How to do C++ style(indexed) nested loops in python?

What is the equivalent of the following in python?

``````for (i=0; i<n; i++)
for (j=i+1; j<n; j++)
//do stuff with A[i], A[j]
``````

Or in some sense, the following. It should also remove the element from A at the completion of each round of the loop.

``````for a in A:
for a' in A/{a}: #i.e. rest of the elements of A
#do something with a,a'
#remove a from A
``````

Is there a pythonic way of doing this without using enumerate()?

Edits:

1. In the first example, I mean to use i & j only as indices. Their values do not matter. Its just a rough c++ equivalent of the latter.

2. The outer loop is executed n times. The inner loop is executed (n-1), (n-2)...0 times for each iteration of the outer loop.

Maybe this might help (pseudocode):

``````function next_iteration(list):
tail = remaining elements #list
each element in tail interacts with head one by one
next_iteration(tail)
``````

PS: All code samples above are pseudocodes. I'm trying to express something that is still a bit vague in my mind.

-
Your two loops don't do the same thing. Pick one! –  katrielalex Mar 20 '12 at 13:31
@katrielalex -- not explicitly, but conceptually they could both represent nested loops over the same sequence, where the inner loop starts immediately after the current element in the outer loop. –  Dave Costa Mar 20 '12 at 13:41
The second example begins the inner loop at the start and only skips element `a`. –  hochl Mar 20 '12 at 13:46
It need not be the 'next' element in the inner loop. The inner loop works on the 'remaining elements'. The next iteration is also on the remaining elements. Please see next_iteration to get a better idea. –  Karthick Mar 20 '12 at 14:16
Both katrielalex and hochl are correct I guess. I just have to use itertools.combinations instead of itertools.permutations. Is it possible to mark both as correct? –  Karthick Mar 20 '12 at 14:32

Since your two questions are different, here is solution for your second problem:

``````for i in xrange(len(A)):
for j in xrange(len(A)):
if i != j:
do_stuff(A[i], A[j])
``````

or using `itertools` (I think using the included batteries is very pythonic!):

``````import itertools

for a, b in itertools.permutations(A, 2):
do_stuff(a, b)
``````

This applies do_stuff to all combinations of 2 different elements from A. I you want to store the result just use:

``````[do_stuff(a, b) for a, b in itertools.permutations(A, 2)]
``````
-
Hi, almost there. :) Can you make it work in such a way that (a,b) and (b,a) are the same? That is, order doesn't matter. –  Karthick Mar 20 '12 at 14:19
I think `itertools.combinations` will do the trick. –  hochl Mar 20 '12 at 14:36

I intepret what you're asking as

How can I iterate over all pairs of distinct elements of a container?

``````>>> x = {1,2,3}
>>> import itertools
>>> for a, b in itertools.permutations(x, 2):
...     print a, b
...
1 2
1 3
2 1
2 3
3 1
3 2
``````

EDIT: If you don't want both `(a,b)` and `(b,a)`, just use `itertools.combinations` instead.

-
All pairs of distinct elements, without considering the order of elements in each pair. how does this change to accomodate that? –  Karthick Mar 20 '12 at 14:21
@Karthick use `.combinations` instead. See the docs. –  katrielalex Mar 20 '12 at 16:02

``````for i in range(0,n):
for j in range (i+1,n):
# do stuff
``````
-
``````for i in range(0,n):
for j in range(i+1,n):
# do stuff
``````
-

Still can't leave comments.. but basically what the other two posts said - but get in the habit of using xrange instead of range.

``````for i in xrange(0,n):
for j in xrange(i+1,n):
# do stuff
``````
-
`range()` returns generator in python 3.x –  rplnt Mar 20 '12 at 13:41
It does, but the op never specified version so I tend to assume < 3.x :] –  headcrab Mar 20 '12 at 13:44
With 2.x on the way out and 3.x on the way in it is better to get in the habit of using `range`. –  Ethan Furman Mar 20 '12 at 22:01

You could make the inner loop directly over a slice. Not saying this is any better, but it is another approach.

``````for i in range(0,len(x)):
a = x[i]
for b in x[i+1:]:
print a, b
``````
-

Another way to approach this is - if n is an sequence that provides the iterable interface, then in Python you can simplify your code by iterating over the object directly:

``````for i in n:
for some_var in n[n.index(i):]: # rest of items
# do something
``````

I hope I understood your loop correctly, because as others have stated - they don't do the same thing.

-

``````for i in xrange(n):
for j in xrange(i+1, n):
# do stuff with A[i] and A[j]
``````

For the second one:

``````for i, a in enumerate(A):
for b in A[i+1:]:
# do stuff with a and b
``````
-

``````function next_iteration(list):
tail = remaining elements #list
each element in tail interacts with head one by one
next_iteration(tail)
``````

Python code:

``````def next_iteration(lst):
for item in tail:
if tail:
next_iteration(tail)
``````

Which, when tried with `next_iteration([1, 2, 3])`, prints:

``````1 2
1 3
2 3
``````
-

You can use `xrange` to generate values for i and j respectively as show below:

``````for i in xrange(0, n):
for j in xrange(i + 1, n):
# do stuff
``````
-

In the first for-loop, enumerate() walks through the array and makes the index,value of each element available to the second for-loop. In the second loop, range() makes j = i+1 --> len(a) available. At this point you'd have exactly what you need which is `i` & `j` to do your operation.

``````>>> a = [1,2,3,4]
>>> array_len = len(a)
>>> for i,v in enumerate(a):
...   for j in range(i+1, array_len):
...     print a[i], a[j]
...
1 2
1 3
1 4
2 3
2 4
3 4
>>>
``````
-