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1 .. _config_overview:
1 .. _config_overview:
2
2
3 ============================================
3 ============================================
4 Overview of the IPython configuration system
4 Overview of the IPython configuration system
5 ============================================
5 ============================================
6
6
7 This section describes the IPython configuration system.
7 This section describes the IPython configuration system.
8
8
9 The following discussion is for users who want to configure
9 The following discussion is for users who want to configure
10 IPython to their liking. Developers who want to know how they can
10 IPython to their liking. Developers who want to know how they can
11 enable their objects to take advantage of the configuration system
11 enable their objects to take advantage of the configuration system
12 should consult the :ref:`developer guide <developer_guide>`
12 should consult the :ref:`developer guide <developer_guide>`
13
13
14 The main concepts
14 The main concepts
15 =================
15 =================
16
16
17 There are a number of abstractions that the IPython configuration system uses.
17 There are a number of abstractions that the IPython configuration system uses.
18 Each of these abstractions is represented by a Python class.
18 Each of these abstractions is represented by a Python class.
19
19
20 Configuration object: :class:`~IPython.config.loader.Config`
20 Configuration object: :class:`~IPython.config.loader.Config`
21 A configuration object is a simple dictionary-like class that holds
21 A configuration object is a simple dictionary-like class that holds
22 configuration attributes and sub-configuration objects. These classes
22 configuration attributes and sub-configuration objects. These classes
23 support dotted attribute style access (``Foo.bar``) in addition to the
23 support dotted attribute style access (``Foo.bar``) in addition to the
24 regular dictionary style access (``Foo['bar']``). Configuration objects
24 regular dictionary style access (``Foo['bar']``). Configuration objects
25 are smart. They know how to merge themselves with other configuration
25 are smart. They know how to merge themselves with other configuration
26 objects and they automatically create sub-configuration objects.
26 objects and they automatically create sub-configuration objects.
27
27
28 Application: :class:`~IPython.config.application.Application`
28 Application: :class:`~IPython.config.application.Application`
29 An application is a process that does a specific job. The most obvious
29 An application is a process that does a specific job. The most obvious
30 application is the :command:`ipython` command line program. Each
30 application is the :command:`ipython` command line program. Each
31 application reads *one or more* configuration files and a single set of
31 application reads *one or more* configuration files and a single set of
32 command line options
32 command line options
33 and then produces a master configuration object for the application. This
33 and then produces a master configuration object for the application. This
34 configuration object is then passed to the configurable objects that the
34 configuration object is then passed to the configurable objects that the
35 application creates. These configurable objects implement the actual logic
35 application creates. These configurable objects implement the actual logic
36 of the application and know how to configure themselves given the
36 of the application and know how to configure themselves given the
37 configuration object.
37 configuration object.
38
38
39 Applications always have a `log` attribute that is a configured Logger.
39 Applications always have a `log` attribute that is a configured Logger.
40 This allows centralized logging configuration per-application.
40 This allows centralized logging configuration per-application.
41
41
42 Configurable: :class:`~IPython.config.configurable.Configurable`
42 Configurable: :class:`~IPython.config.configurable.Configurable`
43 A configurable is a regular Python class that serves as a base class for
43 A configurable is a regular Python class that serves as a base class for
44 all main classes in an application. The
44 all main classes in an application. The
45 :class:`~IPython.config.configurable.Configurable` base class is
45 :class:`~IPython.config.configurable.Configurable` base class is
46 lightweight and only does one things.
46 lightweight and only does one things.
47
47
48 This :class:`~IPython.config.configurable.Configurable` is a subclass
48 This :class:`~IPython.config.configurable.Configurable` is a subclass
49 of :class:`~IPython.utils.traitlets.HasTraits` that knows how to configure
49 of :class:`~IPython.utils.traitlets.HasTraits` that knows how to configure
50 itself. Class level traits with the metadata ``config=True`` become
50 itself. Class level traits with the metadata ``config=True`` become
51 values that can be configured from the command line and configuration
51 values that can be configured from the command line and configuration
52 files.
52 files.
53
53
54 Developers create :class:`~IPython.config.configurable.Configurable`
54 Developers create :class:`~IPython.config.configurable.Configurable`
55 subclasses that implement all of the logic in the application. Each of
55 subclasses that implement all of the logic in the application. Each of
56 these subclasses has its own configuration information that controls how
56 these subclasses has its own configuration information that controls how
57 instances are created.
57 instances are created.
