upstream/ipython Commit - r4714:5dd7d394

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# encoding: utf-8

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# encoding: utf-8

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"""Magic functions for InteractiveShell.

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"""Magic functions for InteractiveShell.

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"""

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"""

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

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

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

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

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

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

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

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

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

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

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# Imports

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# Imports

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

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

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import __builtin__

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import __builtin__

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import __future__

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import __future__

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import bdb

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import bdb

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import inspect

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import inspect

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import os

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import os

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import sys

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import sys

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import shutil

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import shutil

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import re

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import re

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import time

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import time

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import textwrap

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import textwrap

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from cStringIO import StringIO

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from cStringIO import StringIO

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from getopt import getopt,GetoptError

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from getopt import getopt,GetoptError

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from pprint import pformat

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from pprint import pformat

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from xmlrpclib import ServerProxy

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from xmlrpclib import ServerProxy

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# cProfile was added in Python2.5

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# cProfile was added in Python2.5

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try:

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try:

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import cProfile as profile

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import cProfile as profile

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import pstats

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import pstats

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except ImportError:

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except ImportError:

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# profile isn't bundled by default in Debian for license reasons

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# profile isn't bundled by default in Debian for license reasons

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try:

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try:

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import profile,pstats

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import profile,pstats

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except ImportError:

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except ImportError:

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profile = pstats = None

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profile = pstats = None

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import IPython

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import IPython

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from IPython.core import debugger, oinspect

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from IPython.core import debugger, oinspect

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from IPython.core.error import TryNext

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from IPython.core.error import TryNext

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from IPython.core.error import UsageError

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from IPython.core.error import UsageError

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from IPython.core.fakemodule import FakeModule

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from IPython.core.fakemodule import FakeModule

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from IPython.core.profiledir import ProfileDir

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from IPython.core.profiledir import ProfileDir

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from IPython.core.macro import Macro

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from IPython.core.macro import Macro

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from IPython.core import page

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from IPython.core import page

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from IPython.core.prefilter import ESC_MAGIC

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from IPython.core.prefilter import ESC_MAGIC

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from IPython.lib.pylabtools import mpl_runner

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from IPython.lib.pylabtools import mpl_runner

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from IPython.testing.skipdoctest import skip_doctest

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from IPython.testing.skipdoctest import skip_doctest

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from IPython.utils.io import file_read, nlprint

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from IPython.utils.io import file_read, nlprint

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from IPython.utils.path import get_py_filename

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from IPython.utils.path import get_py_filename

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from IPython.utils.process import arg_split, abbrev_cwd

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from IPython.utils.process import arg_split, abbrev_cwd

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from IPython.utils.terminal import set_term_title

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from IPython.utils.terminal import set_term_title

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from IPython.utils.text import LSString, SList, format_screen

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from IPython.utils.text import LSString, SList, format_screen

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from IPython.utils.timing import clock, clock2

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from IPython.utils.timing import clock, clock2

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from IPython.utils.warn import warn, error

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from IPython.utils.warn import warn, error

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from IPython.utils.ipstruct import Struct

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from IPython.utils.ipstruct import Struct

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import IPython.utils.generics

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import IPython.utils.generics

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

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

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# Utility functions

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# Utility functions

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

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

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def on_off(tag):

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def on_off(tag):

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"""Return an ON/OFF string for a 1/0 input. Simple utility function."""

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"""Return an ON/OFF string for a 1/0 input. Simple utility function."""

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return ['OFF','ON'][tag]

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return ['OFF','ON'][tag]

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class Bunch: pass

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class Bunch: pass

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def compress_dhist(dh):

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def compress_dhist(dh):

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head, tail = dh[:-10], dh[-10:]

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head, tail = dh[:-10], dh[-10:]

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newhead = []

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newhead = []

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done = set()

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done = set()

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for h in head:

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for h in head:

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if h in done:

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if h in done:

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continue

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continue

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newhead.append(h)

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newhead.append(h)

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done.add(h)

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done.add(h)

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return newhead + tail

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return newhead + tail

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def needs_local_scope(func):

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def needs_local_scope(func):

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"""Decorator to mark magic functions which need to local scope to run."""

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"""Decorator to mark magic functions which need to local scope to run."""

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func.needs_local_scope = True

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func.needs_local_scope = True

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return func

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return func

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# Used for exception handling in magic_edit

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# Used for exception handling in magic_edit

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class MacroToEdit(ValueError): pass

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class MacroToEdit(ValueError): pass

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#***************************************************************************

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#***************************************************************************

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# Main class implementing Magic functionality

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# Main class implementing Magic functionality

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# XXX - for some odd reason, if Magic is made a new-style class, we get errors

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# XXX - for some odd reason, if Magic is made a new-style class, we get errors

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# on construction of the main InteractiveShell object. Something odd is going

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# on construction of the main InteractiveShell object. Something odd is going

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# on with super() calls, Configurable and the MRO... For now leave it as-is, but

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# on with super() calls, Configurable and the MRO... For now leave it as-is, but

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# eventually this needs to be clarified.

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# eventually this needs to be clarified.

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# BG: This is because InteractiveShell inherits from this, but is itself a

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# BG: This is because InteractiveShell inherits from this, but is itself a

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# Configurable. This messes up the MRO in some way. The fix is that we need to

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# Configurable. This messes up the MRO in some way. The fix is that we need to

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# make Magic a configurable that InteractiveShell does not subclass.

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# make Magic a configurable that InteractiveShell does not subclass.

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class Magic:

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class Magic:

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"""Magic functions for InteractiveShell.

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"""Magic functions for InteractiveShell.

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Shell functions which can be reached as %function_name. All magic

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Shell functions which can be reached as %function_name. All magic

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functions should accept a string, which they can parse for their own

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functions should accept a string, which they can parse for their own

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needs. This can make some functions easier to type, eg `%cd ../`

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needs. This can make some functions easier to type, eg `%cd ../`

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vs. `%cd("../")`

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vs. `%cd("../")`

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ALL definitions MUST begin with the prefix magic_. The user won't need it

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ALL definitions MUST begin with the prefix magic_. The user won't need it

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at the command line, but it is is needed in the definition. """

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at the command line, but it is is needed in the definition. """

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# class globals

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# class globals

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auto_status = ['Automagic is OFF, % prefix IS needed for magic functions.',

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auto_status = ['Automagic is OFF, % prefix IS needed for magic functions.',

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'Automagic is ON, % prefix NOT needed for magic functions.']

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'Automagic is ON, % prefix NOT needed for magic functions.']

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#......................................................................

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#......................................................................

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# some utility functions

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# some utility functions

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def __init__(self,shell):

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def __init__(self,shell):

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self.options_table = {}

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self.options_table = {}

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if profile is None:

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if profile is None:

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self.magic_prun = self.profile_missing_notice

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self.magic_prun = self.profile_missing_notice

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self.shell = shell

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self.shell = shell

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# namespace for holding state we may need

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# namespace for holding state we may need

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self._magic_state = Bunch()

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self._magic_state = Bunch()

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def profile_missing_notice(self, *args, **kwargs):

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def profile_missing_notice(self, *args, **kwargs):

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error("""\

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error("""\

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The profile module could not be found. It has been removed from the standard

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The profile module could not be found. It has been removed from the standard

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python packages because of its non-free license. To use profiling, install the

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python packages because of its non-free license. To use profiling, install the

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python-profiler package from non-free.""")

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python-profiler package from non-free.""")

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def default_option(self,fn,optstr):

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def default_option(self,fn,optstr):

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"""Make an entry in the options_table for fn, with value optstr"""

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"""Make an entry in the options_table for fn, with value optstr"""

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if fn not in self.lsmagic():

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if fn not in self.lsmagic():

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error("%s is not a magic function" % fn)

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error("%s is not a magic function" % fn)

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self.options_table[fn] = optstr

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self.options_table[fn] = optstr

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def lsmagic(self):

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def lsmagic(self):

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"""Return a list of currently available magic functions.

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"""Return a list of currently available magic functions.

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Gives a list of the bare names after mangling (['ls','cd', ...], not

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Gives a list of the bare names after mangling (['ls','cd', ...], not

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['magic_ls','magic_cd',...]"""

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['magic_ls','magic_cd',...]"""

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# FIXME. This needs a cleanup, in the way the magics list is built.

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# FIXME. This needs a cleanup, in the way the magics list is built.

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# magics in class definition

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# magics in class definition

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class_magic = lambda fn: fn.startswith('magic_') and \

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class_magic = lambda fn: fn.startswith('magic_') and \

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callable(Magic.__dict__[fn])

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callable(Magic.__dict__[fn])

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# in instance namespace (run-time user additions)

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# in instance namespace (run-time user additions)

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inst_magic = lambda fn: fn.startswith('magic_') and \

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inst_magic = lambda fn: fn.startswith('magic_') and \

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callable(self.__dict__[fn])

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callable(self.__dict__[fn])

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# and bound magics by user (so they can access self):

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# and bound magics by user (so they can access self):

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inst_bound_magic = lambda fn: fn.startswith('magic_') and \

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inst_bound_magic = lambda fn: fn.startswith('magic_') and \

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callable(self.__class__.__dict__[fn])

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callable(self.__class__.__dict__[fn])

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magics = filter(class_magic,Magic.__dict__.keys()) + \

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magics = filter(class_magic,Magic.__dict__.keys()) + \

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filter(inst_magic,self.__dict__.keys()) + \

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filter(inst_magic,self.__dict__.keys()) + \

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filter(inst_bound_magic,self.__class__.__dict__.keys())

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filter(inst_bound_magic,self.__class__.__dict__.keys())

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out = []

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out = []

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for fn in set(magics):

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for fn in set(magics):

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out.append(fn.replace('magic_','',1))

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out.append(fn.replace('magic_','',1))

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out.sort()

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out.sort()

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return out

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return out

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def extract_input_lines(self, range_str, raw=False):

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def extract_input_lines(self, range_str, raw=False):

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"""Return as a string a set of input history slices.

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"""Return as a string a set of input history slices.

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Inputs:

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Inputs:

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- range_str: the set of slices is given as a string, like

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- range_str: the set of slices is given as a string, like

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"~5/6-~4/2 4:8 9", since this function is for use by magic functions

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"~5/6-~4/2 4:8 9", since this function is for use by magic functions

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which get their arguments as strings. The number before the / is the

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which get their arguments as strings. The number before the / is the

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session number: ~n goes n back from the current session.

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session number: ~n goes n back from the current session.

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Optional inputs:

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Optional inputs:

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- raw(False): by default, the processed input is used. If this is

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- raw(False): by default, the processed input is used. If this is

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true, the raw input history is used instead.

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true, the raw input history is used instead.

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Note that slices can be called with two notations:

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Note that slices can be called with two notations:

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N:M -> standard python form, means including items N...(M-1).

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N:M -> standard python form, means including items N...(M-1).

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N-M -> include items N..M (closed endpoint)."""

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N-M -> include items N..M (closed endpoint)."""

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lines = self.shell.history_manager.\

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lines = self.shell.history_manager.\

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get_range_by_str(range_str, raw=raw)

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get_range_by_str(range_str, raw=raw)

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return "\n".join(x for _, _, x in lines)

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return "\n".join(x for _, _, x in lines)

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def arg_err(self,func):

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def arg_err(self,func):

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"""Print docstring if incorrect arguments were passed"""

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"""Print docstring if incorrect arguments were passed"""

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print 'Error in arguments:'

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print 'Error in arguments:'

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print oinspect.getdoc(func)

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print oinspect.getdoc(func)

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def format_latex(self,strng):

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def format_latex(self,strng):

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"""Format a string for latex inclusion."""

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"""Format a string for latex inclusion."""

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# Characters that need to be escaped for latex:

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# Characters that need to be escaped for latex:

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escape_re = re.compile(r'(%|_|\$|#|&)',re.MULTILINE)

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escape_re = re.compile(r'(%|_|\$|#|&)',re.MULTILINE)

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# Magic command names as headers:

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# Magic command names as headers:

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cmd_name_re = re.compile(r'^(%s.*?):' % ESC_MAGIC,

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cmd_name_re = re.compile(r'^(%s.*?):' % ESC_MAGIC,

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re.MULTILINE)

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re.MULTILINE)

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# Magic commands

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# Magic commands

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cmd_re = re.compile(r'(?P<cmd>%s.+?\b)(?!\}\}:)' % ESC_MAGIC,

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cmd_re = re.compile(r'(?P<cmd>%s.+?\b)(?!\}\}:)' % ESC_MAGIC,

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re.MULTILINE)

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re.MULTILINE)

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# Paragraph continue

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# Paragraph continue

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par_re = re.compile(r'\\$',re.MULTILINE)

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par_re = re.compile(r'\\$',re.MULTILINE)

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# The "\n" symbol

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# The "\n" symbol

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newline_re = re.compile(r'\\n')

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newline_re = re.compile(r'\\n')

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# Now build the string for output:

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# Now build the string for output:

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#strng = cmd_name_re.sub(r'\n\\texttt{\\textsl{\\large \1}}:',strng)

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#strng = cmd_name_re.sub(r'\n\\texttt{\\textsl{\\large \1}}:',strng)

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strng = cmd_name_re.sub(r'\n\\bigskip\n\\texttt{\\textbf{ \1}}:',

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strng = cmd_name_re.sub(r'\n\\bigskip\n\\texttt{\\textbf{ \1}}:',

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strng)

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strng)

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strng = cmd_re.sub(r'\\texttt{\g<cmd>}',strng)

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strng = cmd_re.sub(r'\\texttt{\g<cmd>}',strng)

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strng = par_re.sub(r'\\\\',strng)

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strng = par_re.sub(r'\\\\',strng)

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strng = escape_re.sub(r'\\\1',strng)

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strng = escape_re.sub(r'\\\1',strng)

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strng = newline_re.sub(r'\\textbackslash{}n',strng)

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strng = newline_re.sub(r'\\textbackslash{}n',strng)

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return strng

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return strng

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def parse_options(self,arg_str,opt_str,*long_opts,**kw):

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def parse_options(self,arg_str,opt_str,*long_opts,**kw):

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"""Parse options passed to an argument string.

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"""Parse options passed to an argument string.

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The interface is similar to that of getopt(), but it returns back a

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The interface is similar to that of getopt(), but it returns back a

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Struct with the options as keys and the stripped argument string still

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Struct with the options as keys and the stripped argument string still

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as a string.

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as a string.

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arg_str is quoted as a true sys.argv vector by using shlex.split.

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arg_str is quoted as a true sys.argv vector by using shlex.split.

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This allows us to easily expand variables, glob files, quote

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This allows us to easily expand variables, glob files, quote

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arguments, etc.

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arguments, etc.

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Options:

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Options:

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-mode: default 'string'. If given as 'list', the argument string is

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-mode: default 'string'. If given as 'list', the argument string is

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returned as a list (split on whitespace) instead of a string.

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returned as a list (split on whitespace) instead of a string.

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-list_all: put all option values in lists. Normally only options

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-list_all: put all option values in lists. Normally only options

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appearing more than once are put in a list.

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appearing more than once are put in a list.

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-posix (True): whether to split the input line in POSIX mode or not,

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-posix (True): whether to split the input line in POSIX mode or not,

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as per the conventions outlined in the shlex module from the

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as per the conventions outlined in the shlex module from the

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standard library."""

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standard library."""

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# inject default options at the beginning of the input line

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# inject default options at the beginning of the input line

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caller = sys._getframe(1).f_code.co_name.replace('magic_','')

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caller = sys._getframe(1).f_code.co_name.replace('magic_','')

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arg_str = '%s %s' % (self.options_table.get(caller,''),arg_str)

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arg_str = '%s %s' % (self.options_table.get(caller,''),arg_str)

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mode = kw.get('mode','string')

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mode = kw.get('mode','string')

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if mode not in ['string','list']:

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if mode not in ['string','list']:

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raise ValueError,'incorrect mode given: %s' % mode

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raise ValueError,'incorrect mode given: %s' % mode

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# Get options

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# Get options

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list_all = kw.get('list_all',0)

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list_all = kw.get('list_all',0)

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posix = kw.get('posix', os.name == 'posix')

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posix = kw.get('posix', os.name == 'posix')

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# Check if we have more than one argument to warrant extra processing:

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# Check if we have more than one argument to warrant extra processing:

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odict = {} # Dictionary with options

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odict = {} # Dictionary with options

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args = arg_str.split()

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args = arg_str.split()

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if len(args) >= 1:

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if len(args) >= 1:

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# If the list of inputs only has 0 or 1 thing in it, there's no

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# If the list of inputs only has 0 or 1 thing in it, there's no

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# need to look for options

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# need to look for options

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argv = arg_split(arg_str,posix)

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argv = arg_split(arg_str,posix)

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# Do regular option processing

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# Do regular option processing

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try:

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try:

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opts,args = getopt(argv,opt_str,*long_opts)

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opts,args = getopt(argv,opt_str,*long_opts)

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except GetoptError,e:

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except GetoptError,e:

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raise UsageError('%s ( allowed: "%s" %s)' % (e.msg,opt_str,

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raise UsageError('%s ( allowed: "%s" %s)' % (e.msg,opt_str,

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" ".join(long_opts)))

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" ".join(long_opts)))

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for o,a in opts:

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for o,a in opts:

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if o.startswith('--'):

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if o.startswith('--'):

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o = o[2:]

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o = o[2:]

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else:

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else:

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o = o[1:]

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o = o[1:]

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try:

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try:

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odict[o].append(a)

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odict[o].append(a)

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except AttributeError:

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except AttributeError:

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odict[o] = [odict[o],a]

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odict[o] = [odict[o],a]

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except KeyError:

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except KeyError:

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if list_all:

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if list_all:

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odict[o] = [a]

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odict[o] = [a]

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else:

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else:

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odict[o] = a

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odict[o] = a

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# Prepare opts,args for return

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# Prepare opts,args for return

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opts = Struct(odict)

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opts = Struct(odict)

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if mode == 'string':

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if mode == 'string':

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args = ' '.join(args)

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args = ' '.join(args)

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return opts,args

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return opts,args

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#......................................................................

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#......................................................................

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# And now the actual magic functions

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# And now the actual magic functions

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# Functions for IPython shell work (vars,funcs, config, etc)

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# Functions for IPython shell work (vars,funcs, config, etc)

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def magic_lsmagic(self, parameter_s = ''):

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def magic_lsmagic(self, parameter_s = ''):

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"""List currently available magic functions."""

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"""List currently available magic functions."""

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mesc = ESC_MAGIC

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mesc = ESC_MAGIC

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print 'Available magic functions:\n'+mesc+\

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print 'Available magic functions:\n'+mesc+\

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(' '+mesc).join(self.lsmagic())

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(' '+mesc).join(self.lsmagic())

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print '\n' + Magic.auto_status[self.shell.automagic]

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print '\n' + Magic.auto_status[self.shell.automagic]

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return None

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return None

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def magic_magic(self, parameter_s = ''):

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def magic_magic(self, parameter_s = ''):

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"""Print information about the magic function system.

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"""Print information about the magic function system.

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Supported formats: -latex, -brief, -rest

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Supported formats: -latex, -brief, -rest

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"""

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"""

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mode = ''

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mode = ''

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try:

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try:

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if parameter_s.split()[0] == '-latex':

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if parameter_s.split()[0] == '-latex':

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mode = 'latex'

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mode = 'latex'

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if parameter_s.split()[0] == '-brief':

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if parameter_s.split()[0] == '-brief':

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mode = 'brief'

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mode = 'brief'

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if parameter_s.split()[0] == '-rest':

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if parameter_s.split()[0] == '-rest':

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mode = 'rest'

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mode = 'rest'

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rest_docs = []

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rest_docs = []

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except:

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except:

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pass

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pass

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magic_docs = []

328

magic_docs = []

329

for fname in self.lsmagic():

329

for fname in self.lsmagic():

330

mname = 'magic_' + fname

330

mname = 'magic_' + fname

331

for space in (Magic,self,self.__class__):

331

for space in (Magic,self,self.__class__):

332

try:

332

try:

333

fn = space.__dict__[mname]

333

fn = space.__dict__[mname]

334

except KeyError:

334

except KeyError:

335

pass

335

pass

336

else:

336

else:

337

break

337

break

338

if mode == 'brief':

338

if mode == 'brief':

339

# only first line

339

# only first line

340

if fn.__doc__:

340

if fn.__doc__:

341

fndoc = fn.__doc__.split('\n',1)[0]

341

fndoc = fn.__doc__.split('\n',1)[0]

342

else:

342

else:

343

fndoc = 'No documentation'

343

fndoc = 'No documentation'

344

else:

344

else:

345

if fn.__doc__:

345

if fn.__doc__:

346

fndoc = fn.__doc__.rstrip()

346

fndoc = fn.__doc__.rstrip()

347

else:

347

else:

348

fndoc = 'No documentation'

348

fndoc = 'No documentation'

349

350

351

if mode == 'rest':

351

if mode == 'rest':

352

rest_docs.append('**%s%s**::\n\n\t%s\n\n' %(ESC_MAGIC,

352

rest_docs.append('**%s%s**::\n\n\t%s\n\n' %(ESC_MAGIC,

353

fname,fndoc))

353

fname,fndoc))

354

355

else:

355

else:

356

magic_docs.append('%s%s:\n\t%s\n' %(ESC_MAGIC,

356

magic_docs.append('%s%s:\n\t%s\n' %(ESC_MAGIC,

357

fname,fndoc))

357

fname,fndoc))

358

359

magic_docs = ''.join(magic_docs)

359

magic_docs = ''.join(magic_docs)

360

361

if mode == 'rest':

361

if mode == 'rest':

362

return "".join(rest_docs)

362

return "".join(rest_docs)

363

364

if mode == 'latex':

364

if mode == 'latex':

365

print self.format_latex(magic_docs)

365

print self.format_latex(magic_docs)

366

return

366

return

367

else:

367

else:

368

magic_docs = format_screen(magic_docs)

368

magic_docs = format_screen(magic_docs)

369

if mode == 'brief':

369

if mode == 'brief':

370

return magic_docs

370

return magic_docs

371

372

outmsg = """

372

outmsg = """

373

IPython's 'magic' functions

373

IPython's 'magic' functions

374

===========================

374

===========================

375

376

The magic function system provides a series of functions which allow you to

376

The magic function system provides a series of functions which allow you to

377

control the behavior of IPython itself, plus a lot of system-type

377

control the behavior of IPython itself, plus a lot of system-type

378

features. All these functions are prefixed with a % character, but parameters

378

features. All these functions are prefixed with a % character, but parameters

379

are given without parentheses or quotes.

379

are given without parentheses or quotes.

380

381

NOTE: If you have 'automagic' enabled (via the command line option or with the

381

NOTE: If you have 'automagic' enabled (via the command line option or with the

382

%automagic function), you don't need to type in the % explicitly. By default,

382

%automagic function), you don't need to type in the % explicitly. By default,

383

IPython ships with automagic on, so you should only rarely need the % escape.

383

IPython ships with automagic on, so you should only rarely need the % escape.

384

385

Example: typing '%cd mydir' (without the quotes) changes you working directory

385

Example: typing '%cd mydir' (without the quotes) changes you working directory

386

to 'mydir', if it exists.

386

to 'mydir', if it exists.

387

388

For a list of the available magic functions, use %lsmagic. For a description

388

For a list of the available magic functions, use %lsmagic. For a description

389

of any of them, type %magic_name?, e.g. '%cd?'.

389

of any of them, type %magic_name?, e.g. '%cd?'.

390

391

Currently the magic system has the following functions:\n"""

391

Currently the magic system has the following functions:\n"""

392

393

mesc = ESC_MAGIC

393

mesc = ESC_MAGIC

394

outmsg = ("%s\n%s\n\nSummary of magic functions (from %slsmagic):"

394

outmsg = ("%s\n%s\n\nSummary of magic functions (from %slsmagic):"

395

"\n\n%s%s\n\n%s" % (outmsg,

395

"\n\n%s%s\n\n%s" % (outmsg,

396

magic_docs,mesc,mesc,

396

magic_docs,mesc,mesc,

397

(' '+mesc).join(self.lsmagic()),

397

(' '+mesc).join(self.lsmagic()),

398

Magic.auto_status[self.shell.automagic] ) )

398

Magic.auto_status[self.shell.automagic] ) )

399

page.page(outmsg)

399

page.page(outmsg)

400

401

def magic_automagic(self, parameter_s = ''):

401

def magic_automagic(self, parameter_s = ''):

402

"""Make magic functions callable without having to type the initial %.

402

"""Make magic functions callable without having to type the initial %.

403

404

Without argumentsl toggles on/off (when off, you must call it as

404

Without argumentsl toggles on/off (when off, you must call it as

405

%automagic, of course). With arguments it sets the value, and you can

405

%automagic, of course). With arguments it sets the value, and you can

406

use any of (case insensitive):

406

use any of (case insensitive):

407

408

- on,1,True: to activate

408

- on,1,True: to activate

409

410

- off,0,False: to deactivate.

410

- off,0,False: to deactivate.

411

412

Note that magic functions have lowest priority, so if there's a

412

Note that magic functions have lowest priority, so if there's a

413

variable whose name collides with that of a magic fn, automagic won't

413

variable whose name collides with that of a magic fn, automagic won't

414

work for that function (you get the variable instead). However, if you

414

work for that function (you get the variable instead). However, if you

415

delete the variable (del var), the previously shadowed magic function

415

delete the variable (del var), the previously shadowed magic function

416

becomes visible to automagic again."""

416

becomes visible to automagic again."""

417

418

arg = parameter_s.lower()

418

arg = parameter_s.lower()

419

if parameter_s in ('on','1','true'):

419

if parameter_s in ('on','1','true'):

420

self.shell.automagic = True

420

self.shell.automagic = True

421

elif parameter_s in ('off','0','false'):

421

elif parameter_s in ('off','0','false'):

422

self.shell.automagic = False

422

self.shell.automagic = False

423

else:

423

else:

424

self.shell.automagic = not self.shell.automagic

424

self.shell.automagic = not self.shell.automagic

425

print '\n' + Magic.auto_status[self.shell.automagic]

425

print '\n' + Magic.auto_status[self.shell.automagic]

426

427

@skip_doctest

427

@skip_doctest

428

def magic_autocall(self, parameter_s = ''):

428

def magic_autocall(self, parameter_s = ''):

429

"""Make functions callable without having to type parentheses.

429

"""Make functions callable without having to type parentheses.

430

431

Usage:

431

Usage:

432

433

%autocall [mode]

433

%autocall [mode]

434

435

The mode can be one of: 0->Off, 1->Smart, 2->Full. If not given, the

435

The mode can be one of: 0->Off, 1->Smart, 2->Full. If not given, the

436

value is toggled on and off (remembering the previous state).

436

value is toggled on and off (remembering the previous state).

437

438

In more detail, these values mean:

438

In more detail, these values mean:

439

440

0 -> fully disabled

440

0 -> fully disabled

441

442

1 -> active, but do not apply if there are no arguments on the line.

442

1 -> active, but do not apply if there are no arguments on the line.

443

444

In this mode, you get:

444

In this mode, you get:

445

446

In [1]: callable

446

In [1]: callable

447

Out[1]: <built-in function callable>

447

Out[1]: <built-in function callable>

448

449

In [2]: callable 'hello'

449

In [2]: callable 'hello'

450

------> callable('hello')

450

------> callable('hello')

451

Out[2]: False

451

Out[2]: False

452

453

2 -> Active always. Even if no arguments are present, the callable

453

2 -> Active always. Even if no arguments are present, the callable

454

object is called:

454

object is called:

455

456

In [2]: float

456

In [2]: float

457

------> float()

457

------> float()

458

Out[2]: 0.0

458

Out[2]: 0.0

459

460

Note that even with autocall off, you can still use '/' at the start of

460

Note that even with autocall off, you can still use '/' at the start of

461

a line to treat the first argument on the command line as a function

461

a line to treat the first argument on the command line as a function

462

and add parentheses to it:

462

and add parentheses to it:

463

464

In [8]: /str 43

464

In [8]: /str 43

465

------> str(43)

465

------> str(43)

466

Out[8]: '43'

466

Out[8]: '43'

467

468

# all-random (note for auto-testing)

468

# all-random (note for auto-testing)

469

"""

469

"""

470

471

if parameter_s:

471

if parameter_s:

472

arg = int(parameter_s)

472

arg = int(parameter_s)

473

else:

473

else:

474

arg = 'toggle'

474

arg = 'toggle'

475

476

if not arg in (0,1,2,'toggle'):

476

if not arg in (0,1,2,'toggle'):

477

error('Valid modes: (0->Off, 1->Smart, 2->Full')

477

error('Valid modes: (0->Off, 1->Smart, 2->Full')

478

return

478

return

479

480

if arg in (0,1,2):

480

if arg in (0,1,2):

481

self.shell.autocall = arg

481

self.shell.autocall = arg

482

else: # toggle

482

else: # toggle

483

if self.shell.autocall:

483

if self.shell.autocall:

484

self._magic_state.autocall_save = self.shell.autocall

484

self._magic_state.autocall_save = self.shell.autocall

485

self.shell.autocall = 0

485

self.shell.autocall = 0

486

else:

486

else:

487

try:

487

try:

488

self.shell.autocall = self._magic_state.autocall_save

488

self.shell.autocall = self._magic_state.autocall_save

489

except AttributeError:

489

except AttributeError:

490

self.shell.autocall = self._magic_state.autocall_save = 1

490

self.shell.autocall = self._magic_state.autocall_save = 1

491

492

print "Automatic calling is:",['OFF','Smart','Full'][self.shell.autocall]

492

print "Automatic calling is:",['OFF','Smart','Full'][self.shell.autocall]

493

494

495

def magic_page(self, parameter_s=''):

495

def magic_page(self, parameter_s=''):

496

"""Pretty print the object and display it through a pager.

496

"""Pretty print the object and display it through a pager.

497

498

%page [options] OBJECT

498

%page [options] OBJECT

499

500

If no object is given, use _ (last output).

500

If no object is given, use _ (last output).

501

502

Options:

502

Options:

503

504

-r: page str(object), don't pretty-print it."""

504

-r: page str(object), don't pretty-print it."""

505

506

# After a function contributed by Olivier Aubert, slightly modified.

506

# After a function contributed by Olivier Aubert, slightly modified.

507

508

# Process options/args

508

# Process options/args

509

opts,args = self.parse_options(parameter_s,'r')

509

opts,args = self.parse_options(parameter_s,'r')

510

raw = 'r' in opts

510

raw = 'r' in opts

511

512

oname = args and args or '_'

512

oname = args and args or '_'

513

info = self._ofind(oname)

513

info = self._ofind(oname)

514

if info['found']:

514

if info['found']:

515

txt = (raw and str or pformat)( info['obj'] )

515

txt = (raw and str or pformat)( info['obj'] )

516

page.page(txt)

516

page.page(txt)

517

else:

517

else:

518

print 'Object `%s` not found' % oname

518

print 'Object `%s` not found' % oname

519

520

def magic_profile(self, parameter_s=''):

520

def magic_profile(self, parameter_s=''):

521

"""Print your currently active IPython profile."""

521

"""Print your currently active IPython profile."""

522

print self.shell.profile

522

print self.shell.profile

523

524

def magic_pinfo(self, parameter_s='', namespaces=None):

524

def magic_pinfo(self, parameter_s='', namespaces=None):

525

"""Provide detailed information about an object.

525

"""Provide detailed information about an object.

526

527

'%pinfo object' is just a synonym for object? or ?object."""

527

'%pinfo object' is just a synonym for object? or ?object."""

528

529

#print 'pinfo par: <%s>' % parameter_s # dbg

529

#print 'pinfo par: <%s>' % parameter_s # dbg

530

531

532

# detail_level: 0 -> obj? , 1 -> obj??

532

# detail_level: 0 -> obj? , 1 -> obj??

533

detail_level = 0

533

detail_level = 0

534

# We need to detect if we got called as 'pinfo pinfo foo', which can

534

# We need to detect if we got called as 'pinfo pinfo foo', which can

535

# happen if the user types 'pinfo foo?' at the cmd line.

535

# happen if the user types 'pinfo foo?' at the cmd line.

536

pinfo,qmark1,oname,qmark2 = \

536

pinfo,qmark1,oname,qmark2 = \

537

re.match('(pinfo )?(\?*)(.*?)(\??$)',parameter_s).groups()

537

re.match('(pinfo )?(\?*)(.*?)(\??$)',parameter_s).groups()

538

if pinfo or qmark1 or qmark2:

538

if pinfo or qmark1 or qmark2:

539

detail_level = 1

539

detail_level = 1

540

if "*" in oname:

540

if "*" in oname:

541

self.magic_psearch(oname)

541

self.magic_psearch(oname)

542

else:

542

else:

543

self.shell._inspect('pinfo', oname, detail_level=detail_level,

543

self.shell._inspect('pinfo', oname, detail_level=detail_level,

544

namespaces=namespaces)

544

namespaces=namespaces)

545

546

def magic_pinfo2(self, parameter_s='', namespaces=None):

546

def magic_pinfo2(self, parameter_s='', namespaces=None):

547

"""Provide extra detailed information about an object.

547

"""Provide extra detailed information about an object.

548

549

'%pinfo2 object' is just a synonym for object?? or ??object."""

549

'%pinfo2 object' is just a synonym for object?? or ??object."""

550

self.shell._inspect('pinfo', parameter_s, detail_level=1,

550

self.shell._inspect('pinfo', parameter_s, detail_level=1,

551

namespaces=namespaces)

551

namespaces=namespaces)

552

553

@skip_doctest

553

@skip_doctest

554

def magic_pdef(self, parameter_s='', namespaces=None):

554

def magic_pdef(self, parameter_s='', namespaces=None):

555

"""Print the definition header for any callable object.

555

"""Print the definition header for any callable object.

556

557

If the object is a class, print the constructor information.

557

If the object is a class, print the constructor information.

558

559

Examples

559

Examples

560

--------

560

--------

561

::

561

::

562

563

In [3]: %pdef urllib.urlopen

563

In [3]: %pdef urllib.urlopen

564

urllib.urlopen(url, data=None, proxies=None)

564

urllib.urlopen(url, data=None, proxies=None)

565

"""

565

"""

566

self._inspect('pdef',parameter_s, namespaces)

566

self._inspect('pdef',parameter_s, namespaces)

567

568

def magic_pdoc(self, parameter_s='', namespaces=None):

568

def magic_pdoc(self, parameter_s='', namespaces=None):

569

"""Print the docstring for an object.

569

"""Print the docstring for an object.

570

571

If the given object is a class, it will print both the class and the

571

If the given object is a class, it will print both the class and the

572

constructor docstrings."""

572

constructor docstrings."""

573

self._inspect('pdoc',parameter_s, namespaces)

573

self._inspect('pdoc',parameter_s, namespaces)

574

575

def magic_psource(self, parameter_s='', namespaces=None):

575

def magic_psource(self, parameter_s='', namespaces=None):

576

"""Print (or run through pager) the source code for an object."""

576

"""Print (or run through pager) the source code for an object."""

577

self._inspect('psource',parameter_s, namespaces)

577

self._inspect('psource',parameter_s, namespaces)

578

579

def magic_pfile(self, parameter_s=''):

579

def magic_pfile(self, parameter_s=''):

580

"""Print (or run through pager) the file where an object is defined.

580

"""Print (or run through pager) the file where an object is defined.

581

582

The file opens at the line where the object definition begins. IPython

582

The file opens at the line where the object definition begins. IPython

583

will honor the environment variable PAGER if set, and otherwise will

583

will honor the environment variable PAGER if set, and otherwise will

584

do its best to print the file in a convenient form.

584

do its best to print the file in a convenient form.

585

586

If the given argument is not an object currently defined, IPython will

586

If the given argument is not an object currently defined, IPython will

587

try to interpret it as a filename (automatically adding a .py extension

587

try to interpret it as a filename (automatically adding a .py extension

588

if needed). You can thus use %pfile as a syntax highlighting code

588

if needed). You can thus use %pfile as a syntax highlighting code

589

viewer."""

589

viewer."""

590

591

# first interpret argument as an object name

591

# first interpret argument as an object name

592

out = self._inspect('pfile',parameter_s)

592

out = self._inspect('pfile',parameter_s)

593

# if not, try the input as a filename

593

# if not, try the input as a filename

594

if out == 'not found':

594

if out == 'not found':

595

try:

595

try:

596

filename = get_py_filename(parameter_s)

596

filename = get_py_filename(parameter_s)

597

except IOError,msg:

597

except IOError,msg:

598

print msg

598

print msg

599

return

599

return

600

page.page(self.shell.inspector.format(file(filename).read()))

600

page.page(self.shell.inspector.format(file(filename).read()))

601

602

def magic_psearch(self, parameter_s=''):

602

def magic_psearch(self, parameter_s=''):

603

"""Search for object in namespaces by wildcard.

603

"""Search for object in namespaces by wildcard.

604

605

%psearch [options] PATTERN [OBJECT TYPE]

605

%psearch [options] PATTERN [OBJECT TYPE]

606

607

Note: ? can be used as a synonym for %psearch, at the beginning or at

607

Note: ? can be used as a synonym for %psearch, at the beginning or at

608

the end: both a*? and ?a* are equivalent to '%psearch a*'. Still, the

608

the end: both a*? and ?a* are equivalent to '%psearch a*'. Still, the

609

rest of the command line must be unchanged (options come first), so

609

rest of the command line must be unchanged (options come first), so

610

for example the following forms are equivalent

610

for example the following forms are equivalent

611

612

%psearch -i a* function

612

%psearch -i a* function

613

-i a* function?

613

-i a* function?

614

?-i a* function

614

?-i a* function

615

616

Arguments:

616

Arguments:

617

618

PATTERN

618

PATTERN

619

620

where PATTERN is a string containing * as a wildcard similar to its

620

where PATTERN is a string containing * as a wildcard similar to its

621

use in a shell. The pattern is matched in all namespaces on the

621

use in a shell. The pattern is matched in all namespaces on the

622

search path. By default objects starting with a single _ are not

622

search path. By default objects starting with a single _ are not

623

matched, many IPython generated objects have a single

623

matched, many IPython generated objects have a single

624

underscore. The default is case insensitive matching. Matching is

624

underscore. The default is case insensitive matching. Matching is

625

also done on the attributes of objects and not only on the objects

625

also done on the attributes of objects and not only on the objects

626

in a module.

626

in a module.

627

628

[OBJECT TYPE]

628

[OBJECT TYPE]

629

630

Is the name of a python type from the types module. The name is

630

Is the name of a python type from the types module. The name is

631

given in lowercase without the ending type, ex. StringType is

631

given in lowercase without the ending type, ex. StringType is

632

written string. By adding a type here only objects matching the

632

written string. By adding a type here only objects matching the

633

given type are matched. Using all here makes the pattern match all

633

given type are matched. Using all here makes the pattern match all

634

types (this is the default).

634

types (this is the default).

635

636

Options:

636

Options:

637

638

-a: makes the pattern match even objects whose names start with a

638

-a: makes the pattern match even objects whose names start with a

639

single underscore. These names are normally ommitted from the

639

single underscore. These names are normally ommitted from the

640

search.

640

search.

641

642

-i/-c: make the pattern case insensitive/sensitive. If neither of

642

-i/-c: make the pattern case insensitive/sensitive. If neither of

643

these options are given, the default is read from your configuration

643

these options are given, the default is read from your configuration

644

file, with the option ``InteractiveShell.wildcards_case_sensitive``.

644

file, with the option ``InteractiveShell.wildcards_case_sensitive``.

645

If this option is not specified in your configuration file, IPython's

645

If this option is not specified in your configuration file, IPython's

646

internal default is to do a case sensitive search.

646

internal default is to do a case sensitive search.

647

648

-e/-s NAMESPACE: exclude/search a given namespace. The pattern you

648

-e/-s NAMESPACE: exclude/search a given namespace. The pattern you

649

specifiy can be searched in any of the following namespaces:

649

specifiy can be searched in any of the following namespaces:

650

'builtin', 'user', 'user_global','internal', 'alias', where

650

'builtin', 'user', 'user_global','internal', 'alias', where

651

'builtin' and 'user' are the search defaults. Note that you should

651

'builtin' and 'user' are the search defaults. Note that you should

652

not use quotes when specifying namespaces.

652

not use quotes when specifying namespaces.

653

654

'Builtin' contains the python module builtin, 'user' contains all

654

'Builtin' contains the python module builtin, 'user' contains all

655

user data, 'alias' only contain the shell aliases and no python

655

user data, 'alias' only contain the shell aliases and no python

656

objects, 'internal' contains objects used by IPython. The

656

objects, 'internal' contains objects used by IPython. The

657

'user_global' namespace is only used by embedded IPython instances,

657

'user_global' namespace is only used by embedded IPython instances,

658

and it contains module-level globals. You can add namespaces to the

658

and it contains module-level globals. You can add namespaces to the

659

search with -s or exclude them with -e (these options can be given

659

search with -s or exclude them with -e (these options can be given

660

more than once).

660

more than once).

661

662

Examples:

662

Examples:

663

664

%psearch a* -> objects beginning with an a

664

%psearch a* -> objects beginning with an a

665

%psearch -e builtin a* -> objects NOT in the builtin space starting in a

665

%psearch -e builtin a* -> objects NOT in the builtin space starting in a

666

%psearch a* function -> all functions beginning with an a

666

%psearch a* function -> all functions beginning with an a

667

%psearch re.e* -> objects beginning with an e in module re

667

%psearch re.e* -> objects beginning with an e in module re

668

%psearch r*.e* -> objects that start with e in modules starting in r

668

%psearch r*.e* -> objects that start with e in modules starting in r

669

%psearch r*.* string -> all strings in modules beginning with r

669

%psearch r*.* string -> all strings in modules beginning with r

670

671

Case sensitve search:

671

Case sensitve search:

672

673

%psearch -c a* list all object beginning with lower case a

673

%psearch -c a* list all object beginning with lower case a

674

675

Show objects beginning with a single _:

675

Show objects beginning with a single _:

676

677

%psearch -a _* list objects beginning with a single underscore"""

677

%psearch -a _* list objects beginning with a single underscore"""

678

try:

678

try:

679

parameter_s = parameter_s.encode('ascii')

679

parameter_s = parameter_s.encode('ascii')

680

except UnicodeEncodeError:

680

except UnicodeEncodeError:

681

print 'Python identifiers can only contain ascii characters.'

681

print 'Python identifiers can only contain ascii characters.'

682

return

682

return

683

684

# default namespaces to be searched

684

# default namespaces to be searched

685

def_search = ['user','builtin']

685

def_search = ['user','builtin']

686

687

# Process options/args

687

# Process options/args

688

opts,args = self.parse_options(parameter_s,'cias:e:',list_all=True)

688

opts,args = self.parse_options(parameter_s,'cias:e:',list_all=True)

689

opt = opts.get

689

opt = opts.get

690

shell = self.shell

690

shell = self.shell

691

psearch = shell.inspector.psearch

691

psearch = shell.inspector.psearch

692

693

# select case options

693

# select case options

694

if opts.has_key('i'):

694

if opts.has_key('i'):

695

ignore_case = True

695

ignore_case = True

696

elif opts.has_key('c'):

696

elif opts.has_key('c'):

697

ignore_case = False

697

ignore_case = False

698

else:

698

else:

699

ignore_case = not shell.wildcards_case_sensitive

699

ignore_case = not shell.wildcards_case_sensitive

700

701

# Build list of namespaces to search from user options

701

# Build list of namespaces to search from user options

702

def_search.extend(opt('s',[]))

702

def_search.extend(opt('s',[]))

703

ns_exclude = ns_exclude=opt('e',[])

703

ns_exclude = ns_exclude=opt('e',[])

704

ns_search = [nm for nm in def_search if nm not in ns_exclude]

704

ns_search = [nm for nm in def_search if nm not in ns_exclude]

705

706

# Call the actual search

706

# Call the actual search

707

try:

707

try:

708

psearch(args,shell.ns_table,ns_search,

708

psearch(args,shell.ns_table,ns_search,

709

show_all=opt('a'),ignore_case=ignore_case)

709

show_all=opt('a'),ignore_case=ignore_case)

710

except:

710

except:

711

shell.showtraceback()

711

shell.showtraceback()

712

713

@skip_doctest

713

@skip_doctest

714

def magic_who_ls(self, parameter_s=''):

714

def magic_who_ls(self, parameter_s=''):

715

"""Return a sorted list of all interactive variables.

715

"""Return a sorted list of all interactive variables.

716

717

If arguments are given, only variables of types matching these

717

If arguments are given, only variables of types matching these

718

arguments are returned.

718

arguments are returned.

