People including me know there is something in Python called __future__ and it appears in quite a few modules I read. And the dull people like me don't know why it's there, and how/when to use it , even after reading the Python's __future__ doc.

So any explains with examples to demonstrate it?

I have got a few answers quickly, which look all correct, in terms of the basic usage.

However and also for further understanding how __future__ works:

I just realized one key thing that was confusing me when I tried to understand it, that is, how a current python release include something that will be released in future release? and how can a program using a new feature in a future python release be compiled successfully by the current python release?

So, I guess now that, the current release has already packaged some potential features that will be included in future releases - is this right? but the features are available only by __future__, that is because it doesn't become standard yet - am I right?

up vote 238 down vote accepted

With __future__ module's inclusion, you can slowly be accustomed to incompatible changes or to such ones introducing new keywords.

E.g., for using context managers, you had to do from __future__ import with_statement in 2.5, as the with keyword was new and shouldn't be used as variable names any longer. In order to be able to use a program which uses variables named with, the above import statement is needed.

Another example is

from __future__ import division
print 8/7  # prints 1.1428571428571428
print 8//7 # prints 1

Without the __future__ stuff, both print statements would print 1.

The internal difference is that without that import, / is mapped to the __div__() method, while with it, __truediv__() is used. (In any case, // calls __floordiv__().)

A propos print: print becomes a function in 3.x, losing its special property as a keyword. So it is the other way round.

>>> print

>>> from __future__ import print_function
>>> print
<built-in function print>
>>>
  • 94
    don't forget from __future__ import braces :p – MatToufoutu Aug 16 '11 at 8:22
  • 5
    @zoogleflatt If you are more of a tab guy, you don't know PEP 8. It is strongly recommended to not use tabs... – glglgl Mar 3 '15 at 19:29
  • 4
    @glglgl Well technically it just says they're preferred. It wasn't entirely clear to me after reading why this is exactly, I'm guessing it's to have indent levels match up exactly to make code neater? – Jpaji Rajnish Mar 6 '15 at 7:03
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    @zoogleflatt It surely has also to do with the fact that most people use 4 spaces for 1 level of indentation, that for compatibility reasons one tab is equivalent to 8 spaces and mixing tabs and spaces is discouraged (resp., AFAIK, even disallowed in Py3) – glglgl Mar 6 '15 at 8:45
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When you do

from __future__ import whatever

You're not actually using an import statement, but a future statement. You're reading the wrong docs, as you're not actually importing that module.

Future statements are special -- they change how your Python module is parsed, which is why they must be at the top of the file. They give new -- or different -- meaning to words or symbols in your file. From the docs:

A future statement is a directive to the compiler that a particular module should be compiled using syntax or semantics that will be available in a specified future release of Python. The future statement is intended to ease migration to future versions of Python that introduce incompatible changes to the language. It allows use of the new features on a per-module basis before the release in which the feature becomes standard.

If you actually want to import the __future__ module, just do

import __future__

and then access it as usual.

  • 2
    Technically, it is also an import statement, as the relevant name is bound to a local variable. from __future__ import print_function both changes the behavior of the print keyword and has a runtime affect equivalent to print_function = __import__("__future__").print_function – ppperry Jul 17 '17 at 1:19

__future__ is a pseudo-module which programmers can use to enable new language features which are not compatible with the current interpreter. For example, the expression 11/4 currently evaluates to 2. If the module in which it is executed had enabled true division by executing:

from __future__ import division

the expression 11/4 would evaluate to 2.75. By importing the __future__ module and evaluating its variables, you can see when a new feature was first added to the language and when it will become the default:

  >>> import __future__
  >>> __future__.division
  _Feature((2, 2, 0, 'alpha', 2), (3, 0, 0, 'alpha', 0), 8192)
  • 1
    So, based on the release version in the variables, if your interpreter is using a later version than indicate, the import __future__ xyz is a no-op? – Ray Apr 15 '16 at 15:15
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    It is somewhat analogous to a polyfill in the browser world – cs01 Dec 2 '16 at 18:37

It can be used to use features which will appear in newer versions while having an older release of Python.

