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up vote 2 down vote favorite

I want to call some functions to a single value and return the collective result.

class Foo:
    def __init__(self, i):
        self.i = i

    def get(self):
        return self.fn1(self.fn2(self.i)) #200

    def fn1(self, i):
        return i + i #10+10 = 20

    def fn2(self, i):
        return i * i #20*20 = 200

    #...

foo = Foo(10)
print(foo.get())

Is there a more elegant way or pattern?

share|improve this question
Not really. What's wrong with this? – S.Lott Feb 12 '12 at 17:13
@S.Lott, Just not nice, especially if you add a few more methods like: self.fn1(self.fn2(self.fn3(self.i))) – tomas Feb 12 '12 at 17:17
I'm thinking of using a metaclass... but that's probably too "crazy" for such a simple thing. – BlaXpirit Feb 12 '12 at 17:35
I don't really see what the class wrapper is accomplishing here. – Karl Knechtel Feb 12 '12 at 18:26

4 Answers

up vote 2 down vote accepted

In general, nesting functions as you do above is the most straightforward and readable way to compose functions in Python.

If you're composing many functions, it might be worth writing a compose function. 

def compose(*funcs):
    if len(funcs) == 1:
        return funcs[0]
    else:
        def composition(*args, **kwargs):
            return funcs[0](compose(*funcs[1:])(*args, **kwargs))
        return composition

Or, if you prefer an iterative over a recursive solution: 

def compose_pair(f1, f2):
    def composition(*args, **kwargs):
        return f1(f2(*args, **kwargs))
    return composition

def compose_iterative(*funcs):
    iterfuncs = iter(funcs)
    comp = next(iterfuncs)
    for f in iterfuncs:
        comp = compose_pair(comp, f)
    return comp
share|improve this answer
You're absolutely right, I meant a composition with a variable number of arguments – tomas Feb 12 '12 at 18:10
up vote 3 down vote

Here is my try to improve this a little bit.

def fn1(i):
    return i + i #10+10 = 20

def fn2(i):
    return i * i #20*20 = 200

def get(i):
    funcs = [fn2, fn1]
    for f in funcs:
        i = f(i)
    return i

print(get(10))
share|improve this answer
Yes, it's the first thing that occurred to me as well. Not sure, but may be easier with decorators? – tomas Feb 12 '12 at 17:24
1  
@tomas: Definitely not easier. I can't think of a way to use decorators nicely. – BlaXpirit Feb 12 '12 at 17:29
up vote 2 down vote

Personally, two of my favorite python functions are map and reduce.

def get(i):
    return reduce(lambda acc, f: f(acc), [i,fn2,fn1] )

def fn1(i):
    return i + i #10+10 = 20

def fn2(i):
    return i * i #20*20 = 200

print( get(10) ) # 200
share|improve this answer
up vote 1 down vote

You could use a decorator-style solution:

class Base()

    def __init__(self, decorated):
       self.decorates = decorated

    def foo(self, arg):
        if self.decorates:
            arg = self.decorates.foo( arg )

        return self._do_foo( arg )

    def _do_foo(self, arg):
       return arg

Your implementations will inherit from Base and implement _do_foo(). You set it up like this:

a = Subclass(None)
b = AnotherSublcass( a )
c = YetAnotherSubclass( b )

all of the Sublcasses inherit from Base. when you call c.foo( arg ), you'll get the result passed through all three _do_foo() methods.

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