Python vs IPython
This document is meant to highlight the main differences between the Python language and what are the specific constructs you can do only in IPython.
Unless expressed otherwise all of the constructs you will see here will raise a SyntaxError if run in a pure Python shell, or if executing in a Python script.
Each of these features is described more in detail in the further parts of the documentation.
Quick overview:
All the following constructs are valid IPython syntax:
In [1]: ?
In [1]: ?object
In [1]: object?
In [1]: *pattern*?
In [1]: %shell like --syntax
In [1]: !ls
In [1]: my_files = !ls ~/ In [1]: for i, file in enumerate(my_files): ...: raw = !echo $file ...: !echo {file[0].upper()} $raw
In [1]: %%perl magic --function ...: @months = ("July", "August", "September"); ...: print $months[0];
Each of these constructs is compiled by IPython into valid python code and will do most of the time what you expect it will do. Let's see each of these examples in more detail.
Accessing help
As IPython is mostly an interactive shell, the question mark is a simple shortcut to get help. A question mark alone will bring up the IPython help:
In [1]: ? IPython -- An enhanced Interactive Python ========================================= IPython offers a combination of convenient shell features, special commands and a history mechanism for both input (command history) and output (results caching, similar to Mathematica). It is intended to be a fully compatible replacement for the standard Python interpreter, while offering vastly improved functionality and flexibility. At your system command line, type 'ipython -h' to see the command line options available. This document only describes interactive features. MAIN FEATURES ------------- ...
A single question mark before or after an object available in the current namespace will show help relative to this object:
In [6]: object? Docstring: The most base type Type: type
A double question mark will try to pull out more information about the object, and if possible display the python source code of this object.
In[1]: import collections In[2]: collections.Counter?? Init signature: collections.Counter(*args, **kwds) Source: class Counter(dict): '''Dict subclass for counting hashable items. Sometimes called a bag or multiset. Elements are stored as dictionary keys and their counts are stored as dictionary values. >>> c = Counter('abcdeabcdabcaba') # count elements from a string >>> c.most_common(3) # three most common elements [('a', 5), ('b', 4), ('c', 3)] >>> sorted(c) # list all unique elements ['a', 'b', 'c', 'd', 'e'] >>> ''.join(sorted(c.elements())) # list elements with repetitions 'aaaaabbbbcccdde' ...
If you are looking for an object, the use of wildcards * in conjunction with a question mark will allow you to search the current namespace for objects with matching names:
In [24]: *int*? FloatingPointError int print
Shell Assignment
When doing interactive computing it is a common need to access the underlying shell. This is doable through the use of the exclamation mark ! (or bang).
This allows to execute simple commands when present in beginning of the line:
In[1]: !pwd /User/home/
Change directory:
In[1]: !cd /var/etc
Or edit file:
In[1]: !mvim myfile.txt
The line after the bang can call any program installed in the underlying shell, and support variable expansion in the form of $variable or {variable}. The later form of expansion supports arbitrary python expressions:
In[1]: file = 'myfile.txt' In[2]: !mv $file {file.upper()}
The bang (!) can also be present on the right hand side of an assignment, just after the equal sign, or separated from it by a white space. In this case the standard output of the command after the bang will be split out into lines in a list-like object and assigned to the left hand side.
This allows you, for example, to put the list of files of the current working directory in a variable:
In[1]: my_files = !ls
You can combine the different possibilities in for loops, conditions, functions...:
my_files = !ls ~/ for i, file in enumerate(my_files): raw = !echo $backup $file !cp $file {file.split('.')[0] + '.bak'}
Magics
Magic functions (magics) are often present in the form of shell-like syntax, but they are python functions under the hood. The syntax and assignment possibilities are similar to the one with the bang (!) syntax, but with more flexibility and power. Magic functions start with a percent sign (%) or double percent signs (%%).
A magic call with a single percent sign will act only on one line:
In[1]: %xmode Exception reporting mode: Verbose
Magics support assignment:
In [1]: results = %timeit -r1 -n1 -o list(range(1000)) 62.1 µs ± 0 ns per loop (mean ± std. dev. of 1 run, 1 loop each) In [2]: results <TimeitResult : 62.1 µs ± 0 ns per loop (mean ± std. dev. of 1 run, 1 loop each)>
Magics with double percent signs (%%) can spread over multiple lines, but they do not support assignments:
In[1]: %%bash ... : echo "My shell is:" $SHELL ... : echo "My disk usage is:" ... : df -h My shell is: /usr/local/bin/bash My disk usage is: Filesystem Size Used Avail Capacity iused ifree %iused Mounted on /dev/disk1 233Gi 216Gi 16Gi 94% 56788108 4190706 93% / devfs 190Ki 190Ki 0Bi 100% 656 0 100% /dev map -hosts 0Bi 0Bi 0Bi 100% 0 0 100% /net map auto_home 0Bi 0Bi 0Bi 100% 0 0 100% /hom