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Consider the following:

class objectTest():

    def __init__(self,a):

        self.value = a

    def get_value(self):

        return self.value


class execute():

    def __init__(self):

        a = objectTest(1)
        b = objectTest(1)

        print(a == b)
        print(a.get_value() == b.get_value)
        print(a.get_value() == b.get_value())
        print(a.get_value == b.get_value)


if __name__ == '__main__':

    execute = execute();

This code return

>>>
False
False
True 
False

Given that get_value is a function, I would expect the execution to stop and return an error, but it doesn't. Can somebody explain why the python interpreter allow this kind of syntax instead of raising an attribute error, which in my case would have saved me precious time.

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Try to stick to PEP 8 conventions with your variable/class/method naming. The above made my brain do flips for a couple seconds until I realized some of your things that were named like functions were in fact classes. –  roippi Feb 14 '14 at 17:43
    
All right.. I'll do that next time. Thanks –  user3311142 Feb 14 '14 at 17:50

4 Answers 4

up vote 2 down vote accepted

As mentioned, functions and methods are first-class objects. You call them by throwing some parentheses (brackets) on the end. But it looks like you want some more motivation for why python even lets us do that. Why should we care if functions are first-class or not?

Sometimes you don't want to call them, you want to pass a reference to the callable itself.

from multiprocessing import Process
t = Process(target=my_long_running_function)

If you put brackets after the above, it runs your my_long_running_function in your main thread; hardly what you wanted! You wanted to give Process a reference to your callable that it will run itself in a new process.

Sometimes you just want to specify the callable and let something else...

def do_something(s):
    return s[::-1].upper()

map(do_something,['hey','what up','yo'])
Out[3]: ['YEH', 'PU TAHW', 'OY']

(map in this case) fill in its arguments.

Maybe you just want to drop a bunch of callables into some collection, and fetch the one you want in a dynamic manner.

from operator import *

str_ops = {'<':lt,'>':gt,'==':eq} # etc
op = str_ops.get(my_operator)
if op:
    result = op(lhs,rhs)

The above is one way to map string representations of operators onto their actual action.

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Functions and methods in Python are also objects themselves. Thus you can compare them just as you would any other object.

>>> type(a.get_value)
<type 'instancemethod'>
>>> type(a.get_value())
<type 'int'>

Normally of course you wouldn't compare methods to each other or anything else, because it's not terribly useful. One place it's useful is when you want to pass a function into another function.

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1  
To briefly expand on Mark's comment, you aren't actually calling the method when you enter a.get_value without the parens at the end. You're just referencing the object associated with the method. –  Behram Mistree Feb 14 '14 at 17:41
    
Give some examples of how to use this\ why this is desirable and get a +1 –  M4rtini Feb 14 '14 at 17:43
    
Examples would be welcome, indeed. –  user3311142 Feb 14 '14 at 17:51
print(a.get_value() == b.get_value)   # 1
print(a.get_value() == b.get_value()) # 2
print(a.get_value == b.get_value)     # 3

1) Is return value of calling a.get_value() equal to the method b.get_value ?

2) Does a.get_value() return the same as b.get_value() ?

3) Is the method-reference a.get_value equal to the method-reference b.get_value ?

This is perfectly valid Python :)

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def mul(a, b):
    return a * b

def add(a, b):
    return a + b

def do(op, a, b):
    return op(a, b)

do(add, 2, 3)  # return 5
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