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I would like to iterate over the outputs of an unknown function. Unfortunately I do not know whether the function returns a single item or a tuple. This must be a standard problem and there must be a standard way of dealing with this -- what I have now is quite ugly.

x = UnknownFunction()
if islist(x):
    iterator = x
else:
    iterator = [x]

def islist(s):
    try:
        len(s)
        return True
    except TypeError:
        return False

for ii in iterator:
    #do stuff
share|improve this question
5  
The standard way is to have the function return a 1-tuple. –  Ignacio Vazquez-Abrams Jul 15 '11 at 17:22
3  
@Ignacio: Sure, if you have control over that function. The question seems to be saying that he does not. –  Fred Larson Jul 15 '11 at 17:23
1  
@Fred Larson: You always do have at least that much control: lambda *a, **kw: (f(*a, **kw), ). –  Rosh Oxymoron Jul 15 '11 at 17:25
    
@Rosh, then you have to test whether the result is nested in a tuple or not. –  senderle Jul 15 '11 at 17:27
1  
@senderle: Hopefully there would be some level at which the function is known and can be wrapped. I haven't seen unpredictable APIs yet. ;) –  Rosh Oxymoron Jul 15 '11 at 17:32
show 2 more comments

6 Answers

up vote 5 down vote accepted

The most general solution to this problem is to use isinstance with the abstract base class collections.Iterable.

import collections

def get_iterable(x):
    if isinstance(x, collections.Iterable):
        return x
    else:
        return (x,)

You might also want to test for basestring as well, as Kindall suggests.

    if isinstance(x, collections.Iterable) and not isinstance(x, basestring):

Now some people might think, as I once did, "isn't isinstance considered harmful? Doesn't it lock you into using one kind of type? Wouldn't using hasattr(x, '__iter__') be better?"

The answer is: not when it comes to abstract base classes. In fact, you can define your own class with an __iter__ method and it will be recognized as an instance of collections.Iterable, even if you do not subclass collections.Iterable. This works because collections.Iterable defines a __subclasshook__ that determines whether a type passed to it is an Iterable by whatever definition it implements.

>>> class MyIter(object):
...     def __iter__(self):
...         return iter(range(10))
... 
>>> i = MyIter()
>>> isinstance(i, collections.Iterable)
True
>>> collections.Iterable.__subclasshook__(type(i))
True
share|improve this answer
    
Note also that you could test for collections.Sequence if you want to only include list- and tuple- like types. –  senderle Jul 15 '11 at 18:07
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It's not particularly elegant to include the code everywhere you need it. So write a function that does the massaging. Here's a suggestion I came up with for a similar previous question. It special-cases strings (which would usually be iterable) as single items, which is what I find I usually want.

def iterfy(iterable):
    if isinstance(iterable, basestring):
        iterable = [iterable]
    try:
        iter(iterable)
    except TypeError:
        iterable = [iterable]
    return iterable

Usage:

for item in iterfy(unknownfunction()):
     # do something
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5  
I somehow like the name iterrify better. ;) –  Rosh Oxymoron Jul 15 '11 at 17:30
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You'll want to do the following:

iterator = (x,) if not isinstance(x, (tuple, list)) else x

then

for i in iterator:
    #do stuff
share|improve this answer
1  
That doesn't work with tuples (mentioned in the question). It doesn't work with subclasses of list either. –  Rosh Oxymoron Jul 15 '11 at 17:26
    
You should probably have: iterator = (x,) if type(x) != tuple else x –  dgrant Jul 15 '11 at 17:30
    
Fixed for both! =P –  TorelTwiddler Jul 15 '11 at 17:30
2  
not isinstance(x, cls) would almost always be preferable to type(x) != cls –  Rosh Oxymoron Jul 15 '11 at 17:34
    
Oh, didn't know that. How come? (I'll change it in the answer.) –  TorelTwiddler Jul 15 '11 at 17:37
show 4 more comments

Perhaps better to use collections.Iterable to find out whether the output is an iterable or not.

import collections

x = UnknownFunction()
if not isinstance(x, collections.Iterable): x = [x]

for ii in x:
    #do stuff

This will work if type of x is either of these - list, tuple, dict, str, any class derived from these.

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You could also try using the operator.isSequenceType function

import operator
x = unknown_function()
if not operator.isSequenceType(x) and not isinstance(x, basestring):
    x = (x,)
for item in x:
    do_something(item)
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add comment

You might define a function that ensures the returned value supports iteration (str, dict, tuple, etc --including user-defined sequence types that don't directly inherit from these classes) rather than checking if it is a tuple or list directly.

def ensure_iterable(x):
    return (x,) if not hasattr(x, '__iter__') else x

x = ensure_iterable(UnknownFunction())
for i in x:
    do_something(i)
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