How to test if a python Counter is contained in another one using the following definition:

A Counter a is contained in a Counter b if, and only if, for every key k in a, the value a[k] is less or equal to the value b[k]. The Counter({'a': 1, 'b': 1}) is contained in Counter({'a': 2, 'b': 2}) but it is not contained in Counter({'a': 2, 'c': 2}).

I think it is a poor design choice but in python 2.x the comparison operators (<, <=, >=, >) do not use the previous definition, so the third Counter is considered greater-than the first. In python 3.x, instead, Counter is an unorderable type.

  • 2
    You should properly define "contained" to avoid confusion. – Shashank Apr 11 '15 at 8:26
  • Counter doesn't actually support comparison operators. – user2357112 Apr 11 '15 at 8:30
  • 1
    @JimDennis: We're supposed to be considering the Counter as a multiset, and that attempt doesn't take into account the multiplicity of elements. – user2357112 Apr 12 '15 at 8:10
  • @JimDennis: No, I don't want to check if all the keys are present, I want to check also the multiplicity as user2347112 said: A Counter a is contained in a Counter b if, and only if, for every key k in a, the value a[k] is less or equal to the value b[k]. – enrico.bacis Apr 12 '15 at 8:27

While Counter instances are not comparable with the < and > operators, you can find their difference with the - operator. The difference never returns negative counts, so if A - B is empty, you know that B contains all the items in A.

def contains(larger, smaller):
    return not smaller - larger
  • 3
    I considered giving this answer, but I decided against it because this doesn't short-circuit and wastes a bunch of time and space building the Counter. Also, it has to iterate through both Counters due to how - handles negative counts in the second argument. The solution based on all is much more efficient. – user2357112 Apr 12 '15 at 7:51

The best I came up with is to convert the definition i gave in code:

def contains(container, contained):
    return all(container[x] >= contained[x] for x in contained)

But if feels strange that python don't have an out-of-the-box solution and I have to write a function for every operator (or make a generic one and pass the comparison function).

  • 1
    Agreed, given that Counter gives a couple of multiset-like operations, it's surprising it doesn't offer a subset of equivalent. I'd expect to just be able to do counter_a <= counter_b - Either way, this seems like the best solution possible to me. – Gareth Latty Apr 11 '15 at 8:39

For all the keys in smaller Counter make sure that no value is greater than its counterpart in the bigger Counter:

def containment(big, small):
    return not any(v > big[k] for (k, v) in small.iteritems())

>>> containment(Counter({'a': 2, 'b': 2}), Counter({'a': 1, 'b': 1}))
>>> containment(Counter({'a': 2, 'c': 2, 'b': 3}), Counter({'a': 2, 'b': 2}))
>>> print containment(Counter({'a': 2, 'b': 2}), Counter({'a': 2, 'b': 2, 'c':1}))
>>> print containment(Counter({'a': 2, 'c': 2}), Counter({'a': 1, 'b': 1})
  • 1
    Which version of python are you using? In Python 2 it returns True for both the invocations, while in python 3 it throws an error because Counter is unorderable. Moreover you don't really need a function for that. – enrico.bacis Apr 12 '15 at 8:24
  • @enrico.bacis I copied it wrong before. It works fine on Py 2.7 I'm on. Thanks for catching that! – Saksham Varma Apr 12 '15 at 8:27
  • As I said in the question, the comparison operator only check the total number of elements in the counter. Try with my example: Counter({'a': 2, 'b': 2}) >= Counter({'a': 1, 'b': 1}) gives True as expected, but Counter({'a': 2, 'c': 2}) >= Counter({'a': 1, 'b': 1}) also gives True even if the right hand side is not contained in the left hand side. – enrico.bacis Apr 12 '15 at 8:32
  • @enrico.bacis I've added another check get around the case you mentioned. – Saksham Varma Apr 12 '15 at 8:42
  • Now it works but keep in mind that not any( predicate ) is exactly the same as all( not predicate ), so the answer is semantically the same as my answer above ;) – enrico.bacis Apr 12 '15 at 9:29

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.