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:

```
s=0
for i in range(10**6):
s+=square0(i)
```

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.

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 18:56don'tneed to, strictly speaking, but..." – martineau Jan 29 '11 at 11:54