upstream/ipython Commit - r23830:268a3774

Merge pull request from blueForestIcarus/master...

Thomas Kluyver -

r23830:268a3774

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examples/Embedding/start_ipython_config.py

0 created 755 +22 0

			@@ -0,0 +1,22 b''
		1	"""Quick snippet explaining how to set config options when using start_ipython."""
		2
		3	# First create a config object from the traitlets library
		4	from traitlets.config import Config
		5	c = Config()
		6
		7	# Now we can set options as we would in a config file:
		8	# c.Class.config_value = value
		9	# For example, we can set the exec_lines option of the InteractiveShellApp
		10	# class to run some code when the IPython REPL starts
		11	c.InteractiveShellApp.exec_lines = [
		12	'print("\\nimporting some things\\n")',
		13	'import math',
		14	"math"
		15	]
		16	c.InteractiveShell.colors = 'LightBG'
		17	c.InteractiveShell.confirm_exit = False
		18	c.TerminalIPythonApp.display_banner = False
		19
		20	# Now we start ipython with our configuration
		21	import IPython
		22	IPython.start_ipython(config=c)

docs/source/config/intro.rst

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              =====================================
              Introduction to IPython configuration
              =====================================
              .. _setting_config:
              Setting configurable options
              ============================
              Many of IPython's classes have configurable attributes (see
              :doc:`options/index` for the list). These can be
              configured in several ways.
              Python config files
              -------------------
              To create the blank config files, run::
                  ipython profile create [profilename]
              If you leave out the profile name, the files will be created for the
              ``default`` profile (see :ref:`profiles`). These will typically be
              located in :file:`~/.ipython/profile_default/`, and will be named
              :file:`ipython_config.py`, :file:`ipython_notebook_config.py`, etc.
              The settings in :file:`ipython_config.py` apply to all IPython commands.
              The files typically start by getting the root config object::
                  c = get_config()
              You can then configure class attributes like this::
                  c.InteractiveShell.automagic = False
              Be careful with spelling--incorrect names will simply be ignored, with
              no error.
              To add to a collection which may have already been defined elsewhere,
              you can use methods like those found on lists, dicts and sets: append,
              extend, :meth:`~traitlets.config.LazyConfigValue.prepend` (like
              extend, but at the front), add and update (which works both for dicts
              and sets)::
                  c.InteractiveShellApp.extensions.append('Cython')
              .. versionadded:: 2.0
                 list, dict and set methods for config values
              Example config file
              ```````````````````
              ::
                  # sample ipython_config.py
                  c = get_config()
                  c.TerminalIPythonApp.display_banner = True
                  c.InteractiveShellApp.log_level = 20
                  c.InteractiveShellApp.extensions = [
                      'myextension'
                  ]
                  c.InteractiveShellApp.exec_lines = [
                      'import numpy',
                      'import scipy'
                  ]
                  c.InteractiveShellApp.exec_files = [
                      'mycode.py',
                      'fancy.ipy'
                  ]
                  c.InteractiveShell.autoindent = True
                  c.InteractiveShell.colors = 'LightBG'
                  c.InteractiveShell.confirm_exit = False
                  c.InteractiveShell.editor = 'nano'
                  c.InteractiveShell.xmode = 'Context'
                  c.PrefilterManager.multi_line_specials = True
                  c.AliasManager.user_aliases = [
                   ('la', 'ls -al')
                  ]
              Command line arguments
              ----------------------
              Every configurable value can be set from the command line, using this
              syntax::
                  ipython --ClassName.attribute=value
              Many frequently used options have short aliases and flags, such as
              ``--matplotlib`` (to integrate with a matplotlib GUI event loop) or
              ``--pdb`` (automatic post-mortem debugging of exceptions).
              To see all of these abbreviated options, run::
                  ipython --help
                  ipython notebook --help
                  # etc.
              Options specified at the command line, in either format, override
              options set in a configuration file.
              The config magic
              ----------------
              You can also modify config from inside IPython, using a magic command::
                  %config IPCompleter.greedy = True
              At present, this only affects the current session - changes you make to
              config are not saved anywhere. Also, some options are only read when
              IPython starts, so they can't be changed like this.
+             .. _configure_start_ipython:
+             Running IPython from Python
+             ----------------------------
+             If you are using :ref:`embedding` to start IPython from a normal
+             python file, you can set configuration options the same way as in a
+             config file by creating a traitlets config object and passing it to
+             start_ipython like in the example below.
+             .. literalinclude:: ../../../examples/Embedding/start_ipython_config.py
+                 :language: python
              .. _profiles:
              Profiles
              ========
              IPython can use multiple profiles, with separate configuration and
              history. By default, if you don't specify a profile, IPython always runs
              in the ``default`` profile. To use a new profile::
                  ipython profile create foo   # create the profile foo
                  ipython --profile=foo        # start IPython using the new profile
              Profiles are typically stored in :ref:`ipythondir`, but you can also keep
              a profile in the current working directory, for example to distribute it
              with a project. To find a profile directory on the filesystem::
                  ipython locate profile foo
              .. _ipythondir:
              The IPython directory
              =====================
              IPython stores its files---config, command history and extensions---in
              the directory :file:`~/.ipython/` by default.
              .. envvar:: IPYTHONDIR
                 If set, this environment variable should be the path to a directory,
                 which IPython will use for user data. IPython will create it if it
                 does not exist.
              .. option:: --ipython-dir=<path>
                 This command line option can also be used to override the default
                 IPython directory.
              To see where IPython is looking for the IPython directory, use the command
              ``ipython locate``, or the Python function :func:`IPython.paths.get_ipython_dir`.