For example

>>> from __future__ import print_function

will allow you to use print as a function:

>>> print('# of entries', len(dictionary), file=sys.stderr)

Or is it like saying "Since this is python v2.7, use that different 'print' function that has also been added to python v2.7, after it was added in python 3. So my 'print' will no longer be statements (eg print "message" ) but functions (eg, print("message", options). That way when my code is run in python 3, 'print' will not break."

In

from __future__ import print_function

print_function is the module containing the new implementation of 'print' as per how it is behaving in python v3.

This has more explanation: http://python3porting.com/noconv.html

  • 2
    I think you meant to say from __future__ import print_function – antimatter May 26 '14 at 6:51
  • @gyeh Maybe this answer is just showing future Python 3 'import' code (for Python 4 future compatibility) :} – user2864740 Dec 2 '15 at 22:20
  • I have updated the code above to say 'print_function' which is correct. – Praym Sep 14 '17 at 11:23

One of the uses which I found to be very useful is the print_function from __future__ module.

In Python 2.7, I wanted chars from different print statements to be printed on same line without spaces.

It can be done using a comma(",") at the end, but it also appends an extra space. The above statement when used as :

from __future__ import print_function
...
print (v_num,end="")
...

This will print the value of v_num from each iteration in a single line without spaces.

There are some great answers already, but none of them address a complete list of what the __future__ statement currently supports.

Put simply, the __future__ statement forces Python interpreters to use newer features of the language.

The features that it currently supports are the following:

nested_scopes:

Prior to Python 2.1, the following code would raise a NameError:

def f():
    ...
    def g(value):
        ...
        return g(value-1) + 1
    ...

The from __future__ import nested_scopes directive will allow for this feature to be enabled.

generators:

Introduced generator functions such as the one below to save state between successive function calls:

def fib():
    a, b = 0, 1
    while 1:
       yield b
       a, b = b, a+b

division:

Classic division is used in Python 2.x versions. Meaning that some division statements return a reasonable approximation of division ("true division") and others return the floor ("floor division"). Starting in Python 3.0, true division is specified by x/y, whereas floor division is specified by x//y.

The from __future__ import division directive forces the use of Python 3.0 style division.

absolute_import:

Allows for parenthesis to enclose multiple import statements. For example:

from Tkinter import (Tk, Frame, Button, Entry, Canvas, Text,
    LEFT, DISABLED, NORMAL, RIDGE, END)

Instead of:

from Tkinter import Tk, Frame, Button, Entry, Canvas, Text, \
    LEFT, DISABLED, NORMAL, RIDGE, END

Or:

from Tkinter import Tk, Frame, Button, Entry, Canvas, Text
from Tkinter import LEFT, DISABLED, NORMAL, RIDGE, END

with_statement:

Adds the statement "with" as a keyword in Python to eliminate the need for try/finally statements. Common uses of this are when doing file I/O such as:

with open('workfile', 'r') as f:
     read_data = f.read()

print_function:

Forces the use of Python 3 parenthesis-style print function call instead of the print MESSAGE style print statement.

unicode_literals:

Introduces the literal syntax for the bytes object. Meaning that statements such as bytes('Hello world', 'ascii') can be simply expressed as b'Hello world'.

generator_stop:

Replaces the use of the StopIteration exception used inside generator functions with the RuntimeError exception.

One other use not mentioned above is that the __future__ statement also forces the use of Python 2.1+ interpreters since using an older version will throw a runtime exception.

References:

After Python 3.0 onward, print is no longer just a statement, its a function instead. and is included in PEP 3105.

Also I think the Python 3.0 package has still these special functionality. Lets see its usability through a traditional "Pyramid program" in Python:

from __future__ import print_function

class Star(object):
    def __init__(self,count):
        self.count = count

    def start(self):
        for i in range(1,self.count):
            for j in range (i): 
                print('*', end='') # PEP 3105: print As a Function 
            print()

a = Star(5)
a.start()

Output:
*
**
***
****

If we use normal print function, we won't be able to achieve the same output, since print() comes with a extra newline. So every time the inner for loop execute, it will print * onto the next line.

protected by zero323 Apr 5 '16 at 11:56

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