First of all multiply everything by 10 so you can stay in integer math. Also add sum(40*a_u) to both sides will change the range of x_i to [0,80]

Secondly there may be an exponential number of answers so your algorithm must take exponential time.

Given that there are 80^28 (approximately 2^177) possible answers - this is not possible in general.

Now if the range of x_i were [0,1] (and not [0,80]) and we add an extra term that is equal to y (and change y to 0), than the problem becomes find a subset of a set of integers that add up to zero. This is a well known NP complete problem, and it seems even easier than yours (although I don't have a clear reduction).

There may be a dynamic programming solution, but it may be too slow:

```
set<float> X;
X.insert(0)
for i = 1 to 28
for f = -4.0 to 4.0 step 0.1
for x in X
X.insert(x + a_i * f)
for x in X
if (x == y)
return true;
return false;
```

You can do better than this by passing back the feasible range (of [y + a_i*(-4.0), y + a_i*4.0]) and prune infeasible partial solutions outside those bounds.

`the range of [-4, 4] with 0.1 increment`

? – irrelephant Dec 14 '12 at 3:36`a`

and`y`

reals, rationals or integers? – hirschhornsalz Dec 14 '12 at 11:29