##// END OF EJS Templates
Merge pull request #2728 from Carreau/shifttab...
Merge pull request #2728 from Carreau/shifttab also bind shift tab for tooltip + config This does not change the curent behavior, only add the shift+tab shortcut. Note that the shift tab shortcut has a slightly different behavior. You can select part of a line and pressing shift-tab will show you the tooltip only for the selection. This is disabled for multiline selection to still allow to unindent block of code, Keep in mind that the real real shortcut for indent unindent is Ctrl+] or [ . Select/tab is not really supported by codemirror. Finally the "tooltip_on_tab" behavior is globally configurable via IPython.config so that it could be easily switched to false. It can be overridden via js console for test purpose. IPython.config.tooltip_on_tab = true | false Take effect immediately, only on current notebook. or globally via custom.js var user_conf = {tooltip_on_tab:false | true}; $.extend(IPython.config, user_conf)

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configurable.py
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# encoding: utf-8
"""
A base class for objects that are configurable.
Inheritance diagram:
.. inheritance-diagram:: IPython.config.configurable
:parts: 3
Authors:
* Brian Granger
* Fernando Perez
* Min RK
"""
#-----------------------------------------------------------------------------
# Copyright (C) 2008-2011 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
#-----------------------------------------------------------------------------
import datetime
from copy import deepcopy
from loader import Config
from IPython.utils.traitlets import HasTraits, Instance
from IPython.utils.text import indent, wrap_paragraphs
#-----------------------------------------------------------------------------
# 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 configurable 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=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))
def update_config(self, config):
"""Fire the traits events when the config is updated."""
# Save a copy of the current config.
newconfig = deepcopy(self.config)
# Merge the new config into the current one.
newconfig._merge(config)
# Save the combined config as self.config, which triggers the traits
# events.
self.config = newconfig
@classmethod
def class_get_help(cls, inst=None):
"""Get the help string for this class in ReST format.
If `inst` is given, it's current trait values will be used in place of
class defaults.
"""
assert inst is None or isinstance(inst, cls)
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 sorted(cls.class_traits(config=True).iteritems()):
help = cls.class_get_trait_help(v, inst)
final_help.append(help)
return '\n'.join(final_help)
@classmethod
def class_get_trait_help(cls, trait, inst=None):
"""Get the help string for a single trait.
If `inst` is given, it's current trait values will be used in place of
the class default.
"""
assert inst is None or isinstance(inst, cls)
lines = []
header = "--%s.%s=<%s>" % (cls.__name__, trait.name, trait.__class__.__name__)
lines.append(header)
if inst is not None:
lines.append(indent('Current: %r' % getattr(inst, trait.name), 4))
else:
try:
dvr = repr(trait.get_default_value())
except Exception:
dvr = None # ignore defaults we can't construct
if dvr is not None:
if len(dvr) > 64:
dvr = dvr[:61]+'...'
lines.append(indent('Default: %s' % dvr, 4))
if 'Enum' in trait.__class__.__name__:
# include Enum choices
lines.append(indent('Choices: %r' % (trait.values,)))
help = trait.get_metadata('help')
if help is not None:
help = '\n'.join(wrap_paragraphs(help, 76))
lines.append(indent(help, 4))
return '\n'.join(lines)
@classmethod
def class_print_help(cls, inst=None):
"""Get the help string for a single trait and print it."""
print cls.class_get_help(inst)
@classmethod
def class_config_section(cls):
"""Get the config class config section"""
def c(s):
"""return a commented, wrapped block."""
s = '\n\n'.join(wrap_paragraphs(s, 78))
return '# ' + s.replace('\n', '\n# ')
# section header
breaker = '#' + '-'*78
s = "# %s configuration" % cls.__name__
lines = [breaker, s, breaker, '']
# get the description trait
desc = cls.class_traits().get('description')
if desc:
desc = desc.default_value
else:
# no description trait, use __doc__
desc = getattr(cls, '__doc__', '')
if desc:
lines.append(c(desc))
lines.append('')
parents = []
for parent in cls.mro():
# only include parents that are not base classes
# and are not the class itself
# and have some configurable traits to inherit
if parent is not cls and issubclass(parent, Configurable) and \
parent.class_traits(config=True):
parents.append(parent)
if parents:
pstr = ', '.join([ p.__name__ for p in parents ])
lines.append(c('%s will inherit config from: %s'%(cls.__name__, pstr)))
lines.append('')
for name, trait in cls.class_traits(config=True).iteritems():
help = trait.get_metadata('help') or ''
lines.append(c(help))
lines.append('# c.%s.%s = %r'%(cls.__name__, name, trait.get_default_value()))
lines.append('')
return '\n'.join(lines)
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
class LoggingConfigurable(Configurable):
"""A parent class for Configurables that log.
Subclasses have a log trait, and the default behavior
is to get the logger from the currently running Application
via Application.instance().log.
"""
log = Instance('logging.Logger')
def _log_default(self):
from IPython.config.application import Application
return Application.instance().log