# python dynamically create loops

I have a 2D Matrix named table and a list named count. In table the data is stored in count the numer of datasets in each column. first_index just show the number of the combination in this case there are 588 combinations (7*6*2*7) Now i want to create a any to any relation. My code is static so i need a possibility to create dynamic loops/Variables.

table:

``````[1, 30, 50, 60]
[2, 31, 51, 61]
[3, 32, 0, 62]
[4, 33, 0, 63]
[5, 34, 0, 64]
[6, 35, 0, 65]
[7, 0, 0, 66]
``````

count:

``````[7, 6, 2, 7]
``````

The Code works fine in my case but it is not sure if there are more than 4 rows so it is not really good code. I am a noob in python maybe there is another way to solve this problem

``````for k in range(count[0]):
for kk in range(count[1]):
for kkk in range(count[2]):
for kkkk in range(count[3]):
print('{0:3} , {1:3} , {2:1}'.format(first_index, table[k][0], 1))
print( '{0:3} , {1:3} , {2:1}'.format(first_index, table[kk][1], 2))
print( '{0:3} , {1:3} , {2:1}'.format(first_index, table[kkk][2], 3))
print( '{0:3} , {1:3} , {2:1}'.format(first_index, table[kkkk][3], 4))
print
first_index+=1
``````

the output look like

``````1 ,   1 , 1
1 ,  30 , 2
1 ,  50 , 3
1 ,  60 , 4

2 ,   1 , 1
2 ,  30 , 2
2 ,  50 , 3
2 ,  61 , 4
``````

...

``````588 ,   7 , 1
588 ,  35 , 2
588 ,  51 , 3
588 ,  66 , 4
``````
-
What is `first_index`? You need to include a sample of output. What do you want your result to look like? –  Inbar Rose Aug 21 '13 at 12:36
Thanks for your commands i modified the post –  Kiwi Aug 21 '13 at 12:46

Here if follows the solution using `itertools.product`:

``````from itertools import product
first_index=1
for i in product(*[range(i) for i in count]):
for j in range(len(count)):
print( '{0:3} , {1:3} , {2:1}'.format(first_index, table[i[j]][j], j+1))
first_index += 1
``````
-

Here is using the `itertools.product` but using clever logic.

``````from itertools import product

def special_combinations(table):
for r in product(*zip(*table)):
if 0 in r:
continue
yield r
``````

You do not need the `count` variable at all. Using this solution:

``````>>> table = [[1, 30, 50, 60],
[2, 31, 51, 61],
[3, 32,  0, 62],
[4, 33,  0, 63],
[5, 34,  0, 64],
[6, 35,  0, 65],
[7,  0,  0, 66]]
>>> for idx, val in enumerate(special_combinations(table)):
print idx+1, val

1 (1, 30, 50, 60)
2 (1, 30, 50, 61)
3 (1, 30, 50, 62)
4 (1, 30, 50, 63)
5 (1, 30, 50, 64)
6 (1, 30, 50, 65)
7 (1, 30, 50, 66)
8 (1, 30, 51, 60)
9 (1, 30, 51, 61)
10 (1, 30, 51, 62)
...
584 (7, 35, 51, 62)
585 (7, 35, 51, 63)
586 (7, 35, 51, 64)
587 (7, 35, 51, 65)
588 (7, 35, 51, 66)
``````

Bonus: A one-liner:

``````[(i+1, R) for i, R in enumerate(r for r in product(*zip(*table)) if not 0 in r)]
``````

Note: You could get much better performance if you trimmed the zeroes out of your table.

``````>>> table
[[1, 30, 50, 60],
[2, 31, 51, 61],
[3, 32, 0, 62],
[4, 33, 0, 63],
[5, 34, 0, 64],
[6, 35, 0, 65],
[7, 0, 0, 66]]
>>> table = [t[:t.index(0)] if 0 in t else t for t in map(list, zip(*table))]
>>> table
[[1, 2, 3, 4, 5, 6, 7],
[30, 31, 32, 33, 34, 35],
[50, 51],
[60, 61, 62, 63, 64, 65, 66]]
``````

And then your solution is much simpler.

``````>>> [(i+1, R) for i, R in enumerate(r for r in product(*table))]
``````
-
Thanks a lot both solutions are perfect good thanks –  Kiwi Aug 22 '13 at 12:45
If you feel that my answer helped you, you could Accept my Answer - It also helps future visitors know which solution best solved your problem. –  Inbar Rose Aug 22 '13 at 13:22