docs/source/interactive/reference.rst

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              =================
              IPython reference
              =================
              .. _command_line_options:
              Command-line usage
              ==================
              You start IPython with the command::
                  $ ipython [options] files
              If invoked with no options, it executes all the files listed in sequence and
              exits. If you add the ``-i`` flag, it drops you into the interpreter while still
              acknowledging any options you may have set in your ``ipython_config.py``. This
              behavior is different from standard Python, which when called as python ``-i``
              will only execute one file and ignore your configuration setup.
              Please note that some of the configuration options are not available at the
              command line, simply because they are not practical here. Look into your
              configuration files for details on those. There are separate configuration files
              for each profile, and the files look like :file:`ipython_config.py` or
              :file:`ipython_config_{frontendname}.py`.  Profile directories look like
              :file:`profile_{profilename}` and are typically installed in the
              :envvar:`IPYTHONDIR` directory, which defaults to :file:`$HOME/.ipython`. For
              Windows users, :envvar:`HOME` resolves to :file:`C:\\Users\\{YourUserName}` in
              most instances.
              Command-line Options
              --------------------
              To see the options IPython accepts, use ``ipython --help`` (and you probably
              should run the output through a pager such as ``ipython --help | less`` for
              more convenient reading).  This shows all the options that have a single-word
              alias to control them, but IPython lets you configure all of its objects from
              the command-line by passing the full class name and a corresponding value; type
              ``ipython --help-all`` to see this full list.  For example::
                  $ ipython --help-all
                  <...snip...>
                  --matplotlib=<CaselessStrEnum> (InteractiveShellApp.matplotlib)
                      Default: None
                      Choices: ['auto', 'gtk', 'gtk3', 'inline', 'nbagg', 'notebook', 'osx', 'qt', 'qt4', 'qt5', 'tk', 'wx']
                      Configure matplotlib for interactive use with the default matplotlib
                      backend.
                  <...snip...>
              Indicate that the following::
                 $ ipython --matplotlib qt
              is equivalent to::
                 $ ipython --TerminalIPythonApp.matplotlib='qt'
              Note that in the second form, you *must* use the equal sign, as the expression
              is evaluated as an actual Python assignment.  While in the above example the
              short form is more convenient, only the most common options have a short form,
              while any configurable variable in IPython can be set at the command-line by
              using the long form.  This long form is the same syntax used in the
              configuration files, if you want to set these options permanently.
              Interactive use
              ===============
              IPython is meant to work as a drop-in replacement for the standard interactive
              interpreter. As such, any code which is valid python should execute normally
              under IPython (cases where this is not true should be reported as bugs). It
              does, however, offer many features which are not available at a standard python
              prompt. What follows is a list of these.
              Caution for Windows users
              -------------------------
              Windows, unfortunately, uses the '\\' character as a path separator. This is a
              terrible choice, because '\\' also represents the escape character in most
              modern programming languages, including Python. For this reason, using '/'
              character is recommended if you have problems with ``\``.  However, in Windows
              commands '/' flags options, so you can not use it for the root directory. This
              means that paths beginning at the root must be typed in a contrived manner
              like: ``%copy \opt/foo/bar.txt \tmp``
              .. _magic:
              Magic command system
              --------------------
              IPython will treat any line whose first character is a % as a special
              call to a 'magic' function. These allow you to control the behavior of
              IPython itself, plus a lot of system-type features. They are all
              prefixed with a % character, but parameters are given without
              parentheses or quotes.
              Lines that begin with ``%%`` signal a *cell magic*: they take as arguments not
              only the rest of the current line, but all lines below them as well, in the
              current execution block.  Cell magics can in fact make arbitrary modifications
              to the input they receive, which need not even be valid Python code at all.
              They receive the whole block as a single string.
              As a line magic example, the :magic:`cd` magic works just like the OS command of
              the same name::
                    In [8]: %cd
                    /home/fperez
              The following uses the builtin :magic:`timeit` in cell mode::
                In [10]: %%timeit x = range(10000)
                    ...: min(x)
                    ...: max(x)
                    ...:
 loops, best of 3: 438 us per loop
              In this case, ``x = range(10000)`` is called as the line argument, and the
              block with ``min(x)`` and ``max(x)`` is called as the cell body.  The