58
58
59 Singletons: :class:`~IPython.config.configurable.SingletonConfigurable`
59 Singletons: :class:`~IPython.config.configurable.SingletonConfigurable`
60 Any object for which there is a single canonical instance. These are
60 Any object for which there is a single canonical instance. These are
61 just like Configurables, except they have a class method
61 just like Configurables, except they have a class method
62 :meth:`~IPython.config.configurable.SingletonConfigurable.instance`,
62 :meth:`~IPython.config.configurable.SingletonConfigurable.instance`,
63 that returns the current active instance (or creates one if it
63 that returns the current active instance (or creates one if it
64 does not exist). Examples of singletons include
64 does not exist). Examples of singletons include
65 :class:`~IPython.config.application.Application`s and
65 :class:`~IPython.config.application.Application`s and
66 :class:`~IPython.core.interactiveshell.InteractiveShell`. This lets
66 :class:`~IPython.core.interactiveshell.InteractiveShell`. This lets
67 objects easily connect to the current running Application without passing
67 objects easily connect to the current running Application without passing
68 objects around everywhere. For instance, to get the current running
68 objects around everywhere. For instance, to get the current running
69 Application instance, simply do: ``app = Application.instance()``.
69 Application instance, simply do: ``app = Application.instance()``.
70
70
71
71
72 .. note::
72 .. note::
73
73
74 Singletons are not strictly enforced - you can have many instances
74 Singletons are not strictly enforced - you can have many instances
75 of a given singleton class, but the :meth:`instance` method will always
75 of a given singleton class, but the :meth:`instance` method will always
76 return the same one.
76 return the same one.
77
77
78 Having described these main concepts, we can now state the main idea in our
78 Having described these main concepts, we can now state the main idea in our
79 configuration system: *"configuration" allows the default values of class
79 configuration system: *"configuration" allows the default values of class
80 attributes to be controlled on a class by class basis*. Thus all instances of
80 attributes to be controlled on a class by class basis*. Thus all instances of
81 a given class are configured in the same way. Furthermore, if two instances
81 a given class are configured in the same way. Furthermore, if two instances
82 need to be configured differently, they need to be instances of two different
82 need to be configured differently, they need to be instances of two different
83 classes. While this model may seem a bit restrictive, we have found that it
83 classes. While this model may seem a bit restrictive, we have found that it
84 expresses most things that need to be configured extremely well. However, it
84 expresses most things that need to be configured extremely well. However, it
85 is possible to create two instances of the same class that have different
85 is possible to create two instances of the same class that have different
86 trait values. This is done by overriding the configuration.
86 trait values. This is done by overriding the configuration.
87
87
88 Now, we show what our configuration objects and files look like.
88 Now, we show what our configuration objects and files look like.
89
89
90 Configuration objects and files
90 Configuration objects and files
91 ===============================
91 ===============================
92
92
93 A configuration file is simply a pure Python file that sets the attributes
93 A configuration file is simply a pure Python file that sets the attributes
94 of a global, pre-created configuration object. This configuration object is a
94 of a global, pre-created configuration object. This configuration object is a
95 :class:`~IPython.config.loader.Config` instance. While in a configuration
95 :class:`~IPython.config.loader.Config` instance. While in a configuration
96 file, to get a reference to this object, simply call the :func:`get_config`
96 file, to get a reference to this object, simply call the :func:`get_config`
97 function. We inject this function into the global namespace that the
97 function. We inject this function into the global namespace that the
98 configuration file is executed in.
98 configuration file is executed in.
99
99
100 Here is an example of a super simple configuration file that does nothing::
100 Here is an example of a super simple configuration file that does nothing::
101
101
102 c = get_config()
102 c = get_config()
103
103
104 Once you get a reference to the configuration object, you simply set
104 Once you get a reference to the configuration object, you simply set
105 attributes on it. All you have to know is:
105 attributes on it. All you have to know is:
106
106
107 * The name of each attribute.
107 * The name of each attribute.
108 * The type of each attribute.
108 * The type of each attribute.
109
109
110 The answers to these two questions are provided by the various
110 The answers to these two questions are provided by the various
111 :class:`~IPython.config.configurable.Configurable` subclasses that an
111 :class:`~IPython.config.configurable.Configurable` subclasses that an
112 application uses. Let's look at how this would work for a simple configurable
112 application uses. Let's look at how this would work for a simple configurable
113 subclass::
113 subclass::
114
114
115 # Sample configurable:
115 # Sample configurable:
116 from IPython.config.configurable import Configurable
116 from IPython.config.configurable import Configurable
117 from IPython.utils.traitlets import Int, Float, Unicode, Bool
117 from IPython.utils.traitlets import Int, Float, Unicode, Bool
118
118
119 class MyClass(Configurable):
119 class MyClass(Configurable):
120 name = Unicode(u'defaultname', config=True)
120 name = Unicode(u'defaultname', config=True)
121 ranking = Int(0, config=True)
121 ranking = Int(0, config=True)
122 value = Float(99.0)
122 value = Float(99.0)
123 # The rest of the class implementation would go here..
123 # The rest of the class implementation would go here..
