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