Given a set of integers (positive or negative), how can I find a sequence of these numbers that sum to given value?

Example: Given a list of numbers `[4,-16, 9, 33]`

, I need the sum `17`

. I can choose sequence `[4, 4, 9]`

(numbers can be reused) or `[-16, 33]`

. I'm trying to find an efficient way to reduce the length of the sequence.

It's like `Subset Sum Problem`

(http://en.wikipedia.org/wiki/Subset_sum) but in my case numbers can be reused.

It's also a little like the Partition problem (Find all possible subsets that sum up to a given number) but in my case there's negative values.

My current greedy algorithm as follows. In each loop I'll try to find a number that minimize the difference between the current sum and target sum.

```
integers = [-2298478782, 1527301251, 4, 4078748803, 3388759435,
1583071281, 2214591602, 1528349827, -12, 59460983,
-939524100, -1, 2315255807]
target_sum = 1997393191
difference = target_sum
chain = list()
while difference != 0:
min_abs_difference = abs(difference)
next_int = 0
found = False
for i in integers:
new_abs_diff = abs(i+difference)
if new_abs_diff < min_abs_difference:
found = True
next_int = i
min_abs_difference = new_abs_diff
if not found:
print(difference)
print(chain)
print("Cannot find an integer that makes difference smaller")
break
difference += next_int
chain.append(next_int)
print(chain)
```