# Efficient iteration over a list representation of multidimensional indices (of arbitrary dimension)

I work with multidimensional structures of arbitrary dimension. I have a Python list of `xrange` iterators, with each iterator representing an index of a multidimensional array:

``````indices = [ i, j, k ]
``````

where

``````i = xrange(1,3)
j = xrange(3,5)
k = xrange(5,7)
``````

To generate all the possible values, I use the following naive recursive code:

``````def travtree(index,depth):
"Recursion through index list"
if depth >= len(indices):
# Stopping Condition
print index
else:
# Recursion
currindexrange = indices[depth]
for currindex in xrange(len(currindexrange)):
newindex = list(index) # list copy
newindex.append(currindexrange[currindex])
travtree(newindex,depth+1)

travtree([],0)
``````

This works fine, but I was wondering, is there a more efficient, Pythonic way to do this? I tried looking in the `itertools` module but nothing jumps out at me.

-

``````>>> from itertools import product
>>> i = xrange(1,3)
>>> j = xrange(3,5)
>>> k = xrange(5,7)
>>> indices = [ i, j, k ]
>>> for item in product(*indices):
print item

(1, 3, 5)
(1, 3, 6)
(1, 4, 5)
(1, 4, 6)
(2, 3, 5)
(2, 3, 6)
(2, 4, 5)
(2, 4, 6)
``````
-
+1 for itertools. had the exact same approach, but posted too slow –  ch3ka Apr 17 '12 at 16:41