# How to construct such a functional-programming tool in Python?

I want a function named `times()`, in order to make:

`times(func,2)` equivalent to `lambda x:func(func(x))`

and `times(func,5)` equivalent to `lambda x:func(func(func(func(func(x)))))`

Is there such a tool in Python? What would the code looks like if I want to write it by myself?

Thanks!

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I'd suggest to call this `power()`, since this is actually the `n`th power of a function. There is no such thing in the standard library, but you can easily implement it yourself:

``````def power(f, n):
def wrapped(x):
for i in range(n):
x = f(x)
return x
return wrapped
``````
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Thanks, Sven. The `wrapped` function looks magic. –  hanfeisun Jul 20 '12 at 23:52
I would give this +100 if I could. So elegant! –  inspectorG4dget Jul 20 '12 at 23:58
I'm just wondering whether there's a recursive instead of iterative way to do this.. –  hanfeisun Jul 21 '12 at 0:03

Thanks, Sven

I found a recursive way to do that, but yours looks more pythonic:

``````def power(func, n):
def lazy(x, i=n):
return func(lazy(x, i-1)) if i > 0 else x
return lazy

>>> power(lambda x:x*2,3)(9)
72
>>> power(lambda x:x*2,2)(9)
36
>>> power(lambda x:x*2,1)(9)
18
>>> power(lambda x:x*2,0)(9)
9
``````

And a way implemented with decorator:

``````def powerize(n):
def wrapped(func):
def newfunc(*args):
return power(func,n)(*args)
return newfunc
return wrapped

@powerize(3)
def double_3(x):
return x*2

>>> double_3(8)
64
``````
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