124
124
125 In this example, we see that :class:`MyClass` has three attributes, two
125 In this example, we see that :class:`MyClass` has three attributes, two
126 of whom (``name``, ``ranking``) can be configured. All of the attributes
126 of whom (``name``, ``ranking``) can be configured. All of the attributes
127 are given types and default values. If a :class:`MyClass` is instantiated,
127 are given types and default values. If a :class:`MyClass` is instantiated,
128 but not configured, these default values will be used. But let's see how
128 but not configured, these default values will be used. But let's see how
129 to configure this class in a configuration file::
129 to configure this class in a configuration file::
130
130
131 # Sample config file
131 # Sample config file
132 c = get_config()
132 c = get_config()
133
133
134 c.MyClass.name = 'coolname'
134 c.MyClass.name = 'coolname'
135 c.MyClass.ranking = 10
135 c.MyClass.ranking = 10
136
136
137 After this configuration file is loaded, the values set in it will override
137 After this configuration file is loaded, the values set in it will override
138 the class defaults anytime a :class:`MyClass` is created. Furthermore,
138 the class defaults anytime a :class:`MyClass` is created. Furthermore,
139 these attributes will be type checked and validated anytime they are set.
139 these attributes will be type checked and validated anytime they are set.
140 This type checking is handled by the :mod:`IPython.utils.traitlets` module,
140 This type checking is handled by the :mod:`IPython.utils.traitlets` module,
141 which provides the :class:`Unicode`, :class:`Int` and :class:`Float` types.
141 which provides the :class:`Unicode`, :class:`Int` and :class:`Float` types.
142 In addition to these traitlets, the :mod:`IPython.utils.traitlets` provides
142 In addition to these traitlets, the :mod:`IPython.utils.traitlets` provides
143 traitlets for a number of other types.
143 traitlets for a number of other types.
144
144
145 .. note::
145 .. note::
146
146
147 Underneath the hood, the :class:`Configurable` base class is a subclass of
147 Underneath the hood, the :class:`Configurable` base class is a subclass of
148 :class:`IPython.utils.traitlets.HasTraits`. The
148 :class:`IPython.utils.traitlets.HasTraits`. The
149 :mod:`IPython.utils.traitlets` module is a lightweight version of
149 :mod:`IPython.utils.traitlets` module is a lightweight version of
150 :mod:`enthought.traits`. Our implementation is a pure Python subset
150 :mod:`enthought.traits`. Our implementation is a pure Python subset
151 (mostly API compatible) of :mod:`enthought.traits` that does not have any
151 (mostly API compatible) of :mod:`enthought.traits` that does not have any
152 of the automatic GUI generation capabilities. Our plan is to achieve 100%
152 of the automatic GUI generation capabilities. Our plan is to achieve 100%
153 API compatibility to enable the actual :mod:`enthought.traits` to
153 API compatibility to enable the actual :mod:`enthought.traits` to
154 eventually be used instead. Currently, we cannot use
154 eventually be used instead. Currently, we cannot use
155 :mod:`enthought.traits` as we are committed to the core of IPython being
155 :mod:`enthought.traits` as we are committed to the core of IPython being
156 pure Python.
156 pure Python.
157
157
158 It should be very clear at this point what the naming convention is for
158 It should be very clear at this point what the naming convention is for
159 configuration attributes::
159 configuration attributes::
160
160
161 c.ClassName.attribute_name = attribute_value
161 c.ClassName.attribute_name = attribute_value
162
162
163 Here, ``ClassName`` is the name of the class whose configuration attribute you
163 Here, ``ClassName`` is the name of the class whose configuration attribute you
164 want to set, ``attribute_name`` is the name of the attribute you want to set
164 want to set, ``attribute_name`` is the name of the attribute you want to set
165 and ``attribute_value`` the the value you want it to have. The ``ClassName``
165 and ``attribute_value`` the the value you want it to have. The ``ClassName``
166 attribute of ``c`` is not the actual class, but instead is another
166 attribute of ``c`` is not the actual class, but instead is another
167 :class:`~IPython.config.loader.Config` instance.
167 :class:`~IPython.config.loader.Config` instance.
168
168
169 .. note::
169 .. note::
170
170
171 The careful reader may wonder how the ``ClassName`` (``MyClass`` in
171 The careful reader may wonder how the ``ClassName`` (``MyClass`` in
172 the above example) attribute of the configuration object ``c`` gets
172 the above example) attribute of the configuration object ``c`` gets
173 created. These attributes are created on the fly by the
173 created. These attributes are created on the fly by the
174 :class:`~IPython.config.loader.Config` instance, using a simple naming
174 :class:`~IPython.config.loader.Config` instance, using a simple naming
175 convention. Any attribute of a :class:`~IPython.config.loader.Config`
175 convention. Any attribute of a :class:`~IPython.config.loader.Config`
176 instance whose name begins with an uppercase character is assumed to be a
176 instance whose name begins with an uppercase character is assumed to be a
177 sub-configuration and a new empty :class:`~IPython.config.loader.Config`
177 sub-configuration and a new empty :class:`~IPython.config.loader.Config`
178 instance is dynamically created for that attribute. This allows deeply
178 instance is dynamically created for that attribute. This allows deeply
179 hierarchical information created easily (``c.Foo.Bar.value``) on the fly.
