I assume that you are doing something like this:
floats[i][j] = x / (y * (x + z));
The problem is that the calculation on the RHS is done using integer arithmetic ... because all of the values are integers. In particular, the division is an integer division, and that means that (for example) if
0 <= x < (y * (x + z), then the expression will most evaluate to zero.
The solution is to force the division to be performed using floating point arithmetic.
The second aspect of the problem is that there is a risk of integer overflow. In particular, the
y * (x + z) sub-expression could overflow if one or more of the inputs is too large. That would result in a wildly incorrect value for that part of the calculation.
The solution to the overflow problem is to force the entire calculation to be done in floating point ... not just the final division; e.g.
floats[i][j] = x / (y * ((float) x + z));
Finally, if you want the result to be accurate (or as accurate as possible) you should probably be using
double instead of
float. The problem with
float is that it only represents numbers with a maximum of 24 bits of precision. That is roughly 7 decimal digits. Unless performance or storage is critical,
double is preferred because it gives you 53 bits of precision. That is roughly 14 decimal digits.