I've been learning python for my hobby and empirical research into NP-complete problems such as Subset Product. The algorithm I have works, but it's not doing it the way I intend to do.

What I'm trying to do is to stop itertools' `combinations`

once it arrives to a subset product of the input variable `target`

. This will slightly make the code faster. The code is in the polishing stage so there is an unnecessary list `res_2`

Here's the loop.

```
res_2 = [];
for i in range(1, len(s)+1):
var = (findsubsets(s, i))
kk = list(map(numpy.prod, var))
res_2.append(kk)
if target in kk:
print('yes')
print(var)
break
```

This is the output that I don't want. Notice that the script will not stop at the (4, 4). It's a waste of resources to continue checking all combinations once a target is "hit."

```
Enter numbers WITH SPACES: 4 4 3 12
enter target integer:
16
yes
[(4, 4), (4, 3), (4, 12), (4, 3), (4, 12), (3, 12)]
kk
[16, 12, 48, 12, 48, 36]
```

My intended output is to stop at (4, 4) if its the first "hit." The same for any other subset like (1,2,3) or (1,2,3---any-length). I would prefer if the script continues until it's able to find a hit. Once it finds the hit, it stops, because this would improve the speed of the algorithm.

## Full script below

```
# Naive Subset-Product solver
# with python's itertools
import itertools
import numpy
s = list(map(int, input('Enter numbers WITH SPACES: ').split(' ')))
print('enter target integer: ')
target = int(input())
if s.count(target) > 0:
print('yes')
quit()
if target > numpy.prod(s):
print('sorry cant be bigger than total product of s')
quit()
def findsubsets(s, n):
return list(itertools.combinations(s, n))
# Driver Code
n = len(s)
# This code snippet is a for loop. It also is intended to cut down execution
# time once it finds the target integer. (instead of creating all combinations)
res_2 = [];
for i in range(1, len(s)+1):
var = (findsubsets(s, i))
kk = list(map(numpy.prod, var))
res_2.append(kk)
if target in kk:
print('yes')
print(var)
break
```

## Question

How do I get this to work to increase the speed of the algorithm? What pythonic tricks would fix my problem? Is there a shorter way of doing this?