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How is possible in python to check (without checking individually every element if possible) if the elements of a list are of the same type?

For example, I would like to have a function to check that every element of this list is integer (which is clearly false):

x=[1, 2.5, 'a']

def checkIntegers(x):
    # return true if all elements are integers, false otherwise
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How could you possibly do it without checking each element? There's no way to know anything about an element you haven't looked at. –  Daniel Roseman Nov 6 '12 at 13:45
2  
@DanielRoseman -- you can short-circuit as soon as you find a bad one. –  mgilson Nov 6 '12 at 13:45
    
Seems that using all is the way... –  linello Nov 6 '12 at 13:47
    
@mgilson, yes... I thought the OP was requesting a solution that didn't involve iterating at all. –  Daniel Roseman Nov 6 '12 at 13:49

7 Answers 7

up vote 24 down vote accepted

Try using all in conjunction with isinstance:

all(isinstance(x,int) for x in lst)

You can even check for multiple types with isinstance if that is desireable:

all(isinstance(x,(int,long)) for x in lst)

Not that this will pick up inherited classes as well. e.g.:

class MyInt(int):
     pass

print(isinstance(MyInt('3'),int)) #True

If you need to restrict yourself to just integers, you could use all(type(x) is int for x in lst). But that is a VERY rare scenario.


A fun function you could write with this is one which would return the type of the first element in a sequence if all the other elements are the same type:

def homogeneous_type(seq):
    iseq = iter(seq)
    first_type = type(next(iseq))
    return first_type if all( (type(x) is first_type) for x in iseq ) else False

This will work for any arbitrary iterable, but it will consume "iterators" in the process.

Another fun function in the same vein which returns the set of common bases:

import inspect
def common_bases(seq):
    iseq = iter(seq)
    bases = set(inspect.getmro(type(next(iseq))))
    for item in iseq:
        bases = bases.intersection(inspect.getmro(type(item)))
        if not bases:
           break
    return bases

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1  
+1 beat me to it. and yes long as well for python 2.x –  Ashwini Chaudhary Nov 6 '12 at 13:46
    
Note that homogeneous_type() (I guess that's what the function is supposed to be called) errors out for empty iterators. Moreover, the result depends on the order of the items in the iterable (I guess this is what you mean by "iterator"), which is not what I would expect from a function of this name. (An example would be [0, False] and [False, 0].) –  Sven Marnach Nov 6 '12 at 23:28
    
@SvenMarnach -- I suppose that's a reasonable point. I think that it's fine to error out on empty iterators (I actually considered that when I wrote the function) ... What should the result be in the case of an empty iterable? As far as passing a list of [0, False] or [False, 0], I could fix that by doing all( type(x) is first_type for x in iseq ), but it seems to me that the function would be more useful if it checked out OK for subclasses as well. –  mgilson Nov 7 '12 at 1:19
    
@SvenMarnach -- Finally, Yes I did mean iterable. For semantics, what term would you use to describe iterables that can be consumed (iter(...) or generators) vs iterables which cannot (list, tuple, ...)? (And thanks for looking at this critically. Hopefully it'll make for a better answer :) –  mgilson Nov 7 '12 at 1:19
    
all() also has the advantage in that it will short circuit and stop as soon as it encounters a False value from the generator expression. –  dansalmo Jun 14 '13 at 0:14

Using any(), no need to traverse whole list. Just break as soon as object which is not int or long is found:

>>> not any(not isinstance(y,(int,long)) for y in [1,2,3])
True
>>> not any(not isinstance(y,(int,long)) for y in [1,'a',2,3])
False
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The logic is much more clean with all, but I suppose not any(not condition ...) works too. +1 for your efforts I suppose (and for demonstrating all's counterpart, which is just as useful.) –  mgilson Nov 6 '12 at 14:04
    
@mgilson This occured to me when I saw your comment :), otherwise I was happy with all() based solution. –  Ashwini Chaudhary Nov 6 '12 at 14:07
4  
all also short circuits, so there isn't really any difference between this and @mgilson's solution. It's more an exercise in logic... –  mata Nov 6 '12 at 14:24
    