719

720

Examples

720

Examples

721

--------

721

--------

722

723

Define two variables and list them with who_ls::

723

Define two variables and list them with who_ls::

724

725

In [1]: alpha = 123

725

In [1]: alpha = 123

726

727

In [2]: beta = 'test'

727

In [2]: beta = 'test'

728

729

In [3]: %who_ls

729

In [3]: %who_ls

730

Out[3]: ['alpha', 'beta']

730

Out[3]: ['alpha', 'beta']

731

732

In [4]: %who_ls int

732

In [4]: %who_ls int

733

Out[4]: ['alpha']

733

Out[4]: ['alpha']

734

735

In [5]: %who_ls str

735

In [5]: %who_ls str

736

Out[5]: ['beta']

736

Out[5]: ['beta']

737

"""

737

"""

738

739

user_ns = self.shell.user_ns

739

user_ns = self.shell.user_ns

740

internal_ns = self.shell.internal_ns

740

internal_ns = self.shell.internal_ns

741

user_ns_hidden = self.shell.user_ns_hidden

741

user_ns_hidden = self.shell.user_ns_hidden

742

out = [ i for i in user_ns

742

out = [ i for i in user_ns

743

if not i.startswith('_') \

743

if not i.startswith('_') \

744

and not (i in internal_ns or i in user_ns_hidden) ]

744

and not (i in internal_ns or i in user_ns_hidden) ]

745

746

typelist = parameter_s.split()

746

typelist = parameter_s.split()

747

if typelist:

747

if typelist:

748

typeset = set(typelist)

748

typeset = set(typelist)

749

out = [i for i in out if type(user_ns[i]).__name__ in typeset]

749

out = [i for i in out if type(user_ns[i]).__name__ in typeset]

750

751

out.sort()

751

out.sort()

752

return out

752

return out

753

754

@skip_doctest

754

@skip_doctest

755

def magic_who(self, parameter_s=''):

755

def magic_who(self, parameter_s=''):

756

"""Print all interactive variables, with some minimal formatting.

756

"""Print all interactive variables, with some minimal formatting.

757

758

If any arguments are given, only variables whose type matches one of

758

If any arguments are given, only variables whose type matches one of

759

these are printed. For example:

759

these are printed. For example:

760

761

%who function str

761

%who function str

762

763

will only list functions and strings, excluding all other types of

763

will only list functions and strings, excluding all other types of

764

variables. To find the proper type names, simply use type(var) at a

764

variables. To find the proper type names, simply use type(var) at a

765

command line to see how python prints type names. For example:

765

command line to see how python prints type names. For example:

766

767

In [1]: type('hello')\\

767

In [1]: type('hello')\\

768

Out[1]: <type 'str'>

768

Out[1]: <type 'str'>

769

770

indicates that the type name for strings is 'str'.

770

indicates that the type name for strings is 'str'.

771

772

%who always excludes executed names loaded through your configuration

772

%who always excludes executed names loaded through your configuration

773

file and things which are internal to IPython.

773

file and things which are internal to IPython.

774

775

This is deliberate, as typically you may load many modules and the

775

This is deliberate, as typically you may load many modules and the

776

purpose of %who is to show you only what you've manually defined.

776

purpose of %who is to show you only what you've manually defined.

777

778

Examples

778

Examples

779

--------

779

--------

780

781

Define two variables and list them with who::

781

Define two variables and list them with who::

782

783

In [1]: alpha = 123

783

In [1]: alpha = 123

784

785

In [2]: beta = 'test'

785

In [2]: beta = 'test'

786

787

In [3]: %who

787

In [3]: %who

788

alpha beta

788

alpha beta

789

790

In [4]: %who int

790

In [4]: %who int

791

alpha

791

alpha

792

793

In [5]: %who str

793

In [5]: %who str

794

beta

794

beta

795

"""

795

"""

796

797

varlist = self.magic_who_ls(parameter_s)

797

varlist = self.magic_who_ls(parameter_s)

798

if not varlist:

798

if not varlist:

799

if parameter_s:

799

if parameter_s:

800

print 'No variables match your requested type.'

800

print 'No variables match your requested type.'

801

else:

801

else:

802

print 'Interactive namespace is empty.'

802

print 'Interactive namespace is empty.'

803

return

803

return

804

805

# if we have variables, move on...

805

# if we have variables, move on...

806

count = 0

806

count = 0

807

for i in varlist:

807

for i in varlist:

808

print i+'\t',

808

print i+'\t',

809

count += 1

809

count += 1

810

if count > 8:

810

if count > 8:

811

count = 0

811

count = 0

812

print

812

print

813

print

813

print

814

815

@skip_doctest

815

@skip_doctest

816

def magic_whos(self, parameter_s=''):

816

def magic_whos(self, parameter_s=''):

817

"""Like %who, but gives some extra information about each variable.

817

"""Like %who, but gives some extra information about each variable.

818

819

The same type filtering of %who can be applied here.

819

The same type filtering of %who can be applied here.

820

821

For all variables, the type is printed. Additionally it prints:

821

For all variables, the type is printed. Additionally it prints:

822

823

- For {},[],(): their length.

823

- For {},[],(): their length.

824

825

- For numpy arrays, a summary with shape, number of

825

- For numpy arrays, a summary with shape, number of

826

elements, typecode and size in memory.

826

elements, typecode and size in memory.

827

828

- Everything else: a string representation, snipping their middle if

828

- Everything else: a string representation, snipping their middle if

829

too long.

829

too long.

830

831

Examples

831

Examples

832

--------

832

--------

833

834

Define two variables and list them with whos::

834

Define two variables and list them with whos::

835

836

In [1]: alpha = 123

836

In [1]: alpha = 123

837

838

In [2]: beta = 'test'

838

In [2]: beta = 'test'

839

840

In [3]: %whos

840

In [3]: %whos

841

Variable Type Data/Info

841

Variable Type Data/Info

842

--------------------------------

842

--------------------------------

843

alpha int 123

843

alpha int 123

844

beta str test

844

beta str test

845

"""

845

"""

846

847

varnames = self.magic_who_ls(parameter_s)

847

varnames = self.magic_who_ls(parameter_s)

848

if not varnames:

848

if not varnames:

849

if parameter_s:

849

if parameter_s:

850

print 'No variables match your requested type.'

850

print 'No variables match your requested type.'

851

else:

851

else:

852

print 'Interactive namespace is empty.'

852

print 'Interactive namespace is empty.'

853

return

853

return

854

855

# if we have variables, move on...

855

# if we have variables, move on...

856

857

# for these types, show len() instead of data:

857

# for these types, show len() instead of data:

858

seq_types = ['dict', 'list', 'tuple']

858

seq_types = ['dict', 'list', 'tuple']

859

860

# for numpy/Numeric arrays, display summary info

860

# for numpy/Numeric arrays, display summary info

861

try:

861

try:

862

import numpy

862

import numpy

863

except ImportError:

863

except ImportError:

864

ndarray_type = None

864

ndarray_type = None

865

else:

865

else:

866

ndarray_type = numpy.ndarray.__name__

866

ndarray_type = numpy.ndarray.__name__

867

try:

867

try:

868

import Numeric

868

import Numeric

869

except ImportError:

869

except ImportError:

870

array_type = None

870

array_type = None

871

else:

871

else:

872

array_type = Numeric.ArrayType.__name__

872

array_type = Numeric.ArrayType.__name__

873

874

# Find all variable names and types so we can figure out column sizes

874

# Find all variable names and types so we can figure out column sizes

875

def get_vars(i):

875

def get_vars(i):

876

return self.shell.user_ns[i]

876

return self.shell.user_ns[i]

877

878

# some types are well known and can be shorter

878

# some types are well known and can be shorter

879

abbrevs = {'IPython.core.macro.Macro' : 'Macro'}

879

abbrevs = {'IPython.core.macro.Macro' : 'Macro'}

880

def type_name(v):

880

def type_name(v):

881

tn = type(v).__name__

881

tn = type(v).__name__

882

return abbrevs.get(tn,tn)

882

return abbrevs.get(tn,tn)

883

884

varlist = map(get_vars,varnames)

884

varlist = map(get_vars,varnames)

885

886

typelist = []

886

typelist = []

887

for vv in varlist:

887

for vv in varlist:

888

tt = type_name(vv)

888

tt = type_name(vv)

889

890

if tt=='instance':

890

if tt=='instance':

891

typelist.append( abbrevs.get(str(vv.__class__),

891

typelist.append( abbrevs.get(str(vv.__class__),

892

str(vv.__class__)))

892

str(vv.__class__)))

893

else:

893

else:

894

typelist.append(tt)

894

typelist.append(tt)

895

896

# column labels and # of spaces as separator

896

# column labels and # of spaces as separator

897

varlabel = 'Variable'

897

varlabel = 'Variable'

898

typelabel = 'Type'

898

typelabel = 'Type'

899

datalabel = 'Data/Info'

899

datalabel = 'Data/Info'

900

colsep = 3

900

colsep = 3

901

# variable format strings

901

# variable format strings

902

vformat = "{0:<{varwidth}}{1:<{typewidth}}"

902

vformat = "{0:<{varwidth}}{1:<{typewidth}}"

903

aformat = "%s: %s elems, type `%s`, %s bytes"

903

aformat = "%s: %s elems, type `%s`, %s bytes"

904

# find the size of the columns to format the output nicely

904

# find the size of the columns to format the output nicely

905

varwidth = max(max(map(len,varnames)), len(varlabel)) + colsep

905

varwidth = max(max(map(len,varnames)), len(varlabel)) + colsep

906

typewidth = max(max(map(len,typelist)), len(typelabel)) + colsep

906

typewidth = max(max(map(len,typelist)), len(typelabel)) + colsep

907

# table header

907

# table header

908

print varlabel.ljust(varwidth) + typelabel.ljust(typewidth) + \

908

print varlabel.ljust(varwidth) + typelabel.ljust(typewidth) + \

909

' '+datalabel+'\n' + '-'*(varwidth+typewidth+len(datalabel)+1)

909

' '+datalabel+'\n' + '-'*(varwidth+typewidth+len(datalabel)+1)

910

# and the table itself

910

# and the table itself

911

kb = 1024

911

kb = 1024

912

Mb = 1048576 # kb**2

912

Mb = 1048576 # kb**2

913

for vname,var,vtype in zip(varnames,varlist,typelist):

913

for vname,var,vtype in zip(varnames,varlist,typelist):

914

print vformat.format(vname, vtype, varwidth=varwidth, typewidth=typewidth),

914

print vformat.format(vname, vtype, varwidth=varwidth, typewidth=typewidth),

915

if vtype in seq_types:

915

if vtype in seq_types:

916

print "n="+str(len(var))

916

print "n="+str(len(var))

917

elif vtype in [array_type,ndarray_type]:

917

elif vtype in [array_type,ndarray_type]:

918

vshape = str(var.shape).replace(',','').replace(' ','x')[1:-1]

918

vshape = str(var.shape).replace(',','').replace(' ','x')[1:-1]

919

if vtype==ndarray_type:

919

if vtype==ndarray_type:

920

# numpy

920

# numpy

921

vsize = var.size

921

vsize = var.size

922

vbytes = vsize*var.itemsize

922

vbytes = vsize*var.itemsize

923

vdtype = var.dtype

923

vdtype = var.dtype

924

else:

924

else:

925

# Numeric

925

# Numeric

926

vsize = Numeric.size(var)

926

vsize = Numeric.size(var)

927

vbytes = vsize*var.itemsize()

927

vbytes = vsize*var.itemsize()

928

vdtype = var.typecode()

928

vdtype = var.typecode()

929

930

if vbytes < 100000:

930

if vbytes < 100000:

931

print aformat % (vshape,vsize,vdtype,vbytes)

931

print aformat % (vshape,vsize,vdtype,vbytes)

932

else:

932

else:

933

print aformat % (vshape,vsize,vdtype,vbytes),

933

print aformat % (vshape,vsize,vdtype,vbytes),

934

if vbytes < Mb:

934

if vbytes < Mb:

935

print '(%s kb)' % (vbytes/kb,)

935

print '(%s kb)' % (vbytes/kb,)

936

else:

936

else:

937

print '(%s Mb)' % (vbytes/Mb,)

937

print '(%s Mb)' % (vbytes/Mb,)

938

else:

938

else:

939

try:

939

try:

940

vstr = str(var)

940

vstr = str(var)

941

except UnicodeEncodeError:

941

except UnicodeEncodeError:

942

vstr = unicode(var).encode(sys.getdefaultencoding(),

942

vstr = unicode(var).encode(sys.getdefaultencoding(),

943

'backslashreplace')

943

'backslashreplace')

944

vstr = vstr.replace('\n','\\n')

944

vstr = vstr.replace('\n','\\n')

945

if len(vstr) < 50:

945

if len(vstr) < 50:

946

print vstr

946

print vstr

947

else:

947

else:

948

print vstr[:25] + "<...>" + vstr[-25:]

948

print vstr[:25] + "<...>" + vstr[-25:]

949

950

def magic_reset(self, parameter_s=''):

950

def magic_reset(self, parameter_s=''):

951

"""Resets the namespace by removing all names defined by the user.

951

"""Resets the namespace by removing all names defined by the user.

952

953

Parameters

953

Parameters

954

----------

954

----------

955

-f : force reset without asking for confirmation.

955

-f : force reset without asking for confirmation.

956

957

-s : 'Soft' reset: Only clears your namespace, leaving history intact.

957

-s : 'Soft' reset: Only clears your namespace, leaving history intact.

958

References to objects may be kept. By default (without this option),

958

References to objects may be kept. By default (without this option),

959

we do a 'hard' reset, giving you a new session and removing all

959

we do a 'hard' reset, giving you a new session and removing all

960

references to objects from the current session.

960

references to objects from the current session.

961

962

Examples

962

Examples

963

--------

963

--------

964

In [6]: a = 1

964

In [6]: a = 1

965

966

In [7]: a

966

In [7]: a

967

Out[7]: 1

967

Out[7]: 1

968

969

In [8]: 'a' in _ip.user_ns

969

In [8]: 'a' in _ip.user_ns

970

Out[8]: True

970

Out[8]: True

971

972

In [9]: %reset -f

972

In [9]: %reset -f

973

974

In [1]: 'a' in _ip.user_ns

974

In [1]: 'a' in _ip.user_ns

975

Out[1]: False

975

Out[1]: False

976

"""

976

"""

977

opts, args = self.parse_options(parameter_s,'sf')

977

opts, args = self.parse_options(parameter_s,'sf')

978

if 'f' in opts:

978

if 'f' in opts:

979

ans = True

979

ans = True

980

else:

980

else:

981

ans = self.shell.ask_yes_no(

981

ans = self.shell.ask_yes_no(

982

"Once deleted, variables cannot be recovered. Proceed (y/[n])? ")

982

"Once deleted, variables cannot be recovered. Proceed (y/[n])? ")

983

if not ans:

983

if not ans:

984

print 'Nothing done.'

984

print 'Nothing done.'

985

return

985

return

986

987

if 's' in opts: # Soft reset

987

if 's' in opts: # Soft reset

988

user_ns = self.shell.user_ns

988

user_ns = self.shell.user_ns

989

for i in self.magic_who_ls():

989

for i in self.magic_who_ls():

990

del(user_ns[i])

990

del(user_ns[i])

991

992

else: # Hard reset

992

else: # Hard reset

993

self.shell.reset(new_session = False)

993

self.shell.reset(new_session = False)

994

995

996

997

def magic_reset_selective(self, parameter_s=''):

997

def magic_reset_selective(self, parameter_s=''):

998

"""Resets the namespace by removing names defined by the user.

998

"""Resets the namespace by removing names defined by the user.

999

1000

Input/Output history are left around in case you need them.

1000

Input/Output history are left around in case you need them.

1001

1002

%reset_selective [-f] regex

1002

%reset_selective [-f] regex

1003

1004

No action is taken if regex is not included

1004

No action is taken if regex is not included

1005

1006

Options

1006

Options

1007

-f : force reset without asking for confirmation.

1007

-f : force reset without asking for confirmation.

1008

1009

Examples

1009

Examples

1010

--------

1010

--------

1011

1012

We first fully reset the namespace so your output looks identical to

1012

We first fully reset the namespace so your output looks identical to

1013

this example for pedagogical reasons; in practice you do not need a

1013

this example for pedagogical reasons; in practice you do not need a

1014

full reset.

1014

full reset.

1015

1016

In [1]: %reset -f

1016

In [1]: %reset -f

1017

1018

Now, with a clean namespace we can make a few variables and use

1018

Now, with a clean namespace we can make a few variables and use

1019

%reset_selective to only delete names that match our regexp:

1019

%reset_selective to only delete names that match our regexp:

1020

1021

In [2]: a=1; b=2; c=3; b1m=4; b2m=5; b3m=6; b4m=7; b2s=8

1021

In [2]: a=1; b=2; c=3; b1m=4; b2m=5; b3m=6; b4m=7; b2s=8

1022

1023

In [3]: who_ls

1023

In [3]: who_ls

1024

Out[3]: ['a', 'b', 'b1m', 'b2m', 'b2s', 'b3m', 'b4m', 'c']

1024

Out[3]: ['a', 'b', 'b1m', 'b2m', 'b2s', 'b3m', 'b4m', 'c']

1025

1026

In [4]: %reset_selective -f b[2-3]m

1026

In [4]: %reset_selective -f b[2-3]m

1027

1028

In [5]: who_ls

1028

In [5]: who_ls

1029

Out[5]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']

1029

Out[5]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']

1030

1031

In [6]: %reset_selective -f d

1031

In [6]: %reset_selective -f d

1032

1033

In [7]: who_ls

1033

In [7]: who_ls

1034

Out[7]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']

1034

Out[7]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']

1035

1036

In [8]: %reset_selective -f c

1036

In [8]: %reset_selective -f c

1037

1038

In [9]: who_ls

1038

In [9]: who_ls

1039

Out[9]: ['a', 'b', 'b1m', 'b2s', 'b4m']

1039

Out[9]: ['a', 'b', 'b1m', 'b2s', 'b4m']

1040

1041

In [10]: %reset_selective -f b

1041

In [10]: %reset_selective -f b

1042

1043

In [11]: who_ls

1043

In [11]: who_ls

1044

Out[11]: ['a']

1044

Out[11]: ['a']

1045

"""

1045

"""

1046

1047

opts, regex = self.parse_options(parameter_s,'f')

1047

opts, regex = self.parse_options(parameter_s,'f')

1048

1049

if opts.has_key('f'):

1049

if opts.has_key('f'):

1050

ans = True

1050

ans = True

1051

else:

1051

else:

1052

ans = self.shell.ask_yes_no(

1052

ans = self.shell.ask_yes_no(

1053

"Once deleted, variables cannot be recovered. Proceed (y/[n])? ")

1053

"Once deleted, variables cannot be recovered. Proceed (y/[n])? ")

1054

if not ans:

1054

if not ans:

1055

print 'Nothing done.'

1055

print 'Nothing done.'

1056

return

1056

return

1057

user_ns = self.shell.user_ns

1057

user_ns = self.shell.user_ns

1058

if not regex:

1058

if not regex:

1059

print 'No regex pattern specified. Nothing done.'

1059

print 'No regex pattern specified. Nothing done.'

1060

return

1060

return

1061

else:

1061

else:

1062

try:

1062

try:

1063

m = re.compile(regex)

1063

m = re.compile(regex)

1064

except TypeError:

1064

except TypeError:

1065

raise TypeError('regex must be a string or compiled pattern')

1065

raise TypeError('regex must be a string or compiled pattern')

1066

for i in self.magic_who_ls():

1066

for i in self.magic_who_ls():

1067

if m.search(i):

1067

if m.search(i):

1068

del(user_ns[i])

1068

del(user_ns[i])

1069

1070

def magic_xdel(self, parameter_s=''):

1070

def magic_xdel(self, parameter_s=''):

1071

"""Delete a variable, trying to clear it from anywhere that

1071

"""Delete a variable, trying to clear it from anywhere that

1072

IPython's machinery has references to it. By default, this uses

1072

IPython's machinery has references to it. By default, this uses

1073

the identity of the named object in the user namespace to remove

1073

the identity of the named object in the user namespace to remove

1074

references held under other names. The object is also removed

1074

references held under other names. The object is also removed

1075

from the output history.

1075

from the output history.

1076

1077

Options

1077

Options

1078

-n : Delete the specified name from all namespaces, without

1078

-n : Delete the specified name from all namespaces, without

1079

checking their identity.

1079

checking their identity.

1080

"""

1080

"""

1081

opts, varname = self.parse_options(parameter_s,'n')

1081

opts, varname = self.parse_options(parameter_s,'n')

1082

try:

1082

try:

1083

self.shell.del_var(varname, ('n' in opts))

1083

self.shell.del_var(varname, ('n' in opts))

1084

except (NameError, ValueError) as e:

1084

except (NameError, ValueError) as e:

1085

print type(e).__name__ +": "+ str(e)

1085

print type(e).__name__ +": "+ str(e)

1086

1087

def magic_logstart(self,parameter_s=''):

1087

def magic_logstart(self,parameter_s=''):

1088

"""Start logging anywhere in a session.

1088

"""Start logging anywhere in a session.

1089

1090

%logstart [-o|-r|-t] [log_name [log_mode]]

1090

%logstart [-o|-r|-t] [log_name [log_mode]]

1091

1092

If no name is given, it defaults to a file named 'ipython_log.py' in your

1092

If no name is given, it defaults to a file named 'ipython_log.py' in your

1093

current directory, in 'rotate' mode (see below).

1093

current directory, in 'rotate' mode (see below).

1094

1095

'%logstart name' saves to file 'name' in 'backup' mode. It saves your

1095

'%logstart name' saves to file 'name' in 'backup' mode. It saves your

1096

history up to that point and then continues logging.

1096

history up to that point and then continues logging.

1097

1098

%logstart takes a second optional parameter: logging mode. This can be one

1098

%logstart takes a second optional parameter: logging mode. This can be one

1099

of (note that the modes are given unquoted):\\

1099

of (note that the modes are given unquoted):\\

1100

append: well, that says it.\\

1100

append: well, that says it.\\

1101

backup: rename (if exists) to name~ and start name.\\

1101

backup: rename (if exists) to name~ and start name.\\

1102

global: single logfile in your home dir, appended to.\\

1102

global: single logfile in your home dir, appended to.\\

1103

over : overwrite existing log.\\

1103

over : overwrite existing log.\\

1104

rotate: create rotating logs name.1~, name.2~, etc.

1104

rotate: create rotating logs name.1~, name.2~, etc.

1105

1106

Options:

1106

Options:

1107

1108

-o: log also IPython's output. In this mode, all commands which

1108

-o: log also IPython's output. In this mode, all commands which

1109

generate an Out[NN] prompt are recorded to the logfile, right after

1109

generate an Out[NN] prompt are recorded to the logfile, right after

1110

their corresponding input line. The output lines are always

1110

their corresponding input line. The output lines are always

1111

prepended with a '#[Out]# ' marker, so that the log remains valid

1111

prepended with a '#[Out]# ' marker, so that the log remains valid

1112

Python code.

1112

Python code.

1113

1114

Since this marker is always the same, filtering only the output from

1114

Since this marker is always the same, filtering only the output from

1115

a log is very easy, using for example a simple awk call:

1115

a log is very easy, using for example a simple awk call:

1116

1117

awk -F'#\\[Out\\]# ' '{if($2) {print $2}}' ipython_log.py

1117

awk -F'#\\[Out\\]# ' '{if($2) {print $2}}' ipython_log.py

1118

1119

-r: log 'raw' input. Normally, IPython's logs contain the processed

1119

-r: log 'raw' input. Normally, IPython's logs contain the processed

1120

input, so that user lines are logged in their final form, converted

1120

input, so that user lines are logged in their final form, converted

1121

into valid Python. For example, %Exit is logged as

1121

into valid Python. For example, %Exit is logged as

1122

'_ip.magic("Exit"). If the -r flag is given, all input is logged

1122

'_ip.magic("Exit"). If the -r flag is given, all input is logged

1123

exactly as typed, with no transformations applied.

1123

exactly as typed, with no transformations applied.

1124

1125

-t: put timestamps before each input line logged (these are put in

1125

-t: put timestamps before each input line logged (these are put in

1126

comments)."""

1126

comments)."""

1127

1128

opts,par = self.parse_options(parameter_s,'ort')

1128

opts,par = self.parse_options(parameter_s,'ort')

1129

log_output = 'o' in opts

1129

log_output = 'o' in opts

1130

log_raw_input = 'r' in opts

1130

log_raw_input = 'r' in opts

1131

timestamp = 't' in opts

1131

timestamp = 't' in opts

1132

1133

logger = self.shell.logger

1133

logger = self.shell.logger

1134

1135

# if no args are given, the defaults set in the logger constructor by

1135

# if no args are given, the defaults set in the logger constructor by

1136

# ipytohn remain valid

1136

# ipytohn remain valid

1137

if par:

1137

if par:

1138

try:

1138

try:

1139

logfname,logmode = par.split()

1139

logfname,logmode = par.split()

1140

except:

1140

except:

1141

logfname = par

1141

logfname = par

1142

logmode = 'backup'

1142

logmode = 'backup'

1143

else:

1143

else:

1144

logfname = logger.logfname

1144

logfname = logger.logfname

1145

logmode = logger.logmode

1145

logmode = logger.logmode

1146

# put logfname into rc struct as if it had been called on the command

1146

# put logfname into rc struct as if it had been called on the command

1147

# line, so it ends up saved in the log header Save it in case we need

1147

# line, so it ends up saved in the log header Save it in case we need

1148

# to restore it...

1148

# to restore it...

1149

old_logfile = self.shell.logfile

1149

old_logfile = self.shell.logfile

1150

if logfname:

1150

if logfname:

1151

logfname = os.path.expanduser(logfname)

1151

logfname = os.path.expanduser(logfname)

1152

self.shell.logfile = logfname

1152

self.shell.logfile = logfname

1153

1154

loghead = '# IPython log file\n\n'

1154

loghead = '# IPython log file\n\n'

1155

try:

1155

try:

1156

started = logger.logstart(logfname,loghead,logmode,

1156

started = logger.logstart(logfname,loghead,logmode,

1157

log_output,timestamp,log_raw_input)

1157

log_output,timestamp,log_raw_input)

1158

except:

1158

except:

1159

self.shell.logfile = old_logfile

1159

self.shell.logfile = old_logfile

1160

warn("Couldn't start log: %s" % sys.exc_info()[1])

1160

warn("Couldn't start log: %s" % sys.exc_info()[1])

1161

else:

1161

else:

1162

# log input history up to this point, optionally interleaving

1162

# log input history up to this point, optionally interleaving

1163

# output if requested

1163

# output if requested

1164

1165

if timestamp:

1165

if timestamp:

1166

# disable timestamping for the previous history, since we've

1166

# disable timestamping for the previous history, since we've

1167

# lost those already (no time machine here).

1167

# lost those already (no time machine here).

1168

logger.timestamp = False

1168

logger.timestamp = False

1169

1170

if log_raw_input:

1170

if log_raw_input:

1171

input_hist = self.shell.history_manager.input_hist_raw

1171

input_hist = self.shell.history_manager.input_hist_raw

1172

else:

1172

else:

1173

input_hist = self.shell.history_manager.input_hist_parsed

1173

input_hist = self.shell.history_manager.input_hist_parsed

1174

1175

if log_output:

1175

if log_output:

1176

log_write = logger.log_write

1176

log_write = logger.log_write

1177

output_hist = self.shell.history_manager.output_hist

1177

output_hist = self.shell.history_manager.output_hist

1178

for n in range(1,len(input_hist)-1):

1178

for n in range(1,len(input_hist)-1):

1179

log_write(input_hist[n].rstrip() + '\n')

1179

log_write(input_hist[n].rstrip() + '\n')

1180

if n in output_hist:

1180

if n in output_hist:

1181

log_write(repr(output_hist[n]),'output')

1181

log_write(repr(output_hist[n]),'output')

1182

else:

1182

else:

1183

logger.log_write('\n'.join(input_hist[1:]))

1183

logger.log_write('\n'.join(input_hist[1:]))

1184

logger.log_write('\n')

1184

logger.log_write('\n')

1185

if timestamp:

1185

if timestamp:

1186

# re-enable timestamping

1186

# re-enable timestamping

1187

logger.timestamp = True

1187

logger.timestamp = True

1188

1189

print ('Activating auto-logging. '

1189

print ('Activating auto-logging. '

1190

'Current session state plus future input saved.')

1190

'Current session state plus future input saved.')

1191

logger.logstate()

1191

logger.logstate()

1192

1193

def magic_logstop(self,parameter_s=''):

1193

def magic_logstop(self,parameter_s=''):

1194

"""Fully stop logging and close log file.

1194

"""Fully stop logging and close log file.

1195

1196

In order to start logging again, a new %logstart call needs to be made,

1196

In order to start logging again, a new %logstart call needs to be made,

1197

possibly (though not necessarily) with a new filename, mode and other

1197

possibly (though not necessarily) with a new filename, mode and other

1198

options."""

1198

options."""

1199

self.logger.logstop()

1199

self.logger.logstop()

1200

1201

def magic_logoff(self,parameter_s=''):

1201

def magic_logoff(self,parameter_s=''):

1202

"""Temporarily stop logging.

1202

"""Temporarily stop logging.

1203

1204

You must have previously started logging."""

1204

You must have previously started logging."""

1205

self.shell.logger.switch_log(0)

1205

self.shell.logger.switch_log(0)

1206

1207

def magic_logon(self,parameter_s=''):

1207

def magic_logon(self,parameter_s=''):

1208

"""Restart logging.

1208

"""Restart logging.

1209

1210

This function is for restarting logging which you've temporarily

1210

This function is for restarting logging which you've temporarily

1211

stopped with %logoff. For starting logging for the first time, you

1211

stopped with %logoff. For starting logging for the first time, you

1212

must use the %logstart function, which allows you to specify an

1212

must use the %logstart function, which allows you to specify an

1213

optional log filename."""

1213

optional log filename."""

1214

1215

self.shell.logger.switch_log(1)

1215

self.shell.logger.switch_log(1)

1216

1217

def magic_logstate(self,parameter_s=''):

1217

def magic_logstate(self,parameter_s=''):

1218

"""Print the status of the logging system."""

1218

"""Print the status of the logging system."""

1219

1220

self.shell.logger.logstate()

1220

self.shell.logger.logstate()

1221

1222

def magic_pdb(self, parameter_s=''):

1222

def magic_pdb(self, parameter_s=''):

1223

"""Control the automatic calling of the pdb interactive debugger.

1223

"""Control the automatic calling of the pdb interactive debugger.

1224

1225

Call as '%pdb on', '%pdb 1', '%pdb off' or '%pdb 0'. If called without

1225

Call as '%pdb on', '%pdb 1', '%pdb off' or '%pdb 0'. If called without

1226

argument it works as a toggle.

1226

argument it works as a toggle.

1227

1228

When an exception is triggered, IPython can optionally call the

1228

When an exception is triggered, IPython can optionally call the

1229

interactive pdb debugger after the traceback printout. %pdb toggles

1229

interactive pdb debugger after the traceback printout. %pdb toggles

1230

this feature on and off.

1230

this feature on and off.

1231

1232

The initial state of this feature is set in your configuration

1232

The initial state of this feature is set in your configuration

1233

file (the option is ``InteractiveShell.pdb``).

1233

file (the option is ``InteractiveShell.pdb``).

1234

1235

If you want to just activate the debugger AFTER an exception has fired,

1235

If you want to just activate the debugger AFTER an exception has fired,

1236

without having to type '%pdb on' and rerunning your code, you can use

1236

without having to type '%pdb on' and rerunning your code, you can use

1237

the %debug magic."""

1237

the %debug magic."""

1238

1239

par = parameter_s.strip().lower()

1239

par = parameter_s.strip().lower()

1240

1241

if par:

1241

if par:

1242

try:

1242

try:

1243

new_pdb = {'off':0,'0':0,'on':1,'1':1}[par]

1243

new_pdb = {'off':0,'0':0,'on':1,'1':1}[par]

1244

except KeyError:

1244

except KeyError:

1245

print ('Incorrect argument. Use on/1, off/0, '

1245

print ('Incorrect argument. Use on/1, off/0, '

1246

'or nothing for a toggle.')

1246

'or nothing for a toggle.')

1247

return

1247

return

1248

else:

1248

else:

1249

# toggle

1249

# toggle

1250

new_pdb = not self.shell.call_pdb

1250

new_pdb = not self.shell.call_pdb

1251

1252

# set on the shell

1252

# set on the shell

1253

self.shell.call_pdb = new_pdb

1253

self.shell.call_pdb = new_pdb

1254

print 'Automatic pdb calling has been turned',on_off(new_pdb)

1254

print 'Automatic pdb calling has been turned',on_off(new_pdb)

1255

1256

def magic_debug(self, parameter_s=''):

1256

def magic_debug(self, parameter_s=''):

1257

"""Activate the interactive debugger in post-mortem mode.

1257

"""Activate the interactive debugger in post-mortem mode.

1258

1259

If an exception has just occurred, this lets you inspect its stack

1259

If an exception has just occurred, this lets you inspect its stack

1260

frames interactively. Note that this will always work only on the last

1260

frames interactively. Note that this will always work only on the last

1261

traceback that occurred, so you must call this quickly after an

1261

traceback that occurred, so you must call this quickly after an

1262

exception that you wish to inspect has fired, because if another one

1262

exception that you wish to inspect has fired, because if another one

1263

occurs, it clobbers the previous one.

1263

occurs, it clobbers the previous one.

1264

1265

If you want IPython to automatically do this on every exception, see

1265

If you want IPython to automatically do this on every exception, see

1266

the %pdb magic for more details.

1266

the %pdb magic for more details.

1267

"""

1267

"""

1268

self.shell.debugger(force=True)

1268

self.shell.debugger(force=True)

1269

1270

@skip_doctest

1270

@skip_doctest

1271

def magic_prun(self, parameter_s ='',user_mode=1,

1271

def magic_prun(self, parameter_s ='',user_mode=1,

1272

opts=None,arg_lst=None,prog_ns=None):

1272

opts=None,arg_lst=None,prog_ns=None):

1273

1274

"""Run a statement through the python code profiler.

1274

"""Run a statement through the python code profiler.

1275

1276

Usage:

1276

Usage:

1277

%prun [options] statement

1277

%prun [options] statement

1278

1279

The given statement (which doesn't require quote marks) is run via the

1279

The given statement (which doesn't require quote marks) is run via the

1280

python profiler in a manner similar to the profile.run() function.

1280

python profiler in a manner similar to the profile.run() function.

1281

Namespaces are internally managed to work correctly; profile.run

1281

Namespaces are internally managed to work correctly; profile.run

1282

cannot be used in IPython because it makes certain assumptions about

1282

cannot be used in IPython because it makes certain assumptions about

1283

namespaces which do not hold under IPython.

1283

namespaces which do not hold under IPython.

1284

1285

Options:

1285

Options:

1286

1287

-l <limit>: you can place restrictions on what or how much of the

1287

-l <limit>: you can place restrictions on what or how much of the

1288

profile gets printed. The limit value can be:

1288

profile gets printed. The limit value can be:

1289

1290

* A string: only information for function names containing this string

1290

* A string: only information for function names containing this string

1291

is printed.

1291

is printed.

1292

1293

* An integer: only these many lines are printed.

1293

* An integer: only these many lines are printed.

1294

1295

* A float (between 0 and 1): this fraction of the report is printed

1295

* A float (between 0 and 1): this fraction of the report is printed

1296

(for example, use a limit of 0.4 to see the topmost 40% only).

1296

(for example, use a limit of 0.4 to see the topmost 40% only).

1297

1298

You can combine several limits with repeated use of the option. For

1298

You can combine several limits with repeated use of the option. For

1299

example, '-l __init__ -l 5' will print only the topmost 5 lines of

1299

example, '-l __init__ -l 5' will print only the topmost 5 lines of

1300

information about class constructors.

1300

information about class constructors.

1301

1302

-r: return the pstats.Stats object generated by the profiling. This

1302

-r: return the pstats.Stats object generated by the profiling. This

1303

object has all the information about the profile in it, and you can

1303

object has all the information about the profile in it, and you can

1304

later use it for further analysis or in other functions.

1304

later use it for further analysis or in other functions.

1305

1306

-s <key>: sort profile by given key. You can provide more than one key

1306

-s <key>: sort profile by given key. You can provide more than one key

1307

by using the option several times: '-s key1 -s key2 -s key3...'. The

1307

by using the option several times: '-s key1 -s key2 -s key3...'. The

1308

default sorting key is 'time'.

1308

default sorting key is 'time'.

1309

1310

The following is copied verbatim from the profile documentation

1310

The following is copied verbatim from the profile documentation

1311

referenced below:

1311

referenced below:

1312

1313

When more than one key is provided, additional keys are used as

1313

When more than one key is provided, additional keys are used as

1314

secondary criteria when the there is equality in all keys selected

1314

secondary criteria when the there is equality in all keys selected

1315

before them.

1315

before them.

1316

1317

Abbreviations can be used for any key names, as long as the

1317

Abbreviations can be used for any key names, as long as the

1318

abbreviation is unambiguous. The following are the keys currently

1318

abbreviation is unambiguous. The following are the keys currently

1319

defined:

1319

defined:

1320

1321

Valid Arg Meaning

1321

Valid Arg Meaning

1322

"calls" call count

1322

"calls" call count

1323

"cumulative" cumulative time

1323

"cumulative" cumulative time

1324

"file" file name

1324

"file" file name

1325

"module" file name

1325

"module" file name

1326

"pcalls" primitive call count

1326

"pcalls" primitive call count

1327

"line" line number

1327

"line" line number

1328

"name" function name

1328

"name" function name

1329

"nfl" name/file/line

1329

"nfl" name/file/line

1330

"stdname" standard name

1330

"stdname" standard name

1331

"time" internal time

1331

"time" internal time

1332

1333

Note that all sorts on statistics are in descending order (placing

1333

Note that all sorts on statistics are in descending order (placing

1334

most time consuming items first), where as name, file, and line number

1334

most time consuming items first), where as name, file, and line number

1335

searches are in ascending order (i.e., alphabetical). The subtle

1335

searches are in ascending order (i.e., alphabetical). The subtle

1336

distinction between "nfl" and "stdname" is that the standard name is a

1336

distinction between "nfl" and "stdname" is that the standard name is a

1337

sort of the name as printed, which means that the embedded line

1337

sort of the name as printed, which means that the embedded line

1338

numbers get compared in an odd way. For example, lines 3, 20, and 40

1338

numbers get compared in an odd way. For example, lines 3, 20, and 40

1339

would (if the file names were the same) appear in the string order

1339

would (if the file names were the same) appear in the string order

1340

"20" "3" and "40". In contrast, "nfl" does a numeric compare of the

1340

"20" "3" and "40". In contrast, "nfl" does a numeric compare of the

1341

line numbers. In fact, sort_stats("nfl") is the same as

1341

line numbers. In fact, sort_stats("nfl") is the same as

1342

sort_stats("name", "file", "line").

1342

sort_stats("name", "file", "line").

1343

1344

-T <filename>: save profile results as shown on screen to a text

1344

-T <filename>: save profile results as shown on screen to a text

1345

file. The profile is still shown on screen.

1345

file. The profile is still shown on screen.

1346

1347

-D <filename>: save (via dump_stats) profile statistics to given

1347

-D <filename>: save (via dump_stats) profile statistics to given

1348

filename. This data is in a format understod by the pstats module, and

1348

filename. This data is in a format understod by the pstats module, and

1349

is generated by a call to the dump_stats() method of profile

1349

is generated by a call to the dump_stats() method of profile

1350

objects. The profile is still shown on screen.

1350

objects. The profile is still shown on screen.

1351

1352

If you want to run complete programs under the profiler's control, use

1352

If you want to run complete programs under the profiler's control, use

1353

'%run -p [prof_opts] filename.py [args to program]' where prof_opts

1353

'%run -p [prof_opts] filename.py [args to program]' where prof_opts

1354

contains profiler specific options as described here.

1354

contains profiler specific options as described here.

1355

1356

You can read the complete documentation for the profile module with::

1356

You can read the complete documentation for the profile module with::

1357

1358

In [1]: import profile; profile.help()

1358

In [1]: import profile; profile.help()

1359

"""

1359

"""

1360

1361

opts_def = Struct(D=[''],l=[],s=['time'],T=[''])

1361

opts_def = Struct(D=[''],l=[],s=['time'],T=[''])

1362

# protect user quote marks

1362

# protect user quote marks

1363

parameter_s = parameter_s.replace('"',r'\"').replace("'",r"\'")

1363

parameter_s = parameter_s.replace('"',r'\"').replace("'",r"\'")

1364

1365

if user_mode: # regular user call

1365

if user_mode: # regular user call

1366

opts,arg_str = self.parse_options(parameter_s,'D:l:rs:T:',

1366

opts,arg_str = self.parse_options(parameter_s,'D:l:rs:T:',

1367

list_all=1)

1367

list_all=1)

1368

namespace = self.shell.user_ns

1368

namespace = self.shell.user_ns

1369

else: # called to run a program by %run -p

1369

else: # called to run a program by %run -p

1370

try:

1370

try:

1371

filename = get_py_filename(arg_lst[0])

1371

filename = get_py_filename(arg_lst[0])

1372

except IOError,msg:

1372

except IOError,msg:

1373

error(msg)

1373

error(msg)

1374

return

1374

return

1375

1376

arg_str = 'execfile(filename,prog_ns)'

1376

arg_str = 'execfile(filename,prog_ns)'

1377

namespace = locals()

1377

namespace = locals()

1378

1379

opts.merge(opts_def)

1379

opts.merge(opts_def)

1380

1381

prof = profile.Profile()

1381

prof = profile.Profile()

1382

try:

1382

try:

1383

prof = prof.runctx(arg_str,namespace,namespace)

1383

prof = prof.runctx(arg_str,namespace,namespace)

1384

sys_exit = ''

1384

sys_exit = ''

1385

except SystemExit:

1385

except SystemExit:

1386

sys_exit = """*** SystemExit exception caught in code being profiled."""

1386

sys_exit = """*** SystemExit exception caught in code being profiled."""

1387

1388

stats = pstats.Stats(prof).strip_dirs().sort_stats(*opts.s)

1388

stats = pstats.Stats(prof).strip_dirs().sort_stats(*opts.s)

1389

1390

lims = opts.l

1390

lims = opts.l

1391

if lims:

1391

if lims:

1392

lims = [] # rebuild lims with ints/floats/strings

1392

lims = [] # rebuild lims with ints/floats/strings

1393

for lim in opts.l:

1393

for lim in opts.l:

1394

try:

1394

try:

1395

lims.append(int(lim))

1395

lims.append(int(lim))

1396

except ValueError:

1396

except ValueError:

1397

try:

1397

try:

1398

lims.append(float(lim))

1398

lims.append(float(lim))

1399

except ValueError:

1399

except ValueError:

1400

lims.append(lim)

1400

lims.append(lim)

1401

1402

# Trap output.

1402

# Trap output.

1403

stdout_trap = StringIO()

1403

stdout_trap = StringIO()

1404

1405

if hasattr(stats,'stream'):

1405

if hasattr(stats,'stream'):

1406

# In newer versions of python, the stats object has a 'stream'

1406

# In newer versions of python, the stats object has a 'stream'

1407

# attribute to write into.

1407

# attribute to write into.

1408

stats.stream = stdout_trap

1408

stats.stream = stdout_trap

1409

stats.print_stats(*lims)

1409

stats.print_stats(*lims)

1410

else:

1410

else:

1411

# For older versions, we manually redirect stdout during printing

1411

# For older versions, we manually redirect stdout during printing

1412

sys_stdout = sys.stdout

1412

sys_stdout = sys.stdout

1413

try:

1413

try:

1414

sys.stdout = stdout_trap

1414

sys.stdout = stdout_trap

1415

stats.print_stats(*lims)

1415

stats.print_stats(*lims)

1416

finally:

1416

finally:

1417

sys.stdout = sys_stdout

1417

sys.stdout = sys_stdout

1418

1419

output = stdout_trap.getvalue()

1419

output = stdout_trap.getvalue()

1420

output = output.rstrip()

1420

output = output.rstrip()

1421

1422

page.page(output)

1422

page.page(output)

1423

print sys_exit,

1423

print sys_exit,

1424

1425

dump_file = opts.D[0]

1425

dump_file = opts.D[0]

1426

text_file = opts.T[0]

1426

text_file = opts.T[0]

1427

if dump_file:

1427

if dump_file:

1428

prof.dump_stats(dump_file)

1428

prof.dump_stats(dump_file)

1429

print '\n*** Profile stats marshalled to file',\

1429

print '\n*** Profile stats marshalled to file',\

1430

`dump_file`+'.',sys_exit

1430

`dump_file`+'.',sys_exit

1431

if text_file:

1431

if text_file:

1432

pfile = file(text_file,'w')

1432

pfile = file(text_file,'w')

1433

pfile.write(output)

1433

pfile.write(output)

1434

pfile.close()

1434

pfile.close()

1435

print '\n*** Profile printout saved to text file',\

1435

print '\n*** Profile printout saved to text file',\

1436

`text_file`+'.',sys_exit

1436

`text_file`+'.',sys_exit

1437

1438

if opts.has_key('r'):

1438

if opts.has_key('r'):

1439

return stats

1439

return stats

1440

else:

1440

else:

1441

return None

1441

return None

1442

1443

@skip_doctest

1443

@skip_doctest

1444

def magic_run(self, parameter_s ='',runner=None,

1444

def magic_run(self, parameter_s ='',runner=None,

1445

file_finder=get_py_filename):

1445

file_finder=get_py_filename):

1446

"""Run the named file inside IPython as a program.

1446

"""Run the named file inside IPython as a program.