              :magic:`timeit` magic receives both.
              If you have 'automagic' enabled (as it is by default), you don't need to type in
              the single ``%`` explicitly for line magics; IPython will scan its internal
              list of magic functions and call one if it exists. With automagic on you can
              then just type ``cd mydir`` to go to directory 'mydir'::
                    In [9]: cd mydir
                    /home/fperez/mydir
              Cell magics *always* require an explicit ``%%`` prefix, automagic
              calling only works for line magics.
              The automagic system has the lowest possible precedence in name searches, so
              you can freely use variables with the same names as magic commands. If a magic
              command is 'shadowed' by a variable, you will need the explicit ``%`` prefix to
              use it:
              .. sourcecode:: ipython
                  In [1]: cd ipython     # %cd is called by automagic
                  /home/fperez/ipython
                  In [2]: cd=1 	   # now cd is just a variable
                  In [3]: cd .. 	   # and doesn't work as a function anymore
                  File "<ipython-input-3-9fedb3aff56c>", line 1
                    cd ..
                        ^
                  SyntaxError: invalid syntax
                  In [4]: %cd .. 	   # but %cd always works
                  /home/fperez
                  In [5]: del cd     # if you remove the cd variable, automagic works again
                  In [6]: cd ipython
                  /home/fperez/ipython
              Line magics, if they return a value, can be assigned to a variable using the
              syntax ``l = %sx ls`` (which in this particular case returns the result of `ls`
              as a python list). See :ref:`below <manual_capture>` for more information.
              Type ``%magic`` for more information, including a list of all available magic
              functions at any time and their docstrings. You can also type
              ``%magic_function_name?`` (see :ref:`below <dynamic_object_info>` for
              information on the '?' system) to get information about any particular magic
              function you are interested in.
              The API documentation for the :mod:`IPython.core.magic` module contains the full
              docstrings of all currently available magic commands.
              .. seealso::
                 :doc:`magics`
                   A list of the line and cell magics available in IPython by default
                 :ref:`defining_magics`
                   How to define and register additional magic functions
              Access to the standard Python help
              ----------------------------------
              Simply type ``help()`` to access Python's standard help system. You can
              also type ``help(object)`` for information about a given object, or
              ``help('keyword')`` for information on a keyword. You may need to configure your
              PYTHONDOCS environment variable for this feature to work correctly.
              .. _dynamic_object_info:
              Dynamic object information
              --------------------------
              Typing ``?word`` or ``word?`` prints detailed information about an object. If
              certain strings in the object are too long (e.g. function signatures) they get
              snipped in the center for brevity. This system gives access variable types and
              values, docstrings, function prototypes and other useful information.
              If the information will not fit in the terminal, it is displayed in a pager
              (``less`` if available, otherwise a basic internal pager).
              Typing ``??word`` or ``word??`` gives access to the full information, including
              the source code where possible. Long strings are not snipped.
              The following magic functions are particularly useful for gathering
              information about your working environment:
                  * :magic:`pdoc` **<object>**: Print (or run through a pager if too long) the
                    docstring for an object. If the given object is a class, it will
                    print both the class and the constructor docstrings.
                  * :magic:`pdef` **<object>**: Print the call signature for any callable
                    object. If the object is a class, print the constructor information.
                  * :magic:`psource` **<object>**: Print (or run through a pager if too long)
                    the source code for an object.
                  * :magic:`pfile` **<object>**: Show the entire source file where an object was
                    defined via a pager, opening it at the line where the object
                    definition begins.
                  * :magic:`who`/:magic:`whos`: These functions give information about identifiers
                    you have defined interactively (not things you loaded or defined
                    in your configuration files). %who just prints a list of
                    identifiers and %whos prints a table with some basic details about
                    each identifier.
              The dynamic object information functions (?/??, ``%pdoc``,
              ``%pfile``, ``%pdef``, ``%psource``) work on object attributes, as well as
              directly on variables. For example, after doing ``import os``, you can use
              ``os.path.abspath??``.
              Command line completion
              +++++++++++++++++++++++
              At any time, hitting TAB will complete any available python commands or
              variable names, and show you a list of the possible completions if
              there's no unambiguous one. It will also complete filenames in the
              current directory if no python names match what you've typed so far.
              Search command history
