You are timing the timing loop. A string literal on its own is ignored entirely:
>>> import dis
>>> def f(): "lose"
1 0 LOAD_CONST 1 (None)
That's a function that does nothing at all. So the timing loop takes
0.024598151998361573 seconds to run 1 million times.
In this case, the string actually became the docstring of the
but CPython generally will omit string literals in code if not assigned or otherwise part of an expression:
>>> def f():
... 1 + 1
2 0 LOAD_CONST 2 (2)
3 4 LOAD_CONST 0 (None)
1 + 1 as folded into a constant (
2), and the string literal is once again gone.
As such, you cannot compare this to looking up an attribute on an
enum object. Yes, looking up an attribute takes cycles. But so does looking up another variable. If you really are worried about performance, you can always cache the attribute lookup:
>>> import timeit
>>> import enum
>>> class Result(enum.Enum):
... lose = -1
... draw = 0
... win = 1
>>> timeit.timeit('outcome = Result.lose', 'from __main__ import Result')
>>> timeit.timeit('outcome = lose', 'from __main__ import Result; lose = Result.lose')
timeit tests all variables are locals, so both
lose are local lookups.
enum attribute lookups do take a little more time than 'regular' attribute lookups:
>>> class Foo: bar = 'baz'
>>> timeit.timeit('outcome = Foo.bar', 'from __main__ import Foo')
That's because the
enum metaclass includes a specialised
__getattr__ hook that is called each time you look up an attribute; attributes of an
enum class are looked up in a specialised dictionary rather than the class
__dict__. Both executing that hook method and the additional attribute lookup (to access the map) take additional time:
>>> timeit.timeit('outcome = Result._member_map_["lose"]', 'from __main__ import Result')
>>> timeit.timeit('outcome = map["lose"]', 'from __main__ import Result; map = Result._member_map_')
In a game of Tic-Tac-Toe you don't generally worry about what comes down to insignificant timing differences. Not when the human player is orders of magnitude slower than your computer. That human player is not going to notice the difference between 1.2 microseconds or 0.024 microseconds.