1447

1448

Usage:\\

1448

Usage:\\

1449

%run [-n -i -t [-N<N>] -d [-b<N>] -p [profile options]] file [args]

1449

%run [-n -i -t [-N<N>] -d [-b<N>] -p [profile options]] file [args]

1450

1451

Parameters after the filename are passed as command-line arguments to

1451

Parameters after the filename are passed as command-line arguments to

1452

the program (put in sys.argv). Then, control returns to IPython's

1452

the program (put in sys.argv). Then, control returns to IPython's

1453

prompt.

1453

prompt.

1454

1455

This is similar to running at a system prompt:\\

1455

This is similar to running at a system prompt:\\

1456

$ python file args\\

1456

$ python file args\\

1457

but with the advantage of giving you IPython's tracebacks, and of

1457

but with the advantage of giving you IPython's tracebacks, and of

1458

loading all variables into your interactive namespace for further use

1458

loading all variables into your interactive namespace for further use

1459

(unless -p is used, see below).

1459

(unless -p is used, see below).

1460

1461

The file is executed in a namespace initially consisting only of

1461

The file is executed in a namespace initially consisting only of

1462

__name__=='__main__' and sys.argv constructed as indicated. It thus

1462

__name__=='__main__' and sys.argv constructed as indicated. It thus

1463

sees its environment as if it were being run as a stand-alone program

1463

sees its environment as if it were being run as a stand-alone program

1464

(except for sharing global objects such as previously imported

1464

(except for sharing global objects such as previously imported

1465

modules). But after execution, the IPython interactive namespace gets

1465

modules). But after execution, the IPython interactive namespace gets

1466

updated with all variables defined in the program (except for __name__

1466

updated with all variables defined in the program (except for __name__

1467

and sys.argv). This allows for very convenient loading of code for

1467

and sys.argv). This allows for very convenient loading of code for

1468

interactive work, while giving each program a 'clean sheet' to run in.

1468

interactive work, while giving each program a 'clean sheet' to run in.

1469

1470

Options:

1470

Options:

1471

1472

-n: __name__ is NOT set to '__main__', but to the running file's name

1472

-n: __name__ is NOT set to '__main__', but to the running file's name

1473

without extension (as python does under import). This allows running

1473

without extension (as python does under import). This allows running

1474

scripts and reloading the definitions in them without calling code

1474

scripts and reloading the definitions in them without calling code

1475

protected by an ' if __name__ == "__main__" ' clause.

1475

protected by an ' if __name__ == "__main__" ' clause.

1476

1477

-i: run the file in IPython's namespace instead of an empty one. This

1477

-i: run the file in IPython's namespace instead of an empty one. This

1478

is useful if you are experimenting with code written in a text editor

1478

is useful if you are experimenting with code written in a text editor

1479

which depends on variables defined interactively.

1479

which depends on variables defined interactively.

1480

1481

-e: ignore sys.exit() calls or SystemExit exceptions in the script

1481

-e: ignore sys.exit() calls or SystemExit exceptions in the script

1482

being run. This is particularly useful if IPython is being used to

1482

being run. This is particularly useful if IPython is being used to

1483

run unittests, which always exit with a sys.exit() call. In such

1483

run unittests, which always exit with a sys.exit() call. In such

1484

cases you are interested in the output of the test results, not in

1484

cases you are interested in the output of the test results, not in

1485

seeing a traceback of the unittest module.

1485

seeing a traceback of the unittest module.

1486

1487

-t: print timing information at the end of the run. IPython will give

1487

-t: print timing information at the end of the run. IPython will give

1488

you an estimated CPU time consumption for your script, which under

1488

you an estimated CPU time consumption for your script, which under

1489

Unix uses the resource module to avoid the wraparound problems of

1489

Unix uses the resource module to avoid the wraparound problems of

1490

time.clock(). Under Unix, an estimate of time spent on system tasks

1490

time.clock(). Under Unix, an estimate of time spent on system tasks

1491

is also given (for Windows platforms this is reported as 0.0).

1491

is also given (for Windows platforms this is reported as 0.0).

1492

1493

If -t is given, an additional -N<N> option can be given, where <N>

1493

If -t is given, an additional -N<N> option can be given, where <N>

1494

must be an integer indicating how many times you want the script to

1494

must be an integer indicating how many times you want the script to

1495

run. The final timing report will include total and per run results.

1495

run. The final timing report will include total and per run results.

1496

1497

For example (testing the script uniq_stable.py):

1497

For example (testing the script uniq_stable.py):

1498

1499

In [1]: run -t uniq_stable

1499

In [1]: run -t uniq_stable

1500

1501

IPython CPU timings (estimated):\\

1501

IPython CPU timings (estimated):\\

1502

User : 0.19597 s.\\

1502

User : 0.19597 s.\\

1503

System: 0.0 s.\\

1503

System: 0.0 s.\\

1504

1505

In [2]: run -t -N5 uniq_stable

1505

In [2]: run -t -N5 uniq_stable

1506

1507

IPython CPU timings (estimated):\\

1507

IPython CPU timings (estimated):\\

1508

Total runs performed: 5\\

1508

Total runs performed: 5\\

1509

Times : Total Per run\\

1509

Times : Total Per run\\

1510

User : 0.910862 s, 0.1821724 s.\\

1510

User : 0.910862 s, 0.1821724 s.\\

1511

System: 0.0 s, 0.0 s.

1511

System: 0.0 s, 0.0 s.

1512

1513

-d: run your program under the control of pdb, the Python debugger.

1513

-d: run your program under the control of pdb, the Python debugger.

1514

This allows you to execute your program step by step, watch variables,

1514

This allows you to execute your program step by step, watch variables,

1515

etc. Internally, what IPython does is similar to calling:

1515

etc. Internally, what IPython does is similar to calling:

1516

1517

pdb.run('execfile("YOURFILENAME")')

1517

pdb.run('execfile("YOURFILENAME")')

1518

1519

with a breakpoint set on line 1 of your file. You can change the line

1519

with a breakpoint set on line 1 of your file. You can change the line

1520

number for this automatic breakpoint to be <N> by using the -bN option

1520

number for this automatic breakpoint to be <N> by using the -bN option

1521

(where N must be an integer). For example:

1521

(where N must be an integer). For example:

1522

1523

%run -d -b40 myscript

1523

%run -d -b40 myscript

1524

1525

will set the first breakpoint at line 40 in myscript.py. Note that

1525

will set the first breakpoint at line 40 in myscript.py. Note that

1526

the first breakpoint must be set on a line which actually does

1526

the first breakpoint must be set on a line which actually does

1527

something (not a comment or docstring) for it to stop execution.

1527

something (not a comment or docstring) for it to stop execution.

1528

1529

When the pdb debugger starts, you will see a (Pdb) prompt. You must

1529

When the pdb debugger starts, you will see a (Pdb) prompt. You must

1530

first enter 'c' (without qoutes) to start execution up to the first

1530

first enter 'c' (without qoutes) to start execution up to the first

1531

breakpoint.

1531

breakpoint.

1532

1533

Entering 'help' gives information about the use of the debugger. You

1533

Entering 'help' gives information about the use of the debugger. You

1534

can easily see pdb's full documentation with "import pdb;pdb.help()"

1534

can easily see pdb's full documentation with "import pdb;pdb.help()"

1535

at a prompt.

1535

at a prompt.

1536

1537

-p: run program under the control of the Python profiler module (which

1537

-p: run program under the control of the Python profiler module (which

1538

prints a detailed report of execution times, function calls, etc).

1538

prints a detailed report of execution times, function calls, etc).

1539

1540

You can pass other options after -p which affect the behavior of the

1540

You can pass other options after -p which affect the behavior of the

1541

profiler itself. See the docs for %prun for details.

1541

profiler itself. See the docs for %prun for details.

1542

1543

In this mode, the program's variables do NOT propagate back to the

1543

In this mode, the program's variables do NOT propagate back to the

1544

IPython interactive namespace (because they remain in the namespace

1544

IPython interactive namespace (because they remain in the namespace

1545

where the profiler executes them).

1545

where the profiler executes them).

1546

1547

Internally this triggers a call to %prun, see its documentation for

1547

Internally this triggers a call to %prun, see its documentation for

1548

details on the options available specifically for profiling.

1548

details on the options available specifically for profiling.

1549

1550

There is one special usage for which the text above doesn't apply:

1550

There is one special usage for which the text above doesn't apply:

1551

if the filename ends with .ipy, the file is run as ipython script,

1551

if the filename ends with .ipy, the file is run as ipython script,

1552

just as if the commands were written on IPython prompt.

1552

just as if the commands were written on IPython prompt.

1553

"""

1553

"""

1554

1555

# get arguments and set sys.argv for program to be run.

1555

# get arguments and set sys.argv for program to be run.

1556

opts,arg_lst = self.parse_options(parameter_s,'nidtN:b:pD:l:rs:T:e',

1556

opts,arg_lst = self.parse_options(parameter_s,'nidtN:b:pD:l:rs:T:e',

1557

mode='list',list_all=1)

1557

mode='list',list_all=1)

1558

1559

try:

1559

try:

1560

filename = file_finder(arg_lst[0])

1560

filename = file_finder(arg_lst[0])

1561

except IndexError:

1561

except IndexError:

1562

warn('you must provide at least a filename.')

1562

warn('you must provide at least a filename.')

1563

print '\n%run:\n',oinspect.getdoc(self.magic_run)

1563

print '\n%run:\n',oinspect.getdoc(self.magic_run)

1564

return

1564

return

1565

except IOError,msg:

1565

except IOError,msg:

1566

error(msg)

1566

error(msg)

1567

return

1567

return

1568

1569

if filename.lower().endswith('.ipy'):

1569

if filename.lower().endswith('.ipy'):

1570

self.shell.safe_execfile_ipy(filename)

1570

self.shell.safe_execfile_ipy(filename)

1571

return

1571

return

1572

1573

# Control the response to exit() calls made by the script being run

1573

# Control the response to exit() calls made by the script being run

1574

exit_ignore = opts.has_key('e')

1574

exit_ignore = opts.has_key('e')

1575

1576

# Make sure that the running script gets a proper sys.argv as if it

1576

# Make sure that the running script gets a proper sys.argv as if it

1577

# were run from a system shell.

1577

# were run from a system shell.

1578

save_argv = sys.argv # save it for later restoring

1578

save_argv = sys.argv # save it for later restoring

1579

1580

# simulate shell expansion on arguments, at least tilde expansion

1580

# simulate shell expansion on arguments, at least tilde expansion

1581

args = [ os.path.expanduser(a) for a in arg_lst[1:] ]

1581

args = [ os.path.expanduser(a) for a in arg_lst[1:] ]

1582

1583

sys.argv = [filename]+ args # put in the proper filename

1583

sys.argv = [filename]+ args # put in the proper filename

1584

1585

if opts.has_key('i'):

1585

if opts.has_key('i'):

1586

# Run in user's interactive namespace

1586

# Run in user's interactive namespace

1587

prog_ns = self.shell.user_ns

1587

prog_ns = self.shell.user_ns

1588

__name__save = self.shell.user_ns['__name__']

1588

__name__save = self.shell.user_ns['__name__']

1589

prog_ns['__name__'] = '__main__'

1589

prog_ns['__name__'] = '__main__'

1590

main_mod = self.shell.new_main_mod(prog_ns)

1590

main_mod = self.shell.new_main_mod(prog_ns)

1591

else:

1591

else:

1592

# Run in a fresh, empty namespace

1592

# Run in a fresh, empty namespace

1593

if opts.has_key('n'):

1593

if opts.has_key('n'):

1594

name = os.path.splitext(os.path.basename(filename))[0]

1594

name = os.path.splitext(os.path.basename(filename))[0]

1595

else:

1595

else:

1596

name = '__main__'

1596

name = '__main__'

1597

1598

main_mod = self.shell.new_main_mod()

1598

main_mod = self.shell.new_main_mod()

1599

prog_ns = main_mod.__dict__

1599

prog_ns = main_mod.__dict__

1600

prog_ns['__name__'] = name

1600

prog_ns['__name__'] = name

1601

1602

# Since '%run foo' emulates 'python foo.py' at the cmd line, we must

1602

# Since '%run foo' emulates 'python foo.py' at the cmd line, we must

1603

# set the __file__ global in the script's namespace

1603

# set the __file__ global in the script's namespace

1604

prog_ns['__file__'] = filename

1604

prog_ns['__file__'] = filename

1605

1606

# pickle fix. See interactiveshell for an explanation. But we need to make sure

1606

# pickle fix. See interactiveshell for an explanation. But we need to make sure

1607

# that, if we overwrite __main__, we replace it at the end

1607

# that, if we overwrite __main__, we replace it at the end

1608

main_mod_name = prog_ns['__name__']

1608

main_mod_name = prog_ns['__name__']

1609

1610

if main_mod_name == '__main__':

1610

if main_mod_name == '__main__':

1611

restore_main = sys.modules['__main__']

1611

restore_main = sys.modules['__main__']

1612

else:

1612

else:

1613

restore_main = False

1613

restore_main = False

1614

1615

# This needs to be undone at the end to prevent holding references to

1615

# This needs to be undone at the end to prevent holding references to

1616

# every single object ever created.

1616

# every single object ever created.

1617

sys.modules[main_mod_name] = main_mod

1617

sys.modules[main_mod_name] = main_mod

1618

1619

try:

1619

try:

1620

stats = None

1620

stats = None

1621

with self.readline_no_record:

1621

with self.readline_no_record:

1622

if opts.has_key('p'):

1622

if opts.has_key('p'):

1623

stats = self.magic_prun('',0,opts,arg_lst,prog_ns)

1623

stats = self.magic_prun('',0,opts,arg_lst,prog_ns)

1624

else:

1624

else:

1625

if opts.has_key('d'):

1625

if opts.has_key('d'):

1626

deb = debugger.Pdb(self.shell.colors)

1626

deb = debugger.Pdb(self.shell.colors)

1627

# reset Breakpoint state, which is moronically kept

1627

# reset Breakpoint state, which is moronically kept

1628

# in a class

1628

# in a class

1629

bdb.Breakpoint.next = 1

1629

bdb.Breakpoint.next = 1

1630

bdb.Breakpoint.bplist = {}

1630

bdb.Breakpoint.bplist = {}

1631

bdb.Breakpoint.bpbynumber = [None]

1631

bdb.Breakpoint.bpbynumber = [None]

1632

# Set an initial breakpoint to stop execution

1632

# Set an initial breakpoint to stop execution

1633

maxtries = 10

1633

maxtries = 10

1634

bp = int(opts.get('b',[1])[0])

1634

bp = int(opts.get('b',[1])[0])

1635

checkline = deb.checkline(filename,bp)

1635

checkline = deb.checkline(filename,bp)

1636

if not checkline:

1636

if not checkline:

1637

for bp in range(bp+1,bp+maxtries+1):

1637

for bp in range(bp+1,bp+maxtries+1):

1638

if deb.checkline(filename,bp):

1638

if deb.checkline(filename,bp):

1639

break

1639

break

1640

else:

1640

else:

1641

msg = ("\nI failed to find a valid line to set "

1641

msg = ("\nI failed to find a valid line to set "

1642

"a breakpoint\n"

1642

"a breakpoint\n"

1643

"after trying up to line: %s.\n"

1643

"after trying up to line: %s.\n"

1644

"Please set a valid breakpoint manually "

1644

"Please set a valid breakpoint manually "

1645

"with the -b option." % bp)

1645

"with the -b option." % bp)

1646

error(msg)

1646

error(msg)

1647

return

1647

return

1648

# if we find a good linenumber, set the breakpoint

1648

# if we find a good linenumber, set the breakpoint

1649

deb.do_break('%s:%s' % (filename,bp))

1649

deb.do_break('%s:%s' % (filename,bp))

1650

# Start file run

1650

# Start file run

1651

print "NOTE: Enter 'c' at the",

1651

print "NOTE: Enter 'c' at the",

1652

print "%s prompt to start your script." % deb.prompt

1652

print "%s prompt to start your script." % deb.prompt

1653

try:

1653

try:

1654

deb.run('execfile("%s")' % filename,prog_ns)

1654

deb.run('execfile("%s")' % filename,prog_ns)

1655

1656

except:

1656

except:

1657

etype, value, tb = sys.exc_info()

1657

etype, value, tb = sys.exc_info()

1658

# Skip three frames in the traceback: the %run one,

1658

# Skip three frames in the traceback: the %run one,

1659

# one inside bdb.py, and the command-line typed by the

1659

# one inside bdb.py, and the command-line typed by the

1660

# user (run by exec in pdb itself).

1660

# user (run by exec in pdb itself).

1661

self.shell.InteractiveTB(etype,value,tb,tb_offset=3)

1661

self.shell.InteractiveTB(etype,value,tb,tb_offset=3)

1662

else:

1662

else:

1663

if runner is None:

1663

if runner is None:

1664

runner = self.shell.safe_execfile

1664

runner = self.shell.safe_execfile

1665

if opts.has_key('t'):

1665

if opts.has_key('t'):

1666

# timed execution

1666

# timed execution

1667

try:

1667

try:

1668

nruns = int(opts['N'][0])

1668

nruns = int(opts['N'][0])

1669

if nruns < 1:

1669

if nruns < 1:

1670

error('Number of runs must be >=1')

1670

error('Number of runs must be >=1')

1671

return

1671

return

1672

except (KeyError):

1672

except (KeyError):

1673

nruns = 1

1673

nruns = 1

1674

twall0 = time.time()

1674

twall0 = time.time()

1675

if nruns == 1:

1675

if nruns == 1:

1676

t0 = clock2()

1676

t0 = clock2()

1677

runner(filename,prog_ns,prog_ns,

1677

runner(filename,prog_ns,prog_ns,

1678

exit_ignore=exit_ignore)

1678

exit_ignore=exit_ignore)

1679

t1 = clock2()

1679

t1 = clock2()

1680

t_usr = t1[0]-t0[0]

1680

t_usr = t1[0]-t0[0]

1681

t_sys = t1[1]-t0[1]

1681

t_sys = t1[1]-t0[1]

1682

print "\nIPython CPU timings (estimated):"

1682

print "\nIPython CPU timings (estimated):"

1683

print " User : %10.2f s." % t_usr

1683

print " User : %10.2f s." % t_usr

1684

print " System : %10.2f s." % t_sys

1684

print " System : %10.2f s." % t_sys

1685

else:

1685

else:

1686

runs = range(nruns)

1686

runs = range(nruns)

1687

t0 = clock2()

1687

t0 = clock2()

1688

for nr in runs:

1688

for nr in runs:

1689

runner(filename,prog_ns,prog_ns,

1689

runner(filename,prog_ns,prog_ns,

1690

exit_ignore=exit_ignore)

1690

exit_ignore=exit_ignore)

1691

t1 = clock2()

1691

t1 = clock2()

1692

t_usr = t1[0]-t0[0]

1692

t_usr = t1[0]-t0[0]

1693

t_sys = t1[1]-t0[1]

1693

t_sys = t1[1]-t0[1]

1694

print "\nIPython CPU timings (estimated):"

1694

print "\nIPython CPU timings (estimated):"

1695

print "Total runs performed:",nruns

1695

print "Total runs performed:",nruns

1696

print " Times : %10.2f %10.2f" % ('Total','Per run')

1696

print " Times : %10.2f %10.2f" % ('Total','Per run')

1697

print " User : %10.2f s, %10.2f s." % (t_usr,t_usr/nruns)

1697

print " User : %10.2f s, %10.2f s." % (t_usr,t_usr/nruns)

1698

print " System : %10.2f s, %10.2f s." % (t_sys,t_sys/nruns)

1698

print " System : %10.2f s, %10.2f s." % (t_sys,t_sys/nruns)

1699

twall1 = time.time()

1699

twall1 = time.time()

1700

print "Wall time: %10.2f s." % (twall1-twall0)

1700

print "Wall time: %10.2f s." % (twall1-twall0)

1701

1702

else:

1702

else:

1703

# regular execution

1703

# regular execution

1704

runner(filename,prog_ns,prog_ns,exit_ignore=exit_ignore)

1704

runner(filename,prog_ns,prog_ns,exit_ignore=exit_ignore)

1705

1706

if opts.has_key('i'):

1706

if opts.has_key('i'):

1707

self.shell.user_ns['__name__'] = __name__save

1707

self.shell.user_ns['__name__'] = __name__save

1708

else:

1708

else:

1709

# The shell MUST hold a reference to prog_ns so after %run

1709

# The shell MUST hold a reference to prog_ns so after %run

1710

# exits, the python deletion mechanism doesn't zero it out

1710

# exits, the python deletion mechanism doesn't zero it out

1711

# (leaving dangling references).

1711

# (leaving dangling references).

1712

self.shell.cache_main_mod(prog_ns,filename)

1712

self.shell.cache_main_mod(prog_ns,filename)

1713

# update IPython interactive namespace

1713

# update IPython interactive namespace

1714

1715

# Some forms of read errors on the file may mean the

1715

# Some forms of read errors on the file may mean the

1716

# __name__ key was never set; using pop we don't have to

1716

# __name__ key was never set; using pop we don't have to

1717

# worry about a possible KeyError.

1717

# worry about a possible KeyError.

1718

prog_ns.pop('__name__', None)

1718

prog_ns.pop('__name__', None)

1719

1720

self.shell.user_ns.update(prog_ns)

1720

self.shell.user_ns.update(prog_ns)

1721

finally:

1721

finally:

1722

# It's a bit of a mystery why, but __builtins__ can change from

1722

# It's a bit of a mystery why, but __builtins__ can change from

1723

# being a module to becoming a dict missing some key data after

1723

# being a module to becoming a dict missing some key data after

1724

# %run. As best I can see, this is NOT something IPython is doing

1724

# %run. As best I can see, this is NOT something IPython is doing

1725

# at all, and similar problems have been reported before:

1725

# at all, and similar problems have been reported before:

1726

# http://coding.derkeiler.com/Archive/Python/comp.lang.python/2004-10/0188.html

1726

# http://coding.derkeiler.com/Archive/Python/comp.lang.python/2004-10/0188.html

1727

# Since this seems to be done by the interpreter itself, the best

1727

# Since this seems to be done by the interpreter itself, the best

1728

# we can do is to at least restore __builtins__ for the user on

1728

# we can do is to at least restore __builtins__ for the user on

1729

# exit.

1729

# exit.

1730

self.shell.user_ns['__builtins__'] = __builtin__

1730

self.shell.user_ns['__builtins__'] = __builtin__

1731

1732

# Ensure key global structures are restored

1732

# Ensure key global structures are restored

1733

sys.argv = save_argv

1733

sys.argv = save_argv

1734

if restore_main:

1734

if restore_main:

1735

sys.modules['__main__'] = restore_main

1735

sys.modules['__main__'] = restore_main

1736

else:

1736

else:

1737

# Remove from sys.modules the reference to main_mod we'd

1737

# Remove from sys.modules the reference to main_mod we'd

1738

# added. Otherwise it will trap references to objects

1738

# added. Otherwise it will trap references to objects

1739

# contained therein.

1739

# contained therein.

1740

del sys.modules[main_mod_name]

1740

del sys.modules[main_mod_name]

1741

1742

return stats

1742

return stats

1743

1744

@skip_doctest

1744

@skip_doctest

1745

def magic_timeit(self, parameter_s =''):

1745

def magic_timeit(self, parameter_s =''):

1746

"""Time execution of a Python statement or expression

1746

"""Time execution of a Python statement or expression

1747

1748

Usage:\\

1748

Usage:\\

1749

%timeit [-n<N> -r<R> [-t|-c]] statement

1749

%timeit [-n<N> -r<R> [-t|-c]] statement

1750

1751

Time execution of a Python statement or expression using the timeit

1751

Time execution of a Python statement or expression using the timeit

1752

module.

1752

module.

1753

1754

Options:

1754

Options:

1755

-n<N>: execute the given statement <N> times in a loop. If this value

1755

-n<N>: execute the given statement <N> times in a loop. If this value

1756

is not given, a fitting value is chosen.

1756

is not given, a fitting value is chosen.

1757

1758

-r<R>: repeat the loop iteration <R> times and take the best result.

1758

-r<R>: repeat the loop iteration <R> times and take the best result.

1759

Default: 3

1759

Default: 3

1760

1761

-t: use time.time to measure the time, which is the default on Unix.

1761

-t: use time.time to measure the time, which is the default on Unix.

1762

This function measures wall time.

1762

This function measures wall time.

1763

1764

-c: use time.clock to measure the time, which is the default on

1764

-c: use time.clock to measure the time, which is the default on

1765

Windows and measures wall time. On Unix, resource.getrusage is used

1765

Windows and measures wall time. On Unix, resource.getrusage is used

1766

instead and returns the CPU user time.

1766

instead and returns the CPU user time.

1767

1768

-p<P>: use a precision of <P> digits to display the timing result.

1768

-p<P>: use a precision of <P> digits to display the timing result.

1769

Default: 3

1769

Default: 3

1770

1771

1772

Examples:

1772

Examples:

1773

1774

In [1]: %timeit pass

1774

In [1]: %timeit pass

1775

10000000 loops, best of 3: 53.3 ns per loop

1775

10000000 loops, best of 3: 53.3 ns per loop

1776

1777

In [2]: u = None

1777

In [2]: u = None

1778

1779

In [3]: %timeit u is None

1779

In [3]: %timeit u is None

1780

10000000 loops, best of 3: 184 ns per loop

1780

10000000 loops, best of 3: 184 ns per loop

1781

1782

In [4]: %timeit -r 4 u == None

1782

In [4]: %timeit -r 4 u == None

1783

1000000 loops, best of 4: 242 ns per loop

1783

1000000 loops, best of 4: 242 ns per loop

1784

1785

In [5]: import time

1785

In [5]: import time

1786

1787

In [6]: %timeit -n1 time.sleep(2)

1787

In [6]: %timeit -n1 time.sleep(2)

1788

1 loops, best of 3: 2 s per loop

1788

1 loops, best of 3: 2 s per loop

1789

1790

1791

The times reported by %timeit will be slightly higher than those

1791

The times reported by %timeit will be slightly higher than those

1792

reported by the timeit.py script when variables are accessed. This is

1792

reported by the timeit.py script when variables are accessed. This is

1793

due to the fact that %timeit executes the statement in the namespace

1793

due to the fact that %timeit executes the statement in the namespace

1794

of the shell, compared with timeit.py, which uses a single setup

1794

of the shell, compared with timeit.py, which uses a single setup

1795

statement to import function or create variables. Generally, the bias

1795

statement to import function or create variables. Generally, the bias

1796

does not matter as long as results from timeit.py are not mixed with

1796

does not matter as long as results from timeit.py are not mixed with

1797

those from %timeit."""

1797

those from %timeit."""

1798

1799

import timeit

1799

import timeit

1800

import math

1800

import math

1801

1802

# XXX: Unfortunately the unicode 'micro' symbol can cause problems in

1802

# XXX: Unfortunately the unicode 'micro' symbol can cause problems in

1803

# certain terminals. Until we figure out a robust way of

1803

# certain terminals. Until we figure out a robust way of

1804

# auto-detecting if the terminal can deal with it, use plain 'us' for

1804

# auto-detecting if the terminal can deal with it, use plain 'us' for

1805

# microseconds. I am really NOT happy about disabling the proper

1805

# microseconds. I am really NOT happy about disabling the proper

1806

# 'micro' prefix, but crashing is worse... If anyone knows what the

1806

# 'micro' prefix, but crashing is worse... If anyone knows what the

1807

# right solution for this is, I'm all ears...

1807

# right solution for this is, I'm all ears...

1808

#

1808

#

1809

# Note: using

1809

# Note: using

1810

#

1810

#

1811

# s = u'\xb5'

1811

# s = u'\xb5'

1812

# s.encode(sys.getdefaultencoding())

1812

# s.encode(sys.getdefaultencoding())

1813

#

1813

#

1814

# is not sufficient, as I've seen terminals where that fails but

1814

# is not sufficient, as I've seen terminals where that fails but

1815

# print s

1815

# print s

1816

#

1816

#

1817

# succeeds

1817

# succeeds

1818

#

1818

#

1819

# See bug: https://bugs.launchpad.net/ipython/+bug/348466

1819

# See bug: https://bugs.launchpad.net/ipython/+bug/348466

1820

1821

#units = [u"s", u"ms",u'\xb5',"ns"]

1821

#units = [u"s", u"ms",u'\xb5',"ns"]

1822

units = [u"s", u"ms",u'us',"ns"]

1822

units = [u"s", u"ms",u'us',"ns"]

1823

1824

scaling = [1, 1e3, 1e6, 1e9]

1824

scaling = [1, 1e3, 1e6, 1e9]

1825

1826

opts, stmt = self.parse_options(parameter_s,'n:r:tcp:',

1826

opts, stmt = self.parse_options(parameter_s,'n:r:tcp:',

1827

posix=False)

1827

posix=False)

1828

if stmt == "":

1828

if stmt == "":

1829

return

1829

return

1830

timefunc = timeit.default_timer

1830

timefunc = timeit.default_timer

1831

number = int(getattr(opts, "n", 0))

1831

number = int(getattr(opts, "n", 0))

1832

repeat = int(getattr(opts, "r", timeit.default_repeat))

1832

repeat = int(getattr(opts, "r", timeit.default_repeat))

1833

precision = int(getattr(opts, "p", 3))

1833

precision = int(getattr(opts, "p", 3))

1834

if hasattr(opts, "t"):

1834

if hasattr(opts, "t"):

1835

timefunc = time.time

1835

timefunc = time.time

1836

if hasattr(opts, "c"):

1836

if hasattr(opts, "c"):

1837

timefunc = clock

1837

timefunc = clock

1838

1839

timer = timeit.Timer(timer=timefunc)

1839

timer = timeit.Timer(timer=timefunc)

1840

# this code has tight coupling to the inner workings of timeit.Timer,

1840

# this code has tight coupling to the inner workings of timeit.Timer,

1841

# but is there a better way to achieve that the code stmt has access

1841

# but is there a better way to achieve that the code stmt has access

1842

# to the shell namespace?

1842

# to the shell namespace?

1843

1844

src = timeit.template % {'stmt': timeit.reindent(stmt, 8),

1844

src = timeit.template % {'stmt': timeit.reindent(stmt, 8),

1845

'setup': "pass"}

1845

'setup': "pass"}

1846

# Track compilation time so it can be reported if too long

1846

# Track compilation time so it can be reported if too long

1847

# Minimum time above which compilation time will be reported

1847

# Minimum time above which compilation time will be reported

1848

tc_min = 0.1

1848

tc_min = 0.1

1849

1850

t0 = clock()

1850

t0 = clock()

1851

code = compile(src, "<magic-timeit>", "exec")

1851

code = compile(src, "<magic-timeit>", "exec")

1852

tc = clock()-t0

1852

tc = clock()-t0

1853

1854

ns = {}

1854

ns = {}

1855

exec code in self.shell.user_ns, ns

1855

exec code in self.shell.user_ns, ns

1856

timer.inner = ns["inner"]

1856

timer.inner = ns["inner"]

1857

1858

if number == 0:

1858

if number == 0:

1859

# determine number so that 0.2 <= total time < 2.0

1859

# determine number so that 0.2 <= total time < 2.0

1860

number = 1

1860

number = 1

1861

for i in range(1, 10):

1861

for i in range(1, 10):

1862

if timer.timeit(number) >= 0.2:

1862

if timer.timeit(number) >= 0.2:

1863

break

1863

break

1864

number *= 10

1864

number *= 10

1865

1866

best = min(timer.repeat(repeat, number)) / number

1866

best = min(timer.repeat(repeat, number)) / number

1867

1868

if best > 0.0 and best < 1000.0:

1868

if best > 0.0 and best < 1000.0:

1869

order = min(-int(math.floor(math.log10(best)) // 3), 3)

1869

order = min(-int(math.floor(math.log10(best)) // 3), 3)

1870

elif best >= 1000.0:

1870

elif best >= 1000.0:

1871

order = 0

1871

order = 0

1872

else:

1872

else:

1873

order = 3

1873

order = 3

1874

print u"%d loops, best of %d: %.*g %s per loop" % (number, repeat,

1874

print u"%d loops, best of %d: %.*g %s per loop" % (number, repeat,

1875

precision,

1875

precision,

1876

best * scaling[order],

1876

best * scaling[order],

1877

units[order])

1877

units[order])

1878

if tc > tc_min:

1878

if tc > tc_min:

1879

print "Compiler time: %.2f s" % tc

1879

print "Compiler time: %.2f s" % tc

1880

1881

@skip_doctest

1881

@skip_doctest

1882

@needs_local_scope

1882

@needs_local_scope

1883

def magic_time(self,parameter_s = ''):

1883

def magic_time(self,parameter_s = ''):

1884

"""Time execution of a Python statement or expression.

1884

"""Time execution of a Python statement or expression.

1885

1886

The CPU and wall clock times are printed, and the value of the

1886

The CPU and wall clock times are printed, and the value of the

1887

expression (if any) is returned. Note that under Win32, system time

1887

expression (if any) is returned. Note that under Win32, system time

1888

is always reported as 0, since it can not be measured.

1888

is always reported as 0, since it can not be measured.

1889

1890

This function provides very basic timing functionality. In Python

1890

This function provides very basic timing functionality. In Python

1891

2.3, the timeit module offers more control and sophistication, so this

1891

2.3, the timeit module offers more control and sophistication, so this

1892

could be rewritten to use it (patches welcome).

1892

could be rewritten to use it (patches welcome).

1893

1894

Some examples:

1894

Some examples:

1895

1896

In [1]: time 2**128

1896

In [1]: time 2**128

1897

CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s

1897

CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s

1898

Wall time: 0.00

1898

Wall time: 0.00

1899

Out[1]: 340282366920938463463374607431768211456L

1899

Out[1]: 340282366920938463463374607431768211456L

1900

1901

In [2]: n = 1000000

1901

In [2]: n = 1000000

1902

1903

In [3]: time sum(range(n))

1903

In [3]: time sum(range(n))

1904

CPU times: user 1.20 s, sys: 0.05 s, total: 1.25 s

1904

CPU times: user 1.20 s, sys: 0.05 s, total: 1.25 s

1905

Wall time: 1.37

1905

Wall time: 1.37

1906

Out[3]: 499999500000L

1906

Out[3]: 499999500000L

1907

1908

In [4]: time print 'hello world'

1908

In [4]: time print 'hello world'

1909

hello world

1909

hello world

1910

CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s

1910

CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s

1911

Wall time: 0.00

1911

Wall time: 0.00

1912

1913

Note that the time needed by Python to compile the given expression

1913

Note that the time needed by Python to compile the given expression

1914

will be reported if it is more than 0.1s. In this example, the

1914

will be reported if it is more than 0.1s. In this example, the

1915

actual exponentiation is done by Python at compilation time, so while

1915

actual exponentiation is done by Python at compilation time, so while

1916

the expression can take a noticeable amount of time to compute, that

1916

the expression can take a noticeable amount of time to compute, that

1917

time is purely due to the compilation:

1917

time is purely due to the compilation:

1918

1919

In [5]: time 3**9999;

1919

In [5]: time 3**9999;

1920

CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s

1920

CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s

1921

Wall time: 0.00 s

1921

Wall time: 0.00 s

1922

1923

In [6]: time 3**999999;

1923

In [6]: time 3**999999;

1924

CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s

1924

CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s

1925

Wall time: 0.00 s

1925

Wall time: 0.00 s

1926

Compiler : 0.78 s

1926

Compiler : 0.78 s

1927

"""

1927

"""

1928

1929

# fail immediately if the given expression can't be compiled

1929

# fail immediately if the given expression can't be compiled

1930

1931

expr = self.shell.prefilter(parameter_s,False)

1931

expr = self.shell.prefilter(parameter_s,False)

1932

1933

# Minimum time above which compilation time will be reported

1933

# Minimum time above which compilation time will be reported

1934

tc_min = 0.1

1934

tc_min = 0.1

1935

1936

try:

1936

try:

1937

mode = 'eval'

1937

mode = 'eval'

1938

t0 = clock()

1938

t0 = clock()

1939

code = compile(expr,'<timed eval>',mode)

1939

code = compile(expr,'<timed eval>',mode)

1940

tc = clock()-t0

1940

tc = clock()-t0

1941

except SyntaxError:

1941

except SyntaxError:

1942

mode = 'exec'

1942

mode = 'exec'

1943

t0 = clock()

1943

t0 = clock()

1944

code = compile(expr,'<timed exec>',mode)

1944

code = compile(expr,'<timed exec>',mode)

1945

tc = clock()-t0

1945

tc = clock()-t0

1946

# skew measurement as little as possible

1946

# skew measurement as little as possible

1947

glob = self.shell.user_ns

1947

glob = self.shell.user_ns

1948

locs = self._magic_locals

1948

locs = self._magic_locals

1949

clk = clock2

1949

clk = clock2

1950

wtime = time.time

1950

wtime = time.time

1951

# time execution

1951

# time execution

1952

wall_st = wtime()

1952

wall_st = wtime()

1953

if mode=='eval':

1953

if mode=='eval':

1954

st = clk()

1954

st = clk()

1955

out = eval(code, glob, locs)

1955

out = eval(code, glob, locs)

1956

end = clk()

1956

end = clk()

1957

else:

1957

else:

1958

st = clk()

1958

st = clk()

1959

exec code in glob, locs

1959

exec code in glob, locs

1960

end = clk()

1960

end = clk()

1961

out = None

1961

out = None

1962

wall_end = wtime()

1962

wall_end = wtime()

1963

# Compute actual times and report

1963

# Compute actual times and report

1964

wall_time = wall_end-wall_st

1964

wall_time = wall_end-wall_st

1965

cpu_user = end[0]-st[0]

1965

cpu_user = end[0]-st[0]

1966

cpu_sys = end[1]-st[1]

1966

cpu_sys = end[1]-st[1]

1967

cpu_tot = cpu_user+cpu_sys

1967

cpu_tot = cpu_user+cpu_sys

1968

print "CPU times: user %.2f s, sys: %.2f s, total: %.2f s" % \

1968

print "CPU times: user %.2f s, sys: %.2f s, total: %.2f s" % \

1969

(cpu_user,cpu_sys,cpu_tot)

1969

(cpu_user,cpu_sys,cpu_tot)

1970

print "Wall time: %.2f s" % wall_time

1970

print "Wall time: %.2f s" % wall_time

1971

if tc > tc_min:

1971

if tc > tc_min:

1972

print "Compiler : %.2f s" % tc

1972

print "Compiler : %.2f s" % tc

1973

return out

1973

return out

1974

1975

@skip_doctest

1975

@skip_doctest

1976

def magic_macro(self,parameter_s = ''):

1976

def magic_macro(self,parameter_s = ''):

1977

"""Define a macro for future re-execution. It accepts ranges of history,

1977

"""Define a macro for future re-execution. It accepts ranges of history,

1978

filenames or string objects.

1978

filenames or string objects.

1979

1980

Usage:\\

1980

Usage:\\

1981

%macro [options] name n1-n2 n3-n4 ... n5 .. n6 ...

1981

%macro [options] name n1-n2 n3-n4 ... n5 .. n6 ...

1982

1983

Options:

1983

Options:

1984

1985

-r: use 'raw' input. By default, the 'processed' history is used,

1985

-r: use 'raw' input. By default, the 'processed' history is used,

1986

so that magics are loaded in their transformed version to valid

1986

so that magics are loaded in their transformed version to valid

1987

Python. If this option is given, the raw input as typed as the

1987

Python. If this option is given, the raw input as typed as the

1988

command line is used instead.

1988

command line is used instead.

1989

1990

This will define a global variable called `name` which is a string

1990

This will define a global variable called `name` which is a string

1991

made of joining the slices and lines you specify (n1,n2,... numbers

1991

made of joining the slices and lines you specify (n1,n2,... numbers

1992

above) from your input history into a single string. This variable

1992

above) from your input history into a single string. This variable

1993

acts like an automatic function which re-executes those lines as if

1993

acts like an automatic function which re-executes those lines as if

1994

you had typed them. You just type 'name' at the prompt and the code

1994

you had typed them. You just type 'name' at the prompt and the code

1995

executes.

1995

executes.

1996

1997

The syntax for indicating input ranges is described in %history.

1997

The syntax for indicating input ranges is described in %history.

1998

1999

Note: as a 'hidden' feature, you can also use traditional python slice

1999

Note: as a 'hidden' feature, you can also use traditional python slice

2000

notation, where N:M means numbers N through M-1.

2000

notation, where N:M means numbers N through M-1.

2001

2002

For example, if your history contains (%hist prints it):

2002

For example, if your history contains (%hist prints it):

2003

2004

44: x=1

2004

44: x=1

2005

45: y=3

2005

45: y=3

2006

46: z=x+y

2006

46: z=x+y

2007

47: print x

2007

47: print x

2008

48: a=5

2008

48: a=5

2009

49: print 'x',x,'y',y

2009

49: print 'x',x,'y',y

2010

2011

you can create a macro with lines 44 through 47 (included) and line 49

2011

you can create a macro with lines 44 through 47 (included) and line 49

2012

called my_macro with:

2012

called my_macro with:

2013

2014

In [55]: %macro my_macro 44-47 49

2014

In [55]: %macro my_macro 44-47 49

2015

2016

Now, typing `my_macro` (without quotes) will re-execute all this code

2016

Now, typing `my_macro` (without quotes) will re-execute all this code

2017

in one pass.

2017

in one pass.

2018

2019

You don't need to give the line-numbers in order, and any given line

2019

You don't need to give the line-numbers in order, and any given line

2020

number can appear multiple times. You can assemble macros with any

2020

number can appear multiple times. You can assemble macros with any

2021

lines from your input history in any order.

2021

lines from your input history in any order.

2022

2023

The macro is a simple object which holds its value in an attribute,

2023

The macro is a simple object which holds its value in an attribute,

2024

but IPython's display system checks for macros and executes them as

2024

but IPython's display system checks for macros and executes them as

2025

code instead of printing them when you type their name.

2025

code instead of printing them when you type their name.

2026

2027

You can view a macro's contents by explicitly printing it with:

2027

You can view a macro's contents by explicitly printing it with:

2028

2029

'print macro_name'.

2029

'print macro_name'.

2030

2031

"""

2031

"""

2032

opts,args = self.parse_options(parameter_s,'r',mode='list')

2032

opts,args = self.parse_options(parameter_s,'r',mode='list')

2033

if not args: # List existing macros

2033

if not args: # List existing macros

2034

return sorted(k for k,v in self.shell.user_ns.iteritems() if\

2034

return sorted(k for k,v in self.shell.user_ns.iteritems() if\

2035

isinstance(v, Macro))

2035

isinstance(v, Macro))

2036

if len(args) == 1:

2036

if len(args) == 1:

2037

raise UsageError(

2037

raise UsageError(

2038

"%macro insufficient args; usage '%macro name n1-n2 n3-4...")

2038

"%macro insufficient args; usage '%macro name n1-n2 n3-4...")

2039

name, codefrom = args[0], " ".join(args[1:])

2039

name, codefrom = args[0], " ".join(args[1:])

2040

2041

#print 'rng',ranges # dbg

2041

#print 'rng',ranges # dbg

2042

try:

2042

try:

2043

lines = self.shell.find_user_code(codefrom, 'r' in opts)

2043

lines = self.shell.find_user_code(codefrom, 'r' in opts)

2044

except (ValueError, TypeError) as e:

2044

except (ValueError, TypeError) as e:

2045

print e.args[0]

2045

print e.args[0]

2046

return

2046

return

2047

macro = Macro(lines)

2047

macro = Macro(lines)

2048

self.shell.define_macro(name, macro)

2048

self.shell.define_macro(name, macro)

2049

print 'Macro `%s` created. To execute, type its name (without quotes).' % name

2049

print 'Macro `%s` created. To execute, type its name (without quotes).' % name

2050

print '=== Macro contents: ==='

2050

print '=== Macro contents: ==='

2051

print macro,

2051

print macro,

2052

2053

def magic_save(self,parameter_s = ''):

2053

def magic_save(self,parameter_s = ''):

2054

"""Save a set of lines or a macro to a given filename.

2054

"""Save a set of lines or a macro to a given filename.

2055

2056

Usage:\\

2056

Usage:\\

2057

%save [options] filename n1-n2 n3-n4 ... n5 .. n6 ...

2057

%save [options] filename n1-n2 n3-n4 ... n5 .. n6 ...

2058

2059

Options:

2059

Options:

2060

2061

-r: use 'raw' input. By default, the 'processed' history is used,

2061

-r: use 'raw' input. By default, the 'processed' history is used,

2062

so that magics are loaded in their transformed version to valid

2062

so that magics are loaded in their transformed version to valid

2063

Python. If this option is given, the raw input as typed as the

2063

Python. If this option is given, the raw input as typed as the

2064

command line is used instead.

2064

command line is used instead.

2065

2066

This function uses the same syntax as %history for input ranges,

2066

This function uses the same syntax as %history for input ranges,

2067

then saves the lines to the filename you specify.

2067

then saves the lines to the filename you specify.

2068

2069

It adds a '.py' extension to the file if you don't do so yourself, and

2069

It adds a '.py' extension to the file if you don't do so yourself, and

2070

it asks for confirmation before overwriting existing files."""

2070

it asks for confirmation before overwriting existing files."""