179 hierarchical information created easily (``c.Foo.Bar.value``) on the fly.
180
180
181 Configuration files inheritance
181 Configuration files inheritance
182 ===============================
182 ===============================
183
183
184 Let's say you want to have different configuration files for various purposes.
184 Let's say you want to have different configuration files for various purposes.
185 Our configuration system makes it easy for one configuration file to inherit
185 Our configuration system makes it easy for one configuration file to inherit
186 the information in another configuration file. The :func:`load_subconfig`
186 the information in another configuration file. The :func:`load_subconfig`
187 command can be used in a configuration file for this purpose. Here is a simple
187 command can be used in a configuration file for this purpose. Here is a simple
188 example that loads all of the values from the file :file:`base_config.py`::
188 example that loads all of the values from the file :file:`base_config.py`::
189
189
190 # base_config.py
190 # base_config.py
191 c = get_config()
191 c = get_config()
192 c.MyClass.name = 'coolname'
192 c.MyClass.name = 'coolname'
193 c.MyClass.ranking = 100
193 c.MyClass.ranking = 100
194
194
195 into the configuration file :file:`main_config.py`::
195 into the configuration file :file:`main_config.py`::
196
196
197 # main_config.py
197 # main_config.py
198 c = get_config()
198 c = get_config()
199
199
200 # Load everything from base_config.py
200 # Load everything from base_config.py
201 load_subconfig('base_config.py')
201 load_subconfig('base_config.py')
202
202
203 # Now override one of the values
203 # Now override one of the values
204 c.MyClass.name = 'bettername'
204 c.MyClass.name = 'bettername'
205
205
206 In a situation like this the :func:`load_subconfig` makes sure that the
206 In a situation like this the :func:`load_subconfig` makes sure that the
207 search path for sub-configuration files is inherited from that of the parent.
207 search path for sub-configuration files is inherited from that of the parent.
208 Thus, you can typically put the two in the same directory and everything will
208 Thus, you can typically put the two in the same directory and everything will
209 just work.
209 just work.
210
210
211 You can also load configuration files by profile, for instance:
211 You can also load configuration files by profile, for instance:
212
212
213 .. sourcecode:: python
213 .. sourcecode:: python
214
214
215 load_subconfig('ipython_config.py', profile='default')
215 load_subconfig('ipython_config.py', profile='default')
216
216
217 to inherit your default configuration as a starting point.
217 to inherit your default configuration as a starting point.
218
218
219
219
220 Class based configuration inheritance
220 Class based configuration inheritance
221 =====================================
221 =====================================
222
222
223 There is another aspect of configuration where inheritance comes into play.
223 There is another aspect of configuration where inheritance comes into play.
224 Sometimes, your classes will have an inheritance hierarchy that you want
224 Sometimes, your classes will have an inheritance hierarchy that you want
225 to be reflected in the configuration system. Here is a simple example::
225 to be reflected in the configuration system. Here is a simple example::
226
226
227 from IPython.config.configurable import Configurable
227 from IPython.config.configurable import Configurable
228 from IPython.utils.traitlets import Int, Float, Unicode, Bool
228 from IPython.utils.traitlets import Int, Float, Unicode, Bool
229
229
230 class Foo(Configurable):
230 class Foo(Configurable):
231 name = Unicode(u'fooname', config=True)
231 name = Unicode(u'fooname', config=True)
232 value = Float(100.0, config=True)
232 value = Float(100.0, config=True)
233
233
234 class Bar(Foo):
234 class Bar(Foo):
235 name = Unicode(u'barname', config=True)
235 name = Unicode(u'barname', config=True)
236 othervalue = Int(0, config=True)
236 othervalue = Int(0, config=True)
237
237
238 Now, we can create a configuration file to configure instances of :class:`Foo`
238 Now, we can create a configuration file to configure instances of :class:`Foo`
239 and :class:`Bar`::
239 and :class:`Bar`::
240
240
241 # config file
241 # config file
242 c = get_config()
242 c = get_config()
243
243
244 c.Foo.name = u'bestname'
244 c.Foo.name = u'bestname'
245 c.Bar.othervalue = 10
245 c.Bar.othervalue = 10
246
246
247 This class hierarchy and configuration file accomplishes the following:
247 This class hierarchy and configuration file accomplishes the following:
248
248
249 * The default value for :attr:`Foo.name` and :attr:`Bar.name` will be
249 * The default value for :attr:`Foo.name` and :attr:`Bar.name` will be
250 'bestname'. Because :class:`Bar` is a :class:`Foo` subclass it also
250 'bestname'. Because :class:`Bar` is a :class:`Foo` subclass it also
251 picks up the configuration information for :class:`Foo`.
251 picks up the configuration information for :class:`Foo`.
252 * The default value for :attr:`Foo.value` and :attr:`Bar.value` will be
252 * The default value for :attr:`Foo.value` and :attr:`Bar.value` will be
253 ``100.0``, which is the value specified as the class default.
253 ``100.0``, which is the value specified as the class default.
