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.. _config_overview:
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============================================
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Overview of the IPython configuration system
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============================================
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This section describes the IPython configuration system. Starting with version
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0.11, IPython has a completely new configuration system that is quite
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different from the older :file:`ipythonrc` or :file:`ipy_user_conf.py`
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approaches. The new configuration system was designed from scratch to address
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the particular configuration needs of IPython. While there are many
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other excellent configuration systems out there, we found that none of them
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met our requirements.
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.. warning::
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If you are upgrading to version 0.11 of IPython, you will need to migrate
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your old :file:`ipythonrc` or :file:`ipy_user_conf.py` configuration files
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to the new system. You may want to read the section on
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:ref:`configuring IPython <configuring_ipython>`. There are also some ideas
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`on the IPython wiki <http://wiki.ipython.org/Cookbook/Moving_config_to_IPython_0.11>`_
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about this.
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The discussion that follows is focused on teaching users how to configure
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IPython to their liking. Developers who want to know more about how they
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can enable their objects to take advantage of the configuration system
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should consult our :ref:`developer guide <developer_guide>`
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The main concepts
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=================
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There are a number of abstractions that the IPython configuration system uses.
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Each of these abstractions is represented by a Python class.
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Configuration object: :class:`~IPython.config.loader.Config`
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A configuration object is a simple dictionary-like class that holds
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configuration attributes and sub-configuration objects. These classes
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support dotted attribute style access (``Foo.bar``) in addition to the
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regular dictionary style access (``Foo['bar']``). Configuration objects
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are smart. They know how to merge themselves with other configuration
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objects and they automatically create sub-configuration objects.
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Application: :class:`~IPython.config.application.Application`
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An application is a process that does a specific job. The most obvious
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application is the :command:`ipython` command line program. Each
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application reads *one or more* configuration files and a single set of
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command line options
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and then produces a master configuration object for the application. This
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configuration object is then passed to the configurable objects that the
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application creates. These configurable objects implement the actual logic
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of the application and know how to configure themselves given the
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configuration object.
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Applications always have a `log` attribute that is a configured Logger.
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This allows centralized logging configuration per-application.
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Configurable: :class:`~IPython.config.configurable.Configurable`
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A configurable is a regular Python class that serves as a base class for
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all main classes in an application. The
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:class:`~IPython.config.configurable.Configurable` base class is
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lightweight and only does one things.
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This :class:`~IPython.config.configurable.Configurable` is a subclass
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of :class:`~IPython.utils.traitlets.HasTraits` that knows how to configure
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itself. Class level traits with the metadata ``config=True`` become
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values that can be configured from the command line and configuration
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files.
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Developers create :class:`~IPython.config.configurable.Configurable`
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subclasses that implement all of the logic in the application. Each of
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these subclasses has its own configuration information that controls how
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instances are created.
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Singletons: :class:`~IPython.config.configurable.SingletonConfigurable`
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Any object for which there is a single canonical instance. These are
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just like Configurables, except they have a class method
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:meth:`~IPython.config.configurable.SingletonConfigurable.instance`,
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that returns the current active instance (or creates one if it
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does not exist). Examples of singletons include
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:class:`~IPython.config.application.Application`s and
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:class:`~IPython.core.interactiveshell.InteractiveShell`. This lets
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objects easily connect to the current running Application without passing
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objects around everywhere. For instance, to get the current running
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Application instance, simply do: ``app = Application.instance()``.
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.. note::
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Singletons are not strictly enforced - you can have many instances
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of a given singleton class, but the :meth:`instance` method will always
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return the same one.
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Having described these main concepts, we can now state the main idea in our
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configuration system: *"configuration" allows the default values of class
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attributes to be controlled on a class by class basis*. Thus all instances of
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a given class are configured in the same way. Furthermore, if two instances
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need to be configured differently, they need to be instances of two different
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classes. While this model may seem a bit restrictive, we have found that it
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expresses most things that need to be configured extremely well. However, it
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is possible to create two instances of the same class that have different
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trait values. This is done by overriding the configuration.
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Now, we show what our configuration objects and files look like.