2071

2072

opts,args = self.parse_options(parameter_s,'r',mode='list')

2072

opts,args = self.parse_options(parameter_s,'r',mode='list')

2073

fname, codefrom = args[0], " ".join(args[1:])

2073

fname, codefrom = args[0], " ".join(args[1:])

2074

if not fname.endswith('.py'):

2074

if not fname.endswith('.py'):

2075

fname += '.py'

2075

fname += '.py'

2076

if os.path.isfile(fname):

2076

if os.path.isfile(fname):

2077

ans = raw_input('File `%s` exists. Overwrite (y/[N])? ' % fname)

2077

ans = raw_input('File `%s` exists. Overwrite (y/[N])? ' % fname)

2078

if ans.lower() not in ['y','yes']:

2078

if ans.lower() not in ['y','yes']:

2079

print 'Operation cancelled.'

2079

print 'Operation cancelled.'

2080

return

2080

return

2081

try:

2081

try:

2082

cmds = self.shell.find_user_code(codefrom, 'r' in opts)

2082

cmds = self.shell.find_user_code(codefrom, 'r' in opts)

2083

except (TypeError, ValueError) as e:

2083

except (TypeError, ValueError) as e:

2084

print e.args[0]

2084

print e.args[0]

2085

return

2085

return

2086

if isinstance(cmds, unicode):

2086

if isinstance(cmds, unicode):

2087

cmds = cmds.encode("utf-8")

2087

cmds = cmds.encode("utf-8")

2088

with open(fname,'w') as f:

2088

with open(fname,'w') as f:

2089

f.write("# coding: utf-8\n")

2089

f.write("# coding: utf-8\n")

2090

f.write(cmds)

2090

f.write(cmds)

2091

print 'The following commands were written to file `%s`:' % fname

2091

print 'The following commands were written to file `%s`:' % fname

2092

print cmds

2092

print cmds

2093

2094

def magic_pastebin(self, parameter_s = ''):

2094

def magic_pastebin(self, parameter_s = ''):

2095

"""Upload code to the 'Lodge it' paste bin, returning the URL."""

2095

"""Upload code to the 'Lodge it' paste bin, returning the URL."""

2096

try:

2096

try:

2097

code = self.shell.find_user_code(parameter_s)

2097

code = self.shell.find_user_code(parameter_s)

2098

except (ValueError, TypeError) as e:

2098

except (ValueError, TypeError) as e:

2099

print e.args[0]

2099

print e.args[0]

2100

return

2100

return

2101

pbserver = ServerProxy('http://paste.pocoo.org/xmlrpc/')

2101

pbserver = ServerProxy('http://paste.pocoo.org/xmlrpc/')

2102

id = pbserver.pastes.newPaste("python", code)

2102

id = pbserver.pastes.newPaste("python", code)

2103

return "http://paste.pocoo.org/show/" + id

2103

return "http://paste.pocoo.org/show/" + id

2104

2105

def magic_loadpy(self, arg_s):

2105

def magic_loadpy(self, arg_s):

2106

"""Load a .py python script into the GUI console.

2106

"""Load a .py python script into the GUI console.

2107

2108

This magic command can either take a local filename or a url::

2108

This magic command can either take a local filename or a url::

2109

2110

%loadpy myscript.py

2110

%loadpy myscript.py

2111

%loadpy http://www.example.com/myscript.py

2111

%loadpy http://www.example.com/myscript.py

2112

"""

2112

"""

2113

if not arg_s.endswith('.py'):

2113

if not arg_s.endswith('.py'):

2114

raise ValueError('%%load only works with .py files: %s' % arg_s)

2114

raise ValueError('%%load only works with .py files: %s' % arg_s)

2115

if arg_s.startswith('http'):

2115

if arg_s.startswith('http'):

2116

import urllib2

2116

import urllib2

2117

response = urllib2.urlopen(arg_s)

2117

response = urllib2.urlopen(arg_s)

2118

content = response.read()

2118

content = response.read()

2119

else:

2119

else:

2120

content = open(arg_s).read()

2120

content = open(arg_s).read()

2121

self.set_next_input(content)

2121

self.set_next_input(content)

2122

2123

def _find_edit_target(self, args, opts, last_call):

2123

def _find_edit_target(self, args, opts, last_call):

2124

"""Utility method used by magic_edit to find what to edit."""

2124

"""Utility method used by magic_edit to find what to edit."""

2125

2126

def make_filename(arg):

2126

def make_filename(arg):

2127

"Make a filename from the given args"

2127

"Make a filename from the given args"

2128

try:

2128

try:

2129

filename = get_py_filename(arg)

2129

filename = get_py_filename(arg)

2130

except IOError:

2130

except IOError:

2131

# If it ends with .py but doesn't already exist, assume we want

2131

# If it ends with .py but doesn't already exist, assume we want

2132

# a new file.

2132

# a new file.

2133

if args.endswith('.py'):

2133

if args.endswith('.py'):

2134

filename = arg

2134

filename = arg

2135

else:

2135

else:

2136

filename = None

2136

filename = None

2137

return filename

2137

return filename

2138

2139

# Set a few locals from the options for convenience:

2139

# Set a few locals from the options for convenience:

2140

opts_prev = 'p' in opts

2140

opts_prev = 'p' in opts

2141

opts_raw = 'r' in opts

2141

opts_raw = 'r' in opts

2142

2143

# custom exceptions

2143

# custom exceptions

2144

class DataIsObject(Exception): pass

2144

class DataIsObject(Exception): pass

2145

2146

# Default line number value

2146

# Default line number value

2147

lineno = opts.get('n',None)

2147

lineno = opts.get('n',None)

2148

2149

if opts_prev:

2149

if opts_prev:

2150

args = '_%s' % last_call[0]

2150

args = '_%s' % last_call[0]

2151

if not self.shell.user_ns.has_key(args):

2151

if not self.shell.user_ns.has_key(args):

2152

args = last_call[1]

2152

args = last_call[1]

2153

2154

# use last_call to remember the state of the previous call, but don't

2154

# use last_call to remember the state of the previous call, but don't

2155

# let it be clobbered by successive '-p' calls.

2155

# let it be clobbered by successive '-p' calls.

2156

try:

2156

try:

2157

last_call[0] = self.shell.displayhook.prompt_count

2157

last_call[0] = self.shell.displayhook.prompt_count

2158

if not opts_prev:

2158

if not opts_prev:

2159

last_call[1] = parameter_s

2159

last_call[1] = parameter_s

2160

except:

2160

except:

2161

pass

2161

pass

2162

2163

# by default this is done with temp files, except when the given

2163

# by default this is done with temp files, except when the given

2164

# arg is a filename

2164

# arg is a filename

2165

use_temp = True

2165

use_temp = True

2166

2167

data = ''

2167

data = ''

2168

2169

# First, see if the arguments should be a filename.

2169

# First, see if the arguments should be a filename.

2170

filename = make_filename(args)

2170

filename = make_filename(args)

2171

if filename:

2171

if filename:

2172

use_temp = False

2172

use_temp = False

2173

elif args:

2173

elif args:

2174

# Mode where user specifies ranges of lines, like in %macro.

2174

# Mode where user specifies ranges of lines, like in %macro.

2175

data = self.extract_input_lines(args, opts_raw)

2175

data = self.extract_input_lines(args, opts_raw)

2176

if not data:

2176

if not data:

2177

try:

2177

try:

2178

# Load the parameter given as a variable. If not a string,

2178

# Load the parameter given as a variable. If not a string,

2179

# process it as an object instead (below)

2179

# process it as an object instead (below)

2180

2181

#print '*** args',args,'type',type(args) # dbg

2181

#print '*** args',args,'type',type(args) # dbg

2182

data = eval(args, self.shell.user_ns)

2182

data = eval(args, self.shell.user_ns)

2183

if not isinstance(data, basestring):

2183

if not isinstance(data, basestring):

2184

raise DataIsObject

2184

raise DataIsObject

2185

2186

except (NameError,SyntaxError):

2186

except (NameError,SyntaxError):

2187

# given argument is not a variable, try as a filename

2187

# given argument is not a variable, try as a filename

2188

filename = make_filename(args)

2188

filename = make_filename(args)

2189

if filename is None:

2189

if filename is None:

2190

warn("Argument given (%s) can't be found as a variable "

2190

warn("Argument given (%s) can't be found as a variable "

2191

"or as a filename." % args)

2191

"or as a filename." % args)

2192

return

2192

return

2193

use_temp = False

2193

use_temp = False

2194

2195

except DataIsObject:

2195

except DataIsObject:

2196

# macros have a special edit function

2196

# macros have a special edit function

2197

if isinstance(data, Macro):

2197

if isinstance(data, Macro):

2198

raise MacroToEdit(data)

2198

raise MacroToEdit(data)

2199

2200

# For objects, try to edit the file where they are defined

2200

# For objects, try to edit the file where they are defined

2201

try:

2201

try:

2202

filename = inspect.getabsfile(data)

2202

filename = inspect.getabsfile(data)

2203

if 'fakemodule' in filename.lower() and inspect.isclass(data):

2203

if 'fakemodule' in filename.lower() and inspect.isclass(data):

2204

# class created by %edit? Try to find source

2204

# class created by %edit? Try to find source

2205

# by looking for method definitions instead, the

2205

# by looking for method definitions instead, the

2206

# __module__ in those classes is FakeModule.

2206

# __module__ in those classes is FakeModule.

2207

attrs = [getattr(data, aname) for aname in dir(data)]

2207

attrs = [getattr(data, aname) for aname in dir(data)]

2208

for attr in attrs:

2208

for attr in attrs:

2209

if not inspect.ismethod(attr):

2209

if not inspect.ismethod(attr):

2210

continue

2210

continue

2211

filename = inspect.getabsfile(attr)

2211

filename = inspect.getabsfile(attr)

2212

if filename and 'fakemodule' not in filename.lower():

2212

if filename and 'fakemodule' not in filename.lower():

2213

# change the attribute to be the edit target instead

2213

# change the attribute to be the edit target instead

2214

data = attr

2214

data = attr

2215

break

2215

break

2216

2217

datafile = 1

2217

datafile = 1

2218

except TypeError:

2218

except TypeError:

2219

filename = make_filename(args)

2219

filename = make_filename(args)

2220

datafile = 1

2220

datafile = 1

2221

warn('Could not find file where `%s` is defined.\n'

2221

warn('Could not find file where `%s` is defined.\n'

2222

'Opening a file named `%s`' % (args,filename))

2222

'Opening a file named `%s`' % (args,filename))

2223

# Now, make sure we can actually read the source (if it was in

2223

# Now, make sure we can actually read the source (if it was in

2224

# a temp file it's gone by now).

2224

# a temp file it's gone by now).

2225

if datafile:

2225

if datafile:

2226

try:

2226

try:

2227

if lineno is None:

2227

if lineno is None:

2228

lineno = inspect.getsourcelines(data)[1]

2228

lineno = inspect.getsourcelines(data)[1]

2229

except IOError:

2229

except IOError:

2230

filename = make_filename(args)

2230

filename = make_filename(args)

2231

if filename is None:

2231

if filename is None:

2232

warn('The file `%s` where `%s` was defined cannot '

2232

warn('The file `%s` where `%s` was defined cannot '

2233

'be read.' % (filename,data))

2233

'be read.' % (filename,data))

2234

return

2234

return

2235

use_temp = False

2235

use_temp = False

2236

2237

if use_temp:

2237

if use_temp:

2238

filename = self.shell.mktempfile(data)

2238

filename = self.shell.mktempfile(data)

2239

print 'IPython will make a temporary file named:',filename

2239

print 'IPython will make a temporary file named:',filename

2240

2241

return filename, lineno, use_temp

2241

return filename, lineno, use_temp

2242

2243

def _edit_macro(self,mname,macro):

2243

def _edit_macro(self,mname,macro):

2244

"""open an editor with the macro data in a file"""

2244

"""open an editor with the macro data in a file"""

2245

filename = self.shell.mktempfile(macro.value)

2245

filename = self.shell.mktempfile(macro.value)

2246

self.shell.hooks.editor(filename)

2246

self.shell.hooks.editor(filename)

2247

2248

# and make a new macro object, to replace the old one

2248

# and make a new macro object, to replace the old one

2249

mfile = open(filename)

2249

mfile = open(filename)

2250

mvalue = mfile.read()

2250

mvalue = mfile.read()

2251

mfile.close()

2251

mfile.close()

2252

self.shell.user_ns[mname] = Macro(mvalue)

2252

self.shell.user_ns[mname] = Macro(mvalue)

2253

2254

def magic_ed(self,parameter_s=''):

2254

def magic_ed(self,parameter_s=''):

2255

"""Alias to %edit."""

2255

"""Alias to %edit."""

2256

return self.magic_edit(parameter_s)

2256

return self.magic_edit(parameter_s)

2257

2258

@skip_doctest

2258

@skip_doctest

2259

def magic_edit(self,parameter_s='',last_call=['','']):

2259

def magic_edit(self,parameter_s='',last_call=['','']):

2260

"""Bring up an editor and execute the resulting code.

2260

"""Bring up an editor and execute the resulting code.

2261

2262

Usage:

2262

Usage:

2263

%edit [options] [args]

2263

%edit [options] [args]

2264

2265

%edit runs IPython's editor hook. The default version of this hook is

2265

%edit runs IPython's editor hook. The default version of this hook is

2266

set to call the __IPYTHON__.rc.editor command. This is read from your

2266

set to call the editor specified by your $EDITOR environment variable.

2267

~~environment variable $EDITOR.~~ If this isn't found, it will default to

2267

If this isn't found, it will default to vi under Linux/Unix and to

2268

~~vi under Linux/Unix and to~~ notepad under Windows. See the end of this

2268

notepad under Windows. See the end of this docstring for how to change

2269

~~docstring for how to change~~ the editor hook.

2269

the editor hook.

2270

2271

You can also set the value of this editor via the

2271

You can also set the value of this editor via the

2272

``TerminalInteractiveShell.editor`` option in your configuration file.

2272

``TerminalInteractiveShell.editor`` option in your configuration file.

2273

This is useful if you wish to use a different editor from your typical

2273

This is useful if you wish to use a different editor from your typical

2274

default with IPython (and for Windows users who typically don't set

2274

default with IPython (and for Windows users who typically don't set

2275

environment variables).

2275

environment variables).

2276

2277

This command allows you to conveniently edit multi-line code right in

2277

This command allows you to conveniently edit multi-line code right in

2278

your IPython session.

2278

your IPython session.

2279

2280

If called without arguments, %edit opens up an empty editor with a

2280

If called without arguments, %edit opens up an empty editor with a

2281

temporary file and will execute the contents of this file when you

2281

temporary file and will execute the contents of this file when you

2282

close it (don't forget to save it!).

2282

close it (don't forget to save it!).

2283

2284

2285

Options:

2285

Options:

2286

2287

-n <number>: open the editor at a specified line number. By default,

2287

-n <number>: open the editor at a specified line number. By default,

2288

the IPython editor hook uses the unix syntax 'editor +N filename', but

2288

the IPython editor hook uses the unix syntax 'editor +N filename', but

2289

you can configure this by providing your own modified hook if your

2289

you can configure this by providing your own modified hook if your

2290

favorite editor supports line-number specifications with a different

2290

favorite editor supports line-number specifications with a different

2291

syntax.

2291

syntax.

2292

2293

-p: this will call the editor with the same data as the previous time

2293

-p: this will call the editor with the same data as the previous time

2294

it was used, regardless of how long ago (in your current session) it

2294

it was used, regardless of how long ago (in your current session) it

2295

was.

2295

was.

2296

2297

-r: use 'raw' input. This option only applies to input taken from the

2297

-r: use 'raw' input. This option only applies to input taken from the

2298

user's history. By default, the 'processed' history is used, so that

2298

user's history. By default, the 'processed' history is used, so that

2299

magics are loaded in their transformed version to valid Python. If

2299

magics are loaded in their transformed version to valid Python. If

2300

this option is given, the raw input as typed as the command line is

2300

this option is given, the raw input as typed as the command line is

2301

used instead. When you exit the editor, it will be executed by

2301

used instead. When you exit the editor, it will be executed by

2302

IPython's own processor.

2302

IPython's own processor.

2303

2304

-x: do not execute the edited code immediately upon exit. This is

2304

-x: do not execute the edited code immediately upon exit. This is

2305

mainly useful if you are editing programs which need to be called with

2305

mainly useful if you are editing programs which need to be called with

2306

command line arguments, which you can then do using %run.

2306

command line arguments, which you can then do using %run.

2307

2308

2309

Arguments:

2309

Arguments:

2310

2311

If arguments are given, the following possibilites exist:

2311

If arguments are given, the following possibilites exist:

2312

2313

- If the argument is a filename, IPython will load that into the

2313

- If the argument is a filename, IPython will load that into the

2314

editor. It will execute its contents with execfile() when you exit,

2314

editor. It will execute its contents with execfile() when you exit,

2315

loading any code in the file into your interactive namespace.

2315

loading any code in the file into your interactive namespace.

2316

2317

- The arguments are ranges of input history, e.g. "7 ~1/4-6".

2317

- The arguments are ranges of input history, e.g. "7 ~1/4-6".

2318

The syntax is the same as in the %history magic.

2318

The syntax is the same as in the %history magic.

2319

2320

- If the argument is a string variable, its contents are loaded

2320

- If the argument is a string variable, its contents are loaded

2321

into the editor. You can thus edit any string which contains

2321

into the editor. You can thus edit any string which contains

2322

python code (including the result of previous edits).

2322

python code (including the result of previous edits).

2323

2324

- If the argument is the name of an object (other than a string),

2324

- If the argument is the name of an object (other than a string),

2325

IPython will try to locate the file where it was defined and open the

2325

IPython will try to locate the file where it was defined and open the

2326

editor at the point where it is defined. You can use `%edit function`

2326

editor at the point where it is defined. You can use `%edit function`

2327

to load an editor exactly at the point where 'function' is defined,

2327

to load an editor exactly at the point where 'function' is defined,

2328

edit it and have the file be executed automatically.

2328

edit it and have the file be executed automatically.

2329

2330

If the object is a macro (see %macro for details), this opens up your

2330

- If the object is a macro (see %macro for details), this opens up your

2331

specified editor with a temporary file containing the macro's data.

2331

specified editor with a temporary file containing the macro's data.

2332

Upon exit, the macro is reloaded with the contents of the file.

2332

Upon exit, the macro is reloaded with the contents of the file.

2333

2334

Note: opening at an exact line is only supported under Unix, and some

2334

Note: opening at an exact line is only supported under Unix, and some

2335

editors (like kedit and gedit up to Gnome 2.8) do not understand the

2335

editors (like kedit and gedit up to Gnome 2.8) do not understand the

2336

'+NUMBER' parameter necessary for this feature. Good editors like

2336

'+NUMBER' parameter necessary for this feature. Good editors like

2337

(X)Emacs, vi, jed, pico and joe all do.

2337

(X)Emacs, vi, jed, pico and joe all do.

2338

2339

After executing your code, %edit will return as output the code you

2339

After executing your code, %edit will return as output the code you

2340

typed in the editor (except when it was an existing file). This way

2340

typed in the editor (except when it was an existing file). This way

2341

you can reload the code in further invocations of %edit as a variable,

2341

you can reload the code in further invocations of %edit as a variable,

2342

via _<NUMBER> or Out[<NUMBER>], where <NUMBER> is the prompt number of

2342

via _<NUMBER> or Out[<NUMBER>], where <NUMBER> is the prompt number of

2343

the output.

2343

the output.

2344

2345

Note that %edit is also available through the alias %ed.

2345

Note that %edit is also available through the alias %ed.

2346

2347

This is an example of creating a simple function inside the editor and

2347

This is an example of creating a simple function inside the editor and

2348

then modifying it. First, start up the editor:

2348

then modifying it. First, start up the editor:

2349

2350

In [1]: ed

2350

In [1]: ed

2351

Editing... done. Executing edited code...

2351

Editing... done. Executing edited code...

2352

Out[1]: 'def foo():n print "foo() was defined in an editing session"n'

2352

Out[1]: 'def foo():n print "foo() was defined in an editing session"n'

2353

2354

We can then call the function foo():

2354

We can then call the function foo():

2355

2356

In [2]: foo()

2356

In [2]: foo()

2357

foo() was defined in an editing session

2357

foo() was defined in an editing session

2358

2359

Now we edit foo. IPython automatically loads the editor with the

2359

Now we edit foo. IPython automatically loads the editor with the

2360

(temporary) file where foo() was previously defined:

2360

(temporary) file where foo() was previously defined:

2361

2362

In [3]: ed foo

2362

In [3]: ed foo

2363

Editing... done. Executing edited code...

2363

Editing... done. Executing edited code...

2364

2365

And if we call foo() again we get the modified version:

2365

And if we call foo() again we get the modified version:

2366

2367

In [4]: foo()

2367

In [4]: foo()

2368

foo() has now been changed!

2368

foo() has now been changed!

2369

2370

Here is an example of how to edit a code snippet successive

2370

Here is an example of how to edit a code snippet successive

2371

times. First we call the editor:

2371

times. First we call the editor:

2372

2373

In [5]: ed

2373

In [5]: ed

2374

Editing... done. Executing edited code...

2374

Editing... done. Executing edited code...

2375

hello

2375

hello

2376

Out[5]: "print 'hello'n"

2376

Out[5]: "print 'hello'n"

2377

2378

Now we call it again with the previous output (stored in _):

2378

Now we call it again with the previous output (stored in _):

2379

2380

In [6]: ed _

2380

In [6]: ed _

2381

Editing... done. Executing edited code...

2381

Editing... done. Executing edited code...

2382

hello world

2382

hello world

2383

Out[6]: "print 'hello world'n"

2383

Out[6]: "print 'hello world'n"

2384

2385

Now we call it with the output #8 (stored in _8, also as Out[8]):

2385

Now we call it with the output #8 (stored in _8, also as Out[8]):

2386

2387

In [7]: ed _8

2387

In [7]: ed _8

2388

Editing... done. Executing edited code...

2388

Editing... done. Executing edited code...

2389

hello again

2389

hello again

2390

Out[7]: "print 'hello again'n"

2390

Out[7]: "print 'hello again'n"

2391

2392

2393

Changing the default editor hook:

2393

Changing the default editor hook:

2394

2395

If you wish to write your own editor hook, you can put it in a

2395

If you wish to write your own editor hook, you can put it in a

2396

configuration file which you load at startup time. The default hook

2396

configuration file which you load at startup time. The default hook

2397

is defined in the IPython.core.hooks module, and you can use that as a

2397

is defined in the IPython.core.hooks module, and you can use that as a

2398

starting example for further modifications. That file also has

2398

starting example for further modifications. That file also has

2399

general instructions on how to set a new hook for use once you've

2399

general instructions on how to set a new hook for use once you've

2400

defined it."""

2400

defined it."""

2401

opts,args = self.parse_options(parameter_s,'prxn:')

2401

opts,args = self.parse_options(parameter_s,'prxn:')

2402

2403

try:

2403

try:

2404

filename, lineno, is_temp = self._find_edit_target(args, opts, last_call)

2404

filename, lineno, is_temp = self._find_edit_target(args, opts, last_call)

2405

except MacroToEdit as e:

2405

except MacroToEdit as e:

2406

self._edit_macro(args, e.args[0])

2406

self._edit_macro(args, e.args[0])

2407

return

2407

return

2408

2409

# do actual editing here

2409

# do actual editing here

2410

print 'Editing...',

2410

print 'Editing...',

2411

sys.stdout.flush()

2411

sys.stdout.flush()

2412

try:

2412

try:

2413

# Quote filenames that may have spaces in them

2413

# Quote filenames that may have spaces in them

2414

if ' ' in filename:

2414

if ' ' in filename:

2415

filename = "'%s'" % filename

2415

filename = "'%s'" % filename

2416

self.shell.hooks.editor(filename,lineno)

2416

self.shell.hooks.editor(filename,lineno)

2417

except TryNext:

2417

except TryNext:

2418

warn('Could not open editor')

2418

warn('Could not open editor')

2419

return

2419

return

2420

2421

# XXX TODO: should this be generalized for all string vars?

2421

# XXX TODO: should this be generalized for all string vars?

2422

# For now, this is special-cased to blocks created by cpaste

2422

# For now, this is special-cased to blocks created by cpaste

2423

if args.strip() == 'pasted_block':

2423

if args.strip() == 'pasted_block':

2424

self.shell.user_ns['pasted_block'] = file_read(filename)

2424

self.shell.user_ns['pasted_block'] = file_read(filename)

2425

2426

if 'x' in opts: # -x prevents actual execution

2426

if 'x' in opts: # -x prevents actual execution

2427

print

2427

print

2428

else:

2428

else:

2429

print 'done. Executing edited code...'

2429

print 'done. Executing edited code...'

2430

if 'r' in opts: # Untranslated IPython code

2430

if 'r' in opts: # Untranslated IPython code

2431

self.shell.run_cell(file_read(filename),

2431

self.shell.run_cell(file_read(filename),

2432

store_history=False)

2432

store_history=False)

2433

else:

2433

else:

2434

self.shell.safe_execfile(filename,self.shell.user_ns,

2434

self.shell.safe_execfile(filename,self.shell.user_ns,

2435

self.shell.user_ns)

2435

self.shell.user_ns)

2436

2437

if is_temp:

2437

if is_temp:

2438

try:

2438

try:

2439

return open(filename).read()

2439

return open(filename).read()

2440

except IOError,msg:

2440

except IOError,msg:

2441

if msg.filename == filename:

2441

if msg.filename == filename:

2442

warn('File not found. Did you forget to save?')

2442

warn('File not found. Did you forget to save?')

2443

return

2443

return

2444

else:

2444

else:

2445

self.shell.showtraceback()

2445

self.shell.showtraceback()

2446

2447

def magic_xmode(self,parameter_s = ''):

2447

def magic_xmode(self,parameter_s = ''):

2448

"""Switch modes for the exception handlers.

2448

"""Switch modes for the exception handlers.

2449

2450

Valid modes: Plain, Context and Verbose.

2450

Valid modes: Plain, Context and Verbose.

2451

2452

If called without arguments, acts as a toggle."""

2452

If called without arguments, acts as a toggle."""

2453

2454

def xmode_switch_err(name):

2454

def xmode_switch_err(name):

2455

warn('Error changing %s exception modes.\n%s' %

2455

warn('Error changing %s exception modes.\n%s' %

2456

(name,sys.exc_info()[1]))

2456

(name,sys.exc_info()[1]))

2457

2458

shell = self.shell

2458

shell = self.shell

2459

new_mode = parameter_s.strip().capitalize()

2459

new_mode = parameter_s.strip().capitalize()

2460

try:

2460

try:

2461

shell.InteractiveTB.set_mode(mode=new_mode)

2461

shell.InteractiveTB.set_mode(mode=new_mode)

2462

print 'Exception reporting mode:',shell.InteractiveTB.mode

2462

print 'Exception reporting mode:',shell.InteractiveTB.mode

2463

except:

2463

except:

2464

xmode_switch_err('user')

2464

xmode_switch_err('user')

2465

2466

def magic_colors(self,parameter_s = ''):

2466

def magic_colors(self,parameter_s = ''):

2467

"""Switch color scheme for prompts, info system and exception handlers.

2467

"""Switch color scheme for prompts, info system and exception handlers.

2468

2469

Currently implemented schemes: NoColor, Linux, LightBG.

2469

Currently implemented schemes: NoColor, Linux, LightBG.

2470

2471

Color scheme names are not case-sensitive.

2471

Color scheme names are not case-sensitive.

2472

2473

Examples

2473

Examples

2474

--------

2474

--------

2475

To get a plain black and white terminal::

2475

To get a plain black and white terminal::

2476

2477

%colors nocolor

2477

%colors nocolor

2478

"""

2478

"""

2479

2480

def color_switch_err(name):

2480

def color_switch_err(name):

2481

warn('Error changing %s color schemes.\n%s' %

2481

warn('Error changing %s color schemes.\n%s' %

2482

(name,sys.exc_info()[1]))

2482

(name,sys.exc_info()[1]))

2483

2484

2485

new_scheme = parameter_s.strip()

2485

new_scheme = parameter_s.strip()

2486

if not new_scheme:

2486

if not new_scheme:

2487

raise UsageError(

2487

raise UsageError(

2488

"%colors: you must specify a color scheme. See '%colors?'")

2488

"%colors: you must specify a color scheme. See '%colors?'")

2489

return

2489

return

2490

# local shortcut

2490

# local shortcut

2491

shell = self.shell

2491

shell = self.shell

2492

2493

import IPython.utils.rlineimpl as readline

2493

import IPython.utils.rlineimpl as readline

2494

2495

if not readline.have_readline and sys.platform == "win32":

2495

if not readline.have_readline and sys.platform == "win32":

2496

msg = """\

2496

msg = """\

2497

Proper color support under MS Windows requires the pyreadline library.

2497

Proper color support under MS Windows requires the pyreadline library.

2498

You can find it at:

2498

You can find it at:

2499

http://ipython.scipy.org/moin/PyReadline/Intro

2499

http://ipython.scipy.org/moin/PyReadline/Intro

2500

Gary's readline needs the ctypes module, from:

2500

Gary's readline needs the ctypes module, from:

2501

http://starship.python.net/crew/theller/ctypes

2501

http://starship.python.net/crew/theller/ctypes

2502

(Note that ctypes is already part of Python versions 2.5 and newer).

2502

(Note that ctypes is already part of Python versions 2.5 and newer).

2503

2504

Defaulting color scheme to 'NoColor'"""

2504

Defaulting color scheme to 'NoColor'"""

2505

new_scheme = 'NoColor'

2505

new_scheme = 'NoColor'

2506

warn(msg)

2506

warn(msg)

2507

2508

# readline option is 0

2508

# readline option is 0

2509

if not shell.has_readline:

2509

if not shell.has_readline:

2510

new_scheme = 'NoColor'

2510

new_scheme = 'NoColor'

2511

2512

# Set prompt colors

2512

# Set prompt colors

2513

try:

2513

try:

2514

shell.displayhook.set_colors(new_scheme)

2514

shell.displayhook.set_colors(new_scheme)

2515

except:

2515

except:

2516

color_switch_err('prompt')

2516

color_switch_err('prompt')

2517

else:

2517

else:

2518

shell.colors = \

2518

shell.colors = \

2519

shell.displayhook.color_table.active_scheme_name

2519

shell.displayhook.color_table.active_scheme_name

2520

# Set exception colors

2520

# Set exception colors

2521

try:

2521

try:

2522

shell.InteractiveTB.set_colors(scheme = new_scheme)

2522

shell.InteractiveTB.set_colors(scheme = new_scheme)

2523

shell.SyntaxTB.set_colors(scheme = new_scheme)

2523

shell.SyntaxTB.set_colors(scheme = new_scheme)

2524

except:

2524

except:

2525

color_switch_err('exception')

2525

color_switch_err('exception')

2526

2527

# Set info (for 'object?') colors

2527

# Set info (for 'object?') colors

2528

if shell.color_info:

2528

if shell.color_info:

2529

try:

2529

try:

2530

shell.inspector.set_active_scheme(new_scheme)

2530

shell.inspector.set_active_scheme(new_scheme)

2531

except:

2531

except:

2532

color_switch_err('object inspector')

2532

color_switch_err('object inspector')

2533

else:

2533

else:

2534

shell.inspector.set_active_scheme('NoColor')

2534

shell.inspector.set_active_scheme('NoColor')

2535

2536

def magic_pprint(self, parameter_s=''):

2536

def magic_pprint(self, parameter_s=''):

2537

"""Toggle pretty printing on/off."""

2537

"""Toggle pretty printing on/off."""

2538

ptformatter = self.shell.display_formatter.formatters['text/plain']

2538

ptformatter = self.shell.display_formatter.formatters['text/plain']

2539

ptformatter.pprint = bool(1 - ptformatter.pprint)

2539

ptformatter.pprint = bool(1 - ptformatter.pprint)

2540

print 'Pretty printing has been turned', \

2540

print 'Pretty printing has been turned', \

2541

['OFF','ON'][ptformatter.pprint]

2541

['OFF','ON'][ptformatter.pprint]

2542

2543

#......................................................................

2543

#......................................................................

2544

# Functions to implement unix shell-type things

2544

# Functions to implement unix shell-type things

2545

2546

@skip_doctest

2546

@skip_doctest

2547

def magic_alias(self, parameter_s = ''):

2547

def magic_alias(self, parameter_s = ''):

2548

"""Define an alias for a system command.

2548

"""Define an alias for a system command.

2549

2550

'%alias alias_name cmd' defines 'alias_name' as an alias for 'cmd'

2550

'%alias alias_name cmd' defines 'alias_name' as an alias for 'cmd'

2551

2552

Then, typing 'alias_name params' will execute the system command 'cmd

2552

Then, typing 'alias_name params' will execute the system command 'cmd

2553

params' (from your underlying operating system).

2553

params' (from your underlying operating system).

2554

2555

Aliases have lower precedence than magic functions and Python normal

2555

Aliases have lower precedence than magic functions and Python normal

2556

variables, so if 'foo' is both a Python variable and an alias, the

2556

variables, so if 'foo' is both a Python variable and an alias, the

2557

alias can not be executed until 'del foo' removes the Python variable.

2557

alias can not be executed until 'del foo' removes the Python variable.

2558

2559

You can use the %l specifier in an alias definition to represent the

2559

You can use the %l specifier in an alias definition to represent the

2560

whole line when the alias is called. For example:

2560

whole line when the alias is called. For example:

2561

2562

In [2]: alias bracket echo "Input in brackets: <%l>"

2562

In [2]: alias bracket echo "Input in brackets: <%l>"

2563

In [3]: bracket hello world

2563

In [3]: bracket hello world

2564

Input in brackets: <hello world>

2564

Input in brackets: <hello world>

2565

2566

You can also define aliases with parameters using %s specifiers (one

2566

You can also define aliases with parameters using %s specifiers (one

2567

per parameter):

2567

per parameter):

2568

2569

In [1]: alias parts echo first %s second %s

2569

In [1]: alias parts echo first %s second %s

2570

In [2]: %parts A B

2570

In [2]: %parts A B

2571

first A second B

2571

first A second B

2572

In [3]: %parts A

2572

In [3]: %parts A

2573

Incorrect number of arguments: 2 expected.

2573

Incorrect number of arguments: 2 expected.

2574

parts is an alias to: 'echo first %s second %s'

2574

parts is an alias to: 'echo first %s second %s'

2575

2576

Note that %l and %s are mutually exclusive. You can only use one or

2576

Note that %l and %s are mutually exclusive. You can only use one or

2577

the other in your aliases.

2577

the other in your aliases.

2578

2579

Aliases expand Python variables just like system calls using ! or !!

2579

Aliases expand Python variables just like system calls using ! or !!

2580

do: all expressions prefixed with '$' get expanded. For details of

2580

do: all expressions prefixed with '$' get expanded. For details of

2581

the semantic rules, see PEP-215:

2581

the semantic rules, see PEP-215:

2582

http://www.python.org/peps/pep-0215.html. This is the library used by

2582

http://www.python.org/peps/pep-0215.html. This is the library used by

2583

IPython for variable expansion. If you want to access a true shell

2583

IPython for variable expansion. If you want to access a true shell

2584

variable, an extra $ is necessary to prevent its expansion by IPython:

2584

variable, an extra $ is necessary to prevent its expansion by IPython:

2585

2586

In [6]: alias show echo

2586

In [6]: alias show echo

2587

In [7]: PATH='A Python string'

2587

In [7]: PATH='A Python string'

2588

In [8]: show $PATH

2588

In [8]: show $PATH

2589

A Python string

2589

A Python string

2590

In [9]: show $$PATH

2590

In [9]: show $$PATH

2591

/usr/local/lf9560/bin:/usr/local/intel/compiler70/ia32/bin:...

2591

/usr/local/lf9560/bin:/usr/local/intel/compiler70/ia32/bin:...

2592

2593

You can use the alias facility to acess all of $PATH. See the %rehash

2593

You can use the alias facility to acess all of $PATH. See the %rehash

2594

and %rehashx functions, which automatically create aliases for the

2594

and %rehashx functions, which automatically create aliases for the

2595

contents of your $PATH.

2595

contents of your $PATH.

2596

2597

If called with no parameters, %alias prints the current alias table."""

2597

If called with no parameters, %alias prints the current alias table."""

2598

2599

par = parameter_s.strip()

2599

par = parameter_s.strip()

2600

if not par:

2600

if not par:

2601

stored = self.db.get('stored_aliases', {} )

2601

stored = self.db.get('stored_aliases', {} )

2602

aliases = sorted(self.shell.alias_manager.aliases)

2602

aliases = sorted(self.shell.alias_manager.aliases)

2603

# for k, v in stored:

2603

# for k, v in stored:

2604

# atab.append(k, v[0])

2604

# atab.append(k, v[0])

2605

2606

print "Total number of aliases:", len(aliases)

2606

print "Total number of aliases:", len(aliases)

2607

sys.stdout.flush()

2607

sys.stdout.flush()

2608

return aliases

2608

return aliases

2609

2610

# Now try to define a new one

2610

# Now try to define a new one

2611

try:

2611

try:

2612

alias,cmd = par.split(None, 1)

2612

alias,cmd = par.split(None, 1)

2613

except:

2613

except:

2614

print oinspect.getdoc(self.magic_alias)

2614

print oinspect.getdoc(self.magic_alias)

2615

else:

2615

else:

2616

self.shell.alias_manager.soft_define_alias(alias, cmd)

2616

self.shell.alias_manager.soft_define_alias(alias, cmd)

2617

# end magic_alias

2617

# end magic_alias

2618

2619

def magic_unalias(self, parameter_s = ''):

2619

def magic_unalias(self, parameter_s = ''):

2620

"""Remove an alias"""

2620

"""Remove an alias"""

2621

2622

aname = parameter_s.strip()

2622

aname = parameter_s.strip()

2623

self.shell.alias_manager.undefine_alias(aname)

2623

self.shell.alias_manager.undefine_alias(aname)

2624

stored = self.db.get('stored_aliases', {} )

2624

stored = self.db.get('stored_aliases', {} )

2625

if aname in stored:

2625

if aname in stored:

2626

print "Removing %stored alias",aname

2626

print "Removing %stored alias",aname

2627

del stored[aname]

2627

del stored[aname]

2628

self.db['stored_aliases'] = stored

2628

self.db['stored_aliases'] = stored

2629

2630

def magic_rehashx(self, parameter_s = ''):

2630

def magic_rehashx(self, parameter_s = ''):

2631

"""Update the alias table with all executable files in $PATH.

2631

"""Update the alias table with all executable files in $PATH.

2632

2633

This version explicitly checks that every entry in $PATH is a file

2633

This version explicitly checks that every entry in $PATH is a file

2634

with execute access (os.X_OK), so it is much slower than %rehash.

2634

with execute access (os.X_OK), so it is much slower than %rehash.

2635

2636

Under Windows, it checks executability as a match agains a

2636

Under Windows, it checks executability as a match agains a

2637

'|'-separated string of extensions, stored in the IPython config

2637

'|'-separated string of extensions, stored in the IPython config

2638

variable win_exec_ext. This defaults to 'exe|com|bat'.

2638

variable win_exec_ext. This defaults to 'exe|com|bat'.

2639

2640

This function also resets the root module cache of module completer,

2640

This function also resets the root module cache of module completer,

2641

used on slow filesystems.

2641

used on slow filesystems.

2642

"""

2642

"""

2643

from IPython.core.alias import InvalidAliasError

2643

from IPython.core.alias import InvalidAliasError

2644

2645

# for the benefit of module completer in ipy_completers.py

2645

# for the benefit of module completer in ipy_completers.py

2646

del self.db['rootmodules']

2646

del self.db['rootmodules']

2647

2648

path = [os.path.abspath(os.path.expanduser(p)) for p in

2648

path = [os.path.abspath(os.path.expanduser(p)) for p in

2649

os.environ.get('PATH','').split(os.pathsep)]

2649

os.environ.get('PATH','').split(os.pathsep)]

2650

path = filter(os.path.isdir,path)

2650

path = filter(os.path.isdir,path)

2651

2652

syscmdlist = []

2652

syscmdlist = []

2653

# Now define isexec in a cross platform manner.

2653

# Now define isexec in a cross platform manner.

2654

if os.name == 'posix':

2654

if os.name == 'posix':

2655

isexec = lambda fname:os.path.isfile(fname) and \

2655

isexec = lambda fname:os.path.isfile(fname) and \

2656

os.access(fname,os.X_OK)

2656

os.access(fname,os.X_OK)

2657

else:

2657

else:

2658

try:

2658

try:

2659

winext = os.environ['pathext'].replace(';','|').replace('.','')

2659

winext = os.environ['pathext'].replace(';','|').replace('.','')

2660

except KeyError:

2660

except KeyError:

2661

winext = 'exe|com|bat|py'

2661

winext = 'exe|com|bat|py'

2662

if 'py' not in winext:

2662

if 'py' not in winext:

2663

winext += '|py'

2663

winext += '|py'

2664

execre = re.compile(r'(.*)\.(%s)$' % winext,re.IGNORECASE)

2664

execre = re.compile(r'(.*)\.(%s)$' % winext,re.IGNORECASE)

2665

isexec = lambda fname:os.path.isfile(fname) and execre.match(fname)

2665

isexec = lambda fname:os.path.isfile(fname) and execre.match(fname)

2666

savedir = os.getcwdu()

2666

savedir = os.getcwdu()

2667

2668

# Now walk the paths looking for executables to alias.

2668

# Now walk the paths looking for executables to alias.

2669

try:

2669

try:

2670

# write the whole loop for posix/Windows so we don't have an if in

2670

# write the whole loop for posix/Windows so we don't have an if in

2671

# the innermost part

2671

# the innermost part

2672

if os.name == 'posix':

2672

if os.name == 'posix':

2673

for pdir in path:

2673

for pdir in path:

2674

os.chdir(pdir)

2674

os.chdir(pdir)

2675

for ff in os.listdir(pdir):

2675

for ff in os.listdir(pdir):

2676

if isexec(ff):

2676

if isexec(ff):

2677

try:

2677

try:

2678

# Removes dots from the name since ipython

2678

# Removes dots from the name since ipython

2679

# will assume names with dots to be python.

2679

# will assume names with dots to be python.

2680

self.shell.alias_manager.define_alias(

2680

self.shell.alias_manager.define_alias(

2681

ff.replace('.',''), ff)

2681

ff.replace('.',''), ff)

2682

except InvalidAliasError:

2682

except InvalidAliasError:

2683

pass

2683

pass

2684

else:

2684

else:

2685

syscmdlist.append(ff)

2685

syscmdlist.append(ff)

2686

else:

2686

else:

2687

no_alias = self.shell.alias_manager.no_alias

2687

no_alias = self.shell.alias_manager.no_alias

2688

for pdir in path:

2688

for pdir in path:

2689

os.chdir(pdir)

2689

os.chdir(pdir)

2690

for ff in os.listdir(pdir):

2690

for ff in os.listdir(pdir):

2691

base, ext = os.path.splitext(ff)

2691

base, ext = os.path.splitext(ff)

2692

if isexec(ff) and base.lower() not in no_alias:

2692

if isexec(ff) and base.lower() not in no_alias:

2693

if ext.lower() == '.exe':

2693

if ext.lower() == '.exe':

2694

ff = base

2694

ff = base

2695

try:

2695

try:

2696

# Removes dots from the name since ipython

2696

# Removes dots from the name since ipython

2697

# will assume names with dots to be python.

2697

# will assume names with dots to be python.

2698

self.shell.alias_manager.define_alias(

2698

self.shell.alias_manager.define_alias(

2699

base.lower().replace('.',''), ff)

2699

base.lower().replace('.',''), ff)

2700

except InvalidAliasError:

2700

except InvalidAliasError:

2701

pass

2701

pass

2702

syscmdlist.append(ff)

2702

syscmdlist.append(ff)

2703

db = self.db

2703

db = self.db

2704

db['syscmdlist'] = syscmdlist

2704

db['syscmdlist'] = syscmdlist

2705

finally:

2705

finally:

2706

os.chdir(savedir)

2706

os.chdir(savedir)

2707

2708

@skip_doctest

2708

@skip_doctest

2709

def magic_pwd(self, parameter_s = ''):

2709

def magic_pwd(self, parameter_s = ''):

2710

"""Return the current working directory path.

2710

"""Return the current working directory path.

2711

2712

Examples

2712

Examples

2713

--------

2713

--------

2714

::

2714

::

2715

2716

In [9]: pwd

2716

In [9]: pwd

2717

Out[9]: '/home/tsuser/sprint/ipython'

2717

Out[9]: '/home/tsuser/sprint/ipython'

2718

"""

2718

"""

2719

return os.getcwdu()

2719

return os.getcwdu()

2720

2721

@skip_doctest

2721

@skip_doctest

2722

def magic_cd(self, parameter_s=''):

2722

def magic_cd(self, parameter_s=''):

2723

"""Change the current working directory.

2723

"""Change the current working directory.

2724

2725

This command automatically maintains an internal list of directories

2725

This command automatically maintains an internal list of directories

2726

you visit during your IPython session, in the variable _dh. The

2726

you visit during your IPython session, in the variable _dh. The

2727

command %dhist shows this history nicely formatted. You can also

2727

command %dhist shows this history nicely formatted. You can also

2728

do 'cd -<tab>' to see directory history conveniently.