254 * The default value for :attr:`Bar.othervalue` will be 10 as set in the
254 * The default value for :attr:`Bar.othervalue` will be 10 as set in the
255 configuration file. Because :class:`Foo` is the parent of :class:`Bar`
255 configuration file. Because :class:`Foo` is the parent of :class:`Bar`
256 it doesn't know anything about the :attr:`othervalue` attribute.
256 it doesn't know anything about the :attr:`othervalue` attribute.
257
257
258
258
259 .. _ipython_dir:
259 .. _ipython_dir:
260
260
261 Configuration file location
261 Configuration file location
262 ===========================
262 ===========================
263
263
264 So where should you put your configuration files? IPython uses "profiles" for
264 So where should you put your configuration files? IPython uses "profiles" for
265 configuration, and by default, all profiles will be stored in the so called
265 configuration, and by default, all profiles will be stored in the so called
266 "IPython directory". The location of this directory is determined by the
266 "IPython directory". The location of this directory is determined by the
267 following algorithm:
267 following algorithm:
268
268
269 * If the ``ipython-dir`` command line flag is given, its value is used.
269 * If the ``ipython-dir`` command line flag is given, its value is used.
270
270
271 * If not, the value returned by :func:`IPython.utils.path.get_ipython_dir`
271 * If not, the value returned by :func:`IPython.utils.path.get_ipython_dir`
272 is used. This function will first look at the :envvar:`IPYTHONDIR`
272 is used. This function will first look at the :envvar:`IPYTHONDIR`
273 environment variable and then default to :file:`~/.ipython`.
273 environment variable and then default to :file:`~/.ipython`.
274 Historical support for the :envvar:`IPYTHON_DIR` environment variable will
274 Historical support for the :envvar:`IPYTHON_DIR` environment variable will
275 be removed in a future release.
275 be removed in a future release.
276
276
277 For most users, the configuration directory will be :file:`~/.ipython`.
277 For most users, the configuration directory will be :file:`~/.ipython`.
278
278
279 Previous versions of IPython on Linux would use the XDG config directory,
279 Previous versions of IPython on Linux would use the XDG config directory,
280 creating :file:`~/.config/ipython` by default. We have decided to go
280 creating :file:`~/.config/ipython` by default. We have decided to go
281 back to :file:`~/.ipython` for consistency among systems. IPython will
281 back to :file:`~/.ipython` for consistency among systems. IPython will
282 issue a warning if it finds the XDG location, and will move it to the new
282 issue a warning if it finds the XDG location, and will move it to the new
283 location if there isn't already a directory there.
283 location if there isn't already a directory there.
284
284
285 Once the location of the IPython directory has been determined, you need to know
285 Once the location of the IPython directory has been determined, you need to know
286 which profile you are using. For users with a single configuration, this will
286 which profile you are using. For users with a single configuration, this will
287 simply be 'default', and will be located in
287 simply be 'default', and will be located in
288 :file:`<IPYTHONDIR>/profile_default`.
288 :file:`<IPYTHONDIR>/profile_default`.
289
289
290 The next thing you need to know is what to call your configuration file. The
290 The next thing you need to know is what to call your configuration file. The
291 basic idea is that each application has its own default configuration filename.
291 basic idea is that each application has its own default configuration filename.
292 The default named used by the :command:`ipython` command line program is
292 The default named used by the :command:`ipython` command line program is
293 :file:`ipython_config.py`, and *all* IPython applications will use this file.
293 :file:`ipython_config.py`, and *all* IPython applications will use this file.
294 Other applications, such as the parallel :command:`ipcluster` scripts or the
294 Other applications, such as the parallel :command:`ipcluster` scripts or the
295 QtConsole will load their own config files *after* :file:`ipython_config.py`. To
295 QtConsole will load their own config files *after* :file:`ipython_config.py`. To
296 load a particular configuration file instead of the default, the name can be
296 load a particular configuration file instead of the default, the name can be
297 overridden by the ``config_file`` command line flag.
297 overridden by the ``config_file`` command line flag.
298
298
299 To generate the default configuration files, do::
299 To generate the default configuration files, do::
300
300
301 $ ipython profile create
301 $ ipython profile create
302
302
303 and you will have a default :file:`ipython_config.py` in your IPython directory
303 and you will have a default :file:`ipython_config.py` in your IPython directory
304 under :file:`profile_default`. If you want the default config files for the
304 under :file:`profile_default`. If you want the default config files for the
305 :mod:`IPython.parallel` applications, add ``--parallel`` to the end of the
305 :mod:`IPython.parallel` applications, add ``--parallel`` to the end of the
306 command-line args.
306 command-line args.
