Since you'll run out of memory trying to construct the set, use a generator to iterate over them without storing them all:
lambda x: x == x or x == x or x == x,
Of course it will still take a long time to iterate, since there is a lot to do (about 5 trillion values). More on that later.
If you really need this set for some peculiar reason, you could build on this idea to define a "lazy" immutable set. In Python 2:
def __contains__(self, x):
if not isinstance(x, tuple): return False
if not len(x) == 5: return False
if not all(isinstance(y, int) for y in x): return False
if not all(0 <= y <= 343 for y in x): return False
def match(cls, x):
return (x == x or x == x or x == x)
# um. Left as an exercise for the reader. About 39 billion or so.
z1 = MyCollection()
You could also make the iteration somewhat more efficient by thinking of ways to avoid visiting every combination. The simplest I can think of is that if
j!=z, then the only possible value of
k. So in that case don't iterate over all possible
f, just output the one that will work.
However, the most efficient is probably:
- iterate over all combinations of 4 values
- you have one more value to add. This will either be tagged on the end as
f (in which case it's equal to
k) or else inserted into the middle as
k (and equal to
There are 42 billion of these, but this does contain some duplicates. I don't think it's quite so simple to exclude them, but the way I'd go about it is to think of all the correct 4-tuples in order from
(344,344,344,344). Before outputting one of the three 5-tuples generated from each 4-tuple, decide whether any earlier 4-tuple can have generated it. If so then skip it.