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Configuration objects and files
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===============================
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A configuration file is simply a pure Python file that sets the attributes
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of a global, pre-created configuration object. This configuration object is a
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:class:`~IPython.config.loader.Config` instance. While in a configuration
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file, to get a reference to this object, simply call the :func:`get_config`
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function. We inject this function into the global namespace that the
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configuration file is executed in.
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Here is an example of a super simple configuration file that does nothing::
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c = get_config()
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Once you get a reference to the configuration object, you simply set
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attributes on it. All you have to know is:
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* The name of each attribute.
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* The type of each attribute.
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The answers to these two questions are provided by the various
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:class:`~IPython.config.configurable.Configurable` subclasses that an
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application uses. Let's look at how this would work for a simple configurable
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subclass::
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# Sample configurable:
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from IPython.config.configurable import Configurable
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from IPython.utils.traitlets import Int, Float, Unicode, Bool
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class MyClass(Configurable):
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name = Unicode(u'defaultname', config=True)
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ranking = Int(0, config=True)
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value = Float(99.0)
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# The rest of the class implementation would go here..
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In this example, we see that :class:`MyClass` has three attributes, two
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of whom (``name``, ``ranking``) can be configured. All of the attributes
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are given types and default values. If a :class:`MyClass` is instantiated,
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but not configured, these default values will be used. But let's see how
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to configure this class in a configuration file::
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# Sample config file
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c = get_config()
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c.MyClass.name = 'coolname'
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c.MyClass.ranking = 10
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After this configuration file is loaded, the values set in it will override
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the class defaults anytime a :class:`MyClass` is created. Furthermore,
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these attributes will be type checked and validated anytime they are set.
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This type checking is handled by the :mod:`IPython.utils.traitlets` module,
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which provides the :class:`Unicode`, :class:`Int` and :class:`Float` types.
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In addition to these traitlets, the :mod:`IPython.utils.traitlets` provides
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traitlets for a number of other types.
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.. note::
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Underneath the hood, the :class:`Configurable` base class is a subclass of
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:class:`IPython.utils.traitlets.HasTraits`. The
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:mod:`IPython.utils.traitlets` module is a lightweight version of
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:mod:`enthought.traits`. Our implementation is a pure Python subset
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(mostly API compatible) of :mod:`enthought.traits` that does not have any
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of the automatic GUI generation capabilities. Our plan is to achieve 100%
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API compatibility to enable the actual :mod:`enthought.traits` to
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eventually be used instead. Currently, we cannot use
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:mod:`enthought.traits` as we are committed to the core of IPython being
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pure Python.
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It should be very clear at this point what the naming convention is for
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configuration attributes::
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c.ClassName.attribute_name = attribute_value
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Here, ``ClassName`` is the name of the class whose configuration attribute you
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want to set, ``attribute_name`` is the name of the attribute you want to set
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and ``attribute_value`` the the value you want it to have. The ``ClassName``
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attribute of ``c`` is not the actual class, but instead is another
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:class:`~IPython.config.loader.Config` instance.
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.. note::
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The careful reader may wonder how the ``ClassName`` (``MyClass`` in
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the above example) attribute of the configuration object ``c`` gets
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created. These attributes are created on the fly by the
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:class:`~IPython.config.loader.Config` instance, using a simple naming
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convention. Any attribute of a :class:`~IPython.config.loader.Config`
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instance whose name begins with an uppercase character is assumed to be a
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sub-configuration and a new empty :class:`~IPython.config.loader.Config`
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instance is dynamically created for that attribute. This allows deeply
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hierarchical information created easily (``c.Foo.Bar.value``) on the fly.
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Configuration files inheritance
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===============================
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Let's say you want to have different configuration files for various purposes.
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Our configuration system makes it easy for one configuration file to inherit
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the information in another configuration file. The :func:`load_subconfig`
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command can be used in a configuration file for this purpose. Here is a simple
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example that loads all of the values from the file :file:`base_config.py`::
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# base_config.py
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c = get_config()
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c.MyClass.name = 'coolname'
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c.MyClass.ranking = 100
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into the configuration file :file:`main_config.py`::
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# main_config.py
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c = get_config()
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# Load everything from base_config.py
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load_subconfig('base_config.py')
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# Now override one of the values
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c.MyClass.name = 'bettername'
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In a situation like this the :func:`load_subconfig` makes sure that the
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search path for sub-configuration files is inherited from that of the parent.
