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Simple example. Two methods, one called from another:

def method_a(arg):
    some_data = method_b(arg)

def method_b(arg):
    return some_data

In python we can declare def inside another def. So, if method_b required and called only from method_a, should i declare method_b inside method_a? like this :

def method_a(arg):

    def method_b(arg):
        return some_data

    some_data = method_b

Or i should avoid of doing this?

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You shouldn't need to define a function inside another unless you're doing something REALLY funky. However, please elaborate on what you're trying to do, so we can provide a more helpful answer –  inspectorG4dget Jan 28 '11 at 18:29
Do you realize that the second example is different, because you don't call method_b? (@inspector: You do need to, strictly speaking, but it's immensely useful when you get into a bit of functional programming, in particular closures). –  delnan Jan 28 '11 at 18:56
@delnan: I think you meant "You don't need to, strictly speaking, but..." –  martineau Jan 29 '11 at 11:54
@martineau: Yes, thanks for spotting. –  delnan Jan 29 '11 at 12:10
As @delnan mentioned, this is common in the case of closures, so I don't think it qualifies as funky; however, unless closures are necessary (which I'm guessing they are not in this case), putting one function inside another doesn't seem necessary, efficient, or tidy. Unless you need closures, I would stick with the first pattern. –  threed Dec 3 '13 at 22:33

9 Answers 9

>>> def sum(x, y):
...     def do_it():
...             return x + y
...     return do_it
>>> a = sum(1, 3)
>>> a
<function do_it at 0xb772b304>
>>> a()

Is this what you were looking for? It's called a closure.

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This is a lot better explanation. I have deleted my answer –  pyfunc Jan 28 '11 at 18:31
why not just do def sum(x,y): return x+y? –  mango Jun 3 '14 at 18:53
@mango: This is just a toy example to convey the concept -- in actual use what do_it() does would presumably be a bit more complicated than what can be handled by some arithmetic in a single return statement. –  martineau Sep 2 '14 at 13:07
@mango Answered your question with a slightly more useful example. –  CivFan Nov 21 '14 at 21:27
It doesn't answer the question. –  user230137 Jun 30 at 12:45

You don't really gain much by doing this, in fact it slows method_a down because it'll define and recompile the other function every time it's called. Given that, it would probably be better to just prefix the function name with underscore to indicate it's a private method -- i.e. _method_b.

I suppose you might want to do this if the nested function's definition varied each time for some reason, but usually wanting/needing to do that indicates a flaw in with your design.


Here's proof that nesting them is slower (although admittedly not by much in this trivial case):

setup = """
class Test(object):
    def method_a(self, arg):
        some_data = self._method_b(arg)

    def _method_b(self, arg):
        return arg+1

    def method_a2(self, arg):

        def method_b2(self, arg):
            return arg+1

        some_data = method_b2(self, arg)

obj = Test()
from timeit import Timer
print min( Timer(stmt='obj.method_a(42)', setup=setup).repeat() )
# 3.38591832202
print min( Timer(stmt='obj.method_a2(42)', setup=setup).repeat() )
# 3.80330852106

Note I added some self arguments to your sample functions to make them more like real methods (although method_b2 still isn't, technically, a method of the Test class). Also the nested function is actually called in that version, unlike yours.

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It doesn't actually fully compile the inner function every time the outer function is called, although it does have to create a function object, which does take a little time. On the other hand, the function name becomes local rather global one, so it's faster to call the function. In my trials, time-wise it's basically a wash most of the time; it may even be faster with the inner function if you call it many times. –  kindall Jan 28 '11 at 21:23
@kindall: It doesn't appear that it's faster to use a nested function -- see test code in my updated answer -- so at least in this case what you said doesn't appear to true. –  martineau Jan 29 '11 at 0:19
Yeah, you'll need multiple calls to the inner function. If you're calling it in a loop, or just more than a handful of times, the benefit of having a local name for the function will begin to outweigh the cost of creating the function. In my trials, this happens when you call the inner function about 3-4 times. Of course, you could get the same benefit (without nearly as much cost) by defining a local name for the function, e.g. method_b = self._method_b and then call method_b to avoid the repeated attribute lookups. (It happens that I have been doing a LOT of timing of stuff lately. :) –  kindall Jan 29 '11 at 1:00
@kindall: Yep, that's true. I modified my timing test so it made 30 calls to the secondary function and the results turned around. I'll be deleting my answer after you've had a chance to see this reply. Thanks for the enlightenment. –  martineau Jan 29 '11 at 13:17
No, don't delete it; I think there is good info here. I just discovered that if you're using a decorator on the inner function, the decorator gets called every time you call the outer function. Now THAT could affect your timing! –  kindall Jan 29 '11 at 17:11

It's actually fine to declare one function inside another one. This is specially useful creating decorators.