2728

do 'cd -<tab>' to see directory history conveniently.

2729

2730

Usage:

2730

Usage:

2731

2732

cd 'dir': changes to directory 'dir'.

2732

cd 'dir': changes to directory 'dir'.

2733

2734

cd -: changes to the last visited directory.

2734

cd -: changes to the last visited directory.

2735

2736

cd -<n>: changes to the n-th directory in the directory history.

2736

cd -<n>: changes to the n-th directory in the directory history.

2737

2738

cd --foo: change to directory that matches 'foo' in history

2738

cd --foo: change to directory that matches 'foo' in history

2739

2740

cd -b <bookmark_name>: jump to a bookmark set by %bookmark

2740

cd -b <bookmark_name>: jump to a bookmark set by %bookmark

2741

(note: cd <bookmark_name> is enough if there is no

2741

(note: cd <bookmark_name> is enough if there is no

2742

directory <bookmark_name>, but a bookmark with the name exists.)

2742

directory <bookmark_name>, but a bookmark with the name exists.)

2743

'cd -b <tab>' allows you to tab-complete bookmark names.

2743

'cd -b <tab>' allows you to tab-complete bookmark names.

2744

2745

Options:

2745

Options:

2746

2747

-q: quiet. Do not print the working directory after the cd command is

2747

-q: quiet. Do not print the working directory after the cd command is

2748

executed. By default IPython's cd command does print this directory,

2748

executed. By default IPython's cd command does print this directory,

2749

since the default prompts do not display path information.

2749

since the default prompts do not display path information.

2750

2751

Note that !cd doesn't work for this purpose because the shell where

2751

Note that !cd doesn't work for this purpose because the shell where

2752

!command runs is immediately discarded after executing 'command'.

2752

!command runs is immediately discarded after executing 'command'.

2753

2754

Examples

2754

Examples

2755

--------

2755

--------

2756

::

2756

::

2757

2758

In [10]: cd parent/child

2758

In [10]: cd parent/child

2759

/home/tsuser/parent/child

2759

/home/tsuser/parent/child

2760

"""

2760

"""

2761

2762

parameter_s = parameter_s.strip()

2762

parameter_s = parameter_s.strip()

2763

#bkms = self.shell.persist.get("bookmarks",{})

2763

#bkms = self.shell.persist.get("bookmarks",{})

2764

2765

oldcwd = os.getcwdu()

2765

oldcwd = os.getcwdu()

2766

numcd = re.match(r'(-)(\d+)$',parameter_s)

2766

numcd = re.match(r'(-)(\d+)$',parameter_s)

2767

# jump in directory history by number

2767

# jump in directory history by number

2768

if numcd:

2768

if numcd:

2769

nn = int(numcd.group(2))

2769

nn = int(numcd.group(2))

2770

try:

2770

try:

2771

ps = self.shell.user_ns['_dh'][nn]

2771

ps = self.shell.user_ns['_dh'][nn]

2772

except IndexError:

2772

except IndexError:

2773

print 'The requested directory does not exist in history.'

2773

print 'The requested directory does not exist in history.'

2774

return

2774

return

2775

else:

2775

else:

2776

opts = {}

2776

opts = {}

2777

elif parameter_s.startswith('--'):

2777

elif parameter_s.startswith('--'):

2778

ps = None

2778

ps = None

2779

fallback = None

2779

fallback = None

2780

pat = parameter_s[2:]

2780

pat = parameter_s[2:]

2781

dh = self.shell.user_ns['_dh']

2781

dh = self.shell.user_ns['_dh']

2782

# first search only by basename (last component)

2782

# first search only by basename (last component)

2783

for ent in reversed(dh):

2783

for ent in reversed(dh):

2784

if pat in os.path.basename(ent) and os.path.isdir(ent):

2784

if pat in os.path.basename(ent) and os.path.isdir(ent):

2785

ps = ent

2785

ps = ent

2786

break

2786

break

2787

2788

if fallback is None and pat in ent and os.path.isdir(ent):

2788

if fallback is None and pat in ent and os.path.isdir(ent):

2789

fallback = ent

2789

fallback = ent

2790

2791

# if we have no last part match, pick the first full path match

2791

# if we have no last part match, pick the first full path match

2792

if ps is None:

2792

if ps is None:

2793

ps = fallback

2793

ps = fallback

2794

2795

if ps is None:

2795

if ps is None:

2796

print "No matching entry in directory history"

2796

print "No matching entry in directory history"

2797

return

2797

return

2798

else:

2798

else:

2799

opts = {}

2799

opts = {}

2800

2801

2802

else:

2802

else:

2803

#turn all non-space-escaping backslashes to slashes,

2803

#turn all non-space-escaping backslashes to slashes,

2804

# for c:\windows\directory\names\

2804

# for c:\windows\directory\names\

2805

parameter_s = re.sub(r'\\(?! )','/', parameter_s)

2805

parameter_s = re.sub(r'\\(?! )','/', parameter_s)

2806

opts,ps = self.parse_options(parameter_s,'qb',mode='string')

2806

opts,ps = self.parse_options(parameter_s,'qb',mode='string')

2807

# jump to previous

2807

# jump to previous

2808

if ps == '-':

2808

if ps == '-':

2809

try:

2809

try:

2810

ps = self.shell.user_ns['_dh'][-2]

2810

ps = self.shell.user_ns['_dh'][-2]

2811

except IndexError:

2811

except IndexError:

2812

raise UsageError('%cd -: No previous directory to change to.')

2812

raise UsageError('%cd -: No previous directory to change to.')

2813

# jump to bookmark if needed

2813

# jump to bookmark if needed

2814

else:

2814

else:

2815

if not os.path.isdir(ps) or opts.has_key('b'):

2815

if not os.path.isdir(ps) or opts.has_key('b'):

2816

bkms = self.db.get('bookmarks', {})

2816

bkms = self.db.get('bookmarks', {})

2817

2818

if bkms.has_key(ps):

2818

if bkms.has_key(ps):

2819

target = bkms[ps]

2819

target = bkms[ps]

2820

print '(bookmark:%s) -> %s' % (ps,target)

2820

print '(bookmark:%s) -> %s' % (ps,target)

2821

ps = target

2821

ps = target

2822

else:

2822

else:

2823

if opts.has_key('b'):

2823

if opts.has_key('b'):

2824

raise UsageError("Bookmark '%s' not found. "

2824

raise UsageError("Bookmark '%s' not found. "

2825

"Use '%%bookmark -l' to see your bookmarks." % ps)

2825

"Use '%%bookmark -l' to see your bookmarks." % ps)

2826

2827

# strip extra quotes on Windows, because os.chdir doesn't like them

2827

# strip extra quotes on Windows, because os.chdir doesn't like them

2828

if sys.platform == 'win32':

2828

if sys.platform == 'win32':

2829

ps = ps.strip('\'"')

2829

ps = ps.strip('\'"')

2830

# at this point ps should point to the target dir

2830

# at this point ps should point to the target dir

2831

if ps:

2831

if ps:

2832

try:

2832

try:

2833

os.chdir(os.path.expanduser(ps))

2833

os.chdir(os.path.expanduser(ps))

2834

if hasattr(self.shell, 'term_title') and self.shell.term_title:

2834

if hasattr(self.shell, 'term_title') and self.shell.term_title:

2835

set_term_title('IPython: ' + abbrev_cwd())

2835

set_term_title('IPython: ' + abbrev_cwd())

2836

except OSError:

2836

except OSError:

2837

print sys.exc_info()[1]

2837

print sys.exc_info()[1]

2838

else:

2838

else:

2839

cwd = os.getcwdu()

2839

cwd = os.getcwdu()

2840

dhist = self.shell.user_ns['_dh']

2840

dhist = self.shell.user_ns['_dh']

2841

if oldcwd != cwd:

2841

if oldcwd != cwd:

2842

dhist.append(cwd)

2842

dhist.append(cwd)

2843

self.db['dhist'] = compress_dhist(dhist)[-100:]

2843

self.db['dhist'] = compress_dhist(dhist)[-100:]

2844

2845

else:

2845

else:

2846

os.chdir(self.shell.home_dir)

2846

os.chdir(self.shell.home_dir)

2847

if hasattr(self.shell, 'term_title') and self.shell.term_title:

2847

if hasattr(self.shell, 'term_title') and self.shell.term_title:

2848

set_term_title('IPython: ' + '~')

2848

set_term_title('IPython: ' + '~')

2849

cwd = os.getcwdu()

2849

cwd = os.getcwdu()

2850

dhist = self.shell.user_ns['_dh']

2850

dhist = self.shell.user_ns['_dh']

2851

2852

if oldcwd != cwd:

2852

if oldcwd != cwd:

2853

dhist.append(cwd)

2853

dhist.append(cwd)

2854

self.db['dhist'] = compress_dhist(dhist)[-100:]

2854

self.db['dhist'] = compress_dhist(dhist)[-100:]

2855

if not 'q' in opts and self.shell.user_ns['_dh']:

2855

if not 'q' in opts and self.shell.user_ns['_dh']:

2856

print self.shell.user_ns['_dh'][-1]

2856

print self.shell.user_ns['_dh'][-1]

2857

2858

2859

def magic_env(self, parameter_s=''):

2859

def magic_env(self, parameter_s=''):

2860

"""List environment variables."""

2860

"""List environment variables."""

2861

2862

return os.environ.data

2862

return os.environ.data

2863

2864

def magic_pushd(self, parameter_s=''):

2864

def magic_pushd(self, parameter_s=''):

2865

"""Place the current dir on stack and change directory.

2865

"""Place the current dir on stack and change directory.

2866

2867

Usage:\\

2867

Usage:\\

2868

%pushd ['dirname']

2868

%pushd ['dirname']

2869

"""

2869

"""

2870

2871

dir_s = self.shell.dir_stack

2871

dir_s = self.shell.dir_stack

2872

tgt = os.path.expanduser(parameter_s)

2872

tgt = os.path.expanduser(parameter_s)

2873

cwd = os.getcwdu().replace(self.home_dir,'~')

2873

cwd = os.getcwdu().replace(self.home_dir,'~')

2874

if tgt:

2874

if tgt:

2875

self.magic_cd(parameter_s)

2875

self.magic_cd(parameter_s)

2876

dir_s.insert(0,cwd)

2876

dir_s.insert(0,cwd)

2877

return self.magic_dirs()

2877

return self.magic_dirs()

2878

2879

def magic_popd(self, parameter_s=''):

2879

def magic_popd(self, parameter_s=''):

2880

"""Change to directory popped off the top of the stack.

2880

"""Change to directory popped off the top of the stack.

2881

"""

2881

"""

2882

if not self.shell.dir_stack:

2882

if not self.shell.dir_stack:

2883

raise UsageError("%popd on empty stack")

2883

raise UsageError("%popd on empty stack")

2884

top = self.shell.dir_stack.pop(0)

2884

top = self.shell.dir_stack.pop(0)

2885

self.magic_cd(top)

2885

self.magic_cd(top)

2886

print "popd ->",top

2886

print "popd ->",top

2887

2888

def magic_dirs(self, parameter_s=''):

2888

def magic_dirs(self, parameter_s=''):

2889

"""Return the current directory stack."""

2889

"""Return the current directory stack."""

2890

2891

return self.shell.dir_stack

2891

return self.shell.dir_stack

2892

2893

def magic_dhist(self, parameter_s=''):

2893

def magic_dhist(self, parameter_s=''):

2894

"""Print your history of visited directories.

2894

"""Print your history of visited directories.

2895

2896

%dhist -> print full history\\

2896

%dhist -> print full history\\

2897

%dhist n -> print last n entries only\\

2897

%dhist n -> print last n entries only\\

2898

%dhist n1 n2 -> print entries between n1 and n2 (n1 not included)\\

2898

%dhist n1 n2 -> print entries between n1 and n2 (n1 not included)\\

2899

2900

This history is automatically maintained by the %cd command, and

2900

This history is automatically maintained by the %cd command, and

2901

always available as the global list variable _dh. You can use %cd -<n>

2901

always available as the global list variable _dh. You can use %cd -<n>

2902

to go to directory number <n>.

2902

to go to directory number <n>.

2903

2904

Note that most of time, you should view directory history by entering

2904

Note that most of time, you should view directory history by entering

2905

cd -<TAB>.

2905

cd -<TAB>.

2906

2907

"""

2907

"""

2908

2909

dh = self.shell.user_ns['_dh']

2909

dh = self.shell.user_ns['_dh']

2910

if parameter_s:

2910

if parameter_s:

2911

try:

2911

try:

2912

args = map(int,parameter_s.split())

2912

args = map(int,parameter_s.split())

2913

except:

2913

except:

2914

self.arg_err(Magic.magic_dhist)

2914

self.arg_err(Magic.magic_dhist)

2915

return

2915

return

2916

if len(args) == 1:

2916

if len(args) == 1:

2917

ini,fin = max(len(dh)-(args[0]),0),len(dh)

2917

ini,fin = max(len(dh)-(args[0]),0),len(dh)

2918

elif len(args) == 2:

2918

elif len(args) == 2:

2919

ini,fin = args

2919

ini,fin = args

2920

else:

2920

else:

2921

self.arg_err(Magic.magic_dhist)

2921

self.arg_err(Magic.magic_dhist)

2922

return

2922

return

2923

else:

2923

else:

2924

ini,fin = 0,len(dh)

2924

ini,fin = 0,len(dh)

2925

nlprint(dh,

2925

nlprint(dh,

2926

header = 'Directory history (kept in _dh)',

2926

header = 'Directory history (kept in _dh)',

2927

start=ini,stop=fin)

2927

start=ini,stop=fin)

2928

2929

@skip_doctest

2929

@skip_doctest

2930

def magic_sc(self, parameter_s=''):

2930

def magic_sc(self, parameter_s=''):

2931

"""Shell capture - execute a shell command and capture its output.

2931

"""Shell capture - execute a shell command and capture its output.

2932

2933

DEPRECATED. Suboptimal, retained for backwards compatibility.

2933

DEPRECATED. Suboptimal, retained for backwards compatibility.

2934

2935

You should use the form 'var = !command' instead. Example:

2935

You should use the form 'var = !command' instead. Example:

2936

2937

"%sc -l myfiles = ls ~" should now be written as

2937

"%sc -l myfiles = ls ~" should now be written as

2938

2939

"myfiles = !ls ~"

2939

"myfiles = !ls ~"

2940

2941

myfiles.s, myfiles.l and myfiles.n still apply as documented

2941

myfiles.s, myfiles.l and myfiles.n still apply as documented

2942

below.

2942

below.

2943

2944

--

2944

--

2945

%sc [options] varname=command

2945

%sc [options] varname=command

2946

2947

IPython will run the given command using commands.getoutput(), and

2947

IPython will run the given command using commands.getoutput(), and

2948

will then update the user's interactive namespace with a variable

2948

will then update the user's interactive namespace with a variable

2949

called varname, containing the value of the call. Your command can

2949

called varname, containing the value of the call. Your command can

2950

contain shell wildcards, pipes, etc.

2950

contain shell wildcards, pipes, etc.

2951

2952

The '=' sign in the syntax is mandatory, and the variable name you

2952

The '=' sign in the syntax is mandatory, and the variable name you

2953

supply must follow Python's standard conventions for valid names.

2953

supply must follow Python's standard conventions for valid names.

2954

2955

(A special format without variable name exists for internal use)

2955

(A special format without variable name exists for internal use)

2956

2957

Options:

2957

Options:

2958

2959

-l: list output. Split the output on newlines into a list before

2959

-l: list output. Split the output on newlines into a list before

2960

assigning it to the given variable. By default the output is stored

2960

assigning it to the given variable. By default the output is stored

2961

as a single string.

2961

as a single string.

2962

2963

-v: verbose. Print the contents of the variable.

2963

-v: verbose. Print the contents of the variable.

2964

2965

In most cases you should not need to split as a list, because the

2965

In most cases you should not need to split as a list, because the

2966

returned value is a special type of string which can automatically

2966

returned value is a special type of string which can automatically

2967

provide its contents either as a list (split on newlines) or as a

2967

provide its contents either as a list (split on newlines) or as a

2968

space-separated string. These are convenient, respectively, either

2968

space-separated string. These are convenient, respectively, either

2969

for sequential processing or to be passed to a shell command.

2969

for sequential processing or to be passed to a shell command.

2970

2971

For example:

2971

For example:

2972

2973

# all-random

2973

# all-random

2974

2975

# Capture into variable a

2975

# Capture into variable a

2976

In [1]: sc a=ls *py

2976

In [1]: sc a=ls *py

2977

2978

# a is a string with embedded newlines

2978

# a is a string with embedded newlines

2979

In [2]: a

2979

In [2]: a

2980

Out[2]: 'setup.py\\nwin32_manual_post_install.py'

2980

Out[2]: 'setup.py\\nwin32_manual_post_install.py'

2981

2982

# which can be seen as a list:

2982

# which can be seen as a list:

2983

In [3]: a.l

2983

In [3]: a.l

2984

Out[3]: ['setup.py', 'win32_manual_post_install.py']

2984

Out[3]: ['setup.py', 'win32_manual_post_install.py']

2985

2986

# or as a whitespace-separated string:

2986

# or as a whitespace-separated string:

2987

In [4]: a.s

2987

In [4]: a.s

2988

Out[4]: 'setup.py win32_manual_post_install.py'

2988

Out[4]: 'setup.py win32_manual_post_install.py'

2989

2990

# a.s is useful to pass as a single command line:

2990

# a.s is useful to pass as a single command line:

2991

In [5]: !wc -l $a.s

2991

In [5]: !wc -l $a.s

2992

146 setup.py

2992

146 setup.py

2993

130 win32_manual_post_install.py

2993

130 win32_manual_post_install.py

2994

276 total

2994

276 total

2995

2996

# while the list form is useful to loop over:

2996

# while the list form is useful to loop over:

2997

In [6]: for f in a.l:

2997

In [6]: for f in a.l:

2998

...: !wc -l $f

2998

...: !wc -l $f

2999

...:

2999

...:

3000

146 setup.py

3000

146 setup.py

3001

130 win32_manual_post_install.py

3001

130 win32_manual_post_install.py

3002

3003

Similiarly, the lists returned by the -l option are also special, in

3003

Similiarly, the lists returned by the -l option are also special, in

3004

the sense that you can equally invoke the .s attribute on them to

3004

the sense that you can equally invoke the .s attribute on them to

3005

automatically get a whitespace-separated string from their contents:

3005

automatically get a whitespace-separated string from their contents:

3006

3007

In [7]: sc -l b=ls *py

3007

In [7]: sc -l b=ls *py

3008

3009

In [8]: b

3009

In [8]: b

3010

Out[8]: ['setup.py', 'win32_manual_post_install.py']

3010

Out[8]: ['setup.py', 'win32_manual_post_install.py']

3011

3012

In [9]: b.s

3012

In [9]: b.s

3013

Out[9]: 'setup.py win32_manual_post_install.py'

3013

Out[9]: 'setup.py win32_manual_post_install.py'

3014

3015

In summary, both the lists and strings used for ouptut capture have

3015

In summary, both the lists and strings used for ouptut capture have

3016

the following special attributes:

3016

the following special attributes:

3017

3018

.l (or .list) : value as list.

3018

.l (or .list) : value as list.

3019

.n (or .nlstr): value as newline-separated string.

3019

.n (or .nlstr): value as newline-separated string.

3020

.s (or .spstr): value as space-separated string.

3020

.s (or .spstr): value as space-separated string.

3021

"""

3021

"""

3022

3023

opts,args = self.parse_options(parameter_s,'lv')

3023

opts,args = self.parse_options(parameter_s,'lv')

3024

# Try to get a variable name and command to run

3024

# Try to get a variable name and command to run

3025

try:

3025

try:

3026

# the variable name must be obtained from the parse_options

3026

# the variable name must be obtained from the parse_options

3027

# output, which uses shlex.split to strip options out.

3027

# output, which uses shlex.split to strip options out.

3028

var,_ = args.split('=',1)

3028

var,_ = args.split('=',1)

3029

var = var.strip()

3029

var = var.strip()

3030

# But the the command has to be extracted from the original input

3030

# But the the command has to be extracted from the original input

3031

# parameter_s, not on what parse_options returns, to avoid the

3031

# parameter_s, not on what parse_options returns, to avoid the

3032

# quote stripping which shlex.split performs on it.

3032

# quote stripping which shlex.split performs on it.

3033

_,cmd = parameter_s.split('=',1)

3033

_,cmd = parameter_s.split('=',1)

3034

except ValueError:

3034

except ValueError:

3035

var,cmd = '',''

3035

var,cmd = '',''

3036

# If all looks ok, proceed

3036

# If all looks ok, proceed

3037

split = 'l' in opts

3037

split = 'l' in opts

3038

out = self.shell.getoutput(cmd, split=split)

3038

out = self.shell.getoutput(cmd, split=split)

3039

if opts.has_key('v'):

3039

if opts.has_key('v'):

3040

print '%s ==\n%s' % (var,pformat(out))

3040

print '%s ==\n%s' % (var,pformat(out))

3041

if var:

3041

if var:

3042

self.shell.user_ns.update({var:out})

3042

self.shell.user_ns.update({var:out})

3043

else:

3043

else:

3044

return out

3044

return out

3045

3046

def magic_sx(self, parameter_s=''):

3046

def magic_sx(self, parameter_s=''):

3047

"""Shell execute - run a shell command and capture its output.

3047

"""Shell execute - run a shell command and capture its output.

3048

3049

%sx command

3049

%sx command

3050

3051

IPython will run the given command using commands.getoutput(), and

3051

IPython will run the given command using commands.getoutput(), and

3052

return the result formatted as a list (split on '\\n'). Since the

3052

return the result formatted as a list (split on '\\n'). Since the

3053

output is _returned_, it will be stored in ipython's regular output

3053

output is _returned_, it will be stored in ipython's regular output

3054

cache Out[N] and in the '_N' automatic variables.

3054

cache Out[N] and in the '_N' automatic variables.

3055

3056

Notes:

3056

Notes:

3057

3058

1) If an input line begins with '!!', then %sx is automatically

3058

1) If an input line begins with '!!', then %sx is automatically

3059

invoked. That is, while:

3059

invoked. That is, while:

3060

!ls

3060

!ls

3061

causes ipython to simply issue system('ls'), typing

3061

causes ipython to simply issue system('ls'), typing

3062

!!ls

3062

!!ls

3063

is a shorthand equivalent to:

3063

is a shorthand equivalent to:

3064

%sx ls

3064

%sx ls

3065

3066

2) %sx differs from %sc in that %sx automatically splits into a list,

3066

2) %sx differs from %sc in that %sx automatically splits into a list,

3067

like '%sc -l'. The reason for this is to make it as easy as possible

3067

like '%sc -l'. The reason for this is to make it as easy as possible

3068

to process line-oriented shell output via further python commands.

3068

to process line-oriented shell output via further python commands.

3069

%sc is meant to provide much finer control, but requires more

3069

%sc is meant to provide much finer control, but requires more

3070

typing.

3070

typing.

3071

3072

3) Just like %sc -l, this is a list with special attributes:

3072

3) Just like %sc -l, this is a list with special attributes:

3073

3074

.l (or .list) : value as list.

3074

.l (or .list) : value as list.

3075

.n (or .nlstr): value as newline-separated string.

3075

.n (or .nlstr): value as newline-separated string.

3076

.s (or .spstr): value as whitespace-separated string.

3076

.s (or .spstr): value as whitespace-separated string.

3077

3078

This is very useful when trying to use such lists as arguments to

3078

This is very useful when trying to use such lists as arguments to

3079

system commands."""

3079

system commands."""

3080

3081

if parameter_s:

3081

if parameter_s:

3082

return self.shell.getoutput(parameter_s)

3082

return self.shell.getoutput(parameter_s)

3083

3084

3085

def magic_bookmark(self, parameter_s=''):

3085

def magic_bookmark(self, parameter_s=''):

3086

"""Manage IPython's bookmark system.

3086

"""Manage IPython's bookmark system.

3087

3088

%bookmark <name> - set bookmark to current dir

3088

%bookmark <name> - set bookmark to current dir

3089

%bookmark <name> <dir> - set bookmark to <dir>

3089

%bookmark <name> <dir> - set bookmark to <dir>

3090

%bookmark -l - list all bookmarks

3090

%bookmark -l - list all bookmarks

3091

%bookmark -d <name> - remove bookmark

3091

%bookmark -d <name> - remove bookmark

3092

%bookmark -r - remove all bookmarks

3092

%bookmark -r - remove all bookmarks

3093

3094

You can later on access a bookmarked folder with:

3094

You can later on access a bookmarked folder with:

3095

%cd -b <name>

3095

%cd -b <name>

3096

or simply '%cd <name>' if there is no directory called <name> AND

3096

or simply '%cd <name>' if there is no directory called <name> AND

3097

there is such a bookmark defined.

3097

there is such a bookmark defined.

3098

3099

Your bookmarks persist through IPython sessions, but they are

3099

Your bookmarks persist through IPython sessions, but they are

3100

associated with each profile."""

3100

associated with each profile."""

3101

3102

opts,args = self.parse_options(parameter_s,'drl',mode='list')

3102

opts,args = self.parse_options(parameter_s,'drl',mode='list')

3103

if len(args) > 2:

3103

if len(args) > 2:

3104

raise UsageError("%bookmark: too many arguments")

3104

raise UsageError("%bookmark: too many arguments")

3105

3106

bkms = self.db.get('bookmarks',{})

3106

bkms = self.db.get('bookmarks',{})

3107

3108

if opts.has_key('d'):

3108

if opts.has_key('d'):

3109

try:

3109

try:

3110

todel = args[0]

3110

todel = args[0]

3111

except IndexError:

3111

except IndexError:

3112

raise UsageError(

3112

raise UsageError(

3113

"%bookmark -d: must provide a bookmark to delete")

3113

"%bookmark -d: must provide a bookmark to delete")

3114

else:

3114

else:

3115

try:

3115

try:

3116

del bkms[todel]

3116

del bkms[todel]

3117

except KeyError:

3117

except KeyError:

3118

raise UsageError(

3118

raise UsageError(

3119

"%%bookmark -d: Can't delete bookmark '%s'" % todel)

3119

"%%bookmark -d: Can't delete bookmark '%s'" % todel)

3120

3121

elif opts.has_key('r'):

3121

elif opts.has_key('r'):

3122

bkms = {}

3122

bkms = {}

3123

elif opts.has_key('l'):

3123

elif opts.has_key('l'):

3124

bks = bkms.keys()

3124

bks = bkms.keys()

3125

bks.sort()

3125

bks.sort()

3126

if bks:

3126

if bks:

3127

size = max(map(len,bks))

3127

size = max(map(len,bks))

3128

else:

3128

else:

3129

size = 0

3129

size = 0

3130

fmt = '%-'+str(size)+'s -> %s'

3130

fmt = '%-'+str(size)+'s -> %s'

3131

print 'Current bookmarks:'

3131

print 'Current bookmarks:'

3132

for bk in bks:

3132

for bk in bks:

3133

print fmt % (bk,bkms[bk])

3133

print fmt % (bk,bkms[bk])

3134

else:

3134

else:

3135

if not args:

3135

if not args:

3136

raise UsageError("%bookmark: You must specify the bookmark name")

3136

raise UsageError("%bookmark: You must specify the bookmark name")

3137

elif len(args)==1:

3137

elif len(args)==1:

3138

bkms[args[0]] = os.getcwdu()

3138

bkms[args[0]] = os.getcwdu()

3139

elif len(args)==2:

3139

elif len(args)==2:

3140

bkms[args[0]] = args[1]

3140

bkms[args[0]] = args[1]

3141

self.db['bookmarks'] = bkms

3141

self.db['bookmarks'] = bkms

3142

3143

def magic_pycat(self, parameter_s=''):

3143

def magic_pycat(self, parameter_s=''):

3144

"""Show a syntax-highlighted file through a pager.

3144

"""Show a syntax-highlighted file through a pager.

3145

3146

This magic is similar to the cat utility, but it will assume the file

3146

This magic is similar to the cat utility, but it will assume the file

3147

to be Python source and will show it with syntax highlighting. """

3147

to be Python source and will show it with syntax highlighting. """

3148

3149

try:

3149

try:

3150

filename = get_py_filename(parameter_s)

3150

filename = get_py_filename(parameter_s)

3151

cont = file_read(filename)

3151

cont = file_read(filename)

3152

except IOError:

3152

except IOError:

3153

try:

3153

try:

3154

cont = eval(parameter_s,self.user_ns)

3154

cont = eval(parameter_s,self.user_ns)

3155

except NameError:

3155

except NameError:

3156

cont = None

3156

cont = None

3157

if cont is None:

3157

if cont is None:

3158

print "Error: no such file or variable"

3158

print "Error: no such file or variable"

3159

return

3159

return

3160

3161

page.page(self.shell.pycolorize(cont))

3161

page.page(self.shell.pycolorize(cont))

3162

3163

def _rerun_pasted(self):

3163

def _rerun_pasted(self):

3164

""" Rerun a previously pasted command.

3164

""" Rerun a previously pasted command.

3165

"""

3165

"""

3166

b = self.user_ns.get('pasted_block', None)

3166

b = self.user_ns.get('pasted_block', None)

3167

if b is None:

3167

if b is None:

3168

raise UsageError('No previous pasted block available')

3168

raise UsageError('No previous pasted block available')

3169

print "Re-executing '%s...' (%d chars)"% (b.split('\n',1)[0], len(b))

3169

print "Re-executing '%s...' (%d chars)"% (b.split('\n',1)[0], len(b))

3170

exec b in self.user_ns

3170

exec b in self.user_ns

3171

3172

def _get_pasted_lines(self, sentinel):

3172

def _get_pasted_lines(self, sentinel):

3173

""" Yield pasted lines until the user enters the given sentinel value.

3173

""" Yield pasted lines until the user enters the given sentinel value.

3174

"""

3174

"""

3175

from IPython.core import interactiveshell

3175

from IPython.core import interactiveshell

3176

print "Pasting code; enter '%s' alone on the line to stop." % sentinel

3176

print "Pasting code; enter '%s' alone on the line to stop." % sentinel

3177

while True:

3177

while True:

3178

l = interactiveshell.raw_input_original(':')

3178

l = interactiveshell.raw_input_original(':')

3179

if l == sentinel:

3179

if l == sentinel:

3180

return

3180

return

3181

else:

3181

else:

3182

yield l

3182

yield l

3183

3184

def _strip_pasted_lines_for_code(self, raw_lines):

3184

def _strip_pasted_lines_for_code(self, raw_lines):

3185

""" Strip non-code parts of a sequence of lines to return a block of

3185

""" Strip non-code parts of a sequence of lines to return a block of

3186

code.

3186

code.

3187

"""

3187

"""

3188

# Regular expressions that declare text we strip from the input:

3188

# Regular expressions that declare text we strip from the input:

3189

strip_re = [r'^\s*In \[\d+\]:', # IPython input prompt

3189

strip_re = [r'^\s*In \[\d+\]:', # IPython input prompt

3190

r'^\s*(\s?>)+', # Python input prompt

3190

r'^\s*(\s?>)+', # Python input prompt

3191

r'^\s*\.{3,}', # Continuation prompts

3191

r'^\s*\.{3,}', # Continuation prompts

3192

r'^\++',

3192

r'^\++',

3193

]

3193

]

3194

3195

strip_from_start = map(re.compile,strip_re)

3195

strip_from_start = map(re.compile,strip_re)

3196

3197

lines = []

3197

lines = []

3198

for l in raw_lines:

3198

for l in raw_lines:

3199

for pat in strip_from_start:

3199

for pat in strip_from_start:

3200

l = pat.sub('',l)

3200

l = pat.sub('',l)

3201

lines.append(l)

3201

lines.append(l)

3202

3203

block = "\n".join(lines) + '\n'

3203

block = "\n".join(lines) + '\n'

3204

#print "block:\n",block

3204

#print "block:\n",block

3205

return block

3205

return block

3206

3207

def _execute_block(self, block, par):

3207

def _execute_block(self, block, par):

3208

""" Execute a block, or store it in a variable, per the user's request.

3208

""" Execute a block, or store it in a variable, per the user's request.

3209

"""

3209

"""

3210

if not par:

3210

if not par:

3211

b = textwrap.dedent(block)

3211

b = textwrap.dedent(block)

3212

self.user_ns['pasted_block'] = b

3212

self.user_ns['pasted_block'] = b

3213

exec b in self.user_ns

3213

exec b in self.user_ns

3214

else:

3214

else:

3215

self.user_ns[par] = SList(block.splitlines())

3215

self.user_ns[par] = SList(block.splitlines())

3216

print "Block assigned to '%s'" % par

3216

print "Block assigned to '%s'" % par

3217

3218

def magic_quickref(self,arg):

3218

def magic_quickref(self,arg):

3219

""" Show a quick reference sheet """

3219

""" Show a quick reference sheet """

3220

import IPython.core.usage

3220

import IPython.core.usage

3221

qr = IPython.core.usage.quick_reference + self.magic_magic('-brief')

3221

qr = IPython.core.usage.quick_reference + self.magic_magic('-brief')

3222

3223

page.page(qr)

3223

page.page(qr)

3224

3225

def magic_doctest_mode(self,parameter_s=''):

3225

def magic_doctest_mode(self,parameter_s=''):

3226

"""Toggle doctest mode on and off.

3226

"""Toggle doctest mode on and off.

3227

3228

This mode is intended to make IPython behave as much as possible like a

3228

This mode is intended to make IPython behave as much as possible like a

3229

plain Python shell, from the perspective of how its prompts, exceptions

3229

plain Python shell, from the perspective of how its prompts, exceptions

3230

and output look. This makes it easy to copy and paste parts of a

3230

and output look. This makes it easy to copy and paste parts of a

3231

session into doctests. It does so by:

3231

session into doctests. It does so by:

3232

3233

- Changing the prompts to the classic ``>>>`` ones.

3233

- Changing the prompts to the classic ``>>>`` ones.

3234

- Changing the exception reporting mode to 'Plain'.

3234

- Changing the exception reporting mode to 'Plain'.

3235

- Disabling pretty-printing of output.

3235

- Disabling pretty-printing of output.

3236

3237

Note that IPython also supports the pasting of code snippets that have

3237

Note that IPython also supports the pasting of code snippets that have

3238

leading '>>>' and '...' prompts in them. This means that you can paste

3238

leading '>>>' and '...' prompts in them. This means that you can paste

3239

doctests from files or docstrings (even if they have leading

3239

doctests from files or docstrings (even if they have leading

3240

whitespace), and the code will execute correctly. You can then use

3240

whitespace), and the code will execute correctly. You can then use

3241

'%history -t' to see the translated history; this will give you the

3241

'%history -t' to see the translated history; this will give you the

3242

input after removal of all the leading prompts and whitespace, which

3242

input after removal of all the leading prompts and whitespace, which

3243

can be pasted back into an editor.

3243

can be pasted back into an editor.

3244

3245

With these features, you can switch into this mode easily whenever you

3245

With these features, you can switch into this mode easily whenever you

3246

need to do testing and changes to doctests, without having to leave

3246

need to do testing and changes to doctests, without having to leave

3247

your existing IPython session.

3247

your existing IPython session.

3248

"""

3248

"""

3249

3250

from IPython.utils.ipstruct import Struct

3250

from IPython.utils.ipstruct import Struct

3251

3252

# Shorthands

3252

# Shorthands

3253

shell = self.shell

3253

shell = self.shell

3254

oc = shell.displayhook

3254

oc = shell.displayhook

3255

meta = shell.meta

3255

meta = shell.meta

3256

disp_formatter = self.shell.display_formatter

3256

disp_formatter = self.shell.display_formatter

3257

ptformatter = disp_formatter.formatters['text/plain']

3257

ptformatter = disp_formatter.formatters['text/plain']

3258

# dstore is a data store kept in the instance metadata bag to track any

3258

# dstore is a data store kept in the instance metadata bag to track any

3259

# changes we make, so we can undo them later.

3259

# changes we make, so we can undo them later.

3260

dstore = meta.setdefault('doctest_mode',Struct())

3260

dstore = meta.setdefault('doctest_mode',Struct())

3261

save_dstore = dstore.setdefault

3261

save_dstore = dstore.setdefault

3262

3263

# save a few values we'll need to recover later

3263

# save a few values we'll need to recover later

3264

mode = save_dstore('mode',False)

3264

mode = save_dstore('mode',False)

3265

save_dstore('rc_pprint',ptformatter.pprint)

3265

save_dstore('rc_pprint',ptformatter.pprint)

3266

save_dstore('xmode',shell.InteractiveTB.mode)

3266

save_dstore('xmode',shell.InteractiveTB.mode)

3267

save_dstore('rc_separate_out',shell.separate_out)

3267

save_dstore('rc_separate_out',shell.separate_out)

3268

save_dstore('rc_separate_out2',shell.separate_out2)

3268

save_dstore('rc_separate_out2',shell.separate_out2)

3269

save_dstore('rc_prompts_pad_left',shell.prompts_pad_left)

3269

save_dstore('rc_prompts_pad_left',shell.prompts_pad_left)

3270

save_dstore('rc_separate_in',shell.separate_in)

3270

save_dstore('rc_separate_in',shell.separate_in)

3271

save_dstore('rc_plain_text_only',disp_formatter.plain_text_only)

3271

save_dstore('rc_plain_text_only',disp_formatter.plain_text_only)

3272

3273

if mode == False:

3273

if mode == False:

3274

# turn on

3274

# turn on

3275

oc.prompt1.p_template = '>>> '

3275

oc.prompt1.p_template = '>>> '

3276

oc.prompt2.p_template = '... '

3276

oc.prompt2.p_template = '... '

3277

oc.prompt_out.p_template = ''

3277

oc.prompt_out.p_template = ''

3278

3279

# Prompt separators like plain python

3279

# Prompt separators like plain python

3280

oc.input_sep = oc.prompt1.sep = ''

3280

oc.input_sep = oc.prompt1.sep = ''

3281

oc.output_sep = ''

3281

oc.output_sep = ''

3282

oc.output_sep2 = ''

3282

oc.output_sep2 = ''

3283

3284

oc.prompt1.pad_left = oc.prompt2.pad_left = \

3284

oc.prompt1.pad_left = oc.prompt2.pad_left = \

3285

oc.prompt_out.pad_left = False

3285

oc.prompt_out.pad_left = False

3286

3287

ptformatter.pprint = False

3287

ptformatter.pprint = False

3288

disp_formatter.plain_text_only = True

3288

disp_formatter.plain_text_only = True

3289

3290

shell.magic_xmode('Plain')

3290

shell.magic_xmode('Plain')

3291

else:

3291

else:

3292

# turn off

3292

# turn off

3293

oc.prompt1.p_template = shell.prompt_in1

3293

oc.prompt1.p_template = shell.prompt_in1

3294

oc.prompt2.p_template = shell.prompt_in2

3294

oc.prompt2.p_template = shell.prompt_in2

3295

oc.prompt_out.p_template = shell.prompt_out

3295

oc.prompt_out.p_template = shell.prompt_out

3296

3297

oc.input_sep = oc.prompt1.sep = dstore.rc_separate_in

3297

oc.input_sep = oc.prompt1.sep = dstore.rc_separate_in

3298

3299

oc.output_sep = dstore.rc_separate_out

3299

oc.output_sep = dstore.rc_separate_out

3300

oc.output_sep2 = dstore.rc_separate_out2

3300

oc.output_sep2 = dstore.rc_separate_out2

3301

3302

oc.prompt1.pad_left = oc.prompt2.pad_left = \

3302

oc.prompt1.pad_left = oc.prompt2.pad_left = \

3303

oc.prompt_out.pad_left = dstore.rc_prompts_pad_left

3303

oc.prompt_out.pad_left = dstore.rc_prompts_pad_left

3304

3305

ptformatter.pprint = dstore.rc_pprint

3305

ptformatter.pprint = dstore.rc_pprint

3306

disp_formatter.plain_text_only = dstore.rc_plain_text_only

3306

disp_formatter.plain_text_only = dstore.rc_plain_text_only

3307

3308

shell.magic_xmode(dstore.xmode)

3308

shell.magic_xmode(dstore.xmode)

3309

3310

# Store new mode and inform

3310

# Store new mode and inform

3311

dstore.mode = bool(1-int(mode))

3311

dstore.mode = bool(1-int(mode))

3312

mode_label = ['OFF','ON'][dstore.mode]

3312

mode_label = ['OFF','ON'][dstore.mode]

3313

print 'Doctest mode is:', mode_label

3313

print 'Doctest mode is:', mode_label

3314

3315

def magic_gui(self, parameter_s=''):

3315

def magic_gui(self, parameter_s=''):

3316

"""Enable or disable IPython GUI event loop integration.

3316

"""Enable or disable IPython GUI event loop integration.

3317

3318

%gui [GUINAME]

3318

%gui [GUINAME]

3319

3320

This magic replaces IPython's threaded shells that were activated

3320

This magic replaces IPython's threaded shells that were activated

3321

using the (pylab/wthread/etc.) command line flags. GUI toolkits

3321

using the (pylab/wthread/etc.) command line flags. GUI toolkits

3322

can now be enabled, disabled and changed at runtime and keyboard

3322

can now be enabled, disabled and changed at runtime and keyboard

3323

interrupts should work without any problems. The following toolkits

3323

interrupts should work without any problems. The following toolkits

3324

are supported: wxPython, PyQt4, PyGTK, and Tk::

3324

are supported: wxPython, PyQt4, PyGTK, and Tk::

3325

3326

%gui wx # enable wxPython event loop integration

3326

%gui wx # enable wxPython event loop integration

3327

%gui qt4|qt # enable PyQt4 event loop integration

3327

%gui qt4|qt # enable PyQt4 event loop integration

3328

%gui gtk # enable PyGTK event loop integration

3328

%gui gtk # enable PyGTK event loop integration

3329

%gui tk # enable Tk event loop integration

3329

%gui tk # enable Tk event loop integration

3330

%gui # disable all event loop integration

3330

%gui # disable all event loop integration

3331

3332

WARNING: after any of these has been called you can simply create

3332

WARNING: after any of these has been called you can simply create

3333

an application object, but DO NOT start the event loop yourself, as

3333

an application object, but DO NOT start the event loop yourself, as

3334

we have already handled that.

3334

we have already handled that.

3335

"""

3335

"""

3336

from IPython.lib.inputhook import enable_gui

3336

from IPython.lib.inputhook import enable_gui

3337

opts, arg = self.parse_options(parameter_s, '')

3337

opts, arg = self.parse_options(parameter_s, '')

3338

if arg=='': arg = None

3338

if arg=='': arg = None

3339

return enable_gui(arg)

3339

return enable_gui(arg)

3340

3341

def magic_load_ext(self, module_str):

3341

def magic_load_ext(self, module_str):

3342

"""Load an IPython extension by its module name."""

3342

"""Load an IPython extension by its module name."""

3343

return self.extension_manager.load_extension(module_str)

3343

return self.extension_manager.load_extension(module_str)

3344

3345

def magic_unload_ext(self, module_str):

3345

def magic_unload_ext(self, module_str):

3346

"""Unload an IPython extension by its module name."""

3346

"""Unload an IPython extension by its module name."""

3347

self.extension_manager.unload_extension(module_str)

3347

self.extension_manager.unload_extension(module_str)

3348

3349

def magic_reload_ext(self, module_str):

3349

def magic_reload_ext(self, module_str):

3350

"""Reload an IPython extension by its module name."""

3350

"""Reload an IPython extension by its module name."""

3351

self.extension_manager.reload_extension(module_str)

3351

self.extension_manager.reload_extension(module_str)

3352

3353

@skip_doctest

3353

@skip_doctest

3354

def magic_install_profiles(self, s):

3354

def magic_install_profiles(self, s):

3355

"""Install the default IPython profiles into the .ipython dir.

3355

"""Install the default IPython profiles into the .ipython dir.

3356

3357

If the default profiles have already been installed, they will not

3357

If the default profiles have already been installed, they will not

3358

be overwritten. You can force overwriting them by using the ``-o``

3358

be overwritten. You can force overwriting them by using the ``-o``

3359

option::

3359

option::

3360

3361

In [1]: %install_profiles -o

3361

In [1]: %install_profiles -o

3362

"""

3362

"""

3363

if '-o' in s:

3363

if '-o' in s:

3364

overwrite = True

3364

overwrite = True

3365

else:

3365

else:

3366

overwrite = False

3366

overwrite = False

3367

from IPython.config import profile

3367

from IPython.config import profile

3368

profile_dir = os.path.dirname(profile.__file__)

3368

profile_dir = os.path.dirname(profile.__file__)

3369

ipython_dir = self.ipython_dir

3369

ipython_dir = self.ipython_dir

3370

print "Installing profiles to: %s [overwrite=%s]"%(ipython_dir,overwrite)

3370

print "Installing profiles to: %s [overwrite=%s]"%(ipython_dir,overwrite)

3371

for src in os.listdir(profile_dir):

3371

for src in os.listdir(profile_dir):

3372

if src.startswith('profile_'):

3372

if src.startswith('profile_'):

3373

name = src.replace('profile_', '')

3373

name = src.replace('profile_', '')

3374

print " %s"%name

3374

print " %s"%name

3375

pd = ProfileDir.create_profile_dir_by_name(ipython_dir, name)

3375

pd = ProfileDir.create_profile_dir_by_name(ipython_dir, name)

3376

pd.copy_config_file('ipython_config.py', path=src,

3376

pd.copy_config_file('ipython_config.py', path=src,

3377

overwrite=overwrite)

3377

overwrite=overwrite)

3378

3379

@skip_doctest

3379

@skip_doctest

3380

def magic_install_default_config(self, s):

3380

def magic_install_default_config(self, s):

3381

"""Install IPython's default config file into the .ipython dir.