307
307
308
308
309 Locating these files
309 Locating these files
310 --------------------
310 --------------------
311
311
312 From the command-line, you can quickly locate the IPYTHONDIR or a specific
312 From the command-line, you can quickly locate the IPYTHONDIR or a specific
313 profile with:
313 profile with:
314
314
315 .. sourcecode:: bash
315 .. sourcecode:: bash
316
316
317 $ ipython locate
317 $ ipython locate
318 /home/you/.ipython
318 /home/you/.ipython
319
319
320 $ ipython locate profile foo
320 $ ipython locate profile foo
321 /home/you/.ipython/profile_foo
321 /home/you/.ipython/profile_foo
322
322
323 These map to the utility functions: :func:`IPython.utils.path.get_ipython_dir`
323 These map to the utility functions: :func:`IPython.utils.path.get_ipython_dir`
324 and :func:`IPython.utils.path.locate_profile` respectively.
324 and :func:`IPython.utils.path.locate_profile` respectively.
325
325
326
326
327 .. _Profiles:
327 .. _Profiles:
328
328
329 Profiles
329 Profiles
330 ========
330 ========
331
331
332 A profile is a directory containing configuration and runtime files, such as
332 A profile is a directory containing configuration and runtime files, such as
333 logs, connection info for the parallel apps, and your IPython command history.
333 logs, connection info for the parallel apps, and your IPython command history.
334
334
335 The idea is that users often want to maintain a set of configuration files for
335 The idea is that users often want to maintain a set of configuration files for
336 different purposes: one for doing numerical computing with NumPy and SciPy and
336 different purposes: one for doing numerical computing with NumPy and SciPy and
337 another for doing symbolic computing with SymPy. Profiles make it easy to keep a
337 another for doing symbolic computing with SymPy. Profiles make it easy to keep a
338 separate configuration files, logs, and histories for each of these purposes.
338 separate configuration files, logs, and histories for each of these purposes.
339
339
340 Let's start by showing how a profile is used:
340 Let's start by showing how a profile is used:
341
341
342 .. code-block:: bash
342 .. code-block:: bash
343
343
344 $ ipython --profile=sympy
344 $ ipython --profile=sympy
345
345
346 This tells the :command:`ipython` command line program to get its configuration
346 This tells the :command:`ipython` command line program to get its configuration
347 from the "sympy" profile. The file names for various profiles do not change. The
347 from the "sympy" profile. The file names for various profiles do not change. The
348 only difference is that profiles are named in a special way. In the case above,
348 only difference is that profiles are named in a special way. In the case above,
349 the "sympy" profile means looking for :file:`ipython_config.py` in :file:`<IPYTHONDIR>/profile_sympy`.
349 the "sympy" profile means looking for :file:`ipython_config.py` in :file:`<IPYTHONDIR>/profile_sympy`.
350
350
351 The general pattern is this: simply create a new profile with:
351 The general pattern is this: simply create a new profile with:
352
352
353 .. code-block:: bash
353 .. code-block:: bash
354
354
355 $ ipython profile create <name>
355 $ ipython profile create <name>
356
356
357 which adds a directory called ``profile_<name>`` to your IPython directory. Then
357 which adds a directory called ``profile_<name>`` to your IPython directory. Then
358 you can load this profile by adding ``--profile=<name>`` to your command line
358 you can load this profile by adding ``--profile=<name>`` to your command line
359 options. Profiles are supported by all IPython applications.
359 options. Profiles are supported by all IPython applications.
360
360
361 IPython ships with some sample profiles in :file:`IPython/config/profile`. If
361 IPython ships with some sample profiles in :file:`IPython/config/profile`. If
362 you create profiles with the name of one of our shipped profiles, these config
362 you create profiles with the name of one of our shipped profiles, these config
363 files will be copied over instead of starting with the automatically generated
363 files will be copied over instead of starting with the automatically generated
364 config files.
364 config files.
365
365
366 Security Files
366 Security Files
367 --------------
367 --------------
368
368
369 If you are using the notebook, qtconsole, or parallel code, IPython stores
369 If you are using the notebook, qtconsole, or parallel code, IPython stores
370 connection information in small JSON files in the active profile's security
370 connection information in small JSON files in the active profile's security
371 directory. This directory is made private, so only you can see the files inside. If
371 directory. This directory is made private, so only you can see the files inside. If
372 you need to move connection files around to other computers, this is where they will
372 you need to move connection files around to other computers, this is where they will
373 be. If you want your code to be able to open security files by name, we have a
373 be. If you want your code to be able to open security files by name, we have a
374 convenience function :func:`IPython.utils.path.get_security_file`, which will return
374 convenience function :func:`IPython.utils.path.get_security_file`, which will return
375 the absolute path to a security file from its filename and [optionally] profile
375 the absolute path to a security file from its filename and [optionally] profile
376 name.
376 name.