              ++++++++++++++++++++++
              IPython provides two ways for searching through previous input and thus
              reduce the need for repetitive typing:
 . Start typing, and then use the up and down arrow keys (or :kbd:`Ctrl-p`
                    and :kbd:`Ctrl-n`) to search through only the history items that match
                    what you've typed so far.
 . Hit :kbd:`Ctrl-r`: to open a search prompt. Begin typing and the system
                    searches your history for lines that contain what you've typed so
                    far, completing as much as it can.
              IPython will save your input history when it leaves and reload it next
              time you restart it. By default, the history file is named
              :file:`.ipython/profile_{name}/history.sqlite`.
              Autoindent
              ++++++++++
              Starting with 5.0, IPython uses `prompt_toolkit` in place of ``readline``,
              it thus can recognize lines ending in ':' and indent the next line,
              while also un-indenting automatically after 'raise' or 'return',
              and support real multi-line editing as well as syntactic coloration
              during edition.
              This feature does not use the ``readline`` library anymore, so it will
              not honor your :file:`~/.inputrc` configuration (or whatever
              file your :envvar:`INPUTRC` environment variable points to).
              In particular if you want to change the input mode to ``vi``, you will need to
              set the ``TerminalInteractiveShell.editing_mode`` configuration  option of IPython.
              Session logging and restoring
              -----------------------------
              You can log all input from a session either by starting IPython with the
              command line switch ``--logfile=foo.py`` (see :ref:`here <command_line_options>`)
              or by activating the logging at any moment with the magic function :magic:`logstart`.
              Log files can later be reloaded by running them as scripts and IPython
              will attempt to 'replay' the log by executing all the lines in it, thus
              restoring the state of a previous session. This feature is not quite
              perfect, but can still be useful in many cases.
              The log files can also be used as a way to have a permanent record of
              any code you wrote while experimenting. Log files are regular text files
              which you can later open in your favorite text editor to extract code or
              to 'clean them up' before using them to replay a session.
              The :magic:`logstart` function for activating logging in mid-session is used as
              follows::
                  %logstart [log_name [log_mode]]
              If no name is given, it defaults to a file named 'ipython_log.py' in your
              current working directory, in 'rotate' mode (see below).
              '%logstart name' saves to file 'name' in 'backup' mode. It saves your
              history up to that point and then continues logging.
              %logstart takes a second optional parameter: logging mode. This can be
              one of (note that the modes are given unquoted):
                  * [over:] overwrite existing log_name.
                  * [backup:] rename (if exists) to log_name~ and start log_name.
                  * [append:] well, that says it.
                  * [rotate:] create rotating logs log_name.1~, log_name.2~, etc.
              The :magic:`logoff` and :magic:`logon` functions allow you to temporarily stop and
              resume logging to a file which had previously been started with
              %logstart. They will fail (with an explanation) if you try to use them
              before logging has been started.
              .. _system_shell_access:
              System shell access
              -------------------
              Any input line beginning with a ``!`` character is passed verbatim (minus
              the ``!``, of course) to the underlying operating system. For example,
              typing ``!ls`` will run 'ls' in the current directory.
              .. _manual_capture:
              Manual capture of command output and magic output
              -------------------------------------------------
              You can assign the result of a system command to a Python variable with the
              syntax ``myfiles = !ls``. Similarly, the result of a magic (as long as it returns
              a value) can be assigned to a variable.  For example, the syntax ``myfiles = %sx ls``
              is equivalent to the above system command example (the :magic:`sx` magic runs a shell command
              and captures the output).  Each of these gets machine
              readable output from stdout (e.g. without colours), and splits on newlines. To
              explicitly get this sort of output without assigning to a variable, use two
              exclamation marks (``!!ls``) or the :magic:`sx` magic command without an assignment.
              (However, ``!!`` commands cannot be assigned to a variable.)
              The captured list in this example has some convenience features. ``myfiles.n`` or ``myfiles.s``
              returns a string delimited by newlines or spaces, respectively. ``myfiles.p``
              produces `path objects <http://pypi.python.org/pypi/path.py>`_ from the list items.
              See :ref:`string_lists` for details.
              IPython also allows you to expand the value of python variables when
              making system calls. Wrap variables or expressions in {braces}::
                  In [1]: pyvar = 'Hello world'
                  In [2]: !echo "A python variable: {pyvar}"
                  A python variable: Hello world
                  In [3]: import math
                  In [4]: x = 8
                  In [5]: !echo {math.factorial(x)}
 
