Flipping a function's argument order in Python

Nowadays, I am starting to learn haskell, and while I do it, I try to implement some of the ideas I have learned from it in Python. But, I found this one challenging. You can write a function in Haskell, that takes another function as argument, and returns the same function with it's arguments' order flipped. Can one do similiar thing in Python? For example,

``````def divide(a,b):
return a / b

new_divide = flip(divide)

# new_divide is now a function that returns second argument divided by first argument
``````

Can you possibly do this in Python?

• I think you could use *args and then reverse() that argument list... or something like that. – Jonathon Reinhart Mar 24 '12 at 8:38

You can create a closure in Python using nested function definitions. This lets you create a new function that reverses the argument order and then calls the original function:

``````>>> from functools import wraps
>>> def flip(func):
'Create a new function from the original with the arguments reversed'
@wraps(func)
def newfunc(*args):
return func(*args[::-1])
return newfunc

>>> def divide(a, b):
return a / b

>>> new_divide = flip(divide)
>>> new_divide(30.0, 10.0)
0.3333333333333333
``````
• @thg435 Only at the point of definition of `flip`. That kind of verbosity is good verbosity IMHO, because it makes it obvious what's going on inside flip. – Ben Mar 26 '12 at 2:05
• Why is this not present in functools anyway? – user1747134 Apr 7 '17 at 11:35

In a pure functional style:

``````flip = lambda f: lambda *a: f(*reversed(a))

def divide(a, b):
return a / b

print flip(divide)(3.0, 1.0)
``````

A bit more interesting example:

``````unreplace = lambda s: flip(s.replace)

replacements = ['abc', 'XYZ']
a = 'abc123'
b = a.replace(*replacements)
print b
print unreplace(b)(*replacements) # or just flip(b.replace)(*replacements)
``````
• Lambda inside lambda, that is awesome. Could you explain more about what is going on in '*a' and '*reversed(a)', how this * works? – dasilvadaniel Dec 1 '19 at 23:50