377
377
378 .. _startup_files:
378 .. _startup_files:
379
379
380 Startup Files
380 Startup Files
381 -------------
381 -------------
382
382
383 If you want some code to be run at the beginning of every IPython session with
383 If you want some code to be run at the beginning of every IPython session with
384 a particular profile, the easiest way is to add Python (``.py``) or
384 a particular profile, the easiest way is to add Python (``.py``) or
385 IPython (``.ipy``) scripts to your :file:`<profile>/startup` directory. Files
385 IPython (``.ipy``) scripts to your :file:`<profile>/startup` directory. Files
386 in this directory will always be executed as soon as the IPython shell is
386 in this directory will always be executed as soon as the IPython shell is
387 constructed, and before any other code or scripts you have specified. If you
387 constructed, and before any other code or scripts you have specified. If you
388 have multiple files in the startup directory, they will be run in
388 have multiple files in the startup directory, they will be run in
389 lexicographical order, so you can control the ordering by adding a '00-'
389 lexicographical order, so you can control the ordering by adding a '00-'
390 prefix.
390 prefix.
391
391
392
392
393 .. _commandline:
393 .. _commandline:
394
394
395 Command-line arguments
395 Command-line arguments
396 ======================
396 ======================
397
397
398 IPython exposes *all* configurable options on the command-line. The command-line
398 IPython exposes *all* configurable options on the command-line. The command-line
399 arguments are generated from the Configurable traits of the classes associated
399 arguments are generated from the Configurable traits of the classes associated
400 with a given Application. Configuring IPython from the command-line may look
400 with a given Application. Configuring IPython from the command-line may look
401 very similar to an IPython config file
401 very similar to an IPython config file
402
402
403 IPython applications use a parser called
403 IPython applications use a parser called
404 :class:`~IPython.config.loader.KeyValueLoader` to load values into a Config
404 :class:`~IPython.config.loader.KeyValueLoader` to load values into a Config
405 object. Values are assigned in much the same way as in a config file:
405 object. Values are assigned in much the same way as in a config file:
406
406
407 .. code-block:: bash
407 .. code-block:: bash
408
408
409 $ ipython --InteractiveShell.use_readline=False --BaseIPythonApplication.profile='myprofile'
409 $ ipython --InteractiveShell.use_readline=False --BaseIPythonApplication.profile='myprofile'
410
410
411 Is the same as adding:
411 Is the same as adding:
412
412
413 .. sourcecode:: python
413 .. sourcecode:: python
414
414
415 c.InteractiveShell.use_readline=False
415 c.InteractiveShell.use_readline=False
416 c.BaseIPythonApplication.profile='myprofile'
416 c.BaseIPythonApplication.profile='myprofile'
417
417
418 to your config file. Key/Value arguments *always* take a value, separated by '='
418 to your config file. Key/Value arguments *always* take a value, separated by '='
419 and no spaces.
419 and no spaces.
420
420
421 Common Arguments
421 Common Arguments
422 ----------------
422 ----------------
423
423
424 Since the strictness and verbosity of the KVLoader above are not ideal for everyday
424 Since the strictness and verbosity of the KVLoader above are not ideal for everyday
425 use, common arguments can be specified as flags_ or aliases_.
425 use, common arguments can be specified as flags_ or aliases_.
426
426
427 Flags and Aliases are handled by :mod:`argparse` instead, allowing for more flexible
427 Flags and Aliases are handled by :mod:`argparse` instead, allowing for more flexible
428 parsing. In general, flags and aliases are prefixed by ``--``, except for those
428 parsing. In general, flags and aliases are prefixed by ``--``, except for those
429 that are single characters, in which case they can be specified with a single ``-``, e.g.:
429 that are single characters, in which case they can be specified with a single ``-``, e.g.:
430
430
431 .. code-block:: bash
431 .. code-block:: bash
432
432
433 $ ipython -i -c "import numpy; x=numpy.linspace(0,1)" --profile testing --colors=lightbg
433 $ ipython -i -c "import numpy; x=numpy.linspace(0,1)" --profile testing --colors=lightbg
434
434
435 Aliases
435 Aliases
436 *******
436 *******
437
437
438 For convenience, applications have a mapping of commonly used traits, so you don't have
438 For convenience, applications have a mapping of commonly used traits, so you don't have
439 to specify the whole class name:
439 to specify the whole class name:
440
440
441 .. code-block:: bash
441 .. code-block:: bash
442
442
443 $ ipython --profile myprofile
443 $ ipython --profile myprofile
444 # and
444 # and
445 $ ipython --profile='myprofile'
445 $ ipython --profile='myprofile'
446 # are equivalent to
446 # are equivalent to
447 $ ipython --BaseIPythonApplication.profile='myprofile'
447 $ ipython --BaseIPythonApplication.profile='myprofile'
448
448
449 Flags
449 Flags
450 *****
450 *****
451
451
452 Applications can also be passed **flags**. Flags are options that take no
452 Applications can also be passed **flags**. Flags are options that take no
453 arguments. They are simply wrappers for
453 arguments. They are simply wrappers for
454 setting one or more configurables with predefined values, often True/False.
454 setting one or more configurables with predefined values, often True/False.