              For simple cases, you can alternatively prepend $ to a variable name::
                  In [6]: !echo $sys.argv
                  [/home/fperez/usr/bin/ipython]
                  In [7]: !echo "A system variable: $$HOME"  # Use $$ for literal $
                  A system variable: /home/fperez
              Note that `$$` is used to represent a literal `$`.
              System command aliases
              ----------------------
              The :magic:`alias` magic function allows you to define magic functions which are in fact
              system shell commands. These aliases can have parameters.
              ``%alias alias_name cmd`` defines 'alias_name' as an alias for 'cmd'
              Then, typing ``alias_name params`` will execute the system command 'cmd
              params' (from your underlying operating system).
              You can also define aliases with parameters using ``%s`` specifiers (one per
              parameter). The following example defines the parts function as an
              alias to the command ``echo first %s second %s`` where each ``%s`` will be
              replaced by a positional parameter to the call to %parts::
                  In [1]: %alias parts echo first %s second %s
                  In [2]: parts A B
                  first A second B
                  In [3]: parts A
                  ERROR: Alias <parts> requires 2 arguments, 1 given.
              If called with no parameters, :magic:`alias` prints the table of currently
              defined aliases.
              The :magic:`rehashx` magic allows you to load your entire $PATH as
              ipython aliases. See its docstring for further details.
              .. _dreload:
              Recursive reload
              ----------------
              The :mod:`IPython.lib.deepreload` module allows you to recursively reload a
              module: changes made to any of its dependencies will be reloaded without
              having to exit. To start using it, do::
                  from IPython.lib.deepreload import reload as dreload
              Verbose and colored exception traceback printouts
              -------------------------------------------------
              IPython provides the option to see very detailed exception tracebacks,
              which can be especially useful when debugging large programs. You can
              run any Python file with the %run function to benefit from these
              detailed tracebacks. Furthermore, both normal and verbose tracebacks can
              be colored (if your terminal supports it) which makes them much easier
              to parse visually.
              See the magic :magic:`xmode` and :magic:`colors` functions for details.
              These features are basically a terminal version of Ka-Ping Yee's cgitb
              module, now part of the standard Python library.
              .. _input_caching:
              Input caching system
              --------------------
              IPython offers numbered prompts (In/Out) with input and output caching
              (also referred to as 'input history'). All input is saved and can be
              retrieved as variables (besides the usual arrow key recall), in
              addition to the :magic:`rep` magic command that brings a history entry
              up for editing on the next command line.
              The following variables always exist:
              * ``_i``, ``_ii``, ``_iii``: store previous, next previous and next-next
                previous inputs.
              * ``In``, ``_ih`` : a list of all inputs; ``_ih[n]`` is the input from line
                ``n``. If you overwrite In with a variable of your own, you can remake the
                assignment to the internal list with a simple ``In=_ih``.
              Additionally, global variables named ``_i<n>`` are dynamically created (``<n>``
              being the prompt counter), so ``_i<n> == _ih[<n>] == In[<n>]``.
              For example, what you typed at prompt 14 is available as ``_i14``, ``_ih[14]``
              and ``In[14]``.
              This allows you to easily cut and paste multi line interactive prompts
              by printing them out: they print like a clean string, without prompt
              characters. You can also manipulate them like regular variables (they
              are strings), modify or exec them.
              You can also re-execute multiple lines of input easily by using the magic
              :magic:`rerun` or :magic:`macro` functions. The macro system also allows you to
              re-execute previous lines which include magic function calls (which require
              special processing). Type %macro? for more details on the macro system.
              A history function :magic:`history` allows you to see any part of your input
              history by printing a range of the _i variables.
              You can also search ('grep') through your history by typing
              ``%hist -g somestring``. This is handy for searching for URLs, IP addresses,
              etc. You can bring history entries listed by '%hist -g' up for editing
              with the %recall command, or run them immediately with :magic:`rerun`.
              .. _output_caching:
              Output caching system
              ---------------------
              For output that is returned from actions, a system similar to the input
              cache exists but using _ instead of _i. Only actions that produce a
              result (NOT assignments, for example) are cached. If you are familiar
              with Mathematica, IPython's _ variables behave exactly like
              Mathematica's % variables.
              The following variables always exist:
                  * [_] (a single underscore): stores previous output, like Python's
                    default interpreter.
                  * [__] (two underscores): next previous.
                  * [___] (three underscores): next-next previous.
              Additionally, global variables named _<n> are dynamically created (<n>
              being the prompt counter), such that the result of output <n> is always
              available as _<n> (don't use the angle brackets, just the number, e.g.
              ``_21``).
              These variables are also stored in a global dictionary (not a
              list, since it only has entries for lines which returned a result)
              available under the names _oh and Out (similar to _ih and In). So the
              output from line 12 can be obtained as ``_12``, ``Out[12]`` or ``_oh[12]``. If you
              accidentally overwrite the Out variable you can recover it by typing
              ``Out=_oh`` at the prompt.
              This system obviously can potentially put heavy memory demands on your
              system, since it prevents Python's garbage collector from removing any