3381

"""Install IPython's default config file into the .ipython dir.

3382

3383

If the default config file (:file:`ipython_config.py`) is already

3383

If the default config file (:file:`ipython_config.py`) is already

3384

installed, it will not be overwritten. You can force overwriting

3384

installed, it will not be overwritten. You can force overwriting

3385

by using the ``-o`` option::

3385

by using the ``-o`` option::

3386

3387

In [1]: %install_default_config

3387

In [1]: %install_default_config

3388

"""

3388

"""

3389

if '-o' in s:

3389

if '-o' in s:

3390

overwrite = True

3390

overwrite = True

3391

else:

3391

else:

3392

overwrite = False

3392

overwrite = False

3393

pd = self.shell.profile_dir

3393

pd = self.shell.profile_dir

3394

print "Installing default config file in: %s" % pd.location

3394

print "Installing default config file in: %s" % pd.location

3395

pd.copy_config_file('ipython_config.py', overwrite=overwrite)

3395

pd.copy_config_file('ipython_config.py', overwrite=overwrite)

3396

3397

# Pylab support: simple wrappers that activate pylab, load gui input

3397

# Pylab support: simple wrappers that activate pylab, load gui input

3398

# handling and modify slightly %run

3398

# handling and modify slightly %run

3399

3400

@skip_doctest

3400

@skip_doctest

3401

def _pylab_magic_run(self, parameter_s=''):

3401

def _pylab_magic_run(self, parameter_s=''):

3402

Magic.magic_run(self, parameter_s,

3402

Magic.magic_run(self, parameter_s,

3403

runner=mpl_runner(self.shell.safe_execfile))

3403

runner=mpl_runner(self.shell.safe_execfile))

3404

3405

_pylab_magic_run.__doc__ = magic_run.__doc__

3405

_pylab_magic_run.__doc__ = magic_run.__doc__

3406

3407

@skip_doctest

3407

@skip_doctest

3408

def magic_pylab(self, s):

3408

def magic_pylab(self, s):

3409

"""Load numpy and matplotlib to work interactively.

3409

"""Load numpy and matplotlib to work interactively.

3410

3411

%pylab [GUINAME]

3411

%pylab [GUINAME]

3412

3413

This function lets you activate pylab (matplotlib, numpy and

3413

This function lets you activate pylab (matplotlib, numpy and

3414

interactive support) at any point during an IPython session.

3414

interactive support) at any point during an IPython session.

3415

3416

It will import at the top level numpy as np, pyplot as plt, matplotlib,

3416

It will import at the top level numpy as np, pyplot as plt, matplotlib,

3417

pylab and mlab, as well as all names from numpy and pylab.

3417

pylab and mlab, as well as all names from numpy and pylab.

3418

3419

Parameters

3419

Parameters

3420

----------

3420

----------

3421

guiname : optional

3421

guiname : optional

3422

One of the valid arguments to the %gui magic ('qt', 'wx', 'gtk', 'osx' or

3422

One of the valid arguments to the %gui magic ('qt', 'wx', 'gtk', 'osx' or

3423

'tk'). If given, the corresponding Matplotlib backend is used,

3423

'tk'). If given, the corresponding Matplotlib backend is used,

3424

otherwise matplotlib's default (which you can override in your

3424

otherwise matplotlib's default (which you can override in your

3425

matplotlib config file) is used.

3425

matplotlib config file) is used.

3426

3427

Examples

3427

Examples

3428

--------

3428

--------

3429

In this case, where the MPL default is TkAgg:

3429

In this case, where the MPL default is TkAgg:

3430

In [2]: %pylab

3430

In [2]: %pylab

3431

3432

Welcome to pylab, a matplotlib-based Python environment.

3432

Welcome to pylab, a matplotlib-based Python environment.

3433

Backend in use: TkAgg

3433

Backend in use: TkAgg

3434

For more information, type 'help(pylab)'.

3434

For more information, type 'help(pylab)'.

3435

3436

But you can explicitly request a different backend:

3436

But you can explicitly request a different backend:

3437

In [3]: %pylab qt

3437

In [3]: %pylab qt

3438

3439

Welcome to pylab, a matplotlib-based Python environment.

3439

Welcome to pylab, a matplotlib-based Python environment.

3440

Backend in use: Qt4Agg

3440

Backend in use: Qt4Agg

3441

For more information, type 'help(pylab)'.

3441

For more information, type 'help(pylab)'.

3442

"""

3442

"""

3443

self.shell.enable_pylab(s)

3443

self.shell.enable_pylab(s)

3444

3445

def magic_tb(self, s):

3445

def magic_tb(self, s):

3446

"""Print the last traceback with the currently active exception mode.

3446

"""Print the last traceback with the currently active exception mode.

3447

3448

See %xmode for changing exception reporting modes."""

3448

See %xmode for changing exception reporting modes."""

3449

self.shell.showtraceback()

3449

self.shell.showtraceback()

3450

3451

@skip_doctest

3451

@skip_doctest

3452

def magic_precision(self, s=''):

3452

def magic_precision(self, s=''):

3453

"""Set floating point precision for pretty printing.

3453

"""Set floating point precision for pretty printing.

3454

3455

Can set either integer precision or a format string.

3455

Can set either integer precision or a format string.

3456

3457

If numpy has been imported and precision is an int,

3457

If numpy has been imported and precision is an int,

3458

numpy display precision will also be set, via ``numpy.set_printoptions``.

3458

numpy display precision will also be set, via ``numpy.set_printoptions``.

3459

3460

If no argument is given, defaults will be restored.

3460

If no argument is given, defaults will be restored.

3461

3462

Examples

3462

Examples

3463

--------

3463

--------

3464

::

3464

::

3465

3466

In [1]: from math import pi

3466

In [1]: from math import pi

3467

3468

In [2]: %precision 3

3468

In [2]: %precision 3

3469

Out[2]: u'%.3f'

3469

Out[2]: u'%.3f'

3470

3471

In [3]: pi

3471

In [3]: pi

3472

Out[3]: 3.142

3472

Out[3]: 3.142

3473

3474

In [4]: %precision %i

3474

In [4]: %precision %i

3475

Out[4]: u'%i'

3475

Out[4]: u'%i'

3476

3477

In [5]: pi

3477

In [5]: pi

3478

Out[5]: 3

3478

Out[5]: 3

3479

3480

In [6]: %precision %e

3480

In [6]: %precision %e

3481

Out[6]: u'%e'

3481

Out[6]: u'%e'

3482

3483

In [7]: pi**10

3483

In [7]: pi**10

3484

Out[7]: 9.364805e+04

3484

Out[7]: 9.364805e+04

3485

3486

In [8]: %precision

3486

In [8]: %precision

3487

Out[8]: u'%r'

3487

Out[8]: u'%r'

3488

3489

In [9]: pi**10

3489

In [9]: pi**10

3490

Out[9]: 93648.047476082982

3490

Out[9]: 93648.047476082982

3491

3492

"""

3492

"""

3493

3494

ptformatter = self.shell.display_formatter.formatters['text/plain']

3494

ptformatter = self.shell.display_formatter.formatters['text/plain']