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Thus, you can typically put the two in the same directory and everything will
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just work.
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You can also load configuration files by profile, for instance:
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.. sourcecode:: python
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load_subconfig('ipython_config.py', profile='default')
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to inherit your default configuration as a starting point.
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Class based configuration inheritance
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=====================================
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There is another aspect of configuration where inheritance comes into play.
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Sometimes, your classes will have an inheritance hierarchy that you want
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to be reflected in the configuration system. Here is a simple example::
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from IPython.config.configurable import Configurable
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from IPython.utils.traitlets import Int, Float, Unicode, Bool
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class Foo(Configurable):
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name = Unicode(u'fooname', config=True)
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value = Float(100.0, config=True)
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class Bar(Foo):
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name = Unicode(u'barname', config=True)
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othervalue = Int(0, config=True)
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Now, we can create a configuration file to configure instances of :class:`Foo`
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and :class:`Bar`::
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# config file
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c = get_config()
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c.Foo.name = u'bestname'
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c.Bar.othervalue = 10
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This class hierarchy and configuration file accomplishes the following:
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* The default value for :attr:`Foo.name` and :attr:`Bar.name` will be
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'bestname'. Because :class:`Bar` is a :class:`Foo` subclass it also
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picks up the configuration information for :class:`Foo`.
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* The default value for :attr:`Foo.value` and :attr:`Bar.value` will be
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``100.0``, which is the value specified as the class default.
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* The default value for :attr:`Bar.othervalue` will be 10 as set in the
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configuration file. Because :class:`Foo` is the parent of :class:`Bar`
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it doesn't know anything about the :attr:`othervalue` attribute.
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.. _ipython_dir:
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Configuration file location
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===========================
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So where should you put your configuration files? IPython uses "profiles" for
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configuration, and by default, all profiles will be stored in the so called
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"IPython directory". The location of this directory is determined by the
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following algorithm:
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* If the ``ipython-dir`` command line flag is given, its value is used.
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* If not, the value returned by :func:`IPython.utils.path.get_ipython_dir`
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is used. This function will first look at the :envvar:`IPYTHONDIR`
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environment variable and then default to a platform-specific default.
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Historical support for the :envvar:`IPYTHON_DIR` environment variable will
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be removed in a future release.
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On posix systems (Linux, Unix, etc.), IPython respects the ``$XDG_CONFIG_HOME``
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part of the `XDG Base Directory`_ specification. If ``$XDG_CONFIG_HOME`` is
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defined and exists ( ``XDG_CONFIG_HOME`` has a default interpretation of
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:file:`$HOME/.config`), then IPython's config directory will be located in
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:file:`$XDG_CONFIG_HOME/ipython`. If users still have an IPython directory
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in :file:`$HOME/.ipython`, then that will be used. in preference to the
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system default.
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For most users, the default value will simply be something like
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:file:`$HOME/.config/ipython` on Linux, or :file:`$HOME/.ipython`
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elsewhere.
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Once the location of the IPython directory has been determined, you need to know
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which profile you are using. For users with a single configuration, this will
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simply be 'default', and will be located in
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:file:`<IPYTHONDIR>/profile_default`.
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The next thing you need to know is what to call your configuration file. The
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basic idea is that each application has its own default configuration filename.
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The default named used by the :command:`ipython` command line program is
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:file:`ipython_config.py`, and *all* IPython applications will use this file.
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Other applications, such as the parallel :command:`ipcluster` scripts or the
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QtConsole will load their own config files *after* :file:`ipython_config.py`. To
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load a particular configuration file instead of the default, the name can be
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overridden by the ``config_file`` command line flag.
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To generate the default configuration files, do::
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$> ipython profile create
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and you will have a default :file:`ipython_config.py` in your IPython directory
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under :file:`profile_default`. If you want the default config files for the
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:mod:`IPython.parallel` applications, add ``--parallel`` to the end of the
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command-line args.