However, as a rule of thumb, if the function is complex (more than 10 lines) it might be a better idea to declare it on the module level.

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It's possible, but I agree, you need a good reason for doing it. It would be more python to use a preceding underscore for a function that was intended to be only used within your class. –  chmullig Jan 28 '11 at 18:56
Within a class, yes, but what about only within a function? Encapsulation is hierarchical. –  Paul Draper Apr 13 '13 at 1:39

A function inside of a function is commonly used for closures.

(There is a lot of contention over what exactly makes a closure a closure.)

Here's an example using the built-in sum(). It defines start once and uses it from then on:

def sum_partial(start):
    def sum_start(iterable):
        return sum(iterable, start)
    return sum_start

In use:

>>> sum_with_1 = sum_partial(1)
>>> sum_with_3 = sum_partial(3)
>>> sum_with_1
<function sum_start at 0x7f3726e70b90>
>>> sum_with_3
<function sum_start at 0x7f3726e70c08>
>>> sum_with_1((1,2,3))
>>> sum_with_3((1,2,3))

Built-in python closure

functools.partial is an example of a closure.

From the python docs, it's roughly equivalent to:

def partial(func, *args, **keywords):
    def newfunc(*fargs, **fkeywords):
        newkeywords = keywords.copy()
        return func(*(args + fargs), **newkeywords)
    newfunc.func = func
    newfunc.args = args
    newfunc.keywords = keywords
    return newfunc

(Kudos to @user225312 below for the answer. I find this example easier to figure out, and hopefully will help answer @mango's comment.)

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I found this question because I wanted to pose a question why there is a performance impact if one uses nested functions. I ran tests for the following functions using Python 3.2.5 on a Windows Notebook with a Quad Core 2.5 GHz Intel i5-2530M processor

def square0(x):
    return x*x

def square1(x):
    def dummy(y):
        return y*y
    return x*x

def square2(x):
    def dummy1(y):
        return y*y
    def dummy2(y):
        return y*y
    return x*x

def square5(x):
    def dummy1(y):
        return y*y
    def dummy2(y):
        return y*y
    def dummy3(y):
        return y*y
    def dummy4(y):
        return y*y
    def dummy5(y):
        return y*y
    return x*x

I measured the following 20 times, also for square1, square2, and square5:

for i in range(10**6):

and got the following results

m = mean, s = standard deviation, m0 = mean of first testcase
[m-3s,m+3s] is a 0.997 confidence interval if normal distributed

square? m     s       m/m0  [m-3s ,m+3s ]
square0 0.387 0.01515 1.000 [0.342,0.433]
square1 0.460 0.01422 1.188 [0.417,0.503]
square2 0.552 0.01803 1.425 [0.498,0.606]
square5 0.766 0.01654 1.979 [0.717,0.816]

square0 has no nested function, square1 has one nested function, square2 has two nested functions and square5 has five nested functions. The nested functions are only declared but not called.

So if you have defined 5 nested funtions in a function that you don't call then the execution time of the function is twice of the function without a nested function. I think should be cautious when using nested functions.

The Python file for the whole test that generates this output can be found at ideone.

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The comparison you do is not really useful. It's like adding dummy statements into the function and saying it's slower. Example of martineau actually uses the encapsulated functions and I don't notice any performance difference by running his example. –  kon psych Feb 19 at 0:24

It's just a principle about exposure APIs.

Using python, It's a good idea to avoid exposure API in outer space(module or class), function is a good encapsulation place.

It could be a good idea. when you ensure

  1. inner function is ONLY used by outer function.
  2. insider function has a good name to explain its purpose because the code talks.
  3. code cannot directly understand by your colleagues(or other code-reader).

Even though, Abuse this technique may cause problems and implies a design flaw.

Just from my exp, Maybe misunderstand your question.

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It's perfectly OK doing it that way, but unless you need to use a closure or return the function I'd probably put in the module level. I imagine in the second code example you mean:

some_data = method_b() # not some_data = method_b

otherwise, some_data will be the function.

Having it at the module level will allow other functions to use method_b() and if you're using something like Sphinx (and autodoc) for documentation, it will allow you to document method_b as well.

You also may want to consider just putting the functionality in two methods in a class if you're doing something that can be representable by an object. This contains logic well too if that's all you're looking for.

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You really shouldn't define a function within a defined function. You can call a function within a function, but don't define one within another one unless you really have too. Do something like:

def some_function():
def some_other_function():
    return 42 

if you were to run some_function() it would then run some_other_function() and returns 42.

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I appreciate the effort those above you have put in to their answers, but yours was direct and to the point. Nice. –  C0NFUS3D Jul 5 at 5:13

mdlp's answer didn't work for me.

This did:

def some_function():
    return some_other_function()
def some_other_function():
    return 42

print some_function()
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