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This is kindof an experiment. I'm interested in an API that supports both of these syntaxes:

obj.thing

--> returns default value

obj.thing(2, 'a')

--> returns value derived from *args and **kwargs

"thing" is the same object in both cases; I'd like the calling of thing to be optional (or implicit, if there are not () after it).

I tried over-riding __repr__, but that's just the visual representation of the the object itself, and what is actually returned is an instance of the containing object (here, 'obj'). So, no good.

I'm thinking that there would be an attribute set on an object that was a callable (don't care if it's an instance, a def, or just __call__ on the object) that has enough default values:

class CallableDefault(object):
    __call__(self, num=3, letter="z"):
        return letter * num

class DumbObject(object):
    foo = CallableDefault()

obj = DumbObject()

so, ideally, doing obj alone would return "zzz", but one could also do obj(7,'a') and get 'aaaaaaa'.

I'm thinking decorators might be the way to do this, but I'm not great with decorators. One could override the getattr() call on the containing class, but that would mean that it has to be in a containing class that supports this feature.

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What do you want to get if a default value is a callable? –  liori Oct 7 '11 at 21:29
3  
how about you just add () and call it as a normal method? –  JBernardo Oct 7 '11 at 21:35
    
JBernardo, umm, yeah, I know how to do that. It's not my question, obviously. –  Matt Feifarek Oct 7 '11 at 21:41
    
Liori, no special behavior; what is returned is returned. But I agree with the implicit question/observation, this would indeed be messy because it would imply thing()() is actually happening if you called thing(). Though this is an experiment, I would suppose that thing() would still call the call method "normally". –  Matt Feifarek Oct 7 '11 at 21:43
    
But you can't do it the way you want. Either you get the first (with @property) or the later form (with a normal function) –  JBernardo Oct 7 '11 at 21:43

2 Answers 2

up vote 3 down vote accepted

What you describe could work, but notice that now the value of the attribute is constrained to be an object of your CallableDefault class. This probably won't be very useful.

I strongly suggest that you don't try to do this. For one thing, you're spending a lot of time trying to trick Python into doing something it doesn't want to do. For another, the users of your API will be confused because it acts differently than every other Python code they've ever seen. They will be confused.

Write a Python API that works naturally in Python.

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No, I don't think it could work because there's no way to a __getattr__ method knows that he'll call the function later or not. –  JBernardo Oct 7 '11 at 21:39
    
This is right; there's no facility in Python (that I'm aware of) where a callable can "know" what called it, or what will happen later. –  Matt Feifarek Oct 7 '11 at 21:45
    
When I say, "what you describe could work," I mean the attribute could have an object that is useful, and also provides a __call__ method. As I pointed out, the value could only be of a type like this, it couldn't be a string or an int, etc. –  Ned Batchelder Oct 7 '11 at 21:52
    
It could be a str or int subclass, though, per my example. –  Ethan Furman Oct 7 '11 at 22:05
    
I chose this as "the answer" because I'm satisfied that it was not a good idea. Thanks everyone. –  Matt Feifarek Oct 11 '11 at 21:14

What happens when you do either

obj.thing

or

obj.thing(2, 'a')

is Python goes looking for thing on obj; once it has thing it either returns it (first case above), or calls it with the parameters (second case) -- the critical point being that the call does not happen until after the attribute is retrieved -- and the containing class has no way of knowing if the thing it returns will be called or not.

You could add a __call__ method to every type you might use this way, but that way lies madness.

Update

Well, as long as you're comfortable with insanity, you could try something like this:

class CallableStr(str):
    def __call__(self, num, letter):
        return num*letter

class CallableInt(int):
    def __call__(self, num, pow):
        return num ** pow

class Tester(object):
    wierd = CallableStr('zzz')
    big = CallableInt(3)

t = Tester()
print repr(t.wierd)
print repr(t.wierd(7, 'a'))
print repr(t.big)
print repr(t.big(2, 16))

One nice thing about this magic object is that it becomes normal soon as you use it in a calculation (or call):

print type(t.big), type(t.big + 3), t.big + 3
print type(t.big), type(t.big(2, 3) + 9), t.big(2, 3) + 9

which results in

<class '__main__.CallableInt'> <type 'int'> 6
<class '__main__.CallableInt'> <type 'int'> 17
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Indeed that is how it works, left-to-right evaluation, as it were. And it might be madness, but it's an interesting experiment. –  Matt Feifarek Oct 7 '11 at 21:44
    
@MattFeifarek: well, should you choose explore insanity remember that __xxx__ methods are only looked up on the class, so you'll probably have to make custom class wrappers for whatever you want to return to take advantage of this style. –  Ethan Furman Oct 7 '11 at 21:47
    
@MattFeifarek, Updated my answer to show an example of how this could work. –  Ethan Furman Oct 7 '11 at 22:07
    
Now you're just messing with the __str__ method of a custom class. Won't work with other types. And it's an awful solution –  JBernardo Oct 7 '11 at 22:11
1  
@JBernardo: um, I don't see a __str__ method in my CallableStr class; and if by awful solution you mean one that works and answers the question, why yes it is awful. As I said earlier, a custom class would be required for each type he wanted to have this work with. –  Ethan Furman Oct 7 '11 at 22:17

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