# Performance of small sets in Python

I am looking for the most efficient way to represent small sets of integers in a given range (say 0-10) in Python. In this case, efficiency means fast construction (from an unsorted list), fast query (a couple of queries on each set), and reasonably fast construction of a sorted version (perhaps once per ten sets or so). A priori the candidates are using Python's builtin set type (fast query), using a sorted array (perhaps faster to constrct?), or using a bit-array (fast everything if I was in C... but I doubt Python will be that efficient (?)). Any advice of which one to choose?

Thanks.

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anything with only 10 elements in it is going to be fast enough. –  sjr Jun 13 '12 at 21:53
what if I want to construct millions of them? :-) –  antony Jun 13 '12 at 21:55
one hundred million items, 400mb if they're ints, some overhead, you have like 500mb in memory. Back of envelope calculations indicate that the built-in collections should be fine –  sjr Jun 13 '12 at 21:59
my advice is to keep things simple until you identify that your solution is not fast enough. Don't optimize prematurely. –  sjr Jun 13 '12 at 22:13

I'd use a bitmapping and store the members of a "set" in an `int`...which might actually be faster than the built-in `set` type in this case -- although I haven't tested that. It would definitely require less storage.

Update

I don't have the time right now to do a full set-like implementation and benchmark it against Python's built-in class, but here's what I believe is a working example illustrating my suggestion. As I think you'd agree, the code looks fairly fast as well as memory efficient.

Given Python's almost transparent "unlimited" long integer capabilities, what is written will automatically work with integer values in a much larger range than you need, although doing so would likely slow things down a bit. ;)

``````class BitSet(object):
def __init__(self, *bitlist):
self._bitmap = 0
for bitnum in bitlist:
self._bitmap |= (1 << bitnum)

self._bitmap |= (1 << bitnum)

def remove(self, bitnum):
if self._bitmap & (1 << bitnum):
self._bitmap &= ~(1 << bitnum)
else:
raise KeyError

self._bitmap &= ~(1 << bitnum)

def clear(self):
self._bitmap = 0

def __contains__(self, bitnum):
return bool(self._bitmap & (1 << bitnum))

def __int__(self):
return self._bitmap

if __name__ == '__main__':

bs = BitSet()

print '28 in bs:', 28 in bs
print '28 in bs:', 28 in bs

print
print '5 in bs:', 5 in bs
print '5 in bs:', 5 in bs

print
print 'bs.remove(28)'
bs.remove(28)
print '28 in bs:', 28 in bs
``````
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In this case you might just use a list of True/False values. The hash table used by `set` will be doing the same thing, but it will include overhead for hashing, bucket assignment, and collision detection.

``````myset = [False] * 11
for i in values:
myset[i] = True
mysorted = [i for i in range(11) if myset[i]]
``````

As always you need to time it yourself to know how it works in your circumstances.

-

My advice is to stick with the built-in `set()`. It will be very difficult to write Python code that beats the built-in C code for performance. Speed of construction and speed of lookup will be fastest if you are relying on the built-in C code.

For a sorted list, your best bet is to use the built-in sort feature:

``````x = set(seq) # build set from some sequence
lst = sorted(x)  # get sorted list from set
``````

In general, in Python, the less code you write, the faster it is. The more you can rely on the built-in C underpinnings of Python, the faster. Interpreted Python is 20x to 100x slower than C code in many cases, and it is extremely hard to be so clever that you come out ahead vs. just using the built-in features as intended.

If your sets are guaranteed to always be integers in the range of [0, 10], and you want to make sure the memory footprint is as small as possible, then bit-flags inside an integer would be the way to go.

``````pow2 = [2**i for i in range(32)]

x = 0  # set with no values
return x | pow2[n]

def in_int_set(x, n):
return x & pow2[n]

def list_from_int_set(x):
return [i for i in range(32) if x & pow2[i]]
``````

I'll bet this is actually slower than using the built-in `set()` functions, but you know that each set will just be an `int` object: 4 bytes, plus the overhead of a Python object.

If you literally needed billions of them, you could save space by using a NumPy `array` instead of a Python list; the NumPy `array` will just store bare integers. In fact, NumPy has a 16-bit integer type, so if your sets are really only in the range of [0, 10] you could get the storage size down to two bytes each using a NumPy `array`.

Note that `set` isn't sorted, although it might appear to be for some inputs. –  Mark Ransom Jun 13 '12 at 22:01
A `set` doesn't need to be sorted. If you want to make a sorted `list` of the elements in the `set`, I already showed how to do that using `sorted()`. –  steveha Jun 13 '12 at 22:12
I made my comment before you added the section about producing a sorted list. Besides, some might get the mistaken impression that a `set` is already sorted if they see some typical examples. –  Mark Ransom Jun 13 '12 at 22:15