I've been struggling for a while with this, but I found a solution that I think is pretty pythonic:
>>> def nth_matcher(n, replacement):
... def alternate(n):
... while True:
... i += 1
... yield i%n == 0
... gen = alternate(n)
... def match(m):
... replace = gen.next()
... if replace:
... return replacement
... return m.group(0)
... return match
>>> re.sub("([0-9])", nth_matcher(3, "X"), "1234567890")
EDIT: the matcher consists of two parts:
alternate(n) function. This returns a generator that returns an infinite sequence True/False, where every nth value is True. Think of it like
list(alternate(3)) == [False, False, True, False, False, True, False, ...].
match(m) function. This is the function that gets passed to
re.sub: it gets the next value in
gen.next()) and if it's
True it replaces the matched value; otherwise, it keeps it unchanged (replaces it with itself).
I hope this is clear enough. If my explanation is hazy, please say so and I'll improve it.