True evaluates to 1 and False evaluates to 0.
>>> True is 1
>>> True == 1
I know an answer has been accepted but to want to add a better answer to the question than my original.
First point bool is a subclass of int. As stated in PEP-285:
6) Should bool inherit from int?
In an ideal world, bool might be better implemented as a separate
integer type that knows how to perform mixed-mode arithmetic.
However, inheriting bool from int eases the implementation enormously
(in part since all C code that calls PyInt_Check() will continue to
work -- this returns true for subclasses of int). Also, I believe
this is right in terms of substitutability: code that requires an int
can be fed a bool and it will behave the same as 0 or 1. Code that
requires a bool may not work when it is given an int; for example, 3 &
4 is 0, but both 3 and 4 are true when considered as truth values.
Following on, this isn't of any much practical use and there are other answers with
sudo examples of using bools. I thought it would be good to have some real examples:
print "\n".join([["",f,b,f+b][(x%3==0) + 2*(x%5==0)] or str(x) for x in range(1,101)])
The section in question:
["",f,b,f+b][(x%3==0) + 2*(x%5==0)]
The selection of the return each line is based on two boolean expressions, if both are true we get
(True) + 2*(True) which evaluates to 4 which is a fizzbuzz. Not too hard to understand once you get used to the idea that
True == 1 and
False == 0
Further more keeping with the theme:
print '\n'.join(['Fizz'*(not i%3) + 'Buzz'*(not i%5) or str(i) for i in range(1, 101)])
This example relies on what happens when you multiply strings in python:
>>> "Noelkd" * False
And that not True evaluates to 0:
>>> not True == 0
The only real uses for this are to make hard to read code or when competing in code golf competitions, fun though.