              previously computed results. You can control how many results are kept
              in memory with the configuration option ``InteractiveShell.cache_size``.
              If you set it to 0, output caching is disabled. You can also use the :magic:`reset`
              and :magic:`xdel` magics to clear large items from memory.
              Directory history
              -----------------
              Your history of visited directories is kept in the global list _dh, and
              the magic :magic:`cd` command can be used to go to any entry in that list. The
              :magic:`dhist` command allows you to view this history. Do ``cd -<TAB>`` to
              conveniently view the directory history.
              Automatic parentheses and quotes
              --------------------------------
              These features were adapted from Nathan Gray's LazyPython. They are
              meant to allow less typing for common situations.
              Callable objects (i.e. functions, methods, etc) can be invoked like this
              (notice the commas between the arguments)::
                  In [1]: callable_ob arg1, arg2, arg3
                  ------> callable_ob(arg1, arg2, arg3)
              .. note::
                 This feature is disabled by default. To enable it, use the ``%autocall``
                 magic command. The commands below with special prefixes will always work,
                 however.
              You can force automatic parentheses by using '/' as the first character
              of a line. For example::
                  In [2]: /globals # becomes 'globals()'
              Note that the '/' MUST be the first character on the line! This won't work::
                  In [3]: print /globals # syntax error
              In most cases the automatic algorithm should work, so you should rarely
              need to explicitly invoke /. One notable exception is if you are trying
              to call a function with a list of tuples as arguments (the parenthesis
              will confuse IPython)::
                  In [4]: zip (1,2,3),(4,5,6) # won't work
              but this will work::
                  In [5]: /zip (1,2,3),(4,5,6)
                  ------> zip ((1,2,3),(4,5,6))
                  Out[5]: [(1, 4), (2, 5), (3, 6)]
              IPython tells you that it has altered your command line by displaying
              the new command line preceded by ``--->``.
              You can force automatic quoting of a function's arguments by using ``,``
              or ``;`` as the first character of a line. For example::
                  In [1]: ,my_function /home/me  # becomes my_function("/home/me")
              If you use ';' the whole argument is quoted as a single string, while ',' splits
              on whitespace::
                  In [2]: ,my_function a b c    # becomes my_function("a","b","c")
                  In [3]: ;my_function a b c    # becomes my_function("a b c")
              Note that the ',' or ';' MUST be the first character on the line! This
              won't work::
                  In [4]: x = ,my_function /home/me # syntax error
              IPython as your default Python environment
              ==========================================
              Python honors the environment variable :envvar:`PYTHONSTARTUP` and will
              execute at startup the file referenced by this variable. If you put the
              following code at the end of that file, then IPython will be your working
              environment anytime you start Python::
                  import os, IPython
                  os.environ['PYTHONSTARTUP'] = ''  # Prevent running this again
                  IPython.start_ipython()
                  raise SystemExit
              The ``raise SystemExit`` is needed to exit Python when
              it finishes, otherwise you'll be back at the normal Python ``>>>``
              prompt.
              This is probably useful to developers who manage multiple Python
              versions and don't want to have correspondingly multiple IPython
              versions. Note that in this mode, there is no way to pass IPython any
              command-line options, as those are trapped first by Python itself.
              .. _Embedding:
              Embedding IPython
              =================
              You can start a regular IPython session with
              .. sourcecode:: python
                  import IPython
                  IPython.start_ipython(argv=[])
              at any point in your program.  This will load IPython configuration,
              startup files, and everything, just as if it were a normal IPython session.
+             For information on setting configuration options when running IPython from
+             python, see :ref:`configure_start_ipython`.
              It is also possible to embed an IPython shell in a namespace in your Python code.
              This allows you to evaluate dynamically the state of your code,
              operate with your variables, analyze them, etc. Note however that
              any changes you make to values while in the shell do not propagate back
              to the running code, so it is safe to modify your values because you
              won't break your code in bizarre ways by doing so.
              .. note::
                At present, embedding IPython cannot be done from inside IPython.
                Run the code samples below outside IPython.
              This feature allows you to easily have a fully functional python
              environment for doing object introspection anywhere in your code with a
              simple function call. In some cases a simple print statement is enough,
              but if you need to do more detailed analysis of a code fragment this
              feature can be very valuable.
              It can also be useful in scientific computing situations where it is
              common to need to do some automatic, computationally intensive part and
              then stop to look at data, plots, etc.
              Opening an IPython instance will give you full access to your data and
              functions, and you can resume program execution once you are done with
              the interactive part (perhaps to stop again later, as many times as
              needed).
              The following code snippet is the bare minimum you need to include in
              your Python programs for this to work (detailed examples follow later)::
                  from IPython import embed
                  embed() # this call anywhere in your program will start IPython
              You can also embed an IPython *kernel*, for use with qtconsole, etc. via
              ``IPython.embed_kernel()``. This should function work the same way, but you can
              connect an external frontend (``ipython qtconsole`` or ``ipython console``),