455
455
456 For instance:
456 For instance:
457
457
458 .. code-block:: bash
458 .. code-block:: bash
459
459
460 $ ipcontroller --debug
460 $ ipcontroller --debug
461 # is equivalent to
461 # is equivalent to
462 $ ipcontroller --Application.log_level=DEBUG
462 $ ipcontroller --Application.log_level=DEBUG
463 # and
463 # and
464 $ ipython --matploitlib
464 $ ipython --matploitlib
465 # is equivalent to
465 # is equivalent to
466 $ ipython --matplotlib auto
466 $ ipython --matplotlib auto
467 # or
467 # or
468 $ ipython --no-banner
468 $ ipython --no-banner
469 # is equivalent to
469 # is equivalent to
470 $ ipython --TerminalIPythonApp.display_banner=False
470 $ ipython --TerminalIPythonApp.display_banner=False
471
471
472 Subcommands
472 Subcommands
473 -----------
473 -----------
474
474
475
475
476 Some IPython applications have **subcommands**. Subcommands are modeled after
476 Some IPython applications have **subcommands**. Subcommands are modeled after
477 :command:`git`, and are called with the form :command:`command subcommand
477 :command:`git`, and are called with the form :command:`command subcommand
478 [...args]`. Currently, the QtConsole is a subcommand of terminal IPython:
478 [...args]`. Currently, the QtConsole is a subcommand of terminal IPython:
479
479
480 .. code-block:: bash
480 .. code-block:: bash
481
481
482 $ ipython qtconsole --profile myprofile
482 $ ipython qtconsole --profile myprofile
483
483
484 and :command:`ipcluster` is simply a wrapper for its various subcommands (start,
484 and :command:`ipcluster` is simply a wrapper for its various subcommands (start,
485 stop, engines).
485 stop, engines).
486
486
487 .. code-block:: bash
487 .. code-block:: bash
488
488
489 $ ipcluster start --profile=myprofile -n 4
489 $ ipcluster start --profile=myprofile -n 4
490
490
491
491
492 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``.
492 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``.
493
493
494
494
495 Design requirements
495 Design requirements
496 ===================
496 ===================
497
497
498 Here are the main requirements we wanted our configuration system to have:
498 Here are the main requirements we wanted our configuration system to have:
499
499
500 * Support for hierarchical configuration information.
500 * Support for hierarchical configuration information.
501
501
502 * Full integration with command line option parsers. Often, you want to read
502 * Full integration with command line option parsers. Often, you want to read
503 a configuration file, but then override some of the values with command line
503 a configuration file, but then override some of the values with command line
504 options. Our configuration system automates this process and allows each
504 options. Our configuration system automates this process and allows each
505 command line option to be linked to a particular attribute in the
505 command line option to be linked to a particular attribute in the
506 configuration hierarchy that it will override.
506 configuration hierarchy that it will override.
507
507
508 * Configuration files that are themselves valid Python code. This accomplishes
508 * Configuration files that are themselves valid Python code. This accomplishes
509 many things. First, it becomes possible to put logic in your configuration
509 many things. First, it becomes possible to put logic in your configuration
510 files that sets attributes based on your operating system, network setup,
510 files that sets attributes based on your operating system, network setup,
511 Python version, etc. Second, Python has a super simple syntax for accessing
511 Python version, etc. Second, Python has a super simple syntax for accessing
512 hierarchical data structures, namely regular attribute access
512 hierarchical data structures, namely regular attribute access
513 (``Foo.Bar.Bam.name``). Third, using Python makes it easy for users to
513 (``Foo.Bar.Bam.name``). Third, using Python makes it easy for users to
514 import configuration attributes from one configuration file to another.
514 import configuration attributes from one configuration file to another.
515 Fourth, even though Python is dynamically typed, it does have types that can
515 Fourth, even though Python is dynamically typed, it does have types that can
516 be checked at runtime. Thus, a ``1`` in a config file is the integer '1',
516 be checked at runtime. Thus, a ``1`` in a config file is the integer '1',
517 while a ``'1'`` is a string.
517 while a ``'1'`` is a string.
518
518
519 * A fully automated method for getting the configuration information to the
519 * A fully automated method for getting the configuration information to the
520 classes that need it at runtime. Writing code that walks a configuration
520 classes that need it at runtime. Writing code that walks a configuration
521 hierarchy to extract a particular attribute is painful. When you have
521 hierarchy to extract a particular attribute is painful. When you have
522 complex configuration information with hundreds of attributes, this makes
522 complex configuration information with hundreds of attributes, this makes
523 you want to cry.
523 you want to cry.
524
524
525 * Type checking and validation that doesn't require the entire configuration
525 * Type checking and validation that doesn't require the entire configuration
526 hierarchy to be specified statically before runtime. Python is a very
526 hierarchy to be specified statically before runtime. Python is a very
527 dynamic language and you don't always know everything that needs to be
527 dynamic language and you don't always know everything that needs to be
528 configured when a program starts.
528 configured when a program starts.
529
529
530
531 .. _`XDG Base Directory`: http://standards.freedesktop.org/basedir-spec/basedir-spec-latest.html
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