I prefer using nested functions instead of methods or global functions in Python whenever possible. So I decided to test their performance because it seams that when you define a function in another function there will be an overhead for the definition of the inner function in each call of the outer function.

At best I was hoping for the global function to be just slightly faster, but surprisingly the nested function was faster. Does anyone have any idea why?

This is my code:

```
from time import clock
def a(n):
return n + 1
def b1(loopcount):
return sum([a(n) for n in range(loopcount)])
def b2(loopcount):
def a(n):
return n + 1
return sum([a(n) for n in range(loopcount)])
powers = [5, 6, 7]
b1times = []
b2times = []
print " ", "".join(["{:^10d}".format(n) for n in powers])
for i in range(5):
for power in powers:
t = clock()
b1(10**power)
b1times.append(clock() - t)
for power in powers:
t = clock()
b2(10**power)
b2times.append(clock() - t)
print "b1:", "".join(["{:^10.5f}".format(n) for n in b1times])
print "b2:", "".join(["{:^10.5f}".format(n) for n in b2times])
print ""
b1times = []
b2times = []
```

And this is the result on my computer:

```
5 6 7
b1: 0.08200 0.82773 8.47946
b2: 0.06914 0.79637 8.18571
b1: 0.07332 0.82139 8.68262
b2: 0.06547 0.82088 8.19606
b1: 0.07963 0.82625 9.65037
b2: 0.06617 0.82027 8.21412
b1: 0.07630 0.82112 8.49082
b2: 0.06541 0.80686 8.20532
b1: 0.12328 0.87034 8.42964
b2: 0.07059 0.79717 8.24620
```

**UPDATE:** using @Janne Karila's comment

Now that I'm calling b1 and b2 more, b1 becomes faster. So as @Kos and @Pavel Anossov said in their answers a few factors affect the speed here and you can't make a general statement.

Thanks everyone!

```
from time import *
def a1(n):
return n + 1
def b1(n):
return a1(n)
def b2(n):
def a2():
return n + 1
return a2()
powers = [4, 5, 6]
b1times = []
b2times = []
print " ", "".join(["{:^10d}".format(n) for n in powers])
for i in range(5):
for power in powers:
t = clock()
sum([b1(n) for n in range(10**power)])
b1times.append(clock() - t)
for power in powers:
t = clock()
sum([b2(n) for n in range(10**power)])
b2times.append(clock() - t)
print "b1:", "".join(["{:^10.5f}".format(n) for n in b1times])
print "b2:", "".join(["{:^10.5f}".format(n) for n in b2times])
print ""
b1times = []
b2times = []
```

`timeit`

module. – Gareth Latty Jan 2 '13 at 12:39`a`

might be misleading somewhere. – Inbar Rose Jan 2 '13 at 12:40