here's a solution based on pypy's library code (thanks to agf's suggestion in the comments).

the state is available via the `.state`

attribute and can be reset via `.goto(state)`

where `state`

is an index into the sequence (starting at 0). there's a demo at the end (you need to scroll down, i'm afraid).

this is way faster than discarding values.

```
> cat prod.py
class product(object):
def __init__(self, *args, **kw):
if len(kw) > 1:
raise TypeError("product() takes at most 1 argument (%d given)" %
len(kw))
self.repeat = kw.get('repeat', 1)
self.gears = [x for x in args] * self.repeat
self.num_gears = len(self.gears)
self.reset()
def reset(self):
# initialization of indicies to loop over
self.indicies = [(0, len(self.gears[x]))
for x in range(0, self.num_gears)]
self.cont = True
self.state = 0
def goto(self, n):
self.reset()
self.state = n
x = self.num_gears
while n > 0 and x > 0:
x -= 1
n, m = divmod(n, len(self.gears[x]))
self.indicies[x] = (m, self.indicies[x][1])
if n > 0:
self.reset()
raise ValueError("state exceeded")
def roll_gears(self):
# Starting from the end of the gear indicies work to the front
# incrementing the gear until the limit is reached. When the limit
# is reached carry operation to the next gear
self.state += 1
should_carry = True
for n in range(0, self.num_gears):
nth_gear = self.num_gears - n - 1
if should_carry:
count, lim = self.indicies[nth_gear]
count += 1
if count == lim and nth_gear == 0:
self.cont = False
if count == lim:
should_carry = True
count = 0
else:
should_carry = False
self.indicies[nth_gear] = (count, lim)
else:
break
def __iter__(self):
return self
def next(self):
if not self.cont:
raise StopIteration
l = []
for x in range(0, self.num_gears):
index, limit = self.indicies[x]
l.append(self.gears[x][index])
self.roll_gears()
return tuple(l)
p = product('abc', '12')
print list(p)
p.reset()
print list(p)
p.goto(2)
print list(p)
p.goto(4)
print list(p)
> python prod.py
[('a', '1'), ('a', '2'), ('b', '1'), ('b', '2'), ('c', '1'), ('c', '2')]
[('a', '1'), ('a', '2'), ('b', '1'), ('b', '2'), ('c', '1'), ('c', '2')]
[('b', '1'), ('b', '2'), ('c', '1'), ('c', '2')]
[('c', '1'), ('c', '2')]
```

you should test it more - i may have made a dumb mistake - but the idea is quite simple, so you should be able to fix it :o) you're free to use my changes; no idea what the original pypy licence is.

also `state`

isn't really the full state - it doesn't include the original arguments - it's just an index into the sequence. maybe it would have been better to call it index, but there are already indici[sic]es in the code...

**update**

here's a simpler version that is the same idea but works by transforming a sequence of numbers. so you just `imap`

it over `count(n)`

to get the sequence offset by `n`

.

```
> cat prod2.py
from itertools import count, imap
def make_product(*values):
def fold((n, l), v):
(n, m) = divmod(n, len(v))
return (n, l + [v[m]])
def product(n):
(n, l) = reduce(fold, values, (n, []))
if n > 0: raise StopIteration
return tuple(l)
return product
print list(imap(make_product(['a','b','c'], [1,2,3]), count()))
print list(imap(make_product(['a','b','c'], [1,2,3]), count(3)))
def product_from(n, *values):
return imap(make_product(*values), count(n))
print list(product_from(4, ['a','b','c'], [1,2,3]))
> python prod2.py
[('a', 1), ('b', 1), ('c', 1), ('a', 2), ('b', 2), ('c', 2), ('a', 3), ('b', 3), ('c', 3)]
[('a', 2), ('b', 2), ('c', 2), ('a', 3), ('b', 3), ('c', 3)]
[('b', 2), ('c', 2), ('a', 3), ('b', 3), ('c', 3)]
```

(the downside here is that if you want to stop and restart you need to have kept track yourself of how many you have used)

`product(numbers, *[alnum] * 6)`

, and you could use`string.digits`

instead of`numbers`

and`string.ascii_lowercase + string.digits`

instead of`alnum`

. – agf Mar 25 '12 at 23:10