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Locating these files
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--------------------
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From the command-line, you can quickly locate the IPYTHONDIR or a specific
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profile with:
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.. sourcecode:: bash
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$> ipython locate
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/home/you/.ipython
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$> ipython locate profile foo
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/home/you/.ipython/profile_foo
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These map to the utility functions: :func:`IPython.utils.path.get_ipython_dir`
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and :func:`IPython.utils.path.locate_profile` respectively.
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.. _Profiles:
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Profiles
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========
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A profile is a directory containing configuration and runtime files, such as
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logs, connection info for the parallel apps, and your IPython command history.
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The idea is that users often want to maintain a set of configuration files for
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different purposes: one for doing numerical computing with NumPy and SciPy and
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another for doing symbolic computing with SymPy. Profiles make it easy to keep a
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separate configuration files, logs, and histories for each of these purposes.
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Let's start by showing how a profile is used:
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.. code-block:: bash
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$ ipython --profile=sympy
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This tells the :command:`ipython` command line program to get its configuration
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from the "sympy" profile. The file names for various profiles do not change. The
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only difference is that profiles are named in a special way. In the case above,
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the "sympy" profile means looking for :file:`ipython_config.py` in :file:`<IPYTHONDIR>/profile_sympy`.
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The general pattern is this: simply create a new profile with:
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.. code-block:: bash
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ipython profile create <name>
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which adds a directory called ``profile_<name>`` to your IPython directory. Then
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you can load this profile by adding ``--profile=<name>`` to your command line
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options. Profiles are supported by all IPython applications.
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IPython ships with some sample profiles in :file:`IPython/config/profile`. If
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you create profiles with the name of one of our shipped profiles, these config
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files will be copied over instead of starting with the automatically generated
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config files.
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Security Files
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--------------
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If you are using the notebook, qtconsole, or parallel code, IPython stores
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connection information in small JSON files in the active profile's security
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directory. This directory is made private, so only you can see the files inside. If
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you need to move connection files around to other computers, this is where they will
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be. If you want your code to be able to open security files by name, we have a
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convenience function :func:`IPython.utils.path.get_security_file`, which will return
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the absolute path to a security file from its filename and [optionally] profile
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name.
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.. _startup_files:
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Startup Files
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-------------
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If you want some code to be run at the beginning of every IPython session with a
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particular profile, the easiest way is to add Python (.py) or IPython (.ipy) scripts
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to your :file:`<profile>/startup` directory. Files in this directory will always be
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executed as soon as the IPython shell is constructed, and before any other code or
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scripts you have specified. If you have multiple files in the startup directory,
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they will be run in lexicographical order, so you can control the ordering by adding
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a '00-' prefix.
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.. note::
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Automatic startup files are new in IPython 0.12. Use the
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InteractiveShellApp.exec_files configurable for similar behavior in 0.11.
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.. _commandline:
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Command-line arguments
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======================
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IPython exposes *all* configurable options on the command-line. The command-line
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arguments are generated from the Configurable traits of the classes associated
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with a given Application. Configuring IPython from the command-line may look
|
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|
very similar to an IPython config file
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|
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|
IPython applications use a parser called
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:class:`~IPython.config.loader.KeyValueLoader` to load values into a Config
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object. Values are assigned in much the same way as in a config file:
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.. code-block:: bash
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$> ipython --InteractiveShell.use_readline=False --BaseIPythonApplication.profile='myprofile'
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Is the same as adding:
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.. sourcecode:: python
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c.InteractiveShell.use_readline=False
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c.BaseIPythonApplication.profile='myprofile'
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to your config file. Key/Value arguments *always* take a value, separated by '='
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and no spaces.
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Common Arguments
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----------------
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Since the strictness and verbosity of the KVLoader above are not ideal for everyday
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use, common arguments can be specified as flags_ or aliases_.