              rather than interacting with it in the terminal.
              You can run embedded instances even in code which is itself being run at
              the IPython interactive prompt with '%run <filename>'. Since it's easy
              to get lost as to where you are (in your top-level IPython or in your
              embedded one), it's a good idea in such cases to set the in/out prompts
              to something different for the embedded instances. The code examples
              below illustrate this.
              You can also have multiple IPython instances in your program and open
              them separately, for example with different options for data
              presentation. If you close and open the same instance multiple times,
              its prompt counters simply continue from each execution to the next.
              Please look at the docstrings in the :mod:`~IPython.frontend.terminal.embed`
              module for more details on the use of this system.
              The following sample file illustrating how to use the embedding
              functionality is provided in the examples directory as embed_class_long.py.
              It should be fairly self-explanatory:
              .. literalinclude:: ../../../examples/Embedding/embed_class_long.py
                  :language: python
              Once you understand how the system functions, you can use the following
              code fragments in your programs which are ready for cut and paste:
              .. literalinclude:: ../../../examples/Embedding/embed_class_short.py
                  :language: python
              Using the Python debugger (pdb)
              ===============================
              Running entire programs via pdb
              -------------------------------
              pdb, the Python debugger, is a powerful interactive debugger which
              allows you to step through code, set breakpoints, watch variables,
              etc.  IPython makes it very easy to start any script under the control
              of pdb, regardless of whether you have wrapped it into a 'main()'
              function or not. For this, simply type ``%run -d myscript`` at an
              IPython prompt. See the :magic:`run` command's documentation for more details, including
              how to control where pdb will stop execution first.
              For more information on the use of the pdb debugger, see :ref:`debugger-commands`
              in the Python documentation.
              IPython extends the debugger with a few useful additions, like coloring of
              tracebacks. The debugger will adopt the color scheme selected for IPython.
              The ``where`` command has also been extended to take as argument the number of
              context line to show. This allows to a many line of context on shallow stack trace:
              .. code::
                  In [5]: def foo(x):
                  ...:     1
                  ...:     2
                  ...:     3
                  ...:     return 1/x+foo(x-1)
                  ...:     5
                  ...:     6
                  ...:     7
                  ...:
                  In[6]: foo(1)
                  # ...
                  ipdb> where 8
                  <ipython-input-6-9e45007b2b59>(1)<module>()
                  ----> 1 foo(1)
                  <ipython-input-5-7baadc3d1465>(5)foo()
 def foo(x):
 1
 2
 3
                  ----> 5     return 1/x+foo(x-1)
 5
 6
 7
                  > <ipython-input-5-7baadc3d1465>(5)foo()
 def foo(x):
 1
 2
 3
                  ----> 5     return 1/x+foo(x-1)
 5
 6
 7
              And less context on shallower Stack Trace:
              .. code::
                  ipdb> where 1
                  <ipython-input-13-afa180a57233>(1)<module>()
                  ----> 1 foo(7)
                  <ipython-input-5-7baadc3d1465>(5)foo()
                  ----> 5     return 1/x+foo(x-1)
                  <ipython-input-5-7baadc3d1465>(5)foo()
                  ----> 5     return 1/x+foo(x-1)
                  <ipython-input-5-7baadc3d1465>(5)foo()
                  ----> 5     return 1/x+foo(x-1)
                  <ipython-input-5-7baadc3d1465>(5)foo()
                  ----> 5     return 1/x+foo(x-1)
              Post-mortem debugging
              ---------------------
              Going into a debugger when an exception occurs can be
              extremely useful in order to find the origin of subtle bugs, because pdb
              opens up at the point in your code which triggered the exception, and
              while your program is at this point 'dead', all the data is still
              available and you can walk up and down the stack frame and understand
              the origin of the problem.
              You can use the :magic:`debug` magic after an exception has occurred to start
              post-mortem debugging. IPython can also call debugger every time your code
              triggers an uncaught exception. This feature can be toggled with the :magic:`pdb` magic
              command, or you can start IPython with the ``--pdb`` option.
              For a post-mortem debugger in your programs outside IPython,
              put the following lines toward the top of your 'main' routine::
                  import sys
                  from IPython.core import ultratb
                  sys.excepthook = ultratb.FormattedTB(mode='Verbose',
                  color_scheme='Linux', call_pdb=1)
              The mode keyword can be either 'Verbose' or 'Plain', giving either very
              detailed or normal tracebacks respectively. The color_scheme keyword can
              be one of 'NoColor', 'Linux' (default) or 'LightBG'. These are the same
              options which can be set in IPython with ``--colors`` and ``--xmode``.
              This will give any of your programs detailed, colored tracebacks with
              automatic invocation of pdb.
              .. _pasting_with_prompts:
              Pasting of code starting with Python or IPython prompts
              =======================================================
              IPython is smart enough to filter out input prompts, be they plain Python ones
              (``>>>`` and ``...``) or IPython ones (``In [N]:`` and ``...:``).  You can
              therefore copy and paste from existing interactive sessions without worry.
              The following is a 'screenshot' of how things work, copying an example from the
              standard Python tutorial::
                  In [1]: >>> # Fibonacci series:
                  In [2]: ... # the sum of two elements defines the next
                  In [3]: ... a, b = 0, 1
                  In [4]: >>> while b < 10:
                     ...:     ...     print(b)
                     ...:     ...     a, b = b, a+b
                     ...:
 
