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So I was playing around with currying functions in Python and one of the things that I noticed was that functools.partial returns a partial object rather than an actual function. One of the things that annoyed me about this was that if I did something along the lines of:

five = partial(len, 'hello')
five('something')

then we get

TypeError: len() takes exactly 1 argument (2 given)

but what I want to happen is

TypeError: five() takes no arguments (1 given)

Is there a clean way to make it work like this? I wrote a workaround, but it's too hacky for my taste (doesn't work yet for functions with varargs):

def mypartial(f, *args):
  argcount = f.func_code.co_argcount - len(args)
  params = ''.join('a' + str(i) + ',' for i in xrange(argcount))
  code = '''
def func(f, args):
  def %s(%s):
    return f(*(args+(%s)))
  return %s
  ''' % (f.func_name, params, params, f.func_name)

  exec code in locals()
  return func(f, args)

Edit: I think it might be helpful if I added more context. I'm writing a decorator that will automatically curry a function like so:

@curry
def add(a, b, c):
  return a + b + c

f = add(1, 2) # f is a function
assert f(5) == 8

I want to hide the fact that f was created from a partial (maybe a bad idea :P). The message that the TypeError message above gives is one example of where whether something is a partial can be revealed. I want to change that.

This needs to be generalizable so EnricoGiampieri's and mgilson's suggestions only work in that specific case.

share|improve this question
1  
Is there anything wrong with lambda : len('hello')? I'm always a little hazy on what functools.partial does above and beyond lambda ... –  mgilson Nov 20 '12 at 23:04
    
@mgilson: Well, it makes the error messages even worse. Instead of TypeError: len() takes exactly 1 argument (2 given) you'll get TypeError: <lambda>() takes 0 positional arguments but 1 was given. –  abarnert Nov 20 '12 at 23:09
    
@mgilson: what happens if you have two functions, which take a different number of params each. A lambda needs to know exactly how many args it's going to take beforehand… unless of course, you wrap the args in a tuple and unpack them in the lambda –  inspectorG4dget Nov 20 '12 at 23:09
    
@mgilson: See if my edit above answers that –  epsilon Nov 20 '12 at 23:11
    
@abarnert -- Isn't that almost what OP said was desired? "But what I want to happen is: TypeError: five() takes no arguments (1 given)"? –  mgilson Nov 20 '12 at 23:12

2 Answers 2

up vote 4 down vote accepted

You definitely don't want to do this with exec.

You can find recipes for partial in pure Python, such as this one—many of them are mislabeled as curry recipes, so look for that as well. At any rate, these will show you the proper way to do it without exec, and you can just pick one and modify it to do what you want.

Or you could just wrap partial

However, whatever you do, there's no way the wrapper can know that it's defining a function named "five"; that's just the name of the variable you store the function in. So if you want a custom name, you'll have to pass it in to the function:

five = my_partial('five', len, 'hello')

At that point, you have to wonder why this is any better than just defining a new function.

However, I don't think this is what you actually want anyway. Your ultimate goal is to define a @curry decorator that creates a curried version of the decorated function, with the same name (and docstring, arg list, etc.) as the decorated function. The whole idea of replacing the name of the intermediate partial is a red herring; use functools.wraps properly inside your curry function, and it won't matter how you define the curried function, it'll preserve the name of the original.

In some cases, functools.wraps doesn't work. And in fact, this may be one of those times—you need to modify the arg list, for example, so curry(len) can take either 0 or 1 parameter instead of requiring 1 parameter, right? See update_wrapper, and the (very simple) source code for wraps and update_wrapper to see how the basics work, and build from there.

Expanding on the previous: To curry a function, you pretty much have to return something that takes (*args) or (*args, **kw) and parse the args explicitly, and possibly raise TypeError and other appropriate exceptions explicitly. Why? Well, if foo takes 3 params, curry(foo) takes 0, 1, 2, or 3 params, and if given 0-2 params it returns a function that takes 0 through n-1 params.

The reason you might want **kw is that it allows callers to specify params by name—although then it gets much more complicated to check when you're done accumulating arguments, and arguably this is an odd thing to do with currying—it may be better to first bind the named params with partial, then curry the result and pass in all remaining params in curried style…

If foo has default-value or keyword args, it gets even more complicated, but even without those problems, you already need to deal with this problem.

For example, let's say you implement curry as a class that holds the function and all already-curried parameters as instance members. Then you'll have something like this:

def __call__(self, *args):
    if len(args) + len(self.curried_args) > self.fn.func_code.co_argcount:
        raise TypeError('%s() takes exactly %d arguments (%d given)' %
                        (self.fn.func_name, self.fn.func_code.co_argcount,
                         len(args) + len(self.curried_args)))
    self.curried_args += args
    if len(self.curried_args) == self.fn.func_code.co_argcount:
        return self.fn(*self.curried_args)
    else:
        return self

This is horribly oversimplified, but it shows how to handle the basics.

share|improve this answer
    
The reason I'm using exec is because I need to define a function that takes exactly X arguments, but I won't know what X is until runtime. (Okay, that's not exactly true. I could just pass the number of arguments as a parameter to my curry decorator (see edit), but I want to avoid that) –  epsilon Nov 20 '12 at 23:18
    
@epsilon: You can find that through inspection, or… really, look at the code in the existing functools stuff (hg.python.org/cpython/file/2.7/Lib/functools.py for 2.7), and some of those PyPI modules and AS recipes for some ideas of what's possible, and what's a reasonable way to do what's possible. –  abarnert Nov 20 '12 at 23:19
    
I'm able to find the value just fine via func.func_code.co_argcount, but it's creating the function with that number of parameters which is problematic. I'll check out some of those recipes, thanks. –  epsilon Nov 20 '12 at 23:22
    
@epsilon: You pretty much have to define a function that just takes (*args, **kw), because, even if foo has a fixed argument count, curry(foo) can take anywhere from 0 to foo.func_code.co_argcount args, and curry(foo)(x) can take anywhere from 0 to that-1, and so on. –  abarnert Nov 20 '12 at 23:27
    
that's a pretty good point, though it might be reasonable to still do something if there are too many arguments given. –  epsilon Nov 20 '12 at 23:30

My guess is that the partial function just delay the execution of the function, do not create a whole new function out of it.

My guess is that is just easier to define directly a new function in place:

def five(): return len('hello')

This is a very simple line, won't clutter your code and is quite clear, so i wouldn't bother writing a function to replace it, especially if you don't need this situation in a large number of cases

share|improve this answer
    
See my latest edit –  epsilon Nov 20 '12 at 23:12
    
Well, I'm not an expert on functional programming, but I think that the idea behind the curry operation is to maintain the identity of the original function, so it is a little odd to hide it...but I will see what I can came up with :) –  EnricoGiampieri Nov 20 '12 at 23:18
    
On a second thought, what you ask cannot be obtained with a nice sintax, as you first create the curryied function and then assign it to a name. You can get around that, but will be a hack...my suggestion is to stick to the definition of a new function, sorry –  EnricoGiampieri Nov 20 '12 at 23:26

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