# Iterate through sum combinations in Python 3

I'm look for a way to find all combinations of sums with elements of a Fibonacci sequence with a given limit which equal that same value. I know that `combinations()` from `itertools` is our best bet in solving such problems, but as I'm new in Python I like to know how I can retain the matching combinations (as only one is correct, as this is not the end of the algorithm).

I currently have:

`````` # Call Fibonacci sequence with a given limit:
def fib1(n):
result = []
a, b = 1, 1
while a < n:
result.append(a)
a, b = b, a + b
return result

# Wrong code, skeleton:
def zeckendorf(n):
from itertools import combinations
seq = fib1(n)
row = []
sum = 0
for i in combinations(seq, len(seq)):
sum += i
row.append(i)
if sum > n:
sum = 0
row = []
continue
elif sum == n:
break

return row
``````

Now I know the second bit is wrong in many ways. Also, I make the mistake as to try to add tuples to integers. I just need to know how I can iterate through separate elements of those combinations separately using the itertools module. Only the combinations with sum 'n' are useful to me.

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I think you are looking for the `itertools.permutations` function, because `combinations(seq, len(seq))` has only 1 element, the `seq` itself. From the doc to `combinations`: Return r length subsequences of elements from the input iterable. There is only 1 subsequence with the length of the whole sequence and that is the sequence itself. –  halex Mar 29 '13 at 10:54
I'm positive I'm looking for combinations. As not all elements have to be used. Every integer can be expressed as the sum of Fibonacci numbers under the value of the integer. And those Fibonacci numbers can be only used once as well. –  Denny Nuyts Mar 29 '13 at 10:58
Anyway, my code makes little sense and I'm aware of that. My main problem still is to find out how the itertools module works. I also think it's hard to test in Python shells, this one. –  Denny Nuyts Mar 29 '13 at 11:00
For instance. The Fibonacci sequence until 100 is [1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89] (0 excluded, as it's a neutral element in a sum anyway). 100 can be expressed as 3 + 8 + 89 or as 1 + 2 + 8 + 89 or as 3 + 8 + 34 + 55. Finding out how to get to those values/combinations is where I struggle with. –  Denny Nuyts Mar 29 '13 at 11:06

If I understand correctly what you are trying to achieve then use the following code:

``````def zeckendorf(n):
seq = fib1(n)
for i in range(1, len(seq)):
for comb in itertools.combinations(seq, i):
if sum(comb) == n:
return list(comb)
return []
``````

If you need further explanation on this code just ask :)

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This actually helps me out a great bit. Thank you. Just need to add some details and I'm good to go. If only I knew about something as simple as the built-in `sum()` function. ;) –  Denny Nuyts Mar 29 '13 at 11:15

To find all the combinations with the desired sum, append each combination to a result list:

``````def combinations_with_sum(sequence, desired_sum):
results = []
for i in range(len(sequence)):
results.extend([combination for combination in combinations(sequence, i)
if sum(combination) == desired_sum])
return results
``````
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Thanks. Problem solved. Just need to do one tiny thing (make sure the elements don't follow one another in the Fibonacci sequence), but that's a no-brainer. Seems all I needed to know was to use the `sum()` function. –  Denny Nuyts Mar 29 '13 at 11:18