 
 
 
 
 
              And pasting from IPython sessions works equally well::
                  In [1]: In [5]: def f(x):
                     ...:        ...:     "A simple function"
                     ...:        ...:     return x**2
                     ...:    ...:
                  In [2]: f(3)
                  Out[2]: 9
              .. _gui_support:
              GUI event loop support
              ======================
              IPython has excellent support for working interactively with Graphical User
              Interface (GUI) toolkits, such as wxPython, PyQt4/PySide, PyGTK and Tk. This is
              implemented by running the toolkit's event loop while IPython is waiting for
              input.
              For users, enabling GUI event loop integration is simple.  You simple use the
              :magic:`gui` magic as follows::
                  %gui [GUINAME]
              With no arguments, ``%gui`` removes all GUI support.  Valid ``GUINAME``
              arguments include ``wx``, ``qt``, ``qt5``, ``gtk``, ``gtk3`` and ``tk``.
              Thus, to use wxPython interactively and create a running :class:`wx.App`
              object, do::
                  %gui wx
              You can also start IPython with an event loop set up using the `--gui`
              flag::
                  $ ipython --gui=qt
              For information on IPython's matplotlib_ integration (and the ``matplotlib``
              mode) see :ref:`this section <matplotlib_support>`.
              For developers that want to integrate additional event loops with IPython, see
              :doc:`/config/eventloops`.
              When running inside IPython with an integrated event loop, a GUI application
              should *not* start its own event loop. This means that applications that are
              meant to be used both
              in IPython and as standalone apps need to have special code to detects how the
              application is being run. We highly recommend using IPython's support for this.
              Since the details vary slightly between toolkits, we point you to the various
              examples in our source directory :file:`examples/IPython Kernel/gui/` that
              demonstrate these capabilities.
              PyQt and PySide
              ---------------
              .. attempt at explanation of the complete mess that is Qt support
              When you use ``--gui=qt`` or ``--matplotlib=qt``, IPython can work with either
              PyQt4 or PySide.  There are three options for configuration here, because
              PyQt4 has two APIs for QString and QVariant: v1, which is the default on
              Python 2, and the more natural v2, which is the only API supported by PySide.
              v2 is also the default for PyQt4 on Python 3.  IPython's code for the QtConsole
              uses v2, but you can still use any interface in your code, since the
              Qt frontend is in a different process.
              The default will be to import PyQt4 without configuration of the APIs, thus
              matching what most applications would expect. It will fall back to PySide if
              PyQt4 is unavailable.
              If specified, IPython will respect the environment variable ``QT_API`` used
              by ETS.  ETS 4.0 also works with both PyQt4 and PySide, but it requires
              PyQt4 to use its v2 API.  So if ``QT_API=pyside`` PySide will be used,
              and if ``QT_API=pyqt`` then PyQt4 will be used *with the v2 API* for
              QString and QVariant, so ETS codes like MayaVi will also work with IPython.
              If you launch IPython in matplotlib mode with ``ipython --matplotlib=qt``,
              then IPython will ask matplotlib which Qt library to use (only if QT_API is
              *not set*), via the 'backend.qt4' rcParam.  If matplotlib is version 1.0.1 or
              older, then IPython will always use PyQt4 without setting the v2 APIs, since
              neither v2 PyQt nor PySide work.
              .. warning::
                  Note that this means for ETS 4 to work with PyQt4, ``QT_API`` *must* be set
                  to work with IPython's qt integration, because otherwise PyQt4 will be
                  loaded in an incompatible mode.
                  It also means that you must *not* have ``QT_API`` set if you want to
                  use ``--gui=qt`` with code that requires PyQt4 API v1.
              .. _matplotlib_support:
              Plotting with matplotlib
              ========================
              matplotlib_ provides high quality 2D and 3D plotting for Python. matplotlib_
              can produce plots on screen using a variety of GUI toolkits, including Tk,
              PyGTK, PyQt4 and wxPython. It also provides a number of commands useful for
              scientific computing, all with a syntax compatible with that of the popular
              Matlab program.
              To start IPython with matplotlib support, use the ``--matplotlib`` switch. If
              IPython is already running, you can run the :magic:`matplotlib` magic.  If no
              arguments are given, IPython will automatically detect your choice of
              matplotlib backend.  You can also request a specific backend with
              ``%matplotlib backend``, where ``backend`` must be one of: 'tk', 'qt', 'wx',
              'gtk', 'osx'.  In the web notebook and Qt console, 'inline' is also a valid
              backend value, which produces static figures inlined inside the application
              window instead of matplotlib's interactive figures that live in separate
              windows.
              .. _interactive_demos:
              Interactive demos with IPython
              ==============================
              IPython ships with a basic system for running scripts interactively in
              sections, useful when presenting code to audiences. A few tags embedded
              in comments (so that the script remains valid Python code) divide a file
              into separate blocks, and the demo can be run one block at a time, with
              IPython printing (with syntax highlighting) the block before executing
              it, and returning to the interactive prompt after each block. The
              interactive namespace is updated after each block is run with the
              contents of the demo's namespace.
              This allows you to show a piece of code, run it and then execute
              interactively commands based on the variables just created. Once you
              want to continue, you simply execute the next block of the demo. The
              following listing shows the markup necessary for dividing a script into
              sections for execution as a demo:
              .. literalinclude:: ../../../examples/IPython Kernel/example-demo.py
                  :language: python
              In order to run a file as a demo, you must first make a Demo object out
              of it. If the file is named myscript.py, the following code will make a
              demo::
                  from IPython.lib.demo import Demo
                  mydemo = Demo('myscript.py')
              This creates the mydemo object, whose blocks you run one at a time by
              simply calling the object with no arguments. Then call it to run each step
              of the demo::
                  mydemo()
              Demo objects can be
              restarted, you can move forward or back skipping blocks, re-execute the
              last block, etc. See the :mod:`IPython.lib.demo` module and the
              :class:`~IPython.lib.demo.Demo` class for details.
              Limitations: These demos are limited to
              fairly simple uses. In particular, you cannot break up sections within
              indented code (loops, if statements, function definitions, etc.)
              Supporting something like this would basically require tracking the
              internal execution state of the Python interpreter, so only top-level
              divisions are allowed. If you want to be able to open an IPython
              instance at an arbitrary point in a program, you can use IPython's
              :ref:`embedding facilities <Embedding>`.
              .. include:: ../links.txt

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