3495

ptformatter.float_precision = s

3495

ptformatter.float_precision = s

3496

return ptformatter.float_format

3496

return ptformatter.float_format

3497

3498

# end Magic

3498

# end Magic

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             # encoding: utf-8
             """Magic functions for InteractiveShell.
             """
             #-----------------------------------------------------------------------------
             #  Copyright (C) 2001 Janko Hauser <jhauser@zscout.de> and
             #  Copyright (C) 2001-2007 Fernando Perez <fperez@colorado.edu>
             #  Copyright (C) 2008-2009  The IPython Development Team
             #  Distributed under the terms of the BSD License.  The full license is in
             #  the file COPYING, distributed as part of this software.
             #-----------------------------------------------------------------------------
             #-----------------------------------------------------------------------------
             # Imports
             #-----------------------------------------------------------------------------
             import __builtin__
             import __future__
             import bdb
             import inspect
             import os
             import sys
             import shutil
             import re
             import time
             import textwrap
             from cStringIO import StringIO
             from getopt import getopt,GetoptError
             from pprint import pformat
             from xmlrpclib import ServerProxy
             # cProfile was added in Python2.5
             try:
                 import cProfile as profile
                 import pstats
             except ImportError:
                 # profile isn't bundled by default in Debian for license reasons
                 try:
                     import profile,pstats
                 except ImportError:
                     profile = pstats = None
             import IPython
             from IPython.core import debugger, oinspect
             from IPython.core.error import TryNext
             from IPython.core.error import UsageError
             from IPython.core.fakemodule import FakeModule
             from IPython.core.profiledir import ProfileDir
             from IPython.core.macro import Macro
             from IPython.core import page
             from IPython.core.prefilter import ESC_MAGIC
             from IPython.lib.pylabtools import mpl_runner
             from IPython.testing.skipdoctest import skip_doctest
             from IPython.utils.io import file_read, nlprint
             from IPython.utils.path import get_py_filename
             from IPython.utils.process import arg_split, abbrev_cwd
             from IPython.utils.terminal import set_term_title
             from IPython.utils.text import LSString, SList, format_screen
             from IPython.utils.timing import clock, clock2
             from IPython.utils.warn import warn, error
             from IPython.utils.ipstruct import Struct
             import IPython.utils.generics
             #-----------------------------------------------------------------------------
             # Utility functions
             #-----------------------------------------------------------------------------
             def on_off(tag):
                 """Return an ON/OFF string for a 1/0 input. Simple utility function."""
                 return ['OFF','ON'][tag]
             class Bunch: pass
             def compress_dhist(dh):
                 head, tail = dh[:-10], dh[-10:]
                 newhead = []
                 done = set()
                 for h in head:
                     if h in done:
                         continue
                     newhead.append(h)
                     done.add(h)
                 return newhead + tail
             def needs_local_scope(func):
                 """Decorator to mark magic functions which need to local scope to run."""
                 func.needs_local_scope = True
                 return func
             # Used for exception handling in magic_edit
             class MacroToEdit(ValueError): pass
             #***************************************************************************
             # Main class implementing Magic functionality
             # XXX - for some odd reason, if Magic is made a new-style class, we get errors
             # on construction of the main InteractiveShell object.  Something odd is going
             # on with super() calls, Configurable and the MRO... For now leave it as-is, but
             # eventually this needs to be clarified.
             # BG: This is because InteractiveShell inherits from this, but is itself a
             # Configurable. This messes up the MRO in some way. The fix is that we need to
             # make Magic a configurable that InteractiveShell does not subclass.
             class Magic:
                 """Magic functions for InteractiveShell.
                 Shell functions which can be reached as %function_name. All magic
                 functions should accept a string, which they can parse for their own
                 needs. This can make some functions easier to type, eg `%cd ../`
                 vs. `%cd("../")`
                 ALL definitions MUST begin with the prefix magic_. The user won't need it
                 at the command line, but it is is needed in the definition. """
                 # class globals
                 auto_status = ['Automagic is OFF, % prefix IS needed for magic functions.',
                                'Automagic is ON, % prefix NOT needed for magic functions.']
                 #......................................................................
                 # some utility functions
                 def __init__(self,shell):
                     self.options_table = {}
                     if profile is None:
                         self.magic_prun = self.profile_missing_notice
                     self.shell = shell
                     # namespace for holding state we may need
                     self._magic_state = Bunch()
                 def profile_missing_notice(self, *args, **kwargs):
                     error("""\
             The profile module could not be found. It has been removed from the standard
             python packages because of its non-free license. To use profiling, install the
             python-profiler package from non-free.""")
                 def default_option(self,fn,optstr):
                     """Make an entry in the options_table for fn, with value optstr"""
                     if fn not in self.lsmagic():
                         error("%s is not a magic function" % fn)
                     self.options_table[fn] = optstr
                 def lsmagic(self):
                     """Return a list of currently available magic functions.
                     Gives a list of the bare names after mangling (['ls','cd', ...], not
                     ['magic_ls','magic_cd',...]"""
                     # FIXME. This needs a cleanup, in the way the magics list is built.
                     # magics in class definition
                     class_magic = lambda fn: fn.startswith('magic_') and \
                                   callable(Magic.__dict__[fn])
                     # in instance namespace (run-time user additions)
                     inst_magic =  lambda fn: fn.startswith('magic_') and \
                                  callable(self.__dict__[fn])
                     # and bound magics by user (so they can access self):
                     inst_bound_magic =  lambda fn: fn.startswith('magic_') and \
                                        callable(self.__class__.__dict__[fn])
                     magics = filter(class_magic,Magic.__dict__.keys()) + \
                              filter(inst_magic,self.__dict__.keys()) + \
                              filter(inst_bound_magic,self.__class__.__dict__.keys())
                     out = []
                     for fn in set(magics):
                         out.append(fn.replace('magic_','',1))
                     out.sort()
                     return out
                 def extract_input_lines(self, range_str, raw=False):
                     """Return as a string a set of input history slices.
                     Inputs:
                       - range_str: the set of slices is given as a string, like
                       "~5/6-~4/2 4:8 9", since this function is for use by magic functions
                       which get their arguments as strings. The number before the / is the
                       session number: ~n goes n back from the current session.
                     Optional inputs:
                       - raw(False): by default, the processed input is used.  If this is
                       true, the raw input history is used instead.
                     Note that slices can be called with two notations:
                     N:M -> standard python form, means including items N...(M-1).
                     N-M -> include items N..M (closed endpoint)."""
                     lines = self.shell.history_manager.\
                                                 get_range_by_str(range_str, raw=raw)
                     return "\n".join(x for _, _, x in lines)
                 def arg_err(self,func):
                     """Print docstring if incorrect arguments were passed"""
                     print 'Error in arguments:'
                     print oinspect.getdoc(func)
                 def format_latex(self,strng):
                     """Format a string for latex inclusion."""
                     # Characters that need to be escaped for latex:
                     escape_re = re.compile(r'(%|_|\$|#|&)',re.MULTILINE)
                     # Magic command names as headers:
                     cmd_name_re = re.compile(r'^(%s.*?):' % ESC_MAGIC,
                                              re.MULTILINE)
                     # Magic commands
                     cmd_re = re.compile(r'(?P<cmd>%s.+?\b)(?!\}\}:)' % ESC_MAGIC,
                                         re.MULTILINE)
                     # Paragraph continue
                     par_re = re.compile(r'\\$',re.MULTILINE)
                     # The "\n" symbol
                     newline_re = re.compile(r'\\n')
                     # Now build the string for output:
                     #strng = cmd_name_re.sub(r'\n\\texttt{\\textsl{\\large \1}}:',strng)
                     strng = cmd_name_re.sub(r'\n\\bigskip\n\\texttt{\\textbf{ \1}}:',
                                             strng)
                     strng = cmd_re.sub(r'\\texttt{\g<cmd>}',strng)
                     strng = par_re.sub(r'\\\\',strng)
                     strng = escape_re.sub(r'\\\1',strng)
                     strng = newline_re.sub(r'\\textbackslash{}n',strng)
                     return strng
                 def parse_options(self,arg_str,opt_str,*long_opts,**kw):
                     """Parse options passed to an argument string.
                     The interface is similar to that of getopt(), but it returns back a
                     Struct with the options as keys and the stripped argument string still
                     as a string.
                     arg_str is quoted as a true sys.argv vector by using shlex.split.
                     This allows us to easily expand variables, glob files, quote
                     arguments, etc.
                     Options:
                       -mode: default 'string'. If given as 'list', the argument string is
                       returned as a list (split on whitespace) instead of a string.
                       -list_all: put all option values in lists. Normally only options
                       appearing more than once are put in a list.
                       -posix (True): whether to split the input line in POSIX mode or not,
                       as per the conventions outlined in the shlex module from the
                       standard library."""
                     # inject default options at the beginning of the input line
                     caller = sys._getframe(1).f_code.co_name.replace('magic_','')
                     arg_str = '%s %s' % (self.options_table.get(caller,''),arg_str)
                     mode = kw.get('mode','string')
                     if mode not in ['string','list']:
                         raise ValueError,'incorrect mode given: %s' % mode
                     # Get options
                     list_all = kw.get('list_all',0)
                     posix = kw.get('posix', os.name == 'posix')
                     # Check if we have more than one argument to warrant extra processing:
                     odict = {}  # Dictionary with options
                     args = arg_str.split()
                     if len(args) >= 1:
                         # If the list of inputs only has 0 or 1 thing in it, there's no
                         # need to look for options
                         argv = arg_split(arg_str,posix)
                         # Do regular option processing
                         try:
                             opts,args = getopt(argv,opt_str,*long_opts)
                         except GetoptError,e:
                             raise UsageError('%s ( allowed: "%s" %s)' % (e.msg,opt_str,
                                                     " ".join(long_opts)))
                         for o,a in opts:
                             if o.startswith('--'):
                                 o = o[2:]
                             else:
                                 o = o[1:]
                             try:
                                 odict[o].append(a)
                             except AttributeError:
                                 odict[o] = [odict[o],a]
                             except KeyError:
                                 if list_all:
                                     odict[o] = [a]
                                 else:
                                     odict[o] = a
                     # Prepare opts,args for return
                     opts = Struct(odict)
                     if mode == 'string':
                         args = ' '.join(args)
                     return opts,args
                 #......................................................................
                 # And now the actual magic functions
                 # Functions for IPython shell work (vars,funcs, config, etc)
                 def magic_lsmagic(self, parameter_s = ''):
                     """List currently available magic functions."""
                     mesc = ESC_MAGIC
                     print 'Available magic functions:\n'+mesc+\
                           ('  '+mesc).join(self.lsmagic())
                     print '\n' + Magic.auto_status[self.shell.automagic]
                     return None
                 def magic_magic(self, parameter_s = ''):
                     """Print information about the magic function system.
                     Supported formats: -latex, -brief, -rest
                     """
                     mode = ''
                     try:
                         if parameter_s.split()[0] == '-latex':
                             mode = 'latex'
                         if parameter_s.split()[0] == '-brief':
                             mode = 'brief'
                         if parameter_s.split()[0] == '-rest':
                             mode = 'rest'
                             rest_docs = []
                     except:
                         pass
                     magic_docs = []
                     for fname in self.lsmagic():
                         mname = 'magic_' + fname
                         for space in (Magic,self,self.__class__):
                             try:
                                 fn = space.__dict__[mname]
                             except KeyError:
                                 pass
                             else:
                                 break
                         if mode == 'brief':
                             # only first line
                             if fn.__doc__:
                                 fndoc = fn.__doc__.split('\n',1)[0]
                             else:
                                 fndoc = 'No documentation'
                         else:
                             if fn.__doc__:
                                 fndoc = fn.__doc__.rstrip()
                             else:
                                 fndoc = 'No documentation'
                         if mode == 'rest':
                             rest_docs.append('**%s%s**::\n\n\t%s\n\n' %(ESC_MAGIC,
                                                                 fname,fndoc))
                         else:
                             magic_docs.append('%s%s:\n\t%s\n' %(ESC_MAGIC,
                                                                 fname,fndoc))
                     magic_docs = ''.join(magic_docs)
                     if mode == 'rest':
                         return "".join(rest_docs)
                     if mode == 'latex':
                         print self.format_latex(magic_docs)
                         return
                     else:
                         magic_docs = format_screen(magic_docs)
                     if mode == 'brief':
                         return magic_docs
                     outmsg = """
             IPython's 'magic' functions
             ===========================
             The magic function system provides a series of functions which allow you to
             control the behavior of IPython itself, plus a lot of system-type
             features. All these functions are prefixed with a % character, but parameters
             are given without parentheses or quotes.
             NOTE: If you have 'automagic' enabled (via the command line option or with the
             %automagic function), you don't need to type in the % explicitly.  By default,
             IPython ships with automagic on, so you should only rarely need the % escape.
             Example: typing '%cd mydir' (without the quotes) changes you working directory
             to 'mydir', if it exists.
             For a list of the available magic functions, use %lsmagic. For a description
             of any of them, type %magic_name?, e.g. '%cd?'.
             Currently the magic system has the following functions:\n"""
                     mesc = ESC_MAGIC
                     outmsg = ("%s\n%s\n\nSummary of magic functions (from %slsmagic):"
                               "\n\n%s%s\n\n%s" % (outmsg,
                                                  magic_docs,mesc,mesc,
                                                  ('  '+mesc).join(self.lsmagic()),
                                                  Magic.auto_status[self.shell.automagic] ) )
                     page.page(outmsg)
                 def magic_automagic(self, parameter_s = ''):
                     """Make magic functions callable without having to type the initial %.
                     Without argumentsl toggles on/off (when off, you must call it as
                     %automagic, of course).  With arguments it sets the value, and you can
                     use any of (case insensitive):
                      - on,1,True: to activate
                      - off,0,False: to deactivate.
                     Note that magic functions have lowest priority, so if there's a
                     variable whose name collides with that of a magic fn, automagic won't
                     work for that function (you get the variable instead). However, if you
                     delete the variable (del var), the previously shadowed magic function
                     becomes visible to automagic again."""
                     arg = parameter_s.lower()
                     if parameter_s in ('on','1','true'):
                         self.shell.automagic = True
                     elif parameter_s in ('off','0','false'):
                         self.shell.automagic = False
                     else:
                         self.shell.automagic = not self.shell.automagic
                     print '\n' + Magic.auto_status[self.shell.automagic]
                 @skip_doctest
                 def magic_autocall(self, parameter_s = ''):
                     """Make functions callable without having to type parentheses.
                     Usage:
                        %autocall [mode]
                     The mode can be one of: 0->Off, 1->Smart, 2->Full.  If not given, the
                     value is toggled on and off (remembering the previous state).
                     In more detail, these values mean:
 -> fully disabled
 -> active, but do not apply if there are no arguments on the line.
                     In this mode, you get:
                     In [1]: callable
                     Out[1]: <built-in function callable>
                     In [2]: callable 'hello'
                     ------> callable('hello')
                     Out[2]: False
 -> Active always.  Even if no arguments are present, the callable
                     object is called:
                     In [2]: float
                     ------> float()
                     Out[2]: 0.0
                     Note that even with autocall off, you can still use '/' at the start of
                     a line to treat the first argument on the command line as a function
                     and add parentheses to it:
                     In [8]: /str 43
                     ------> str(43)
                     Out[8]: '43'
                     # all-random (note for auto-testing)
                     """
                     if parameter_s:
                         arg = int(parameter_s)
                     else:
                         arg = 'toggle'
                     if not arg in (0,1,2,'toggle'):
                         error('Valid modes: (0->Off, 1->Smart, 2->Full')
                         return
                     if arg in (0,1,2):
                         self.shell.autocall = arg
                     else: # toggle
                         if self.shell.autocall:
                             self._magic_state.autocall_save = self.shell.autocall
                             self.shell.autocall = 0
                         else:
                             try:
                                 self.shell.autocall = self._magic_state.autocall_save
                             except AttributeError:
                                 self.shell.autocall = self._magic_state.autocall_save = 1
                     print "Automatic calling is:",['OFF','Smart','Full'][self.shell.autocall]
                 def magic_page(self, parameter_s=''):
                     """Pretty print the object and display it through a pager.
                     %page [options] OBJECT
                     If no object is given, use _ (last output).
                     Options:
                       -r: page str(object), don't pretty-print it."""
                     # After a function contributed by Olivier Aubert, slightly modified.
                     # Process options/args
                     opts,args = self.parse_options(parameter_s,'r')
                     raw = 'r' in opts
                     oname = args and args or '_'
                     info = self._ofind(oname)
                     if info['found']:
                         txt = (raw and str or pformat)( info['obj'] )
                         page.page(txt)
                     else:
                         print 'Object `%s` not found' % oname
                 def magic_profile(self, parameter_s=''):
                     """Print your currently active IPython profile."""
                     print self.shell.profile
                 def magic_pinfo(self, parameter_s='', namespaces=None):
                     """Provide detailed information about an object.
                     '%pinfo object' is just a synonym for object? or ?object."""
                     #print 'pinfo par: <%s>' % parameter_s  # dbg
                     # detail_level: 0 -> obj? , 1 -> obj??
                     detail_level = 0
                     # We need to detect if we got called as 'pinfo pinfo foo', which can
                     # happen if the user types 'pinfo foo?' at the cmd line.
                     pinfo,qmark1,oname,qmark2 = \
                            re.match('(pinfo )?(\?*)(.*?)(\??$)',parameter_s).groups()
                     if pinfo or qmark1 or qmark2:
                         detail_level = 1
                     if "*" in oname:
                         self.magic_psearch(oname)
                     else:
                         self.shell._inspect('pinfo', oname, detail_level=detail_level,
                                             namespaces=namespaces)
                 def magic_pinfo2(self, parameter_s='', namespaces=None):
                     """Provide extra detailed information about an object.
                     '%pinfo2 object' is just a synonym for object?? or ??object."""
                     self.shell._inspect('pinfo', parameter_s, detail_level=1,
                                         namespaces=namespaces)
                 @skip_doctest
                 def magic_pdef(self, parameter_s='', namespaces=None):
                     """Print the definition header for any callable object.
                     If the object is a class, print the constructor information.
                     Examples
                     --------
                     ::
                       In [3]: %pdef urllib.urlopen
                       urllib.urlopen(url, data=None, proxies=None)
                     """
                     self._inspect('pdef',parameter_s, namespaces)
                 def magic_pdoc(self, parameter_s='', namespaces=None):
                     """Print the docstring for an object.
                     If the given object is a class, it will print both the class and the
                     constructor docstrings."""
                     self._inspect('pdoc',parameter_s, namespaces)
                 def magic_psource(self, parameter_s='', namespaces=None):
                     """Print (or run through pager) the source code for an object."""
                     self._inspect('psource',parameter_s, namespaces)
                 def magic_pfile(self, parameter_s=''):
                     """Print (or run through pager) the file where an object is defined.
                     The file opens at the line where the object definition begins. IPython
                     will honor the environment variable PAGER if set, and otherwise will
                     do its best to print the file in a convenient form.
                     If the given argument is not an object currently defined, IPython will
                     try to interpret it as a filename (automatically adding a .py extension
                     if needed). You can thus use %pfile as a syntax highlighting code
                     viewer."""
                     # first interpret argument as an object name
                     out = self._inspect('pfile',parameter_s)
                     # if not, try the input as a filename
                     if out == 'not found':
                         try:
                             filename = get_py_filename(parameter_s)
                         except IOError,msg:
                             print msg
                             return
                         page.page(self.shell.inspector.format(file(filename).read()))
                 def magic_psearch(self, parameter_s=''):
                     """Search for object in namespaces by wildcard.
                     %psearch [options] PATTERN [OBJECT TYPE]
                     Note: ? can be used as a synonym for %psearch, at the beginning or at
                     the end: both a*? and ?a* are equivalent to '%psearch a*'.  Still, the
                     rest of the command line must be unchanged (options come first), so
                     for example the following forms are equivalent
                     %psearch -i a* function
                     -i a* function?
                     ?-i a* function
                     Arguments:
                       PATTERN
                       where PATTERN is a string containing * as a wildcard similar to its
                       use in a shell.  The pattern is matched in all namespaces on the
                       search path. By default objects starting with a single _ are not
                       matched, many IPython generated objects have a single
                       underscore. The default is case insensitive matching. Matching is
                       also done on the attributes of objects and not only on the objects
                       in a module.
                       [OBJECT TYPE]
                       Is the name of a python type from the types module. The name is
                       given in lowercase without the ending type, ex. StringType is
                       written string. By adding a type here only objects matching the
                       given type are matched. Using all here makes the pattern match all
                       types (this is the default).
                     Options:
                       -a: makes the pattern match even objects whose names start with a
                       single underscore.  These names are normally ommitted from the
                       search.
                       -i/-c: make the pattern case insensitive/sensitive.  If neither of
                       these options are given, the default is read from your configuration
                       file, with the option ``InteractiveShell.wildcards_case_sensitive``.
                       If this option is not specified in your configuration file, IPython's
                       internal default is to do a case sensitive search.
                       -e/-s NAMESPACE: exclude/search a given namespace.  The pattern you
                       specifiy can be searched in any of the following namespaces:
                       'builtin', 'user', 'user_global','internal', 'alias', where
                       'builtin' and 'user' are the search defaults.  Note that you should
                       not use quotes when specifying namespaces.
                       'Builtin' contains the python module builtin, 'user' contains all
                       user data, 'alias' only contain the shell aliases and no python
                       objects, 'internal' contains objects used by IPython.  The
                       'user_global' namespace is only used by embedded IPython instances,
                       and it contains module-level globals.  You can add namespaces to the
                       search with -s or exclude them with -e (these options can be given
                       more than once).
                     Examples:
                     %psearch a*            -> objects beginning with an a
                     %psearch -e builtin a* -> objects NOT in the builtin space starting in a
                     %psearch a* function   -> all functions beginning with an a
                     %psearch re.e*         -> objects beginning with an e in module re
                     %psearch r*.e*         -> objects that start with e in modules starting in r
                     %psearch r*.* string   -> all strings in modules beginning with r
                     Case sensitve search:
                     %psearch -c a*         list all object beginning with lower case a
                     Show objects beginning with a single _:
                     %psearch -a _*         list objects beginning with a single underscore"""
                     try:
                         parameter_s = parameter_s.encode('ascii')
                     except UnicodeEncodeError:
                         print 'Python identifiers can only contain ascii characters.'
                         return
                     # default namespaces to be searched
                     def_search = ['user','builtin']
                     # Process options/args
                     opts,args = self.parse_options(parameter_s,'cias:e:',list_all=True)
                     opt = opts.get
                     shell = self.shell
                     psearch = shell.inspector.psearch
                     # select case options
                     if opts.has_key('i'):
                         ignore_case = True
                     elif opts.has_key('c'):
                         ignore_case = False
                     else:
                         ignore_case = not shell.wildcards_case_sensitive
                     # Build list of namespaces to search from user options
                     def_search.extend(opt('s',[]))
                     ns_exclude = ns_exclude=opt('e',[])
                     ns_search = [nm for nm in def_search if nm not in ns_exclude]
                     # Call the actual search
                     try:
                         psearch(args,shell.ns_table,ns_search,
                                 show_all=opt('a'),ignore_case=ignore_case)
                     except:
                         shell.showtraceback()
                 @skip_doctest
                 def magic_who_ls(self, parameter_s=''):
                     """Return a sorted list of all interactive variables.
                     If arguments are given, only variables of types matching these
                     arguments are returned.
                     Examples
                     --------
                     Define two variables and list them with who_ls::
                       In [1]: alpha = 123
                       In [2]: beta = 'test'
                       In [3]: %who_ls
                       Out[3]: ['alpha', 'beta']
                       In [4]: %who_ls int
                       Out[4]: ['alpha']
                       In [5]: %who_ls str
                       Out[5]: ['beta']
                     """
                     user_ns = self.shell.user_ns
                     internal_ns = self.shell.internal_ns
                     user_ns_hidden = self.shell.user_ns_hidden
                     out = [ i for i in user_ns
                             if not i.startswith('_') \
                             and not (i in internal_ns or i in user_ns_hidden) ]
                     typelist = parameter_s.split()
                     if typelist:
                         typeset = set(typelist)
                         out = [i for i in out if type(user_ns[i]).__name__ in typeset]
                     out.sort()
                     return out
                 @skip_doctest
                 def magic_who(self, parameter_s=''):
                     """Print all interactive variables, with some minimal formatting.
                     If any arguments are given, only variables whose type matches one of
                     these are printed.  For example:
                       %who function str
                     will only list functions and strings, excluding all other types of
                     variables.  To find the proper type names, simply use type(var) at a
                     command line to see how python prints type names.  For example:
                       In [1]: type('hello')\\
                       Out[1]: <type 'str'>
                     indicates that the type name for strings is 'str'.
                     %who always excludes executed names loaded through your configuration
                     file and things which are internal to IPython.
                     This is deliberate, as typically you may load many modules and the
                     purpose of %who is to show you only what you've manually defined.
                     Examples
                     --------
                     Define two variables and list them with who::
                       In [1]: alpha = 123
                       In [2]: beta = 'test'
                       In [3]: %who
                       alpha   beta
                       In [4]: %who int
                       alpha
                       In [5]: %who str
                       beta
                     """
                     varlist = self.magic_who_ls(parameter_s)
                     if not varlist:
                         if parameter_s:
                             print 'No variables match your requested type.'
                         else:
                             print 'Interactive namespace is empty.'
                         return
                     # if we have variables, move on...
                     count = 0
                     for i in varlist:
                         print i+'\t',
                         count += 1
                         if count > 8:
                             count = 0
                             print
                     print
                 @skip_doctest
                 def magic_whos(self, parameter_s=''):
                     """Like %who, but gives some extra information about each variable.
                     The same type filtering of %who can be applied here.
                     For all variables, the type is printed. Additionally it prints:
                       - For {},[],(): their length.
                       - For numpy arrays, a summary with shape, number of
                       elements, typecode and size in memory.
                       - Everything else: a string representation, snipping their middle if
                       too long.
                     Examples
                     --------
                     Define two variables and list them with whos::
                       In [1]: alpha = 123
                       In [2]: beta = 'test'
                       In [3]: %whos
                       Variable   Type        Data/Info
                       --------------------------------
                       alpha      int         123
                       beta       str         test
                     """
                     varnames = self.magic_who_ls(parameter_s)
                     if not varnames:
                         if parameter_s:
                             print 'No variables match your requested type.'
                         else:
                             print 'Interactive namespace is empty.'
                         return
                     # if we have variables, move on...
                     # for these types, show len() instead of data:
                     seq_types = ['dict', 'list', 'tuple']
                     # for numpy/Numeric arrays, display summary info
                     try:
                         import numpy
                     except ImportError:
                         ndarray_type = None
                     else:
                         ndarray_type = numpy.ndarray.__name__
                     try:
                         import Numeric
                     except ImportError:
                         array_type = None
                     else:
                         array_type = Numeric.ArrayType.__name__
                     # Find all variable names and types so we can figure out column sizes
                     def get_vars(i):
                         return self.shell.user_ns[i]
                     # some types are well known and can be shorter
                     abbrevs = {'IPython.core.macro.Macro' : 'Macro'}
                     def type_name(v):
                         tn = type(v).__name__
                         return abbrevs.get(tn,tn)
                     varlist = map(get_vars,varnames)
                     typelist = []
                     for vv in varlist:
                         tt = type_name(vv)
                         if tt=='instance':
                             typelist.append( abbrevs.get(str(vv.__class__),
                                                          str(vv.__class__)))
                         else:
                             typelist.append(tt)
                     # column labels and # of spaces as separator
                     varlabel = 'Variable'
                     typelabel = 'Type'
                     datalabel = 'Data/Info'
                     colsep = 3
                     # variable format strings
                     vformat    = "{0:<{varwidth}}{1:<{typewidth}}"
                     aformat    = "%s: %s elems, type `%s`, %s bytes"
                     # find the size of the columns to format the output nicely
                     varwidth = max(max(map(len,varnames)), len(varlabel)) + colsep
                     typewidth = max(max(map(len,typelist)), len(typelabel)) + colsep
                     # table header
                     print varlabel.ljust(varwidth) + typelabel.ljust(typewidth) + \
                           ' '+datalabel+'\n' + '-'*(varwidth+typewidth+len(datalabel)+1)
                     # and the table itself
                     kb = 1024
                     Mb = 1048576  # kb**2
                     for vname,var,vtype in zip(varnames,varlist,typelist):
                         print vformat.format(vname, vtype, varwidth=varwidth, typewidth=typewidth),
                         if vtype in seq_types:
                             print "n="+str(len(var))
                         elif vtype in [array_type,ndarray_type]:
                             vshape = str(var.shape).replace(',','').replace(' ','x')[1:-1]
                             if vtype==ndarray_type:
                                 # numpy
                                 vsize  = var.size
                                 vbytes = vsize*var.itemsize
                                 vdtype = var.dtype
                             else:
                                 # Numeric
                                 vsize  = Numeric.size(var)
                                 vbytes = vsize*var.itemsize()
                                 vdtype = var.typecode()
                             if vbytes < 100000:
                                 print aformat % (vshape,vsize,vdtype,vbytes)
                             else:
                                 print aformat % (vshape,vsize,vdtype,vbytes),
                                 if vbytes < Mb:
                                     print '(%s kb)' % (vbytes/kb,)
                                 else:
                                     print '(%s Mb)' % (vbytes/Mb,)
                         else:
                             try:
                                 vstr = str(var)
                             except UnicodeEncodeError:
                                 vstr = unicode(var).encode(sys.getdefaultencoding(),
                                                            'backslashreplace')
                             vstr = vstr.replace('\n','\\n')
                             if len(vstr) < 50:
                                 print vstr
                             else:
                                 print vstr[:25] + "<...>" + vstr[-25:]
                 def magic_reset(self, parameter_s=''):
                     """Resets the namespace by removing all names defined by the user.
                     Parameters
                     ----------
                       -f : force reset without asking for confirmation.
                       -s : 'Soft' reset: Only clears your namespace, leaving history intact.
                       References to objects may be kept. By default (without this option),
                       we do a 'hard' reset, giving you a new session and removing all
                       references to objects from the current session.
                     Examples
                     --------
                     In [6]: a = 1
                     In [7]: a
                     Out[7]: 1
                     In [8]: 'a' in _ip.user_ns
                     Out[8]: True
                     In [9]: %reset -f
                     In [1]: 'a' in _ip.user_ns
                     Out[1]: False
                     """
                     opts, args = self.parse_options(parameter_s,'sf')
                     if 'f' in opts:
                         ans = True
                     else:
                         ans = self.shell.ask_yes_no(
                             "Once deleted, variables cannot be recovered. Proceed (y/[n])? ")
                     if not ans:
                         print 'Nothing done.'
                         return
                     if 's' in opts:                     # Soft reset
                         user_ns = self.shell.user_ns
                         for i in self.magic_who_ls():
                             del(user_ns[i])
                     else:                     # Hard reset
                         self.shell.reset(new_session = False)
                 def magic_reset_selective(self, parameter_s=''):
                     """Resets the namespace by removing names defined by the user.
                     Input/Output history are left around in case you need them.
                     %reset_selective [-f] regex
                     No action is taken if regex is not included
                     Options
                       -f : force reset without asking for confirmation.
                     Examples
                     --------
                     We first fully reset the namespace so your output looks identical to
                     this example for pedagogical reasons; in practice you do not need a
                     full reset.
                     In [1]: %reset -f
                     Now, with a clean namespace we can make a few variables and use
                     %reset_selective to only delete names that match our regexp:
                     In [2]: a=1; b=2; c=3; b1m=4; b2m=5; b3m=6; b4m=7; b2s=8
                     In [3]: who_ls
                     Out[3]: ['a', 'b', 'b1m', 'b2m', 'b2s', 'b3m', 'b4m', 'c']
                     In [4]: %reset_selective -f b[2-3]m
                     In [5]: who_ls
                     Out[5]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']
                     In [6]: %reset_selective -f d
                     In [7]: who_ls
                     Out[7]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']
                     In [8]: %reset_selective -f c
                     In [9]: who_ls
                     Out[9]: ['a', 'b', 'b1m', 'b2s', 'b4m']
                     In [10]: %reset_selective -f b
                     In [11]: who_ls
                     Out[11]: ['a']
                     """
                     opts, regex = self.parse_options(parameter_s,'f')
                     if opts.has_key('f'):
                         ans = True
                     else:
                         ans = self.shell.ask_yes_no(
                             "Once deleted, variables cannot be recovered. Proceed (y/[n])? ")
                     if not ans:
                         print 'Nothing done.'
                         return
                     user_ns = self.shell.user_ns
                     if not regex:
                         print 'No regex pattern specified. Nothing done.'
                         return
                     else:
                         try:
                             m = re.compile(regex)
                         except TypeError:
                             raise TypeError('regex must be a string or compiled pattern')
                         for i in self.magic_who_ls():
                             if m.search(i):
                                 del(user_ns[i])
                 def magic_xdel(self, parameter_s=''):
                     """Delete a variable, trying to clear it from anywhere that
                     IPython's machinery has references to it. By default, this uses
                     the identity of the named object in the user namespace to remove
                     references held under other names. The object is also removed
                     from the output history.
                     Options
                       -n : Delete the specified name from all namespaces, without
                       checking their identity.
                     """
                     opts, varname = self.parse_options(parameter_s,'n')
                     try:
                         self.shell.del_var(varname, ('n' in opts))
                     except (NameError, ValueError) as e:
                         print type(e).__name__ +": "+ str(e)
                 def magic_logstart(self,parameter_s=''):
                     """Start logging anywhere in a session.
                     %logstart [-o|-r|-t] [log_name [log_mode]]
                     If no name is given, it defaults to a file named 'ipython_log.py' in your
                     current 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):\\
                       append: well, that says it.\\
                       backup: rename (if exists) to name~ and start name.\\
                       global: single logfile in your home dir, appended to.\\
                       over  : overwrite existing log.\\
                       rotate: create rotating logs name.1~, name.2~, etc.
                     Options:
                       -o: log also IPython's output.  In this mode, all commands which
                       generate an Out[NN] prompt are recorded to the logfile, right after
                       their corresponding input line.  The output lines are always
                       prepended with a '#[Out]# ' marker, so that the log remains valid
                       Python code.
                       Since this marker is always the same, filtering only the output from
                       a log is very easy, using for example a simple awk call:
                         awk -F'#\\[Out\\]# ' '{if($2) {print $2}}' ipython_log.py
                       -r: log 'raw' input.  Normally, IPython's logs contain the processed
                       input, so that user lines are logged in their final form, converted
                       into valid Python.  For example, %Exit is logged as
                       '_ip.magic("Exit").  If the -r flag is given, all input is logged
                       exactly as typed, with no transformations applied.
                       -t: put timestamps before each input line logged (these are put in
                       comments)."""
                     opts,par = self.parse_options(parameter_s,'ort')
                     log_output = 'o' in opts
                     log_raw_input = 'r' in opts
                     timestamp = 't' in opts
                     logger = self.shell.logger
                     # if no args are given, the defaults set in the logger constructor by
                     # ipytohn remain valid
                     if par:
                         try:
                             logfname,logmode = par.split()
                         except:
                             logfname = par
                             logmode = 'backup'
                     else:
                         logfname = logger.logfname
                         logmode = logger.logmode
                     # put logfname into rc struct as if it had been called on the command
                     # line, so it ends up saved in the log header Save it in case we need
                     # to restore it...
                     old_logfile = self.shell.logfile
                     if logfname:
                         logfname = os.path.expanduser(logfname)
                     self.shell.logfile = logfname
                     loghead = '# IPython log file\n\n'
                     try:
                         started  = logger.logstart(logfname,loghead,logmode,
                                                    log_output,timestamp,log_raw_input)
                     except:
                         self.shell.logfile = old_logfile
                         warn("Couldn't start log: %s" % sys.exc_info()[1])
                     else:
                         # log input history up to this point, optionally interleaving
                         # output if requested
                         if timestamp:
                             # disable timestamping for the previous history, since we've
                             # lost those already (no time machine here).
                             logger.timestamp = False
                         if log_raw_input:
                             input_hist = self.shell.history_manager.input_hist_raw
                         else:
                             input_hist = self.shell.history_manager.input_hist_parsed
                         if log_output:
                             log_write = logger.log_write
                             output_hist = self.shell.history_manager.output_hist
                             for n in range(1,len(input_hist)-1):
                                 log_write(input_hist[n].rstrip() + '\n')
                                 if n in output_hist:
                                     log_write(repr(output_hist[n]),'output')
                         else:
                             logger.log_write('\n'.join(input_hist[1:]))
                             logger.log_write('\n')
                         if timestamp:
                             # re-enable timestamping
                             logger.timestamp = True
                         print ('Activating auto-logging. '
                                'Current session state plus future input saved.')
                         logger.logstate()
                 def magic_logstop(self,parameter_s=''):
                     """Fully stop logging and close log file.
                     In order to start logging again, a new %logstart call needs to be made,
                     possibly (though not necessarily) with a new filename, mode and other
                     options."""
                     self.logger.logstop()
                 def magic_logoff(self,parameter_s=''):
                     """Temporarily stop logging.
                     You must have previously started logging."""
                     self.shell.logger.switch_log(0)
                 def magic_logon(self,parameter_s=''):
                     """Restart logging.
                     This function is for restarting logging which you've temporarily
                     stopped with %logoff. For starting logging for the first time, you
                     must use the %logstart function, which allows you to specify an
                     optional log filename."""
                     self.shell.logger.switch_log(1)
                 def magic_logstate(self,parameter_s=''):
                     """Print the status of the logging system."""
                     self.shell.logger.logstate()
                 def magic_pdb(self, parameter_s=''):
                     """Control the automatic calling of the pdb interactive debugger.
                     Call as '%pdb on', '%pdb 1', '%pdb off' or '%pdb 0'. If called without
                     argument it works as a toggle.
                     When an exception is triggered, IPython can optionally call the
                     interactive pdb debugger after the traceback printout. %pdb toggles
                     this feature on and off.
                     The initial state of this feature is set in your configuration
                     file (the option is ``InteractiveShell.pdb``).
                     If you want to just activate the debugger AFTER an exception has fired,
                     without having to type '%pdb on' and rerunning your code, you can use
                     the %debug magic."""
                     par = parameter_s.strip().lower()
                     if par:
                         try:
                             new_pdb = {'off':0,'0':0,'on':1,'1':1}[par]
                         except KeyError:
                             print ('Incorrect argument. Use on/1, off/0, '
                                    'or nothing for a toggle.')
                             return
                     else:
                         # toggle
                         new_pdb = not self.shell.call_pdb
                     # set on the shell
                     self.shell.call_pdb = new_pdb
                     print 'Automatic pdb calling has been turned',on_off(new_pdb)
                 def magic_debug(self, parameter_s=''):
                     """Activate the interactive debugger in post-mortem mode.
                     If an exception has just occurred, this lets you inspect its stack
                     frames interactively.  Note that this will always work only on the last
                     traceback that occurred, so you must call this quickly after an
                     exception that you wish to inspect has fired, because if another one
                     occurs, it clobbers the previous one.
                     If you want IPython to automatically do this on every exception, see
                     the %pdb magic for more details.
                     """
                     self.shell.debugger(force=True)
                 @skip_doctest
                 def magic_prun(self, parameter_s ='',user_mode=1,
                                opts=None,arg_lst=None,prog_ns=None):
                     """Run a statement through the python code profiler.
                     Usage:
                       %prun [options] statement
                     The given statement (which doesn't require quote marks) is run via the
                     python profiler in a manner similar to the profile.run() function.
                     Namespaces are internally managed to work correctly; profile.run
                     cannot be used in IPython because it makes certain assumptions about
                     namespaces which do not hold under IPython.
                     Options:
                     -l <limit>: you can place restrictions on what or how much of the
                     profile gets printed. The limit value can be:
                       * A string: only information for function names containing this string
                       is printed.
                       * An integer: only these many lines are printed.
                       * A float (between 0 and 1): this fraction of the report is printed
                       (for example, use a limit of 0.4 to see the topmost 40% only).
                     You can combine several limits with repeated use of the option. For
                     example, '-l __init__ -l 5' will print only the topmost 5 lines of
                     information about class constructors.
                     -r: return the pstats.Stats object generated by the profiling. This
                     object has all the information about the profile in it, and you can
                     later use it for further analysis or in other functions.
                    -s <key>: sort profile by given key. You can provide more than one key
                     by using the option several times: '-s key1 -s key2 -s key3...'. The
                     default sorting key is 'time'.
                     The following is copied verbatim from the profile documentation
                     referenced below:
                     When more than one key is provided, additional keys are used as
                     secondary criteria when the there is equality in all keys selected
                     before them.
                     Abbreviations can be used for any key names, as long as the
                     abbreviation is unambiguous.  The following are the keys currently
                     defined:
                             Valid Arg       Meaning
                               "calls"      call count
                               "cumulative" cumulative time
                               "file"       file name
                               "module"     file name
                               "pcalls"     primitive call count
                               "line"       line number
                               "name"       function name
                               "nfl"        name/file/line
                               "stdname"    standard name
                               "time"       internal time
                     Note that all sorts on statistics are in descending order (placing
                     most time consuming items first), where as name, file, and line number
                     searches are in ascending order (i.e., alphabetical). The subtle
                     distinction between "nfl" and "stdname" is that the standard name is a
                     sort of the name as printed, which means that the embedded line
                     numbers get compared in an odd way.  For example, lines 3, 20, and 40
                     would (if the file names were the same) appear in the string order
                     "20" "3" and "40".  In contrast, "nfl" does a numeric compare of the
                     line numbers.  In fact, sort_stats("nfl") is the same as
                     sort_stats("name", "file", "line").
                     -T <filename>: save profile results as shown on screen to a text
                     file. The profile is still shown on screen.
                     -D <filename>: save (via dump_stats) profile statistics to given
                     filename. This data is in a format understod by the pstats module, and
                     is generated by a call to the dump_stats() method of profile
                     objects. The profile is still shown on screen.
                     If you want to run complete programs under the profiler's control, use
                     '%run -p [prof_opts] filename.py [args to program]' where prof_opts
                     contains profiler specific options as described here.
                     You can read the complete documentation for the profile module with::
                       In [1]: import profile; profile.help()
                     """
                     opts_def = Struct(D=[''],l=[],s=['time'],T=[''])
                     # protect user quote marks
                     parameter_s = parameter_s.replace('"',r'\"').replace("'",r"\'")
                     if user_mode:  # regular user call
                         opts,arg_str = self.parse_options(parameter_s,'D:l:rs:T:',
                                                           list_all=1)
                         namespace = self.shell.user_ns
                     else:  # called to run a program by %run -p
                         try:
                             filename = get_py_filename(arg_lst[0])
                         except IOError,msg:
                             error(msg)
                             return
                         arg_str = 'execfile(filename,prog_ns)'
                         namespace = locals()
                     opts.merge(opts_def)
                     prof = profile.Profile()
                     try:
                         prof = prof.runctx(arg_str,namespace,namespace)
                         sys_exit = ''
                     except SystemExit:
                         sys_exit = """*** SystemExit exception caught in code being profiled."""
                     stats = pstats.Stats(prof).strip_dirs().sort_stats(*opts.s)
                     lims = opts.l
                     if lims:
                         lims = []  # rebuild lims with ints/floats/strings
                         for lim in opts.l:
                             try:
                                 lims.append(int(lim))
                             except ValueError:
                                 try:
                                     lims.append(float(lim))
                                 except ValueError:
                                     lims.append(lim)
                     # Trap output.
                     stdout_trap = StringIO()
                     if hasattr(stats,'stream'):
                         # In newer versions of python, the stats object has a 'stream'
                         # attribute to write into.
                         stats.stream = stdout_trap
                         stats.print_stats(*lims)
                     else:
                         # For older versions, we manually redirect stdout during printing
                         sys_stdout = sys.stdout
                         try:
                             sys.stdout = stdout_trap
                             stats.print_stats(*lims)
                         finally:
                             sys.stdout = sys_stdout
                     output = stdout_trap.getvalue()
                     output = output.rstrip()
                     page.page(output)
                     print sys_exit,
                     dump_file = opts.D[0]
                     text_file = opts.T[0]
                     if dump_file:
                         prof.dump_stats(dump_file)
                         print '\n*** Profile stats marshalled to file',\
                               `dump_file`+'.',sys_exit
                     if text_file:
                         pfile = file(text_file,'w')
                         pfile.write(output)
                         pfile.close()
                         print '\n*** Profile printout saved to text file',\
                               `text_file`+'.',sys_exit
                     if opts.has_key('r'):
                         return stats
                     else:
                         return None
                 @skip_doctest
                 def magic_run(self, parameter_s ='',runner=None,
                               file_finder=get_py_filename):
                     """Run the named file inside IPython as a program.
                     Usage:\\
                       %run [-n -i -t [-N<N>] -d [-b<N>] -p [profile options]] file [args]
                     Parameters after the filename are passed as command-line arguments to
                     the program (put in sys.argv). Then, control returns to IPython's
                     prompt.
                     This is similar to running at a system prompt:\\
                       $ python file args\\
                     but with the advantage of giving you IPython's tracebacks, and of
                     loading all variables into your interactive namespace for further use
                     (unless -p is used, see below).
                     The file is executed in a namespace initially consisting only of
                     __name__=='__main__' and sys.argv constructed as indicated. It thus
                     sees its environment as if it were being run as a stand-alone program
                     (except for sharing global objects such as previously imported
                     modules). But after execution, the IPython interactive namespace gets
                     updated with all variables defined in the program (except for __name__
                     and sys.argv). This allows for very convenient loading of code for
                     interactive work, while giving each program a 'clean sheet' to run in.
                     Options:
                     -n: __name__ is NOT set to '__main__', but to the running file's name
                     without extension (as python does under import).  This allows running
                     scripts and reloading the definitions in them without calling code
                     protected by an ' if __name__ == "__main__" ' clause.
                     -i: run the file in IPython's namespace instead of an empty one. This
                     is useful if you are experimenting with code written in a text editor
                     which depends on variables defined interactively.
                     -e: ignore sys.exit() calls or SystemExit exceptions in the script
                     being run.  This is particularly useful if IPython is being used to
                     run unittests, which always exit with a sys.exit() call.  In such
                     cases you are interested in the output of the test results, not in
                     seeing a traceback of the unittest module.
                     -t: print timing information at the end of the run.  IPython will give
                     you an estimated CPU time consumption for your script, which under
                     Unix uses the resource module to avoid the wraparound problems of
                     time.clock().  Under Unix, an estimate of time spent on system tasks
                     is also given (for Windows platforms this is reported as 0.0).
                     If -t is given, an additional -N<N> option can be given, where <N>
                     must be an integer indicating how many times you want the script to
                     run.  The final timing report will include total and per run results.
                     For example (testing the script uniq_stable.py):
                         In [1]: run -t uniq_stable
                         IPython CPU timings (estimated):\\
                           User  :    0.19597 s.\\
                           System:        0.0 s.\\
                         In [2]: run -t -N5 uniq_stable
                         IPython CPU timings (estimated):\\
                         Total runs performed: 5\\
                           Times :      Total       Per run\\
                           User  :   0.910862 s,  0.1821724 s.\\
                           System:        0.0 s,        0.0 s.
                     -d: run your program under the control of pdb, the Python debugger.
                     This allows you to execute your program step by step, watch variables,
                     etc.  Internally, what IPython does is similar to calling:
                       pdb.run('execfile("YOURFILENAME")')
                     with a breakpoint set on line 1 of your file.  You can change the line
                     number for this automatic breakpoint to be <N> by using the -bN option
                     (where N must be an integer).  For example:
                       %run -d -b40 myscript
                     will set the first breakpoint at line 40 in myscript.py.  Note that
                     the first breakpoint must be set on a line which actually does
                     something (not a comment or docstring) for it to stop execution.
                     When the pdb debugger starts, you will see a (Pdb) prompt.  You must
                     first enter 'c' (without qoutes) to start execution up to the first
                     breakpoint.
                     Entering 'help' gives information about the use of the debugger.  You
                     can easily see pdb's full documentation with "import pdb;pdb.help()"
                     at a prompt.
                     -p: run program under the control of the Python profiler module (which
                     prints a detailed report of execution times, function calls, etc).
                     You can pass other options after -p which affect the behavior of the
                     profiler itself. See the docs for %prun for details.
                     In this mode, the program's variables do NOT propagate back to the
                     IPython interactive namespace (because they remain in the namespace
                     where the profiler executes them).
                     Internally this triggers a call to %prun, see its documentation for
                     details on the options available specifically for profiling.
                     There is one special usage for which the text above doesn't apply:
                     if the filename ends with .ipy, the file is run as ipython script,
                     just as if the commands were written on IPython prompt.
                     """
                     # get arguments and set sys.argv for program to be run.
                     opts,arg_lst = self.parse_options(parameter_s,'nidtN:b:pD:l:rs:T:e',
                                                       mode='list',list_all=1)
                     try:
                         filename = file_finder(arg_lst[0])
                     except IndexError:
                         warn('you must provide at least a filename.')
                         print '\n%run:\n',oinspect.getdoc(self.magic_run)
                         return
                     except IOError,msg:
                         error(msg)
                         return
                     if filename.lower().endswith('.ipy'):
                         self.shell.safe_execfile_ipy(filename)
                         return
                     # Control the response to exit() calls made by the script being run
                     exit_ignore = opts.has_key('e')
                     # Make sure that the running script gets a proper sys.argv as if it
                     # were run from a system shell.
                     save_argv = sys.argv # save it for later restoring
                     # simulate shell expansion on arguments, at least tilde expansion
                     args = [ os.path.expanduser(a) for a in arg_lst[1:] ]
                     sys.argv = [filename]+ args  # put in the proper filename
                     if opts.has_key('i'):
                         # Run in user's interactive namespace
                         prog_ns = self.shell.user_ns
                         __name__save = self.shell.user_ns['__name__']
                         prog_ns['__name__'] = '__main__'
                         main_mod = self.shell.new_main_mod(prog_ns)
                     else:
                         # Run in a fresh, empty namespace
                         if opts.has_key('n'):
                             name = os.path.splitext(os.path.basename(filename))[0]
                         else:
                             name = '__main__'
                         main_mod = self.shell.new_main_mod()
                         prog_ns = main_mod.__dict__
                         prog_ns['__name__'] = name
                     # Since '%run foo' emulates 'python foo.py' at the cmd line, we must
                     # set the __file__ global in the script's namespace
                     prog_ns['__file__'] = filename
                     # pickle fix.  See interactiveshell for an explanation.  But we need to make sure
                     # that, if we overwrite __main__, we replace it at the end
                     main_mod_name = prog_ns['__name__']
                     if main_mod_name == '__main__':
                         restore_main = sys.modules['__main__']
                     else:
                         restore_main = False
                     # This needs to be undone at the end to prevent holding references to
                     # every single object ever created.
                     sys.modules[main_mod_name] = main_mod
                     try:
                         stats = None
                         with self.readline_no_record:
                             if opts.has_key('p'):
                                 stats = self.magic_prun('',0,opts,arg_lst,prog_ns)
                             else:
                                 if opts.has_key('d'):
                                     deb = debugger.Pdb(self.shell.colors)
                                     # reset Breakpoint state, which is moronically kept
                                     # in a class
                                     bdb.Breakpoint.next = 1
                                     bdb.Breakpoint.bplist = {}
                                     bdb.Breakpoint.bpbynumber = [None]
                                     # Set an initial breakpoint to stop execution
                                     maxtries = 10
                                     bp = int(opts.get('b',[1])[0])
                                     checkline = deb.checkline(filename,bp)
                                     if not checkline:
                                         for bp in range(bp+1,bp+maxtries+1):
                                             if deb.checkline(filename,bp):
                                                 break
                                         else:
                                             msg = ("\nI failed to find a valid line to set "
                                                    "a breakpoint\n"
                                                    "after trying up to line: %s.\n"
                                                    "Please set a valid breakpoint manually "
                                                    "with the -b option." % bp)
                                             error(msg)
                                             return
                                     # if we find a good linenumber, set the breakpoint
                                     deb.do_break('%s:%s' % (filename,bp))
                                     # Start file run
                                     print "NOTE: Enter 'c' at the",
                                     print "%s prompt to start your script." % deb.prompt
                                     try:
                                         deb.run('execfile("%s")' % filename,prog_ns)
                                     except:
                                         etype, value, tb = sys.exc_info()
                                         # Skip three frames in the traceback: the %run one,
                                         # one inside bdb.py, and the command-line typed by the
                                         # user (run by exec in pdb itself).
                                         self.shell.InteractiveTB(etype,value,tb,tb_offset=3)
                                 else:
                                     if runner is None:
                                         runner = self.shell.safe_execfile
                                     if opts.has_key('t'):
                                         # timed execution
                                         try:
                                             nruns = int(opts['N'][0])
                                             if nruns < 1:
                                                 error('Number of runs must be >=1')
                                                 return
                                         except (KeyError):
                                             nruns = 1
                                         twall0 = time.time()
                                         if nruns == 1:
                                             t0 = clock2()
                                             runner(filename,prog_ns,prog_ns,
                                                    exit_ignore=exit_ignore)
                                             t1 = clock2()
                                             t_usr = t1[0]-t0[0]
                                             t_sys = t1[1]-t0[1]
                                             print "\nIPython CPU timings (estimated):"
                                             print "  User   : %10.2f s." % t_usr
                                             print "  System : %10.2f s." % t_sys
                                         else:
                                             runs = range(nruns)
                                             t0 = clock2()
                                             for nr in runs:
                                                 runner(filename,prog_ns,prog_ns,
                                                        exit_ignore=exit_ignore)
                                             t1 = clock2()
                                             t_usr = t1[0]-t0[0]
                                             t_sys = t1[1]-t0[1]
                                             print "\nIPython CPU timings (estimated):"
                                             print "Total runs performed:",nruns
                                             print "  Times  : %10.2f    %10.2f" % ('Total','Per run')
                                             print "  User   : %10.2f s, %10.2f s." % (t_usr,t_usr/nruns)
                                             print "  System : %10.2f s, %10.2f s." % (t_sys,t_sys/nruns)
                                         twall1 = time.time()
                                         print "Wall time: %10.2f s." % (twall1-twall0)
                                     else:
                                         # regular execution
                                         runner(filename,prog_ns,prog_ns,exit_ignore=exit_ignore)
                             if opts.has_key('i'):
                                 self.shell.user_ns['__name__'] = __name__save
                             else:
                                 # The shell MUST hold a reference to prog_ns so after %run
                                 # exits, the python deletion mechanism doesn't zero it out
                                 # (leaving dangling references).
                                 self.shell.cache_main_mod(prog_ns,filename)
                                 # update IPython interactive namespace
                                 # Some forms of read errors on the file may mean the
                                 # __name__ key was never set; using pop we don't have to
                                 # worry about a possible KeyError.
                                 prog_ns.pop('__name__', None)
                                 self.shell.user_ns.update(prog_ns)
                     finally:
                         # It's a bit of a mystery why, but __builtins__ can change from
                         # being a module to becoming a dict missing some key data after
                         # %run.  As best I can see, this is NOT something IPython is doing
                         # at all, and similar problems have been reported before:
                         # http://coding.derkeiler.com/Archive/Python/comp.lang.python/2004-10/0188.html
                         # Since this seems to be done by the interpreter itself, the best
                         # we can do is to at least restore __builtins__ for the user on
                         # exit.
                         self.shell.user_ns['__builtins__'] = __builtin__
                         # Ensure key global structures are restored
                         sys.argv = save_argv
                         if restore_main:
                             sys.modules['__main__'] = restore_main
                         else:
                             # Remove from sys.modules the reference to main_mod we'd
                             # added.  Otherwise it will trap references to objects
                             # contained therein.
                             del sys.modules[main_mod_name]
                     return stats
                 @skip_doctest
                 def magic_timeit(self, parameter_s =''):
                     """Time execution of a Python statement or expression
                     Usage:\\
                       %timeit [-n<N> -r<R> [-t|-c]] statement
                     Time execution of a Python statement or expression using the timeit
                     module.
                     Options:
                     -n<N>: execute the given statement <N> times in a loop. If this value
                     is not given, a fitting value is chosen.
                     -r<R>: repeat the loop iteration <R> times and take the best result.
                     Default: 3
                     -t: use time.time to measure the time, which is the default on Unix.
                     This function measures wall time.
                     -c: use time.clock to measure the time, which is the default on
                     Windows and measures wall time. On Unix, resource.getrusage is used
                     instead and returns the CPU user time.
                     -p<P>: use a precision of <P> digits to display the timing result.
                     Default: 3
                     Examples:
                       In [1]: %timeit pass
                       10000000 loops, best of 3: 53.3 ns per loop
                       In [2]: u = None
                       In [3]: %timeit u is None
                       10000000 loops, best of 3: 184 ns per loop
                       In [4]: %timeit -r 4 u == None
                       1000000 loops, best of 4: 242 ns per loop
                       In [5]: import time
                       In [6]: %timeit -n1 time.sleep(2)
 loops, best of 3: 2 s per loop
                     The times reported by %timeit will be slightly higher than those
                     reported by the timeit.py script when variables are accessed. This is
                     due to the fact that %timeit executes the statement in the namespace
                     of the shell, compared with timeit.py, which uses a single setup
                     statement to import function or create variables. Generally, the bias
                     does not matter as long as results from timeit.py are not mixed with
                     those from %timeit."""
                     import timeit
                     import math
                     # XXX: Unfortunately the unicode 'micro' symbol can cause problems in
                     # certain terminals.  Until we figure out a robust way of
                     # auto-detecting if the terminal can deal with it, use plain 'us' for
                     # microseconds.  I am really NOT happy about disabling the proper
                     # 'micro' prefix, but crashing is worse... If anyone knows what the
                     # right solution for this is, I'm all ears...
                     #
                     # Note: using
                     #
                     # s = u'\xb5'
                     # s.encode(sys.getdefaultencoding())
                     #
                     # is not sufficient, as I've seen terminals where that fails but
                     # print s
                     #
                     # succeeds
                     #
                     # See bug: https://bugs.launchpad.net/ipython/+bug/348466
                     #units = [u"s", u"ms",u'\xb5',"ns"]
                     units = [u"s", u"ms",u'us',"ns"]
                     scaling = [1, 1e3, 1e6, 1e9]
                     opts, stmt = self.parse_options(parameter_s,'n:r:tcp:',
                                                     posix=False)
                     if stmt == "":
                         return
                     timefunc = timeit.default_timer
                     number = int(getattr(opts, "n", 0))
                     repeat = int(getattr(opts, "r", timeit.default_repeat))
                     precision = int(getattr(opts, "p", 3))
                     if hasattr(opts, "t"):
                         timefunc = time.time
                     if hasattr(opts, "c"):
                         timefunc = clock
                     timer = timeit.Timer(timer=timefunc)
                     # this code has tight coupling to the inner workings of timeit.Timer,
                     # but is there a better way to achieve that the code stmt has access
                     # to the shell namespace?
                     src = timeit.template % {'stmt': timeit.reindent(stmt, 8),
                                              'setup': "pass"}
                     # Track compilation time so it can be reported if too long
                     # Minimum time above which compilation time will be reported
                     tc_min = 0.1
                     t0 = clock()
                     code = compile(src, "<magic-timeit>", "exec")
                     tc = clock()-t0
                     ns = {}
                     exec code in self.shell.user_ns, ns
                     timer.inner = ns["inner"]
                     if number == 0:
                         # determine number so that 0.2 <= total time < 2.0
                         number = 1
                         for i in range(1, 10):
                             if timer.timeit(number) >= 0.2:
                                 break
                             number *= 10
                     best = min(timer.repeat(repeat, number)) / number
                     if best > 0.0 and best < 1000.0:
                         order = min(-int(math.floor(math.log10(best)) // 3), 3)
                     elif best >= 1000.0:
                         order = 0
                     else:
                         order = 3
                     print u"%d loops, best of %d: %.*g %s per loop" % (number, repeat,
                                                                       precision,
                                                                       best * scaling[order],
                                                                       units[order])
                     if tc > tc_min:
                         print "Compiler time: %.2f s" % tc
                 @skip_doctest
                 @needs_local_scope
                 def magic_time(self,parameter_s = ''):
                     """Time execution of a Python statement or expression.
                     The CPU and wall clock times are printed, and the value of the
                     expression (if any) is returned.  Note that under Win32, system time
                     is always reported as 0, since it can not be measured.
                     This function provides very basic timing functionality.  In Python
 .3, the timeit module offers more control and sophistication, so this
                     could be rewritten to use it (patches welcome).
                     Some examples:
                       In [1]: time 2**128
                       CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
                       Wall time: 0.00
                       Out[1]: 340282366920938463463374607431768211456L
                       In [2]: n = 1000000
                       In [3]: time sum(range(n))
                       CPU times: user 1.20 s, sys: 0.05 s, total: 1.25 s
                       Wall time: 1.37
                       Out[3]: 499999500000L
                       In [4]: time print 'hello world'
                       hello world
                       CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
                       Wall time: 0.00
                       Note that the time needed by Python to compile the given expression
                       will be reported if it is more than 0.1s.  In this example, the
                       actual exponentiation is done by Python at compilation time, so while
                       the expression can take a noticeable amount of time to compute, that
                       time is purely due to the compilation:
                       In [5]: time 3**9999;
                       CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
                       Wall time: 0.00 s
                       In [6]: time 3**999999;
                       CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
                       Wall time: 0.00 s
                       Compiler : 0.78 s
                       """
                     # fail immediately if the given expression can't be compiled
                     expr = self.shell.prefilter(parameter_s,False)
                     # Minimum time above which compilation time will be reported
                     tc_min = 0.1
                     try:
                         mode = 'eval'
                         t0 = clock()
                         code = compile(expr,'<timed eval>',mode)
                         tc = clock()-t0
                     except SyntaxError:
                         mode = 'exec'
                         t0 = clock()
                         code = compile(expr,'<timed exec>',mode)
                         tc = clock()-t0
                     # skew measurement as little as possible
                     glob = self.shell.user_ns
                     locs = self._magic_locals
                     clk = clock2
                     wtime = time.time
                     # time execution
                     wall_st = wtime()
                     if mode=='eval':
                         st = clk()
                         out = eval(code, glob, locs)
                         end = clk()
                     else:
                         st = clk()
                         exec code in glob, locs
                         end = clk()
                         out = None
                     wall_end = wtime()
                     # Compute actual times and report
                     wall_time = wall_end-wall_st
                     cpu_user = end[0]-st[0]
                     cpu_sys = end[1]-st[1]
                     cpu_tot = cpu_user+cpu_sys
                     print "CPU times: user %.2f s, sys: %.2f s, total: %.2f s" % \
                           (cpu_user,cpu_sys,cpu_tot)
                     print "Wall time: %.2f s" % wall_time
                     if tc > tc_min:
                         print "Compiler : %.2f s" % tc
                     return out
                 @skip_doctest
                 def magic_macro(self,parameter_s = ''):
                     """Define a macro for future re-execution. It accepts ranges of history,
                     filenames or string objects.
                     Usage:\\
                       %macro [options] name n1-n2 n3-n4 ... n5 .. n6 ...
                     Options:
                       -r: use 'raw' input.  By default, the 'processed' history is used,
                       so that magics are loaded in their transformed version to valid
                       Python.  If this option is given, the raw input as typed as the
                       command line is used instead.
                     This will define a global variable called `name` which is a string
                     made of joining the slices and lines you specify (n1,n2,... numbers
                     above) from your input history into a single string. This variable
                     acts like an automatic function which re-executes those lines as if
                     you had typed them. You just type 'name' at the prompt and the code
                     executes.
                     The syntax for indicating input ranges is described in %history.
                     Note: as a 'hidden' feature, you can also use traditional python slice
                     notation, where N:M means numbers N through M-1.
                     For example, if your history contains (%hist prints it):
 : x=1
 : y=3
 : z=x+y
 : print x
 : a=5
 : print 'x',x,'y',y
                     you can create a macro with lines 44 through 47 (included) and line 49
                     called my_macro with:
                       In [55]: %macro my_macro 44-47 49
                     Now, typing `my_macro` (without quotes) will re-execute all this code
                     in one pass.
                     You don't need to give the line-numbers in order, and any given line
                     number can appear multiple times. You can assemble macros with any
                     lines from your input history in any order.
                     The macro is a simple object which holds its value in an attribute,
                     but IPython's display system checks for macros and executes them as
                     code instead of printing them when you type their name.
                     You can view a macro's contents by explicitly printing it with:
                       'print macro_name'.
                     """
                     opts,args = self.parse_options(parameter_s,'r',mode='list')
                     if not args:   # List existing macros
                         return sorted(k for k,v in self.shell.user_ns.iteritems() if\
                                                                     isinstance(v, Macro))
                     if len(args) == 1:
                         raise UsageError(
                             "%macro insufficient args; usage '%macro name n1-n2 n3-4...")
                     name, codefrom = args[0], " ".join(args[1:])
                     #print 'rng',ranges  # dbg
                     try:
                         lines = self.shell.find_user_code(codefrom, 'r' in opts)
                     except (ValueError, TypeError) as e:
                         print e.args[0]
                         return
                     macro = Macro(lines)
                     self.shell.define_macro(name, macro)
                     print 'Macro `%s` created. To execute, type its name (without quotes).' % name
                     print '=== Macro contents: ==='
                     print macro,
                 def magic_save(self,parameter_s = ''):
                     """Save a set of lines or a macro to a given filename.
                     Usage:\\
                       %save [options] filename n1-n2 n3-n4 ... n5 .. n6 ...
                     Options:
                       -r: use 'raw' input.  By default, the 'processed' history is used,
                       so that magics are loaded in their transformed version to valid
                       Python.  If this option is given, the raw input as typed as the
                       command line is used instead.
                     This function uses the same syntax as %history for input ranges,
                     then saves the lines to the filename you specify.
                     It adds a '.py' extension to the file if you don't do so yourself, and
                     it asks for confirmation before overwriting existing files."""
                     opts,args = self.parse_options(parameter_s,'r',mode='list')
                     fname, codefrom = args[0], " ".join(args[1:])
                     if not fname.endswith('.py'):
                         fname += '.py'
                     if os.path.isfile(fname):
                         ans = raw_input('File `%s` exists. Overwrite (y/[N])? ' % fname)
                         if ans.lower() not in ['y','yes']:
                             print 'Operation cancelled.'
                             return
                     try:
                         cmds = self.shell.find_user_code(codefrom, 'r' in opts)
                     except (TypeError, ValueError) as e:
                         print e.args[0]
                         return
                     if isinstance(cmds, unicode):
                         cmds = cmds.encode("utf-8")
                     with open(fname,'w') as f:
                         f.write("# coding: utf-8\n")
                         f.write(cmds)
                     print 'The following commands were written to file `%s`:' % fname
                     print cmds
                 def magic_pastebin(self, parameter_s = ''):
                     """Upload code to the 'Lodge it' paste bin, returning the URL."""
                     try:
                         code = self.shell.find_user_code(parameter_s)
                     except (ValueError, TypeError) as e:
                         print e.args[0]
                         return
                     pbserver = ServerProxy('http://paste.pocoo.org/xmlrpc/')
                     id = pbserver.pastes.newPaste("python", code)
                     return "http://paste.pocoo.org/show/" + id
                 def magic_loadpy(self, arg_s):
                     """Load a .py python script into the GUI console.
                     This magic command can either take a local filename or a url::
                     %loadpy myscript.py
                     %loadpy http://www.example.com/myscript.py
                     """
                     if not arg_s.endswith('.py'):
                         raise ValueError('%%load only works with .py files: %s' % arg_s)
                     if arg_s.startswith('http'):
                         import urllib2
                         response = urllib2.urlopen(arg_s)
                         content = response.read()
                     else:
                         content = open(arg_s).read()
                     self.set_next_input(content)
                 def _find_edit_target(self, args, opts, last_call):
                     """Utility method used by magic_edit to find what to edit."""
                     def make_filename(arg):
                         "Make a filename from the given args"
                         try:
                             filename = get_py_filename(arg)
                         except IOError:
                             # If it ends with .py but doesn't already exist, assume we want
                             # a new file.
                             if args.endswith('.py'):
                                 filename = arg
                             else:
                                 filename = None
                         return filename
                     # Set a few locals from the options for convenience:
                     opts_prev = 'p' in opts
                     opts_raw = 'r' in opts
                     # custom exceptions
                     class DataIsObject(Exception): pass
                     # Default line number value
                     lineno = opts.get('n',None)
                     if opts_prev:
                         args = '_%s' % last_call[0]
                         if not self.shell.user_ns.has_key(args):
                             args = last_call[1]
                     # use last_call to remember the state of the previous call, but don't
                     # let it be clobbered by successive '-p' calls.
                     try:
                         last_call[0] = self.shell.displayhook.prompt_count
                         if not opts_prev:
                             last_call[1] = parameter_s
                     except:
                         pass
                     # by default this is done with temp files, except when the given
                     # arg is a filename
                     use_temp = True
                     data = ''
                     # First, see if the arguments should be a filename.
                     filename = make_filename(args)
                     if filename:
                         use_temp = False
                     elif args:
                         # Mode where user specifies ranges of lines, like in %macro.
                         data = self.extract_input_lines(args, opts_raw)
                         if not data:
                             try:
                                 # Load the parameter given as a variable. If not a string,
                                 # process it as an object instead (below)
                                 #print '*** args',args,'type',type(args)  # dbg
                                 data = eval(args, self.shell.user_ns)
                                 if not isinstance(data, basestring):
                                     raise DataIsObject
                             except (NameError,SyntaxError):
                                 # given argument is not a variable, try as a filename
                                 filename = make_filename(args)
                                 if filename is None:
                                     warn("Argument given (%s) can't be found as a variable "
                                          "or as a filename." % args)
                                     return
                                 use_temp = False
                             except DataIsObject:
                                 # macros have a special edit function
                                 if isinstance(data, Macro):
                                     raise MacroToEdit(data)
                                 # For objects, try to edit the file where they are defined
                                 try:
                                     filename = inspect.getabsfile(data)
                                     if 'fakemodule' in filename.lower() and inspect.isclass(data):
                                         # class created by %edit? Try to find source
                                         # by looking for method definitions instead, the
                                         # __module__ in those classes is FakeModule.
                                         attrs = [getattr(data, aname) for aname in dir(data)]
                                         for attr in attrs:
                                             if not inspect.ismethod(attr):
                                                 continue
                                             filename = inspect.getabsfile(attr)
                                             if filename and 'fakemodule' not in filename.lower():
                                                 # change the attribute to be the edit target instead
                                                 data = attr
                                                 break
                                     datafile = 1
                                 except TypeError:
                                     filename = make_filename(args)
                                     datafile = 1
                                     warn('Could not find file where `%s` is defined.\n'
                                          'Opening a file named `%s`' % (args,filename))
                                 # Now, make sure we can actually read the source (if it was in
                                 # a temp file it's gone by now).
                                 if datafile:
                                     try:
                                         if lineno is None:
                                             lineno = inspect.getsourcelines(data)[1]
                                     except IOError:
                                         filename = make_filename(args)
                                         if filename is None:
                                             warn('The file `%s` where `%s` was defined cannot '
                                                  'be read.' % (filename,data))
                                             return
                                 use_temp = False
                     if use_temp:
                         filename = self.shell.mktempfile(data)
                         print 'IPython will make a temporary file named:',filename
                     return filename, lineno, use_temp
                 def _edit_macro(self,mname,macro):
                     """open an editor with the macro data in a file"""
                     filename = self.shell.mktempfile(macro.value)
                     self.shell.hooks.editor(filename)
                     # and make a new macro object, to replace the old one
                     mfile = open(filename)
                     mvalue = mfile.read()
                     mfile.close()
                     self.shell.user_ns[mname] = Macro(mvalue)
                 def magic_ed(self,parameter_s=''):
                     """Alias to %edit."""
                     return self.magic_edit(parameter_s)
                 @skip_doctest
                 def magic_edit(self,parameter_s='',last_call=['','']):
                     """Bring up an editor and execute the resulting code.
                     Usage:
                       %edit [options] [args]
-                    %edit runs IPython's editor hook.  The default version of this hook is
+                    %edit runs IPython's editor hook. The default version of this hook is
-                    set to call the __IPYTHON__.rc.editor command.  This is read from your
+                    set to call the editor specified by your $EDITOR environment variable.
-                    environment variable $EDITOR.  If this isn't found, it will default to
+                    If this isn't found, it will default to vi under Linux/Unix and to
-                    vi under Linux/Unix and to notepad under Windows.  See the end of this
+                    notepad under Windows. See the end of this docstring for how to change
-                    docstring for how to change the editor hook.
+                    the editor hook.
                     You can also set the value of this editor via the
                     ``TerminalInteractiveShell.editor`` option in your configuration file.
                     This is useful if you wish to use a different editor from your typical
                     default with IPython (and for Windows users who typically don't set
                     environment variables).
                     This command allows you to conveniently edit multi-line code right in
                     your IPython session.
                     If called without arguments, %edit opens up an empty editor with a
                     temporary file and will execute the contents of this file when you
                     close it (don't forget to save it!).
                     Options:
                     -n <number>: open the editor at a specified line number.  By default,
                     the IPython editor hook uses the unix syntax 'editor +N filename', but
                     you can configure this by providing your own modified hook if your
                     favorite editor supports line-number specifications with a different
                     syntax.
                     -p: this will call the editor with the same data as the previous time
                     it was used, regardless of how long ago (in your current session) it
                     was.
                     -r: use 'raw' input.  This option only applies to input taken from the
                     user's history.  By default, the 'processed' history is used, so that
                     magics are loaded in their transformed version to valid Python.  If
                     this option is given, the raw input as typed as the command line is
                     used instead.  When you exit the editor, it will be executed by
                     IPython's own processor.
                     -x: do not execute the edited code immediately upon exit. This is
                     mainly useful if you are editing programs which need to be called with
                     command line arguments, which you can then do using %run.
                     Arguments:
                     If arguments are given, the following possibilites exist:
                     - If the argument is a filename, IPython will load that into the
-                    editor. It will execute its contents with execfile() when you exit,
+                      editor. It will execute its contents with execfile() when you exit,
-                    loading any code in the file into your interactive namespace.
+                      loading any code in the file into your interactive namespace.
                     - The arguments are ranges of input history,  e.g. "7 ~1/4-6".
-                    The syntax is the same as in the %history magic.
+                      The syntax is the same as in the %history magic.
                     - If the argument is a string variable, its contents are loaded
-                    into the editor. You can thus edit any string which contains
+                      into the editor. You can thus edit any string which contains
-                    python code (including the result of previous edits).
+                      python code (including the result of previous edits).
                     - If the argument is the name of an object (other than a string),
-                    IPython will try to locate the file where it was defined and open the
+                      IPython will try to locate the file where it was defined and open the
-                    editor at the point where it is defined. You can use `%edit function`
+                      editor at the point where it is defined. You can use `%edit function`
-                    to load an editor exactly at the point where 'function' is defined,
+                      to load an editor exactly at the point where 'function' is defined,
-                    edit it and have the file be executed automatically.
+                      edit it and have the file be executed automatically.
-                    If the object is a macro (see %macro for details), this opens up your
+                    - If the object is a macro (see %macro for details), this opens up your
-                    specified editor with a temporary file containing the macro's data.
+                      specified editor with a temporary file containing the macro's data.
-                    Upon exit, the macro is reloaded with the contents of the file.
+                      Upon exit, the macro is reloaded with the contents of the file.
                     Note: opening at an exact line is only supported under Unix, and some
                     editors (like kedit and gedit up to Gnome 2.8) do not understand the
                     '+NUMBER' parameter necessary for this feature. Good editors like
                     (X)Emacs, vi, jed, pico and joe all do.
                     After executing your code, %edit will return as output the code you
                     typed in the editor (except when it was an existing file). This way
                     you can reload the code in further invocations of %edit as a variable,
                     via _<NUMBER> or Out[<NUMBER>], where <NUMBER> is the prompt number of
                     the output.
                     Note that %edit is also available through the alias %ed.
                     This is an example of creating a simple function inside the editor and
                     then modifying it. First, start up the editor:
                     In [1]: ed
                     Editing... done. Executing edited code...
                     Out[1]: 'def foo():n    print "foo() was defined in an editing session"n'
                     We can then call the function foo():
                     In [2]: foo()
                     foo() was defined in an editing session
                     Now we edit foo.  IPython automatically loads the editor with the
                     (temporary) file where foo() was previously defined:
                     In [3]: ed foo
                     Editing... done. Executing edited code...
                     And if we call foo() again we get the modified version:
                     In [4]: foo()
                     foo() has now been changed!
                     Here is an example of how to edit a code snippet successive
                     times. First we call the editor:
                     In [5]: ed
                     Editing... done. Executing edited code...
                     hello
                     Out[5]: "print 'hello'n"
                     Now we call it again with the previous output (stored in _):
                     In [6]: ed _
                     Editing... done. Executing edited code...
                     hello world
                     Out[6]: "print 'hello world'n"
                     Now we call it with the output #8 (stored in _8, also as Out[8]):
                     In [7]: ed _8
                     Editing... done. Executing edited code...
                     hello again
                     Out[7]: "print 'hello again'n"
                     Changing the default editor hook:
                     If you wish to write your own editor hook, you can put it in a
                     configuration file which you load at startup time.  The default hook
                     is defined in the IPython.core.hooks module, and you can use that as a
                     starting example for further modifications.  That file also has
                     general instructions on how to set a new hook for use once you've
                     defined it."""
                     opts,args = self.parse_options(parameter_s,'prxn:')
                     try:
                         filename, lineno, is_temp = self._find_edit_target(args, opts, last_call)
                     except MacroToEdit as e:
                         self._edit_macro(args, e.args[0])
                         return
                     # do actual editing here
                     print 'Editing...',
                     sys.stdout.flush()
                     try:
                         # Quote filenames that may have spaces in them
                         if ' ' in filename:
                             filename = "'%s'" % filename
                         self.shell.hooks.editor(filename,lineno)
                     except TryNext:
                         warn('Could not open editor')
                         return
                     # XXX TODO: should this be generalized for all string vars?
                     # For now, this is special-cased to blocks created by cpaste
                     if args.strip() == 'pasted_block':
                         self.shell.user_ns['pasted_block'] = file_read(filename)
                     if 'x' in opts:  # -x prevents actual execution
                         print
                     else:
                         print 'done. Executing edited code...'
                         if 'r' in opts:    # Untranslated IPython code
                             self.shell.run_cell(file_read(filename),
                                                                 store_history=False)
                         else:
                             self.shell.safe_execfile(filename,self.shell.user_ns,
                                                      self.shell.user_ns)
                     if is_temp:
                         try:
                             return open(filename).read()
                         except IOError,msg:
                             if msg.filename == filename:
                                 warn('File not found. Did you forget to save?')
                                 return
                             else:
                                 self.shell.showtraceback()
                 def magic_xmode(self,parameter_s = ''):
                     """Switch modes for the exception handlers.
                     Valid modes: Plain, Context and Verbose.
                     If called without arguments, acts as a toggle."""
                     def xmode_switch_err(name):
                         warn('Error changing %s exception modes.\n%s' %
                              (name,sys.exc_info()[1]))
                     shell = self.shell
                     new_mode = parameter_s.strip().capitalize()
                     try:
                         shell.InteractiveTB.set_mode(mode=new_mode)
                         print 'Exception reporting mode:',shell.InteractiveTB.mode
                     except:
                         xmode_switch_err('user')
                 def magic_colors(self,parameter_s = ''):
                     """Switch color scheme for prompts, info system and exception handlers.
                     Currently implemented schemes: NoColor, Linux, LightBG.
                     Color scheme names are not case-sensitive.
                     Examples
                     --------
                     To get a plain black and white terminal::
                       %colors nocolor
                     """
                     def color_switch_err(name):
                         warn('Error changing %s color schemes.\n%s' %
                              (name,sys.exc_info()[1]))
                     new_scheme = parameter_s.strip()
                     if not new_scheme:
                         raise UsageError(
                             "%colors: you must specify a color scheme. See '%colors?'")
                         return
                     # local shortcut
                     shell = self.shell
                     import IPython.utils.rlineimpl as readline
                     if not readline.have_readline and sys.platform == "win32":
                         msg = """\
             Proper color support under MS Windows requires the pyreadline library.
             You can find it at:
             http://ipython.scipy.org/moin/PyReadline/Intro
             Gary's readline needs the ctypes module, from:
             http://starship.python.net/crew/theller/ctypes
             (Note that ctypes is already part of Python versions 2.5 and newer).
             Defaulting color scheme to 'NoColor'"""
                         new_scheme = 'NoColor'
                         warn(msg)
                     # readline option is 0
                     if not shell.has_readline:
                         new_scheme = 'NoColor'
                     # Set prompt colors
                     try:
                         shell.displayhook.set_colors(new_scheme)
                     except:
                         color_switch_err('prompt')
                     else:
                         shell.colors = \
                                    shell.displayhook.color_table.active_scheme_name
                     # Set exception colors
                     try:
                         shell.InteractiveTB.set_colors(scheme = new_scheme)
                         shell.SyntaxTB.set_colors(scheme = new_scheme)
                     except:
                         color_switch_err('exception')
                     # Set info (for 'object?') colors
                     if shell.color_info:
                         try:
                             shell.inspector.set_active_scheme(new_scheme)
                         except:
                             color_switch_err('object inspector')
                     else:
                         shell.inspector.set_active_scheme('NoColor')
                 def magic_pprint(self, parameter_s=''):
                     """Toggle pretty printing on/off."""
                     ptformatter = self.shell.display_formatter.formatters['text/plain']
                     ptformatter.pprint = bool(1 - ptformatter.pprint)
                     print 'Pretty printing has been turned', \
                           ['OFF','ON'][ptformatter.pprint]
                 #......................................................................
                 # Functions to implement unix shell-type things
                 @skip_doctest
                 def magic_alias(self, parameter_s = ''):
                     """Define an alias for a system command.
                     '%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).
                     Aliases have lower precedence than magic functions and Python normal
                     variables, so if 'foo' is both a Python variable and an alias, the
                     alias can not be executed until 'del foo' removes the Python variable.
                     You can use the %l specifier in an alias definition to represent the
                     whole line when the alias is called.  For example:
                       In [2]: alias bracket echo "Input in brackets: <%l>"
                       In [3]: bracket hello world
                       Input in brackets: <hello world>
                     You can also define aliases with parameters using %s specifiers (one
                     per parameter):
                       In [1]: alias parts echo first %s second %s
                       In [2]: %parts A B
                       first A second B
                       In [3]: %parts A
                       Incorrect number of arguments: 2 expected.
                       parts is an alias to: 'echo first %s second %s'
                     Note that %l and %s are mutually exclusive.  You can only use one or
                     the other in your aliases.
                     Aliases expand Python variables just like system calls using ! or !!
                     do: all expressions prefixed with '$' get expanded.  For details of
                     the semantic rules, see PEP-215:
                     http://www.python.org/peps/pep-0215.html.  This is the library used by
                     IPython for variable expansion.  If you want to access a true shell
                     variable, an extra $ is necessary to prevent its expansion by IPython:
                     In [6]: alias show echo
                     In [7]: PATH='A Python string'
                     In [8]: show $PATH
                     A Python string
                     In [9]: show $$PATH
                     /usr/local/lf9560/bin:/usr/local/intel/compiler70/ia32/bin:...
                     You can use the alias facility to acess all of $PATH.  See the %rehash
                     and %rehashx functions, which automatically create aliases for the
                     contents of your $PATH.
                     If called with no parameters, %alias prints the current alias table."""
                     par = parameter_s.strip()
                     if not par:
                         stored = self.db.get('stored_aliases', {} )
                         aliases = sorted(self.shell.alias_manager.aliases)
                         # for k, v in stored:
                         #     atab.append(k, v[0])
                         print "Total number of aliases:", len(aliases)
                         sys.stdout.flush()
                         return aliases
                     # Now try to define a new one
                     try:
                         alias,cmd = par.split(None, 1)
                     except:
                         print oinspect.getdoc(self.magic_alias)
                     else:
                         self.shell.alias_manager.soft_define_alias(alias, cmd)
                 # end magic_alias
                 def magic_unalias(self, parameter_s = ''):
                     """Remove an alias"""
                     aname = parameter_s.strip()
                     self.shell.alias_manager.undefine_alias(aname)
                     stored = self.db.get('stored_aliases', {} )
                     if aname in stored:
                         print "Removing %stored alias",aname
                         del stored[aname]
                         self.db['stored_aliases'] = stored
                 def magic_rehashx(self, parameter_s = ''):
                     """Update the alias table with all executable files in $PATH.
                     This version explicitly checks that every entry in $PATH is a file
                     with execute access (os.X_OK), so it is much slower than %rehash.
                     Under Windows, it checks executability as a match agains a
                     '|'-separated string of extensions, stored in the IPython config
                     variable win_exec_ext.  This defaults to 'exe|com|bat'.
                     This function also resets the root module cache of module completer,
                     used on slow filesystems.
                     """
                     from IPython.core.alias import InvalidAliasError
                     # for the benefit of module completer in ipy_completers.py
                     del self.db['rootmodules']
                     path = [os.path.abspath(os.path.expanduser(p)) for p in
                         os.environ.get('PATH','').split(os.pathsep)]
                     path = filter(os.path.isdir,path)
                     syscmdlist = []
                     # Now define isexec in a cross platform manner.
                     if os.name == 'posix':
                         isexec = lambda fname:os.path.isfile(fname) and \
                                  os.access(fname,os.X_OK)
                     else:
                         try:
                             winext = os.environ['pathext'].replace(';','|').replace('.','')
                         except KeyError:
                             winext = 'exe|com|bat|py'
                         if 'py' not in winext:
                             winext += '|py'
                         execre = re.compile(r'(.*)\.(%s)$' % winext,re.IGNORECASE)
                         isexec = lambda fname:os.path.isfile(fname) and execre.match(fname)
                     savedir = os.getcwdu()
                     # Now walk the paths looking for executables to alias.
                     try:
                         # write the whole loop for posix/Windows so we don't have an if in
                         # the innermost part
                         if os.name == 'posix':
                             for pdir in path:
                                 os.chdir(pdir)
                                 for ff in os.listdir(pdir):
                                     if isexec(ff):
                                         try:
                                             # Removes dots from the name since ipython
                                             # will assume names with dots to be python.
                                             self.shell.alias_manager.define_alias(
                                                 ff.replace('.',''), ff)
                                         except InvalidAliasError:
                                             pass
                                         else:
                                             syscmdlist.append(ff)
                         else:
                             no_alias = self.shell.alias_manager.no_alias
                             for pdir in path:
                                 os.chdir(pdir)
                                 for ff in os.listdir(pdir):
                                     base, ext = os.path.splitext(ff)
                                     if isexec(ff) and base.lower() not in no_alias:
                                         if ext.lower() == '.exe':
                                             ff = base
                                             try:
                                                 # Removes dots from the name since ipython
                                                 # will assume names with dots to be python.
                                                 self.shell.alias_manager.define_alias(
                                                     base.lower().replace('.',''), ff)
                                             except InvalidAliasError:
                                                 pass
                                             syscmdlist.append(ff)
                         db = self.db
                         db['syscmdlist'] = syscmdlist
                     finally:
                         os.chdir(savedir)
                 @skip_doctest
                 def magic_pwd(self, parameter_s = ''):
                     """Return the current working directory path.
                     Examples
                     --------
                     ::
                       In [9]: pwd
                       Out[9]: '/home/tsuser/sprint/ipython'
                     """
                     return os.getcwdu()
                 @skip_doctest
                 def magic_cd(self, parameter_s=''):
                     """Change the current working directory.
                     This command automatically maintains an internal list of directories
                     you visit during your IPython session, in the variable _dh. The
                     command %dhist shows this history nicely formatted. You can also
                     do 'cd -<tab>' to see directory history conveniently.
                     Usage:
                       cd 'dir': changes to directory 'dir'.
                       cd -: changes to the last visited directory.
                       cd -<n>: changes to the n-th directory in the directory history.
                       cd --foo: change to directory that matches 'foo' in history
                       cd -b <bookmark_name>: jump to a bookmark set by %bookmark
                          (note: cd <bookmark_name> is enough if there is no
                           directory <bookmark_name>, but a bookmark with the name exists.)
                           'cd -b <tab>' allows you to tab-complete bookmark names.
                     Options:
                     -q: quiet.  Do not print the working directory after the cd command is
                     executed.  By default IPython's cd command does print this directory,
                     since the default prompts do not display path information.
                     Note that !cd doesn't work for this purpose because the shell where
                     !command runs is immediately discarded after executing 'command'.
                     Examples
                     --------
                     ::
                       In [10]: cd parent/child
                       /home/tsuser/parent/child
                     """
                     parameter_s = parameter_s.strip()
                     #bkms = self.shell.persist.get("bookmarks",{})
                     oldcwd = os.getcwdu()
                     numcd = re.match(r'(-)(\d+)$',parameter_s)
                     # jump in directory history by number
                     if numcd:
                         nn = int(numcd.group(2))
                         try:
                             ps = self.shell.user_ns['_dh'][nn]
                         except IndexError:
                             print 'The requested directory does not exist in history.'
                             return
                         else:
                             opts = {}
                     elif parameter_s.startswith('--'):
                         ps = None
                         fallback = None
                         pat = parameter_s[2:]
                         dh = self.shell.user_ns['_dh']
                         # first search only by basename (last component)
                         for ent in reversed(dh):
                             if pat in os.path.basename(ent) and os.path.isdir(ent):
                                 ps = ent
                                 break
                             if fallback is None and pat in ent and os.path.isdir(ent):
                                 fallback = ent
                         # if we have no last part match, pick the first full path match
                         if ps is None:
                             ps = fallback
                         if ps is None:
                             print "No matching entry in directory history"
                             return
                         else:
                             opts = {}
                     else:
                         #turn all non-space-escaping backslashes to slashes,
                         # for c:\windows\directory\names\
                         parameter_s = re.sub(r'\\(?! )','/', parameter_s)
                         opts,ps = self.parse_options(parameter_s,'qb',mode='string')
                     # jump to previous
                     if ps == '-':
                         try:
                             ps = self.shell.user_ns['_dh'][-2]
                         except IndexError:
                             raise UsageError('%cd -: No previous directory to change to.')
                     # jump to bookmark if needed
                     else:
                         if not os.path.isdir(ps) or opts.has_key('b'):
                             bkms = self.db.get('bookmarks', {})
                             if bkms.has_key(ps):
                                 target = bkms[ps]
                                 print '(bookmark:%s) -> %s' % (ps,target)
                                 ps = target
                             else:
                                 if opts.has_key('b'):
                                     raise UsageError("Bookmark '%s' not found.  "
                                           "Use '%%bookmark -l' to see your bookmarks." % ps)
                     # strip extra quotes on Windows, because os.chdir doesn't like them
                     if sys.platform == 'win32':
                         ps = ps.strip('\'"')
                     # at this point ps should point to the target dir
                     if ps:
                         try:
                             os.chdir(os.path.expanduser(ps))
                             if hasattr(self.shell, 'term_title') and self.shell.term_title:
                                 set_term_title('IPython: ' + abbrev_cwd())
                         except OSError:
                             print sys.exc_info()[1]
                         else:
                             cwd = os.getcwdu()
                             dhist = self.shell.user_ns['_dh']
                             if oldcwd != cwd:
                                 dhist.append(cwd)
                                 self.db['dhist'] = compress_dhist(dhist)[-100:]
                     else:
                         os.chdir(self.shell.home_dir)
                         if hasattr(self.shell, 'term_title') and self.shell.term_title:
                             set_term_title('IPython: ' + '~')
                         cwd = os.getcwdu()
                         dhist = self.shell.user_ns['_dh']
                         if oldcwd != cwd:
                             dhist.append(cwd)
                             self.db['dhist'] = compress_dhist(dhist)[-100:]
                     if not 'q' in opts and self.shell.user_ns['_dh']:
                         print self.shell.user_ns['_dh'][-1]
                 def magic_env(self, parameter_s=''):
                     """List environment variables."""
                     return os.environ.data
                 def magic_pushd(self, parameter_s=''):
                     """Place the current dir on stack and change directory.
                     Usage:\\
                       %pushd ['dirname']
                     """
                     dir_s = self.shell.dir_stack
                     tgt = os.path.expanduser(parameter_s)
                     cwd = os.getcwdu().replace(self.home_dir,'~')
                     if tgt:
                         self.magic_cd(parameter_s)
                     dir_s.insert(0,cwd)
                     return self.magic_dirs()
                 def magic_popd(self, parameter_s=''):
                     """Change to directory popped off the top of the stack.
                     """
                     if not self.shell.dir_stack:
                         raise UsageError("%popd on empty stack")
                     top = self.shell.dir_stack.pop(0)
                     self.magic_cd(top)
                     print "popd ->",top
                 def magic_dirs(self, parameter_s=''):
                     """Return the current directory stack."""
                     return self.shell.dir_stack
                 def magic_dhist(self, parameter_s=''):
                     """Print your history of visited directories.
                     %dhist       -> print full history\\
                     %dhist n     -> print last n entries only\\
                     %dhist n1 n2 -> print entries between n1 and n2 (n1 not included)\\
                     This history is automatically maintained by the %cd command, and
                     always available as the global list variable _dh. You can use %cd -<n>
                     to go to directory number <n>.
                     Note that most of time, you should view directory history by entering
                     cd -<TAB>.
                     """
                     dh = self.shell.user_ns['_dh']
                     if parameter_s:
                         try:
                             args = map(int,parameter_s.split())
                         except:
                             self.arg_err(Magic.magic_dhist)
                             return
                         if len(args) == 1:
                             ini,fin = max(len(dh)-(args[0]),0),len(dh)
                         elif len(args) == 2:
                             ini,fin = args
                         else:
                             self.arg_err(Magic.magic_dhist)
                             return
                     else:
                         ini,fin = 0,len(dh)
                     nlprint(dh,
                             header = 'Directory history (kept in _dh)',
                             start=ini,stop=fin)
                 @skip_doctest
                 def magic_sc(self, parameter_s=''):
                     """Shell capture - execute a shell command and capture its output.
                     DEPRECATED. Suboptimal, retained for backwards compatibility.
                     You should use the form 'var = !command' instead. Example:
                      "%sc -l myfiles = ls ~" should now be written as
                      "myfiles = !ls ~"
                     myfiles.s, myfiles.l and myfiles.n still apply as documented
                     below.
                     --
                     %sc [options] varname=command
                     IPython will run the given command using commands.getoutput(), and
                     will then update the user's interactive namespace with a variable
                     called varname, containing the value of the call.  Your command can
                     contain shell wildcards, pipes, etc.
                     The '=' sign in the syntax is mandatory, and the variable name you
                     supply must follow Python's standard conventions for valid names.
                     (A special format without variable name exists for internal use)
                     Options:
                       -l: list output.  Split the output on newlines into a list before
                       assigning it to the given variable.  By default the output is stored
                       as a single string.
                       -v: verbose.  Print the contents of the variable.
                     In most cases you should not need to split as a list, because the
                     returned value is a special type of string which can automatically
                     provide its contents either as a list (split on newlines) or as a
                     space-separated string.  These are convenient, respectively, either
                     for sequential processing or to be passed to a shell command.
                     For example:
                     # all-random
                         # Capture into variable a
                         In [1]: sc a=ls *py
                         # a is a string with embedded newlines
                         In [2]: a
                         Out[2]: 'setup.py\\nwin32_manual_post_install.py'
                         # which can be seen as a list:
                         In [3]: a.l
                         Out[3]: ['setup.py', 'win32_manual_post_install.py']
                         # or as a whitespace-separated string:
                         In [4]: a.s
                         Out[4]: 'setup.py win32_manual_post_install.py'
                         # a.s is useful to pass as a single command line:
                         In [5]: !wc -l $a.s
 setup.py
 win32_manual_post_install.py
 total
                         # while the list form is useful to loop over:
                         In [6]: for f in a.l:
                           ...:      !wc -l $f
                           ...:
 setup.py
 win32_manual_post_install.py
                     Similiarly, the lists returned by the -l option are also special, in
                     the sense that you can equally invoke the .s attribute on them to
                     automatically get a whitespace-separated string from their contents:
                         In [7]: sc -l b=ls *py
                         In [8]: b
                         Out[8]: ['setup.py', 'win32_manual_post_install.py']
                         In [9]: b.s
                         Out[9]: 'setup.py win32_manual_post_install.py'
                     In summary, both the lists and strings used for ouptut capture have
                     the following special attributes:
                         .l (or .list) : value as list.
                         .n (or .nlstr): value as newline-separated string.
                         .s (or .spstr): value as space-separated string.
                     """
                     opts,args = self.parse_options(parameter_s,'lv')
                     # Try to get a variable name and command to run
                     try:
                         # the variable name must be obtained from the parse_options
                         # output, which uses shlex.split to strip options out.
                         var,_ = args.split('=',1)
                         var = var.strip()
                         # But the the command has to be extracted from the original input
                         # parameter_s, not on what parse_options returns, to avoid the
                         # quote stripping which shlex.split performs on it.
                         _,cmd = parameter_s.split('=',1)
                     except ValueError:
                         var,cmd = '',''
                     # If all looks ok, proceed
                     split = 'l' in opts
                     out = self.shell.getoutput(cmd, split=split)
                     if opts.has_key('v'):
                         print '%s ==\n%s' % (var,pformat(out))
                     if var:
                         self.shell.user_ns.update({var:out})
                     else:
                         return out
                 def magic_sx(self, parameter_s=''):
                     """Shell execute - run a shell command and capture its output.
                     %sx command
                     IPython will run the given command using commands.getoutput(), and
                     return the result formatted as a list (split on '\\n').  Since the
                     output is _returned_, it will be stored in ipython's regular output
                     cache Out[N] and in the '_N' automatic variables.
                     Notes:
 ) If an input line begins with '!!', then %sx is automatically
                     invoked.  That is, while:
                       !ls
                     causes ipython to simply issue system('ls'), typing
                       !!ls
                     is a shorthand equivalent to:
                       %sx ls
 ) %sx differs from %sc in that %sx automatically splits into a list,
                     like '%sc -l'.  The reason for this is to make it as easy as possible
                     to process line-oriented shell output via further python commands.
                     %sc is meant to provide much finer control, but requires more
                     typing.
 ) Just like %sc -l, this is a list with special attributes:
                       .l (or .list) : value as list.
                       .n (or .nlstr): value as newline-separated string.
                       .s (or .spstr): value as whitespace-separated string.
                     This is very useful when trying to use such lists as arguments to
                     system commands."""
                     if parameter_s:
                         return self.shell.getoutput(parameter_s)
                 def magic_bookmark(self, parameter_s=''):
                     """Manage IPython's bookmark system.
                     %bookmark <name>       - set bookmark to current dir
                     %bookmark <name> <dir> - set bookmark to <dir>
                     %bookmark -l           - list all bookmarks
                     %bookmark -d <name>    - remove bookmark
                     %bookmark -r           - remove all bookmarks
                     You can later on access a bookmarked folder with:
                       %cd -b <name>
                     or simply '%cd <name>' if there is no directory called <name> AND
                     there is such a bookmark defined.
                     Your bookmarks persist through IPython sessions, but they are
                     associated with each profile."""
                     opts,args = self.parse_options(parameter_s,'drl',mode='list')
                     if len(args) > 2:
                         raise UsageError("%bookmark: too many arguments")
                     bkms = self.db.get('bookmarks',{})
                     if opts.has_key('d'):
                         try:
                             todel = args[0]
                         except IndexError:
                             raise UsageError(
                                 "%bookmark -d: must provide a bookmark to delete")
                         else:
                             try:
                                 del bkms[todel]
                             except KeyError:
                                 raise UsageError(
                                     "%%bookmark -d: Can't delete bookmark '%s'" % todel)
                     elif opts.has_key('r'):
                         bkms = {}
                     elif opts.has_key('l'):
                         bks = bkms.keys()
                         bks.sort()
                         if bks:
                             size = max(map(len,bks))
                         else:
                             size = 0
                         fmt = '%-'+str(size)+'s -> %s'
                         print 'Current bookmarks:'
                         for bk in bks:
                             print fmt % (bk,bkms[bk])
                     else:
                         if not args:
                             raise UsageError("%bookmark: You must specify the bookmark name")
                         elif len(args)==1:
                             bkms[args[0]] = os.getcwdu()
                         elif len(args)==2:
                             bkms[args[0]] = args[1]
                     self.db['bookmarks'] = bkms
                 def magic_pycat(self, parameter_s=''):
                     """Show a syntax-highlighted file through a pager.
                     This magic is similar to the cat utility, but it will assume the file
                     to be Python source and will show it with syntax highlighting. """
                     try:
                         filename = get_py_filename(parameter_s)
                         cont = file_read(filename)
                     except IOError:
                         try:
                             cont = eval(parameter_s,self.user_ns)
                         except NameError:
                             cont = None
                     if cont is None:
                         print "Error: no such file or variable"
                         return
                     page.page(self.shell.pycolorize(cont))
                 def _rerun_pasted(self):
                     """ Rerun a previously pasted command.
                     """
                     b = self.user_ns.get('pasted_block', None)
                     if b is None:
                         raise UsageError('No previous pasted block available')
                     print "Re-executing '%s...' (%d chars)"% (b.split('\n',1)[0], len(b))
                     exec b in self.user_ns
                 def _get_pasted_lines(self, sentinel):
                     """ Yield pasted lines until the user enters the given sentinel value.
                     """
                     from IPython.core import interactiveshell
                     print "Pasting code; enter '%s' alone on the line to stop." % sentinel
                     while True:
                         l = interactiveshell.raw_input_original(':')
                         if l == sentinel:
                             return
                         else:
                             yield l
                 def _strip_pasted_lines_for_code(self, raw_lines):
                     """ Strip non-code parts of a sequence of lines to return a block of
                     code.
                     """
                     # Regular expressions that declare text we strip from the input:
                     strip_re =  [r'^\s*In \[\d+\]:', # IPython input prompt
                                  r'^\s*(\s?>)+', # Python input prompt
                                  r'^\s*\.{3,}', # Continuation prompts
                                  r'^\++',
                                  ]
                     strip_from_start = map(re.compile,strip_re)
                     lines = []
                     for l in raw_lines:
                         for pat in strip_from_start:
                             l = pat.sub('',l)
                         lines.append(l)
                     block = "\n".join(lines) + '\n'
                     #print "block:\n",block
                     return block
                 def _execute_block(self, block, par):
                     """ Execute a block, or store it in a variable, per the user's request.
                     """
                     if not par:
                         b = textwrap.dedent(block)
                         self.user_ns['pasted_block'] = b
                         exec b in self.user_ns
                     else:
                         self.user_ns[par] = SList(block.splitlines())
                         print "Block assigned to '%s'" % par
                 def magic_quickref(self,arg):
                     """ Show a quick reference sheet """
                     import IPython.core.usage
                     qr = IPython.core.usage.quick_reference + self.magic_magic('-brief')
                     page.page(qr)
                 def magic_doctest_mode(self,parameter_s=''):
                     """Toggle doctest mode on and off.
                     This mode is intended to make IPython behave as much as possible like a
                     plain Python shell, from the perspective of how its prompts, exceptions
                     and output look.  This makes it easy to copy and paste parts of a
                     session into doctests.  It does so by:
                     - Changing the prompts to the classic ``>>>`` ones.
                     - Changing the exception reporting mode to 'Plain'.
                     - Disabling pretty-printing of output.
                     Note that IPython also supports the pasting of code snippets that have
                     leading '>>>' and '...' prompts in them.  This means that you can paste
                     doctests from files or docstrings (even if they have leading
                     whitespace), and the code will execute correctly.  You can then use
                     '%history -t' to see the translated history; this will give you the
                     input after removal of all the leading prompts and whitespace, which
                     can be pasted back into an editor.
                     With these features, you can switch into this mode easily whenever you
                     need to do testing and changes to doctests, without having to leave
                     your existing IPython session.
                     """
                     from IPython.utils.ipstruct import Struct
                     # Shorthands
                     shell = self.shell
                     oc = shell.displayhook
                     meta = shell.meta
                     disp_formatter = self.shell.display_formatter
                     ptformatter = disp_formatter.formatters['text/plain']
                     # dstore is a data store kept in the instance metadata bag to track any
                     # changes we make, so we can undo them later.
                     dstore = meta.setdefault('doctest_mode',Struct())
                     save_dstore = dstore.setdefault
                     # save a few values we'll need to recover later
                     mode = save_dstore('mode',False)
                     save_dstore('rc_pprint',ptformatter.pprint)
                     save_dstore('xmode',shell.InteractiveTB.mode)
                     save_dstore('rc_separate_out',shell.separate_out)
                     save_dstore('rc_separate_out2',shell.separate_out2)
                     save_dstore('rc_prompts_pad_left',shell.prompts_pad_left)
                     save_dstore('rc_separate_in',shell.separate_in)
                     save_dstore('rc_plain_text_only',disp_formatter.plain_text_only)
                     if mode == False:
                         # turn on
                         oc.prompt1.p_template = '>>> '
                         oc.prompt2.p_template = '... '
                         oc.prompt_out.p_template = ''
                         # Prompt separators like plain python
                         oc.input_sep = oc.prompt1.sep = ''
                         oc.output_sep = ''
                         oc.output_sep2 = ''
                         oc.prompt1.pad_left = oc.prompt2.pad_left = \
                                               oc.prompt_out.pad_left = False
                         ptformatter.pprint = False
                         disp_formatter.plain_text_only = True
                         shell.magic_xmode('Plain')
                     else:
                         # turn off
                         oc.prompt1.p_template = shell.prompt_in1
                         oc.prompt2.p_template = shell.prompt_in2
                         oc.prompt_out.p_template = shell.prompt_out
                         oc.input_sep = oc.prompt1.sep = dstore.rc_separate_in
                         oc.output_sep = dstore.rc_separate_out
                         oc.output_sep2 = dstore.rc_separate_out2
                         oc.prompt1.pad_left = oc.prompt2.pad_left = \
                                      oc.prompt_out.pad_left = dstore.rc_prompts_pad_left
                         ptformatter.pprint = dstore.rc_pprint
                         disp_formatter.plain_text_only = dstore.rc_plain_text_only
                         shell.magic_xmode(dstore.xmode)
                     # Store new mode and inform
                     dstore.mode = bool(1-int(mode))
                     mode_label = ['OFF','ON'][dstore.mode]
                     print 'Doctest mode is:', mode_label
                 def magic_gui(self, parameter_s=''):
                     """Enable or disable IPython GUI event loop integration.
                     %gui [GUINAME]
                     This magic replaces IPython's threaded shells that were activated
                     using the (pylab/wthread/etc.) command line flags.  GUI toolkits
                     can now be enabled, disabled and changed at runtime and keyboard
                     interrupts should work without any problems.  The following toolkits
                     are supported:  wxPython, PyQt4, PyGTK, and Tk::
                         %gui wx      # enable wxPython event loop integration
                         %gui qt4|qt  # enable PyQt4 event loop integration
                         %gui gtk     # enable PyGTK event loop integration
                         %gui tk      # enable Tk event loop integration
                         %gui         # disable all event loop integration
                     WARNING:  after any of these has been called you can simply create
                     an application object, but DO NOT start the event loop yourself, as
                     we have already handled that.
                     """
                     from IPython.lib.inputhook import enable_gui
                     opts, arg = self.parse_options(parameter_s, '')
                     if arg=='': arg = None
                     return enable_gui(arg)
                 def magic_load_ext(self, module_str):
                     """Load an IPython extension by its module name."""
                     return self.extension_manager.load_extension(module_str)
                 def magic_unload_ext(self, module_str):
                     """Unload an IPython extension by its module name."""
                     self.extension_manager.unload_extension(module_str)
                 def magic_reload_ext(self, module_str):
                     """Reload an IPython extension by its module name."""
                     self.extension_manager.reload_extension(module_str)
                 @skip_doctest
                 def magic_install_profiles(self, s):
                     """Install the default IPython profiles into the .ipython dir.
                     If the default profiles have already been installed, they will not
                     be overwritten. You can force overwriting them by using the ``-o``
                     option::
                         In [1]: %install_profiles -o
                     """
                     if '-o' in s:
                         overwrite = True
                     else:
                         overwrite = False
                     from IPython.config import profile
                     profile_dir = os.path.dirname(profile.__file__)
                     ipython_dir = self.ipython_dir
                     print "Installing profiles to: %s [overwrite=%s]"%(ipython_dir,overwrite)
                     for src in os.listdir(profile_dir):
                         if src.startswith('profile_'):
                             name = src.replace('profile_', '')
                             print "    %s"%name
                             pd = ProfileDir.create_profile_dir_by_name(ipython_dir, name)
                             pd.copy_config_file('ipython_config.py', path=src,
                                             overwrite=overwrite)
                 @skip_doctest
                 def magic_install_default_config(self, s):
                     """Install IPython's default config file into the .ipython dir.
                     If the default config file (:file:`ipython_config.py`) is already
                     installed, it will not be overwritten. You can force overwriting
                     by using the ``-o`` option::
                         In [1]: %install_default_config
                     """
                     if '-o' in s:
                         overwrite = True
                     else:
                         overwrite = False
                     pd = self.shell.profile_dir
                     print "Installing default config file in: %s" % pd.location
                     pd.copy_config_file('ipython_config.py', overwrite=overwrite)
                 # Pylab support: simple wrappers that activate pylab, load gui input
                 # handling and modify slightly %run
                 @skip_doctest
                 def _pylab_magic_run(self, parameter_s=''):
                     Magic.magic_run(self, parameter_s,
                                     runner=mpl_runner(self.shell.safe_execfile))
                 _pylab_magic_run.__doc__ = magic_run.__doc__
                 @skip_doctest
                 def magic_pylab(self, s):
                     """Load numpy and matplotlib to work interactively.
                     %pylab [GUINAME]
                     This function lets you activate pylab (matplotlib, numpy and
                     interactive support) at any point during an IPython session.
                     It will import at the top level numpy as np, pyplot as plt, matplotlib,
                     pylab and mlab, as well as all names from numpy and pylab.
                     Parameters
                     ----------
                     guiname : optional
                       One of the valid arguments to the %gui magic ('qt', 'wx', 'gtk', 'osx' or
                       'tk').  If given, the corresponding Matplotlib backend is used,
                       otherwise matplotlib's default (which you can override in your
                       matplotlib config file) is used.
                     Examples
                     --------
                     In this case, where the MPL default is TkAgg:
                     In [2]: %pylab
                     Welcome to pylab, a matplotlib-based Python environment.
                     Backend in use: TkAgg
                     For more information, type 'help(pylab)'.
                     But you can explicitly request a different backend:
                     In [3]: %pylab qt
                     Welcome to pylab, a matplotlib-based Python environment.
                     Backend in use: Qt4Agg
                     For more information, type 'help(pylab)'.
                     """
                     self.shell.enable_pylab(s)
                 def magic_tb(self, s):
                     """Print the last traceback with the currently active exception mode.
                     See %xmode for changing exception reporting modes."""
                     self.shell.showtraceback()
                 @skip_doctest
                 def magic_precision(self, s=''):
                     """Set floating point precision for pretty printing.
                     Can set either integer precision or a format string.
                     If numpy has been imported and precision is an int,
                     numpy display precision will also be set, via ``numpy.set_printoptions``.
                     If no argument is given, defaults will be restored.
                     Examples
                     --------
                     ::
                         In [1]: from math import pi
                         In [2]: %precision 3
                         Out[2]: u'%.3f'
                         In [3]: pi
                         Out[3]: 3.142
                         In [4]: %precision %i
                         Out[4]: u'%i'
                         In [5]: pi
                         Out[5]: 3
                         In [6]: %precision %e
                         Out[6]: u'%e'
                         In [7]: pi**10
                         Out[7]: 9.364805e+04
                         In [8]: %precision
                         Out[8]: u'%r'
                         In [9]: pi**10
                         Out[9]: 93648.047476082982
                     """
                     ptformatter = self.shell.display_formatter.formatters['text/plain']
                     ptformatter.float_precision = s
                     return ptformatter.float_format
             # end Magic

