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Consider the following code fragment.

def print_timing(func):
    import time
    def wrapper(*args, **kwargs):
        t1 = time.time()
        res = func(*args, **kwargs)
        t2 = time.time()
        print '%s took %0.3f s ~ %0.0f min and %0.1f sec' % (func.func_name, t2-t1, int(t2 - t1)/60, (t2-t1) % 60 )
        return res
    return wrapper

@print_timing                                                                      |
def foo():                                                                         |
    return 'foo' 

class name(object):
       def __init__(self, name):
              self.name = name
       @print_timing
       def __call__(self):
              return self.name

bar = name("bar")
print bar()

This returns:

__call__ took 0.000 s ~ 0 min and 0.0 sec
bar

The object bar behaves like a function called bar, but exposes the internal implementation detail of __call__ when used with the decorator print_timing. Is there a way to change the name object (perhaps by passing a suitable argument to the __init__ function) so it returns instead

 bar took 0.000 s ~ 0 min and 0.0 sec

? I want a solution that will let the print_timing decorator continue to work with ordinary functions. Running print foo() gives

foo took 0.000 s ~ 0 min and 0.0 sec
foo
share|improve this question
    
The "name" class (sic wrt capitalization) is not the correct approach to the problem and should not be used, nor should the decorator be special-cased. Unfortunately we cannot say the correct approach because we do not know what you are really trying to do. –  ninjagecko May 30 '11 at 19:39

3 Answers 3

up vote 1 down vote accepted

As long as you use the decorator only on methods, they'll be passed self as the first argument:

def print_timing(func):
    import time
    def wrapper(*args, **kwargs):
        t1 = time.time()
        res = func(*args, **kwargs)
        t2 = time.time()
        funcname = func.__name__
        # Special case; a "name" instance has a "name" attribute we want to use instead.
        if len(args) >= 1 and isinstance(args[0], name):
            funcname = args[0].name
        print '%s took %0.3f s ~ %0.0f min and %0.1f sec' % (funcname, t2-t1, int(t2 - t1)/60, (t2-t1) % 60 )
        return res
    return wrapper

Updated: The wrapper now uses func.__name__ by default, but if you use this on a name class (as in your original question), it'll use the name attribute of the instance instead.

I've used an isinstance test to determine that a name attribute will be present, but you could use duck-typing instead (if hasattr(args[0], 'name')); the name variable is so generic however that you most likely will get unexpected results when used on arbitrary class methods.

share|improve this answer
    
@Martijn: Sorry, I'm not following your point. Can you elaborate? –  Faheem Mitha May 28 '11 at 21:35
    
@Faheem wrapper is the wrapped function; it get's passed the same arguments as the original method would, including self. Just remember, self is only called self by convention, you could name it anything, as long as it is the first argument to the method. The wrapper thus gets self passed as the first argument (in *args) and you can access it just as well from the wrapper. And self is your instance of class name, which has an attribute name which is what you wanted to print to start with. –  Martijn Pieters May 28 '11 at 21:39
    
@Martijn: I can get an approach like this to work, but only for function objects. As I mentioned in an addition to the question, I want the print_timing decorator to work with regular functions too. And doing self=args[0] does not work with functions. –  Faheem Mitha May 29 '11 at 6:11
    
@Martijn: I attempted an approach based on your answer. See my posted answer. –  Faheem Mitha May 29 '11 at 8:34
    
@Martijn: With your new version, I see Traceback (most recent call last): File "call_new.py", line 49, in <module> print bar() File "call_new.py", line 9, in wrapper if len(args) >= 1 and isinstance(args[0], name): TypeError: isinstance() arg 2 must be a class, type, or tuple of classes and types with my original class. In this case, name = __call__. I'm not sure exactly what you are shooting for here. What is wrong with 'hasattr' again? One could always using something else instead of 'name' as the magic attribute. –  Faheem Mitha May 29 '11 at 11:47

No. The decorator happens when the class is built, and the __init__() call happens when the instance is built. You would need to have the decorator turn the function into a descriptor and have that descriptor get the name from the instance.

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> Thanks for your reply. Can you sketch how such an approach would work, please? –  Faheem Mitha May 28 '11 at 21:01
    
The descriptor's __get__() would bind the method, get the name from the object and assign it to the new bound method, then return the method. –  Ignacio Vazquez-Abrams May 28 '11 at 21:06
    
After some fiddling, still not sure what you had in mind. Would your method work smoothly with both functions and function objects? Could you provide an illustrative example? Thanks. –  Faheem Mitha May 29 '11 at 11:49

Use @print_timing as a class decorator:

@print_timing
class name(object):
    ...

No changes are necessary; your wrapped object is now a function when it was supposed to be a class, but I infer from your question (and the fact it is a callable class) that it doesn't really matter (if it did, you could modify the decorator to make the returned wrapped object "prettier").

share|improve this answer
    
@ninjagecko: I'm not sure what you had in mind here, but using it as a class decorator just means that the class name is returned, in this case, name, so the output message is name took 0.000 s ~ 0 min and 0.0 sec. –  Faheem Mitha May 29 '11 at 5:54
    
@Fareem: why are you making this Name class? (sidenote: class names are usually uppercase by convention) –  ninjagecko May 29 '11 at 20:21
    
@ninjagecko: Not sure I understand your question, but if you mean, why a class rather then a function, it is because I have two very similar functions (a lot of common code), and I'm abstracting out some similar functionality as functions, and then passing it to the class init. So, one class in the place of two functions, essentially. –  Faheem Mitha May 30 '11 at 8:04
    
@Fareem: That is completely not the way you want to do it. You want to either have 1 function, or bring the "common code" outside of the function and have 2 functions. You don't need classes. Functions can call other functions. Functions can even modify variables outside of their definitions (as long as it's higher in scope) with the nonlocal ... keyword. There is also no reason to use __call__. Special-casing the decorator is also very poor form. The decorator is working just fine and should not be changed. –  ninjagecko May 30 '11 at 19:35
    
@ninjagecko: Thanks for your comments. I didn't think much about the possibility of staying with a function, so I'll review my code and see if it is really necessary to use a class. Yes, special-casing the decorator does seem like a complicated way to handle this, though I did learn some interesting stuff about python in the process, eg. descriptors. –  Faheem Mitha May 30 '11 at 20:00

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