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I'm writing Python that targets versions 3.2 and higher. It looks like using the built-in function callable is the most straightforward and efficient way to do this. I've seen recommendations for hasattr(x, "__call__"), collections.Callable(x), and just using try/except around an attempted call.

I've tested items that are callable (a class and a function), using timeit with 100,000 iterations; in both cases using callable takes only about 75% of the time of checking for the attribute. When the item is not callable (an integer and a string) using callable stays at the same cost as a class or function while checking for the attribute is about 2.3 times more expensive than for a class or function. I didn't expect that difference, but it also favors the clear and concise callable(x) approach.

But I'm relatively new to Python and no expert, so are there reasons I'm not aware of that I should use the hasattr approach or another approach?

FWIW, the results of the various timeits follow. The first character is just t for timeit, the second indicates what the type of the object being tested (c = class, f = function, i = integer, s = string), and the rest indicates the method (attr - check attribute, call - use callable, try - use try/except).

tcattr 0.03665385400199739
tccall 0.026238360142997408
tctry 0.09736267629614304
tfattr 0.03624538065832894
tfcall 0.026362861895904643
tftry 0.032501874250556284
tiattr 0.08297350149314298
ticall 0.025826044152381655
titry 0.10657657453430147
tsattr 0.0840187013927789
tscall 0.02585409547373274
tstry 0.10742772077628615
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sidenote: callable was removed in python3.0 and - after noticing that this was a bad choice - brought back in 3.2 –  mata May 5 '13 at 20:22

3 Answers 3

up vote 6 down vote accepted

hasattr() will return more false positives than callable:

>>> class X(object):
...     def __getattr__(self, name):
...         return name
...
>>> i = X()
>>> from collections import Callable
>>> isinstance(i, Callable)
False
>>> callable(i)
False
>>> hasattr(i, '__call__')
True
>>> i()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: 'X' object is not callable

I'm not sure which callable you were testing, but both look nicer than hasattr and handle more cases, so I would use them in place of hasattr().

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callable can also return false positives. –  J.F. Sebastian May 5 '13 at 21:24
1  
@J.F.Sebastian - True, but only a crazy person would define a class with a non-callable __call__. That'd just be a bug in real code. –  Benjamin Hodgson May 5 '13 at 22:04
    
Thank you both for the perspective. For completeness I was using the built-in callable, not the collections.Callable. –  bmacnaughton May 6 '13 at 1:07

Great question! I'd say you should use callable. Several points apart from the speed issue:

  1. It's explicit, simple, clear, short, and neat.
  2. It's a Python built-in, so anyone who doesn't already know what it does can find out easily.
  3. try... except TypeError has a problem: TypeError can sometimes be raised by other things. For example, if you successfully call a function which raises TypeError in its body, the except will erroneously catch that and assume that the object was not callable.
  4. Some common customisations, like __getattr__, can cause hasattr to make mistakes.
  5. collections.abc.Callable seems like rather heavy machinery for something so simple. After all, callable does the same job.

Footnote: the try block is a very common pattern in Python for this sort of thing, so you may see a lot of it in other people's code. However, as I've outlined above, this is one case where it's not quite suitable.

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callable is not only the fastest, but the Zen provides four more important reasons to use it instead of the other two contraptions:

Beautiful is better than ugly.
Explicit is better than implicit.
Simple is better than complex.
Readability counts.

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