In the past, when I've needed array-like indexical lookups in a tight loop, I usually use tuples, since they seem to be generally extremely performant (close to using just n-number of variables). However, I decided to question that assumption today and came up with some surprising results:
In : l = range(1000) In : t = tuple(range(1000)) In : timeit(lambda : l, number = 10000000) Out: 2.465047836303711 In : timeit(lambda : t, number = 10000000) Out: 2.8896381855010986
Tuple lookups appear to take 17% longer than list lookups! Repeated experimentation gave similar results. Disassembling each, I found them to both be:
In : dis.dis(lambda : l) 1 0 LOAD_GLOBAL 0 (l) 3 LOAD_CONST 1 (5) 6 BINARY_SUBSCR 7 RETURN_VALUE
For reference, a typical 10,000,000 global variable lookup/returns take 2.2s. Also, I ran it without the lambdas, y'know, just in case (note that number=100,000,000 rather than 10,000,000).
In : timeit('t', 't=range(1000)', number=100000000) Out: 6.972800970077515 In : timeit('t', 't=tuple(range(1000))', number=100000000) Out: 9.411366939544678
Here, the tuple lookup take 35% longer. What's going on here? For very tight loops, this actually seems like a significant discrepancy. What could be causing this?
Note that for decomposition into variable (e.g. x,y=t), tuples are slightly faster (~6% in my few tests less time) and for construction from a fixed number of arguments, tuples are crazy faster(~83% less time). Don't take these results as general rules; I just performed a few minitests that are going to be meaningless for most projects.
In : print(sys.version) 2.7.1 (r271:86882M, Nov 30 2010, 09:39:13) [GCC 4.0.1 (Apple Inc. build 5494)]