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How can I bind arguments to a Python method to store a nullary functor for later invocation? Similar to C++'s boost::bind.

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6 Answers 6

up vote 40 down vote accepted

functools.partial returns a callable wrapping a function with some or all of the arguments frozen.

import sys
import functools

print_hello = functools.partial(sys.stdout.write, "Hello world\n")

print_hello()
Hello world

The above usage is equivalent to the following lambda.

print_hello = lambda *a, **kw: sys.stdout.write("Hello world\n", *a, **kw)
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for python2.6 at least you can use from future import print_function –  Xavier Combelle Nov 19 '11 at 19:06
1  
+1 for pointing out that lambda can be used as well. –  mic_e Oct 28 '13 at 12:12
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I'm not overly familiar with boost::bind, but the partial function from functools may be a good start:

>>> from functools import partial

>>> def f(a, b):
...     return a+b

>>> p = partial(f, 1, 2)
>>> p()
3

>>> p2 = partial(f, 1)
>>> p2(7)
8
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thanks. marked the top guy since he got it first. –  Dustin Getz Nov 10 '08 at 14:32
    
this is a better example than the accepted answer, because it shows partial binding. –  AShelly Apr 25 at 14:24
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If functools.partial is not available then it can be easily emulated:

>>> make_printer = lambda s: lambda: sys.stdout.write("%s\n" % s)
>>> import sys
>>> print_hello = make_printer("hello")
>>> print_hello()
hello

Or

def partial(func, *args, **kwargs):
    def f(*args_rest, **kwargs_rest):
        kw = kwargs.copy()
        kw.update(kwargs_rest)
        return func(*(args + args_rest), **kw) 
    return f

def f(a, b):
    return a + b

p = partial(f, 1, 2)
print p() # -> 3

p2 = partial(f, 1)
print p2(7) # -> 8

d = dict(a=2, b=3)
p3 = partial(f, **d)
print p3(), p3(a=3), p3() # -> 5 6 5
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This would work, too:

def curry(func, *args):
    def curried(*innerargs):
       return func(*(args+innerargs))
    curried.__name__ = "%s(%s, ...)" % (func.__name__, ", ".join(map(str, args)))
    return curried

>>> w=curry(sys.stdout.write, "Hey there")
>>> w()
Hey there
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why a down-vote here? It does work. –  Claudiu Nov 23 '08 at 1:18
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lambdas allow you to create a new unnamed function with less arguments and call the function!

>>> def foobar(x,y,z):
...     print "%d, %d, %d" % (x,y,z)
>>> foobar(1,2,3) # call normal function

>>> bind = lambda x: foobar(x, 10, 20) # bind 10 and 20 to foobar
>>> bind(1) # print 1, 10, 20

>>> bind = lambda: foobar(1,2,3) # bind all elements  
>>> bind()  # print 1, 2, 3
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Functors can be defined this way in Python. They're callable objects. The "binding" merely sets argument values.

class SomeFunctor( object ):
    def __init__( self, arg1, arg2=None ):
        self.arg1= arg1
        self.arg2= arg2
    def __call___( self, arg1=None, arg2=None ):
        a1= arg1 or self.arg1
        a2= arg2 or self.arg2
        # do something
        return

You can do things like

x= SomeFunctor( 3.456 )
x( arg2=123 )

y= SomeFunctor( 3.456, 123 )
y()
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interesting pattern, lots of boilerplate for trivial functions though. –  Dustin Getz Nov 10 '08 at 15:02
    
You can cut it down to something considerably simpler, depending on your actual use cases. The original question provides no guidance on how the binding occurs. Without specifics, there are too many bases to cover. –  S.Lott Nov 10 '08 at 15:11
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