I have a list of lists. Using itertools, I am basically doing

for result in product([A,B],[C,D],[E,F,G]): # test each result

and the result is the desired product, with each result containing one element from each of the lists. My code tests each of the results element-by-element, looking for the first (and best) 'good' one. There can be a very very large number to test.

Let's say I'm testing the first result 'ACE'. Let's say when I test the second element 'C' I find that 'ACE' is a bad result. There is no need to test 'ACF' or 'ACG'. I would want to skip from the failed ACE directly to trying ADE. Anyway to do this without just throwing the unwanted results on the floor?

If I was implementing this with nested for loops, I would be trying to manipulate the for loop indexes inside the loop and that would not be very nice ... but I do want to skip testing a lot of results. Can I skip ahead efficiently in itertools?

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If 'C' is a bad result, would it still be a bad result when you got to 'BCE'? Is an individual element always bad, or just when it's in certain combinations? –  snapshoe Nov 16 '10 at 4:20
@Rod. That was one of the best retags ever. –  aaronasterling Nov 16 '10 at 4:39
individual elements aren't bad, there are only bad combinations of elements –  Mike Nov 16 '10 at 11:40

itertools is not the best way to go with the concern you have.

If you just have 3 sets to combine, just loop over and when you fail, break the loops. (If you code is complex, set a variable and break right outside.

``````for i1 in [A, B]:
for i2 in [C, D]:
for i3 in [E, F, G]:
if not test(i1, i2, i3):
break
``````

However, if the number of sets that you have is variable, then use a recursive function (backtrack):

`````` inp_sets = ([A,B],[C,D],[E,F,G])
max_col = len(inp_sets)
def generate(col_index, current_set):
if col_index == max_col:
if test(current_set):
return current_set
else:
return None
else:
found = False
for item in inp_sets[col_index]:
res = generate(col_index+1, current_set + [item]):
if res:
return res
elif (col_index == max_col - 1):
# Here we are skipping the rest of the checks for last column
# Change the condition if you want to skip for more columns
return None

result = generate(0, [])
``````
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I think you are right - I am going to use a recursive approach. itertools will let me consume a bunch of output, but the recursive approach leaves me in control of the generator. –  Mike Nov 16 '10 at 22:25