I have a value and want to check if that value is (for example) either '5', 'test' or '#+*'.
As far as I can tell I have a couple of options:

 value in ['5', 'test', '#+*']  # list
 value in ('5', 'test', '#+*')  # tuple
 value in {'5', 'test', '#+*'}  # set

Are those three statements equivalent or is there some difference?

I am not really concerned about performance since the check will always compare against < 10 elements.

  • 2
    probably the "right" way is to do that via set and it's more logical making sure container has no duplicates Dec 17 '19 at 14:19

There is a difference. First, the mutable data structures list and set will be larger in size, since they are growable and need to have associated overhead with them. tuple is immutable, and thus smaller in memory.

Second, checking for membership in a tuple or list is an O(N) operation, that is, it depends on the size of the data structure, since it must iterate from start to either the desired element or the end of the structure, whichever comes first. The set doesn't need to do this, since it's checking a hash and the lookup doesn't depend on the size of the set.

The pythonic way? It depends. If you are doing this test in a loop, then a set would make more sense since the time difference even for a small number of elements is noticable:

❰mm92400❙~❱✔≻ python -m timeit -s 'x = list(range(9))' '8 in x'
10000000 loops, best of 3: 0.0979 usec per loop
❰mm92400❙~❱✔≻ python -m timeit -s 'x = tuple(range(9))' '8 in x'
10000000 loops, best of 3: 0.0968 usec per loop
❰mm92400❙~❱✔≻ python -m timeit -s 'x = set(range(9))' '8 in x'
10000000 loops, best of 3: 0.0278 usec per loop

Otherwise, for just a one-off, a tuple is smaller in memory, so I might go that route

  • 2
    Hello! It is perhaps worth mentioning that on my system the bytecode generated by def f(): "z" in {"a", ..., "z"} is ... LOAD_CONST 2 (frozenset({Ellipsis, 'z', 'a'})) ... - meaning both that (1) Python actually does statically infer that this set is a completely literal expression, so it doesn't have to construct it every time, and (2) it infers that it can therefore make it an immutable frozenset. You can observe an analogous effect with lists and tuples. Dec 17 '19 at 14:44
  • @IzaakvanDongen Interesting! I didn't think to examine the bytecode at all, so in this case, is the memory overhead almost entirely eliminated?
    – C.Nivs
    Dec 17 '19 at 14:49
  • @IzaakvanDongen using dis on python 3.6, I don't see the frozenset optimization. I've tested against a few variations on membership checking, in loops, single line, etc. Could be platform dependent, I'm on macOS using HighSierra
    – C.Nivs
    Dec 17 '19 at 14:56
  • Hmm you know I thought that it would, but upon further inspection with sys.getsizeof, it seems that frozensets are consistently exactly the same size as sets. But it means that in future a Python implementation theoretically could make this optimisation : ) Dec 17 '19 at 14:57
  • I'm using 3.8.0 on a week-old arch linux, which is probably quite bleeding edge. How interesting! Of course none of this is of much consequence anyway Dec 17 '19 at 14:58

Since performance is of no issue, you can employ any of these approaches.

Although the idiomatic way would be to use set, since checking for membership is one of the primary reasons it exists in the first place.

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