I开发者_如何学JAVA'm trying to write a function in python that is like:
def repeated(f, n):
...
where f
is a function that takes one argument and n
is a positive integer.
For example if I defined square as:
def square(x):
return x * x
and I called
repeated(square, 2)(3)
this would square 3, 2 times.
That should do it:
def repeated(f, n):
def rfun(p):
return reduce(lambda x, _: f(x), xrange(n), p)
return rfun
def square(x):
print "square(%d)" % x
return x * x
print repeated(square, 5)(3)
output:
square(3)
square(9)
square(81)
square(6561)
square(43046721)
1853020188851841
or lambda
-less?
def repeated(f, n):
def rfun(p):
acc = p
for _ in xrange(n):
acc = f(acc)
return acc
return rfun
Using reduce
and lamba.
Build a tuple starting with your parameter, followed by all functions you want to call:
>>> path = "/a/b/c/d/e/f"
>>> reduce(lambda val,func: func(val), (path,) + (os.path.dirname,) * 3)
"/a/b/c"
Something like this?
def repeat(f, n):
if n==0:
return (lambda x: x)
return (lambda x: f (repeat(f, n-1)(x)))
Use an itertools recipe called repeatfunc
that performs this operation.
Given
def square(x):
"""Return the square of a value."""
return x * x
Code
From itertools recipes:
def repeatfunc(func, times=None, *args):
"""Repeat calls to func with specified arguments.
Example: repeatfunc(random.random)
"""
if times is None:
return starmap(func, repeat(args))
return starmap(func, repeat(args, times))
Demo
Optional: You can use a third-party library, more_itertools
, that conveniently implements these recipes:
import more_itertools as mit
list(mit.repeatfunc(square, 2, 3))
# [9, 9]
Install via > pip install more_itertools
Using reduce and itertools.repeat (as Marcin suggested):
from itertools import repeat
from functools import reduce # necessary for python3
def repeated(func, n):
def apply(x, f):
return f(x)
def ret(x):
return reduce(apply, repeat(func, n), x)
return ret
You can use it as follows:
>>> repeated(os.path.dirname, 3)('/a/b/c/d/e/f')
'/a/b/c'
>>> repeated(square, 5)(3)
1853020188851841
(after importing os
or defining square
respectively)
I think you want function composition:
def compose(f, x, n):
if n == 0:
return x
return compose(f, f(x), n - 1)
def square(x):
return pow(x, 2)
y = compose(square, 3, 2)
print y
Here's a recipe using reduce
:
def power(f, p, myapply = lambda init, g:g(init)):
ff = (f,)*p # tuple of length p containing only f in each slot
return lambda x:reduce(myapply, ff, x)
def square(x):
return x * x
power(square, 2)(3)
#=> 81
I call this power
, because this is literally what the power function does, with composition replacing multiplication.
(f,)*p
creates a tuple of length p
filled with f
in every index. If you wanted to get fancy, you would use a generator to generate such a sequence (see itertools
) - but note it would have to be created inside the lambda.
myapply
is defined in the parameter list so that it is only created once.
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