Generically speaking, I think what you'd need to do is check if any element is not the same type as the first. i.e. any(not isinstance(e,type(seq[0])) for e in seq[1:]) –  martineau Nov 6 '12 at 14:31
    
@martineau -- Assuming that you can slice seq of course. Otherwise you need to use iter and next -- Which saves you the overhead of making a copy, but that's typically pretty cheap for lists. –  mgilson Nov 6 '12 at 14:39
>>> def checkInt(l):
    return all(isinstance(i, (int, long)) for i in l)

>>> checkInt([1,2,3])
True
>>> checkInt(['a',1,2,3])
False
>>> checkInt([1,2,3,238762384762364892364])
True
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3  
isinstance() should be preferred over type(). –  Ashwini Chaudhary Nov 6 '12 at 13:48
    
Which of the two is faster, isinstance() or type()? –  linello Nov 6 '12 at 13:49
2  
isinstance(i,(int,long)) would work instead. –  mgilson Nov 6 '12 at 13:51
    
isinstance(i,(int,long)) is short. it's not about speed, type() will fail for subclasses of int –  Ashwini Chaudhary Nov 6 '12 at 13:52
    
@mgilson yeah, i just noticed also that you beat me to the answer anyway. :) –  Inbar Rose Nov 6 '12 at 13:52

The simplest way to check if a list is composed of omogeneous elements can be with the groupby function of the itertools module:

from itertools import groupby
len(list(groupby(yourlist,lambda i:type(i)))) == 1

If th len is different from one it means that it found different kind of types in the list. This has the problem of running trough the entire sequence. If you want a lazy version you can write a function for that:

def same(iterable):
    iterable = iter(iterable)
    try:
        first = type(next(iterable))
        return all(isinstance(i,first) for i in iterable)
    except StopIteration:
        return True

This function store the type of the first element and stop as soon as it find a different type in one of the elements in the list.

Both of this methods are strongly sensitive to the type, so it will see as different int and float, but this should be as close as you can get to your request

EDIT:

replaced the for cycle with a call to all as suggested by mgilson

in case of void iterator it returns True to be consistent with the behavior of the bulitin all function

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To me, this seems like a very convoluted way of doing such a simple task ... –  mgilson Nov 6 '12 at 14:02
    
this can be easily done with any(), see my solution. –  Ashwini Chaudhary Nov 6 '12 at 14:02
    
The first request of the OP is not to check is all the elements were of a specific type, but to check if all the element were of the same type, indipendently from which one was the first. It is a solution to a slightly different problem. –  EnricoGiampieri Nov 6 '12 at 14:07
    
@EnricoGiampieri -- but you can still do a short circuiting version in 3 lines. a=iter(obj);t=type(next(a));all(isinstance(x,t) for x in a). It's even easier for a list which is what the question is about -- t = type(lst[0]); return all(instance(x,t) for x in lst[1:]). Not too shabby. –  mgilson Nov 6 '12 at 14:14
    
yes, you can shortcircuit it, but it will not handle void iterators and will raise an exception. It's just a matter of choice, in my case i prefere to handle it instead of raising –  EnricoGiampieri Nov 6 '12 at 14:19
    def c(x):
         for i in x:
             if isinstance(i,str):
                   return False
             if isinstance(i,float):
                   return False

          return True
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You can also use type() if you want to exclude subclasses. See the difference between isinstance() and type():

>>> not any(not type(y) is int for y in [1, 2, 3])
True
>>> not any(not type(y) == int for y in [1, 'a', 2.3])
False

Although you may not want to, because this will be more fragile. If y changes its type to a subclass of int, this code will break, whereas isinstance() will still work.

It's OK to use is because there is only one <type 'int'> in memory, so they should return the same identity if they are the same type.

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I prefer to use map for a case like this:

from types import IntType
In [21]: map((lambda x: isinstance(x, IntType)), x)
   Out[21]: [True, False, False]
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