             """A ZMQ-based subclass of InteractiveShell.
             This code is meant to ease the refactoring of the base InteractiveShell into
             something with a cleaner architecture for 2-process use, without actually
             breaking InteractiveShell itself.  So we're doing something a bit ugly, where
             we subclass and override what we want to fix.  Once this is working well, we
             can go back to the base class and refactor the code for a cleaner inheritance
             implementation that doesn't rely on so much monkeypatching.
             But this lets us maintain a fully working IPython as we develop the new
             machinery.  This should thus be thought of as scaffolding.
             """
             #-----------------------------------------------------------------------------
             # Imports
             #-----------------------------------------------------------------------------
             from __future__ import print_function
             # Stdlib
             import inspect
             import os
             # Our own
             from IPython.core.interactiveshell import (
                 InteractiveShell, InteractiveShellABC
             )
             from IPython.core import page
             from IPython.core.autocall import ZMQExitAutocall
             from IPython.core.displaypub import DisplayPublisher
             from IPython.core.macro import Macro
             from IPython.core.magic import MacroToEdit
             from IPython.core.payloadpage import install_payload_page
             from IPython.utils import io
             from IPython.utils.path import get_py_filename
             from IPython.utils.traitlets import Instance, Type, Dict, CBool
             from IPython.utils.warn import warn
             from IPython.zmq.displayhook import ZMQShellDisplayHook, _encode_png
             from IPython.zmq.session import extract_header
             from session import Session
             #-----------------------------------------------------------------------------
             # Globals and side-effects
             #-----------------------------------------------------------------------------
             # Install the payload version of page.
             install_payload_page()
             #-----------------------------------------------------------------------------
             # Functions and classes
             #-----------------------------------------------------------------------------
             class ZMQDisplayPublisher(DisplayPublisher):
                 """A display publisher that publishes data using a ZeroMQ PUB socket."""
                 session = Instance(Session)
                 pub_socket = Instance('zmq.Socket')
                 parent_header = Dict({})
                 def set_parent(self, parent):
                     """Set the parent for outbound messages."""
                     self.parent_header = extract_header(parent)
                 def publish(self, source, data, metadata=None):
                     if metadata is None:
                         metadata = {}
                     self._validate_data(source, data, metadata)
                     content = {}
                     content['source'] = source
                     _encode_png(data)
                     content['data'] = data
                     content['metadata'] = metadata
                     self.session.send(
                         self.pub_socket, u'display_data', content,
                         parent=self.parent_header
                     )
             class ZMQInteractiveShell(InteractiveShell):
                 """A subclass of InteractiveShell for ZMQ."""
                 displayhook_class = Type(ZMQShellDisplayHook)
                 display_pub_class = Type(ZMQDisplayPublisher)
                 # Override the traitlet in the parent class, because there's no point using
                 # readline for the kernel. Can be removed when the readline code is moved
                 # to the terminal frontend.
                 # FIXME.  This is disabled for now, even though it may cause problems under
                 # Windows, because it breaks %run in the Qt console.  See gh-617 for more
                 # details.  Re-enable once we've fully tested that %run works in the Qt
                 # console with syntax highlighting in tracebacks.
                 # readline_use = CBool(False)
                 # /FIXME
                 exiter = Instance(ZMQExitAutocall)
                 def _exiter_default(self):
                     return ZMQExitAutocall(self)
                 keepkernel_on_exit = None
                 def init_environment(self):
                     """Configure the user's environment.
                     """
                     env = os.environ
                     # These two ensure 'ls' produces nice coloring on BSD-derived systems
                     env['TERM'] = 'xterm-color'
                     env['CLICOLOR'] = '1'
                     # Since normal pagers don't work at all (over pexpect we don't have
                     # single-key control of the subprocess), try to disable paging in
                     # subprocesses as much as possible.
                     env['PAGER'] = 'cat'
                     env['GIT_PAGER'] = 'cat'
                 def auto_rewrite_input(self, cmd):
                     """Called to show the auto-rewritten input for autocall and friends.
                     FIXME: this payload is currently not correctly processed by the
                     frontend.
                     """
                     new = self.displayhook.prompt1.auto_rewrite() + cmd
                     payload = dict(
                         source='IPython.zmq.zmqshell.ZMQInteractiveShell.auto_rewrite_input',
                         transformed_input=new,
                         )
                     self.payload_manager.write_payload(payload)
                 def ask_exit(self):
                     """Engage the exit actions."""
                     payload = dict(
                         source='IPython.zmq.zmqshell.ZMQInteractiveShell.ask_exit',
                         exit=True,
                         keepkernel=self.keepkernel_on_exit,
                         )
                     self.payload_manager.write_payload(payload)
                 def _showtraceback(self, etype, evalue, stb):
                     exc_content = {
                         u'traceback' : stb,
                         u'ename' : unicode(etype.__name__),
                         u'evalue' : unicode(evalue)
                     }
                     dh = self.displayhook
                     # Send exception info over pub socket for other clients than the caller
                     # to pick up
                     exc_msg = dh.session.send(dh.pub_socket, u'pyerr', exc_content, dh.parent_header)
                     # FIXME - Hack: store exception info in shell object.  Right now, the
                     # caller is reading this info after the fact, we need to fix this logic
                     # to remove this hack.  Even uglier, we need to store the error status
                     # here, because in the main loop, the logic that sets it is being
                     # skipped because runlines swallows the exceptions.
                     exc_content[u'status'] = u'error'
                     self._reply_content = exc_content
                     # /FIXME
                     return exc_content
                 #------------------------------------------------------------------------
                 # Magic overrides
                 #------------------------------------------------------------------------
                 # Once the base class stops inheriting from magic, this code needs to be
                 # moved into a separate machinery as well.  For now, at least isolate here
                 # the magics which this class needs to implement differently from the base
                 # class, or that are unique to it.
                 def magic_doctest_mode(self,parameter_s=''):
                     """Toggle doctest mode on and off.
                     This mode is intended to make IPython behave as much as possible like a
                     plain Python shell, from the perspective of how its prompts, exceptions
                     and output look.  This makes it easy to copy and paste parts of a
                     session into doctests.  It does so by:
                     - Changing the prompts to the classic ``>>>`` ones.
                     - Changing the exception reporting mode to 'Plain'.
                     - Disabling pretty-printing of output.
                     Note that IPython also supports the pasting of code snippets that have
                     leading '>>>' and '...' prompts in them.  This means that you can paste
                     doctests from files or docstrings (even if they have leading
                     whitespace), and the code will execute correctly.  You can then use
                     '%history -t' to see the translated history; this will give you the
                     input after removal of all the leading prompts and whitespace, which
                     can be pasted back into an editor.
                     With these features, you can switch into this mode easily whenever you
                     need to do testing and changes to doctests, without having to leave
                     your existing IPython session.
                     """
                     from IPython.utils.ipstruct import Struct
                     # Shorthands
                     shell = self.shell
                     disp_formatter = self.shell.display_formatter
                     ptformatter = disp_formatter.formatters['text/plain']
                     # dstore is a data store kept in the instance metadata bag to track any
                     # changes we make, so we can undo them later.
                     dstore = shell.meta.setdefault('doctest_mode', Struct())
                     save_dstore = dstore.setdefault
                     # save a few values we'll need to recover later
                     mode = save_dstore('mode', False)
                     save_dstore('rc_pprint', ptformatter.pprint)
                     save_dstore('rc_plain_text_only',disp_formatter.plain_text_only)
                     save_dstore('xmode', shell.InteractiveTB.mode)
                     if mode == False:
                         # turn on
                         ptformatter.pprint = False
                         disp_formatter.plain_text_only = True
                         shell.magic_xmode('Plain')
                     else:
                         # turn off
                         ptformatter.pprint = dstore.rc_pprint
                         disp_formatter.plain_text_only = dstore.rc_plain_text_only
                         shell.magic_xmode(dstore.xmode)
                     # Store new mode and inform on console
                     dstore.mode = bool(1-int(mode))
                     mode_label = ['OFF','ON'][dstore.mode]
                     print('Doctest mode is:', mode_label)
                     # Send the payload back so that clients can modify their prompt display
                     payload = dict(
                         source='IPython.zmq.zmqshell.ZMQInteractiveShell.magic_doctest_mode',
                         mode=dstore.mode)
                     self.payload_manager.write_payload(payload)
                 def magic_edit(self,parameter_s='',last_call=['','']):
                     """Bring up an editor and execute the resulting code.
                     Usage:
                       %edit [options] [args]
-                    %edit runs IPython's editor hook.  The default version of this hook is
+                    %edit runs an external text editor. You will need to set the command for
-                    set to call the __IPYTHON__.rc.dditor command.  This is read from your
+                    this editor via the ``TerminalInteractiveShell.editor`` option in your
-                    environment variable $EDITOR.  If this isn't found, it will default to
+                    configuration file before it will work.
-                    vi under Linux/Unix and to notepad under Windows.  See the end of this
-                    docstring for how to change the editor hook.
-                    You can also set the value of this editor via the
-                    ``TerminalInteractiveShell.editor`` option in your configuration file.
-                    This is useful if you wish to use a different editor from your typical
-                    default with IPython (and for Windows users who typically don't set
-                    environment variables).
                     This command allows you to conveniently edit multi-line code right in
                     your IPython session.
                     If called without arguments, %edit opens up an empty editor with a
                     temporary file and will execute the contents of this file when you
                     close it (don't forget to save it!).
                     Options:
                     -n <number>: open the editor at a specified line number.  By default,
                     the IPython editor hook uses the unix syntax 'editor +N filename', but
                     you can configure this by providing your own modified hook if your
                     favorite editor supports line-number specifications with a different
                     syntax.
                     -p: this will call the editor with the same data as the previous time
                     it was used, regardless of how long ago (in your current session) it
                     was.
                     -r: use 'raw' input.  This option only applies to input taken from the
                     user's history.  By default, the 'processed' history is used, so that
                     magics are loaded in their transformed version to valid Python.  If
                     this option is given, the raw input as typed as the command line is
                     used instead.  When you exit the editor, it will be executed by
                     IPython's own processor.
                     -x: do not execute the edited code immediately upon exit. This is
                     mainly useful if you are editing programs which need to be called with
                     command line arguments, which you can then do using %run.
                     Arguments:
                     If arguments are given, the following possibilites exist:
                     - The arguments are numbers or pairs of colon-separated numbers (like
 4:8 9). These are interpreted as lines of previous input to be
                     loaded into the editor. The syntax is the same of the %macro command.
                     - If the argument doesn't start with a number, it is evaluated as a
                     variable and its contents loaded into the editor. You can thus edit
                     any string which contains python code (including the result of
                     previous edits).
                     - If the argument is the name of an object (other than a string),
                     IPython will try to locate the file where it was defined and open the
                     editor at the point where it is defined. You can use `%edit function`
                     to load an editor exactly at the point where 'function' is defined,
                     edit it and have the file be executed automatically.
                     If the object is a macro (see %macro for details), this opens up your
                     specified editor with a temporary file containing the macro's data.
                     Upon exit, the macro is reloaded with the contents of the file.
                     Note: opening at an exact line is only supported under Unix, and some
                     editors (like kedit and gedit up to Gnome 2.8) do not understand the
                     '+NUMBER' parameter necessary for this feature. Good editors like
                     (X)Emacs, vi, jed, pico and joe all do.
                     - If the argument is not found as a variable, IPython will look for a
                     file with that name (adding .py if necessary) and load it into the
                     editor. It will execute its contents with execfile() when you exit,
                     loading any code in the file into your interactive namespace.
                     After executing your code, %edit will return as output the code you
                     typed in the editor (except when it was an existing file). This way
                     you can reload the code in further invocations of %edit as a variable,
                     via _<NUMBER> or Out[<NUMBER>], where <NUMBER> is the prompt number of
                     the output.
                     Note that %edit is also available through the alias %ed.
                     This is an example of creating a simple function inside the editor and
                     then modifying it. First, start up the editor:
                     In [1]: ed
                     Editing... done. Executing edited code...
                     Out[1]: 'def foo():n    print "foo() was defined in an editing session"n'
                     We can then call the function foo():
                     In [2]: foo()
                     foo() was defined in an editing session
                     Now we edit foo.  IPython automatically loads the editor with the
                     (temporary) file where foo() was previously defined:
                     In [3]: ed foo
                     Editing... done. Executing edited code...
                     And if we call foo() again we get the modified version:
                     In [4]: foo()
                     foo() has now been changed!
                     Here is an example of how to edit a code snippet successive
                     times. First we call the editor:
                     In [5]: ed
                     Editing... done. Executing edited code...
                     hello
                     Out[5]: "print 'hello'n"
                     Now we call it again with the previous output (stored in _):
                     In [6]: ed _
                     Editing... done. Executing edited code...
                     hello world
                     Out[6]: "print 'hello world'n"
                     Now we call it with the output #8 (stored in _8, also as Out[8]):
                     In [7]: ed _8
                     Editing... done. Executing edited code...
                     hello again
                     Out[7]: "print 'hello again'n"
+                    """
-                    Changing the default editor hook:
-                    If you wish to write your own editor hook, you can put it in a
-                    configuration file which you load at startup time.  The default hook
-                    is defined in the IPython.core.hooks module, and you can use that as a
-                    starting example for further modifications.  That file also has
-                    general instructions on how to set a new hook for use once you've
-                    defined it."""
                     opts,args = self.parse_options(parameter_s,'prn:')
                     try:
                         filename, lineno, _ = self._find_edit_target(args, opts, last_call)
                     except MacroToEdit as e:
                         # TODO: Implement macro editing over 2 processes.
                         print("Macro editing not yet implemented in 2-process model.")
                         return
                     # Make sure we send to the client an absolute path, in case the working
                     # directory of client and kernel don't match
                     filename = os.path.abspath(filename)
                     payload = {
                         'source' : 'IPython.zmq.zmqshell.ZMQInteractiveShell.edit_magic',
                         'filename' : filename,
                         'line_number' : lineno
                     }
                     self.payload_manager.write_payload(payload)
                 def magic_gui(self, *args, **kwargs):
                     raise NotImplementedError(
                         'Kernel GUI support is not implemented yet, except for --pylab.')
                 def magic_pylab(self, *args, **kwargs):
                     raise NotImplementedError(
                         'pylab support must be enabled in command line options.')
                 # A few magics that are adapted to the specifics of using pexpect and a
                 # remote terminal
                 def magic_clear(self, arg_s):
                     """Clear the terminal."""
                     if os.name == 'posix':
                         self.shell.system("clear")
                     else:
                         self.shell.system("cls")
                 if os.name == 'nt':
                     # This is the usual name in windows
                     magic_cls = magic_clear
                 # Terminal pagers won't work over pexpect, but we do have our own pager
                 def magic_less(self, arg_s):
                     """Show a file through the pager.
                     Files ending in .py are syntax-highlighted."""
                     cont = open(arg_s).read()
                     if arg_s.endswith('.py'):
                         cont = self.shell.pycolorize(cont)
                     page.page(cont)
                 magic_more = magic_less
                 # Man calls a pager, so we also need to redefine it
                 if os.name == 'posix':
                     def magic_man(self, arg_s):
                         """Find the man page for the given command and display in pager."""
                         page.page(self.shell.getoutput('man %s | col -b' % arg_s,
                                                        split=False))
                 # FIXME: this is specific to the GUI, so we should let the gui app load
                 # magics at startup that are only for the gui.  Once the gui app has proper
                 # profile and configuration management, we can have it initialize a kernel
                 # with a special config file that provides these.
                 def magic_guiref(self, arg_s):
                     """Show a basic reference about the GUI console."""
                     from IPython.core.usage import gui_reference
                     page.page(gui_reference, auto_html=True)
                 def set_next_input(self, text):
                     """Send the specified text to the frontend to be presented at the next
                     input cell."""
                     payload = dict(
                         source='IPython.zmq.zmqshell.ZMQInteractiveShell.set_next_input',
                         text=text
                     )
                     self.payload_manager.write_payload(payload)
             InteractiveShellABC.register(ZMQInteractiveShell)