# Alternative to nesting for loops in Python

I've read that one of the key beliefs of Python is that flat > nested. However, if I have several variables counting up, what is the alternative to multiple for loops? My code is for counting grid sums and goes as follows:

``````def horizontal():
for x in range(20):
for y in range(17):
temp = grid[x][y: y + 4]
sum = 0
for n in temp:
sum += int(n)
print sum # EDIT: the return instead of print was a mistype
``````

This seems to me like it is too heavily nested. Firstly, what is considered to many nested loops in Python ( I have certainly seen 2 nested loops before). Secondly, if this is too heavily nested, what is an alternative way to write this code?

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You're looking for `itertools.product` here. – Ashwini Chaudhary Dec 17 '12 at 5:02
Are you sure your return statement is inside 2 for loops? – 0xc0de Dec 17 '12 at 5:03
0xc0de, that was mistype (I meant print), thank you for pointing it out – davenz Dec 17 '12 at 5:16

``````from itertools import product

def horizontal():
for x, y in product(range(20), range(17)):
print 1 + sum(int(n) for n in grid[x][y: y + 4])
``````

You should be using the `sum` function. Of course you can't if you shadow it with a variable, so I changed it to `my_sum`

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I believe you're missing a right paren after `20`. – recursive Dec 17 '12 at 5:03
@recursive, thanks fixed that – John La Rooy Dec 17 '12 at 5:03
I'd use `xrange` instead of `range`. I'd also agree that the `return` inside the loop is a bug. – Balthamos Dec 17 '12 at 5:07
@Balthamos, for small ranges, `range` is faster, and there is no `xrange` in Python3. OP doesn't mention which version they are using – John La Rooy Dec 17 '12 at 5:08
Oh really? Thanks, I didn't know that. – Balthamos Dec 17 '12 at 5:09
``````grid = [range(20) for i in range(20)]
sum(sum( 1 + sum(grid[x][y: y + 4]) for y in range(17)) for x in range(20))
``````

The above outputs 13260, for the particular grid created in the first line of code. It uses `sum()` three times. The innermost sum adds up the numbers in `grid[x][y: y + 4]`, plus the slightly strange initial value `sum = 1` shown in the code in the question. The middle sum adds up those values for the 17 possible y values. The outer sum adds up the middle values over possible x values.

If elements of grid are strings instead of numbers, replace
`sum(grid[x][y: y + 4])`
with
`sum(int(n) for n in grid[x][y: y + 4]`

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