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I want a function that normally takes in an argument of type X where X is either a scalar, a list, or a dict, and returns a list of X's with the same key values, based on other information.

def foo(info, k):
   return [bar(item,k) for item in processInfo(info)]

def bar(item, keydata):
   # pseudocode follows.
   # What we want to do is return an output of parallel type to the input key k,
   # using the key data to lookup information from the input item.
   if keydata is a scalar:
      return item[keydata]
   elif keydata is a list:
      return [item[k] for k in keydata]
   elif keydata is a dict:
      return dict((k,item[v]) for (k,v) in keydata.iteritems())
      raise ValueError('bar expects a scalar, list, or dict')

My question is, how can I dispatch between the three types?

edit: A string is to be interpreted as a scalar, not a list/iterable. Tuples are to be interpreted as iterable.

edit 2: I want duck typing, not strict typing.

share|improve this question
what if an object can exhibit both behaviours of a list and a dict? –  Meitham Apr 24 '13 at 21:05
then behavior for dict-like items takes precedence over behavior for iterable items –  Jason S Apr 24 '13 at 21:08
This question needs renaming, as it's the best one for determining the difference between dict and list, not just between scalar and nonscalar as the title implies. I keep skipping over it in searches. –  SystemParadox May 16 '13 at 20:01
just reworded... how's the title now? –  Jason S May 16 '13 at 20:03
I've added a minor tweak, but yes much better thanks. –  SystemParadox May 16 '13 at 20:05

7 Answers 7

up vote 2 down vote accepted

It depends on how strict you want to be with your input. The isinstance approach forces you to specify the types to accept (I.e., no duck-typing). It works as long as your users are only passing in those classes or subtypes of those classes. You can also try to distinguish parameters by the methods they support. An example of this would be

Edit: added the special case for strings

if isinstance(keydata, basestring):
    # special case to avoid considering strings as containers
    # for python 3.x use str instead of basestring
    return item[keydata]
    return dict((k,item[v]) for (k,v) in keydata.iteritems())
except AttributeError:
    # it's not a dict-like
    return [item[k] for k in keydata]
except TypeError:
    # it's not iterable
return item[keydata]

The choice of control flow depends on how flexible you want to be, and also how you want yo deal with ambiguous cases. Eg, is a string considered a sequence of characters or a scalar?

share|improve this answer
see my edits in the question. string is a scalar. (for my purposes) –  Jason S Apr 24 '13 at 21:04
Would it be acceptable to special-case strings (and unicodes, I assume!) and leave everything else duck-typed? Otherwise you need to specify in more detail what exactly makes strings so special :-) –  Felipe Apr 24 '13 at 21:45
Yes... it is ok to special-case strings. Strings are strings. :-) –  Jason S Apr 24 '13 at 21:52
@JasonS, why did you accept this answer when it doesn't do the right thing with strings? –  Mark Ransom Apr 24 '13 at 22:02
Because it gave me the right approach to take for my application. –  Jason S Apr 24 '13 at 22:18

You need to do things in the proper order since str and dict types are iterable.

from collections import Iterable, Mapping  # in Python 3 use from collections.abc

def bar(item, keydata):
    if isinstance(keydata, Mapping):
        return {k: item[v] for (k,v) in keydata.iteritems()}
    elif isinstance(keydata, Iterable) and not isinstance(keydata, str):
        return [item[k] for k in keydata]
    return item[keydata]
share|improve this answer

Use the new fancy stuff :) by import collections

>>> isinstance([], collections.Sequence)
>>> isinstance({}, collections.Mapping)

You should also consider looking at the types module

share|improve this answer
isinstance(''. collections.Sequence) is True too. –  Martijn Pieters Apr 24 '13 at 20:59
@MartijnPieters shouldn't it be :) I would also say a tuple is a scalar since it is hashable :) –  Meitham Apr 24 '13 at 21:01
I'd call them scalars not because they are hashable but because they are immutable, but yes. –  Martijn Pieters Apr 24 '13 at 21:07
if isinstance(keydata,(int,float,str)): #scalar

elif isinstance(keydata,(list,tuple)):#iterable

elif isinstance(keydata,dict):#dictionary

maybe?? (Im probably missing a few types) ...

share|improve this answer
str is an interesting case, it can act both as a scalar and an iterable. –  Mark Ransom Apr 24 '13 at 20:54
yeah ... but I figured it was closer to a scalar for OP's needs ... –  Joran Beasley Apr 24 '13 at 20:55
oh crap, that makes life more difficult, because I want to treat a string as a scalar, not as an iterable. –  Jason S Apr 24 '13 at 20:57
Test against the ABC types instead. –  Martijn Pieters Apr 24 '13 at 20:57
@MarkRansom: it is a iterable scalar... There is no such distinction in Python, really. –  Martijn Pieters Apr 24 '13 at 20:57

Or you can use type, but isinstance is recommended according to http://docs.python.org/2/library/functions.html#type

if type(asd) in (int, str):
    print 'asd is int or str'
share|improve this answer

Thanks for all the information!

I ended up doing this, since I had to do some preprocessing of the keydata prior to iterating over the information:

def asKVlists(keydata):
    # return a tuple (keys, values, isScalar)
    # where keys and values are iterable
    if not isinstance(keydata, basestring):
        # check for dict behavior:
            return zip(*keydata.iteritems()) + [False]
        except AttributeError:

        # otherwise check for list behavior
        # make sure we can iterate over it
            return (None, keydata, False)
        except TypeError:
    return (None, (keydata,), True)
share|improve this answer
def is_scalar(x):
    return hasattr(x, 'lower') or not hasattr(x, '__iter__')

Then you never have to worry about failing an isinstance because of somebody implementing an iterable subclassed from something unexpected.

share|improve this answer
But then I have to worry about somebody implementing an iterable with a lower() attribute or method. –  Jason S Mar 10 '14 at 14:06

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