trait_help(v)
				final_help.append(help)
				return '\n'.join(final_help)

				@classmethod
				def class_get_trait_help(cls, trait):
				"""Get the help string for a single """
				lines = []
				header = "%s.%s : %s" % (cls.__name__, trait.name, trait.__class__.__name__)
				try:
				dvr = repr(trait.get_default_value())
				except Exception:
				dvr = None # ignore defaults we can't construct
				if dvr is not None:
				header += ' [default: %s]'%dvr
				lines.append(header)

				help = trait.get_metadata('help')
				if help is not None:
				lines.append(indent(help.strip(), flatten=True))
				if 'Enum' in trait.__class__.__name__:
				# include Enum choices
				lines.append(indent('Choices: %r'%(trait.values,), flatten=True))
				return '\n'.join(lines)

				@classmethod
				def class_print_help(cls):
				print cls.class_get_help()


				class SingletonConfigurable(Configurable):
				"""A configurable that only allows one instance.

				This class is for classes that should only have one instance of itself
				or any subclass. To create and retrieve such a class use the
				:meth:`SingletonConfigurable.instance` method.
				"""

				_instance = None

				@classmethod
				def _walk_mro(cls):
				"""Walk the cls.mro() for parent classes that are also singletons

				For use in instance()
				"""

				for subclass in cls.mro():
				if issubclass(cls, subclass) and \
				issubclass(subclass, SingletonConfigurable) and \
				subclass != SingletonConfigurable:
				yield subclass

				@classmethod
				def clear_instance(cls):
				"""unset _instance for this class and singleton parents.
				"""
				if not cls.initialized():
				return
				for subclass in cls._walk_mro():
				if isinstance(subclass._instance, cls):
				# only clear instances that are instances
				# of the calling class
				subclass._instance = None

				@classmethod
				def instance(cls, args, *kwargs):
				"""Returns a global instance of this class.

				This method create a new instance if none have previously been created
				and returns a previously created instance is one already exists.

				The arguments and keyword arguments passed to this method are passed
				on to the :meth:`__init__` method of the class upon instantiation.

				Examples
				--------

				Create a singleton class using instance, and retrieve it::

				>>> from IPython.config.configurable import SingletonConfigurable
				>>> class Foo(SingletonConfigurable): pass
				>>> foo = Foo.instance()
				>>> foo == Foo.instance()
				True

				Create a subclass that is retrived using the base class instance::

				>>> class Bar(SingletonConfigurable): pass
				>>> class Bam(Bar): pass
				>>> bam = Bam.instance()
				>>> bam == Bar.instance()
				True
				"""
				# Create and save the instance
				if cls._instance is None:
				inst = cls(args, *kwargs)
				# Now make sure that the instance will also be returned by
				# parent classes' _instance attribute.
				for subclass in cls._walk_mro():
				subclass._instance = inst

				if isinstance(cls._instance, cls):
				return cls._instance
				else:
				raise MultipleInstanceError(
				'Multiple incompatible subclass instances of '
				'%s are being created.' % cls.__name__
				)

				@classmethod
				def initialized(cls):
				"""Has an instance been created?"""
				return hasattr(cls, "_instance") and cls._instance is not None