I want to write a function in Python that returns the multiplication of n functions (f1(x) * f2(x) * f3(x) * ... * fn(x)).

I was thinking in something like:

def mult_func(*args):
    return lambda x: args(0)(x) * args(1)(x) ...

but I don't know exactly how to loop through the n functions in args.

Thank you.

  • 4
    for func in args: prod *= func(x)? – Veedrac May 13 '15 at 1:35

Its very simple - just use reduce:

from operator import mul    

def mult_func(*args):
    return lambda x: reduce(mul, (n(x) for n in args), 1)

That's just a generator expression looping through the functions, and reducing by multiplication.

  • 4
    Use operator.mul instead; there's no guarantee the functions return integers. – chepner May 13 '15 at 1:39
  • @chepner ah, good point, thanks. – Maltysen May 13 '15 at 1:53
  • operator.mul is far more efficient than the equivalent lambda expression; cases like this are why the operator modules exposes the operators as functions. – chepner May 13 '15 at 1:58

args is just a tuple, but it will be difficult to iterate over them the way you need to in a lambda expression (unless you use reduce). Define a nested function instead.

def mult_func(*args):
    def _(x):
        rv = 1
        for func in args:
            rv *= func(x)
        return rv
    return _
  • Is making a nested function really necessary? Wouldn't it be easier to just keep a running total in a variable while iterating over args? – David Greydanus May 13 '15 at 1:51
  • 2
    Based on the OP's attempts, I thought he was looking for a function that would create a function that computes the product, rather than immediately computing a product for a particular value of x. (f = mult_func(f1, f2, f3); f(3) == f1(3) * f2(3) * f3(3)) – chepner May 13 '15 at 1:54
def mult_func(x, *args):
    total = 1
    for func in args:
        total *= func(x)
    return total

Very simply returns the product of all args with input of x.

Quick example:

def square(n):
    return n**2

>>> print mult_func(2, square, square) 
>>> print mult_func(2, square, square, square)

It's that time of night, so here's a mutually recursive solution:

def multiply_funcs(funcs):
    def inner(x):
        if not funcs:
             return 1
        return funcs[0](x) * multiply_funcs(funcs[1:])(x)
    return inner
  • 1
    Shouldn't it return 1 and not x if funcs is empty...since 1 is the identity of multiplication? – Shashank May 13 '15 at 3:30
  • Also you should use the asterisk syntax since its more flexible. This can be done by replacing funcs with *funcs in the parameter list and replacing (funcs[1:]) with (*funcs[1:]). – Shashank May 13 '15 at 3:33
  • Otherwise, nice solution...but go to bed :) – Shashank May 13 '15 at 3:34
  • I corrected the base case as you were certainly correct, but I disagree that star unpacking is more 'flexible' in this case. It's really just syntactic sugar -- that's to say, i don't get what it buys you since at invocation time, you have to have hardcoded references to functions or unpack a reference to a list of functions. – jwilner May 13 '15 at 3:34
  • Well I guess by flexible I mean more Pythonic, since multiply_funcs(f, g, h) is highly preferable over multiply_funcs((f, g, h)). Of course if you're passing in iterables of functions, you have to add in an extra asterisk to unpack but...come on. I'd rather throw a couple asterisks in my code than have to make lists/tuples just because the function expects them. – Shashank May 13 '15 at 3:40

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