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I get the basic philosophy of don't ask for permission, just do it and ask for forgiveness. For instance it doesn't need to be a file to have a .read() method, you'll thank yourself later when you find things "just work" when you want to read a file-like object. However, that's almost easier to get my head around for complicated objects like files than simple objects like numbers.

So I'm trying to write a very simple class. The details don't matter, but it has an internal counter, and has to do something when the counter exceeds a limit. The limit is supplied as an argument when the object is created.

Now I'm thinking defensive programming. Obviously I'd like my limit to be an integer, or at least something that compares like an integer. It can be weaker than that, because the >= test I do will still provide correct behaviour if it's a float.

Although the class user will know that this argument ought to be an integer, I'd like the object to do something unsurprising if it isn't. My first thought was to check that I actually had a number by

if isinstance(limit,(int,long,float)):

but there's any number of "don't test, try except" answers on here, so I know that's unpythonic. It's better to use the limit, and wait for an exception to be thrown. So I tried this inside a try: except for various types of limit

if counter >= limit:

This works fine as expected if limit is an int or a float. I then made limit a string or a tuple, objects for which compare with a number does not have any obvious or reasonable definition, and waited to catch the exception. But it executes, returns a boolean, and stays silent.

So I RTFM, and it turns out that compare does not raise an exception for mixed types, something to do with the operation of "x in container", for which equality is tested on arbitrary types. It does always return not_equal for different types, but magnitude comparison, while consistent, is arbitrary. I could perhaps have used it if a mixed type magnitude compare always returned False, but it will happily return True as well.

If I try to use other integer-like behaviour on non-numerics, I get the expected exception, for instance this string + number throws a TypeError


So I could say

if counter >= (limit+0)

and that throws the desired exception if limit is anything other than a number. But that feels almost obfuscated. I'm doing something extra to the expression to do a type test by the back door. Any code optimiser, or another editor, would remove the clearly redundant arithmetic operation. It's like seeing if the object weighs the same as a duck to see if it's made of wood, and so can be burnt as a witch (sort of).

A clearer possibility is

if counter >= int(limit)

which at least has some of the explanation built in. It doesn't do exactly what I'd like to happen under all circumstances, but it does enough for the moment, and it won't surprise anybody.

So WWGD? What's the pythonic way safely to use an untrusted argument, when all you want to do is compare it for magnitude?

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Congratulations, you're now eglible for googling "YAGNI" and understanding it. –  Kos Jun 25 '12 at 17:33
Thanks, I have, there's a lot of reading there at c2.com. Unfortunately the dumb user who passed a string to what needed to compare like an int was me, so I feel I am going to need it. But, part of what I'm doing is learning Python, as well as writing stuff I need, and I'm kind of playing with ways of getting things done. But I'd still like to know what the Pythonic way is. –  Neil_UK Jun 25 '12 at 21:45
What you don't need here is too much genericness, not defensive programming. Will you ever need a counter limit that is something else than an int? Do you feel that this is an important concept that needs a layer of abstraction? –  Kos Jun 26 '12 at 7:37

1 Answer 1

If you really do want to verify that the argument is of a suitable numeric type, then test whether it is an instance of the appropriate numeric abstract base class, perhaps:

    import numbers
    if not isinstance(limit, numbers.Real):
        ... # react to the bad argument type

Presumably in that case you'll throw a TypeError exception.

Do this in your class's __init__ method so that the problem is detected and reported as close to the caller's original mistake as possible. That's much kinder than waiting some indeterminate amount of time and eventually blowing up when the program gets around to playing with the counter, at which point the exception traceback will be far less helpful in identifying the genesis of the problem.

If you're feeling paranoid, you could also check in the constructor that the value of this argument is greater than zero, and throw a ValueError exception if it's not.

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