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Flags and Aliases are handled by :mod:`argparse` instead, allowing for more flexible
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parsing. In general, flags and aliases are prefixed by ``--``, except for those
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that are single characters, in which case they can be specified with a single ``-``, e.g.:
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.. code-block:: bash
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$> ipython -i -c "import numpy; x=numpy.linspace(0,1)" --profile testing --colors=lightbg
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Aliases
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|
*******
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For convenience, applications have a mapping of commonly used traits, so you don't have
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to specify the whole class name:
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|
.. code-block:: bash
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$> ipython --profile myprofile
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# and
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$> ipython --profile='myprofile'
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|
# are equivalent to
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$> ipython --BaseIPythonApplication.profile='myprofile'
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|
Flags
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|
*****
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|
Applications can also be passed **flags**. Flags are options that take no
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arguments. They are simply wrappers for
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setting one or more configurables with predefined values, often True/False.
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For instance:
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.. code-block:: bash
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|
$> ipcontroller --debug
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|
|
# is equivalent to
|
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|
$> ipcontroller --Application.log_level=DEBUG
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|
|
# and
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|
$> ipython --pylab
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|
|
# is equivalent to
|
|
|
$> ipython --pylab=auto
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|
|
# or
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|
|
$> ipython --no-banner
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|
|
# is equivalent to
|
|
|
$> ipython --TerminalIPythonApp.display_banner=False
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|
|
Subcommands
|
|
|
-----------
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|
|
|
|
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|
Some IPython applications have **subcommands**. Subcommands are modeled after
|
|
|
:command:`git`, and are called with the form :command:`command subcommand
|
|
|
[...args]`. Currently, the QtConsole is a subcommand of terminal IPython:
|
|
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|
|
|
.. code-block:: bash
|
|
|
|
|
|
$> ipython qtconsole --profile=myprofile
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|
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|
|
and :command:`ipcluster` is simply a wrapper for its various subcommands (start,
|
|
|
stop, engines).
|
|
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|
|
|
.. code-block:: bash
|
|
|
|
|
|
$> ipcluster start --profile=myprofile --n=4
|
|
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|
|
|
|
|
|
To see a list of the available aliases, flags, and subcommands for an IPython application, simply pass ``-h`` or ``--help``. And to see the full list of configurable options (*very* long), pass ``--help-all``.
|
|
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|
|
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|
|
Design requirements
|
|
|
===================
|
|
|
|
|
|
Here are the main requirements we wanted our configuration system to have:
|
|
|
|
|
|
* Support for hierarchical configuration information.
|
|
|
|
|
|
* Full integration with command line option parsers. Often, you want to read
|
|
|
a configuration file, but then override some of the values with command line
|
|
|
options. Our configuration system automates this process and allows each
|
|
|
command line option to be linked to a particular attribute in the
|
|
|
configuration hierarchy that it will override.
|
|
|
|
|
|
* Configuration files that are themselves valid Python code. This accomplishes
|
|
|
many things. First, it becomes possible to put logic in your configuration
|
|
|
files that sets attributes based on your operating system, network setup,
|
|
|
Python version, etc. Second, Python has a super simple syntax for accessing
|
|
|
hierarchical data structures, namely regular attribute access
|
|
|
(``Foo.Bar.Bam.name``). Third, using Python makes it easy for users to
|
|
|
import configuration attributes from one configuration file to another.
|
|
|
Fourth, even though Python is dynamically typed, it does have types that can
|
|
|
be checked at runtime. Thus, a ``1`` in a config file is the integer '1',
|
|
|
while a ``'1'`` is a string.
|
|
|
|
|
|
* A fully automated method for getting the configuration information to the
|
|
|
classes that need it at runtime. Writing code that walks a configuration
|
|
|
hierarchy to extract a particular attribute is painful. When you have
|
|
|
complex configuration information with hundreds of attributes, this makes
|
|
|
you want to cry.
|
|
|
|
|
|
* Type checking and validation that doesn't require the entire configuration
|
|
|
hierarchy to be specified statically before runtime. Python is a very
|
|
|
dynamic language and you don't always know everything that needs to be
|
|
|
configured when a program starts.
|
|
|
|
|
|
|
|
|
.. _`XDG Base Directory`: http://standards.freedesktop.org/basedir-spec/basedir-spec-latest.html
|
|
|
|
