You say you don't know if your numbers are integer or float... when you use the
Number class, the compiler also doesn't know if your numbers are integers, floats or some other thing. As a result, the basic math operators like + and - don't work; the computer wouldn't know how to handle the values.
Based on the discussion, I thought an example might help. Computers store floating point numbers as two parts, a coefficient and an exponent. So, in a theoretical system, 001110 might be broken up as 0011 10, or 32 = 9. But positive integers store numbers as binary, so 001110 could also mean 2 + 4 + 8 = 14. When you use the class
Number, you're telling the computer you don't know if the number is a float or an int or what, so it knows it has 001110 but it doesn't know if that means 9 or 14 or some other value.
What you can do is make a little assumption and convert to one of the types to do the math. So you could have
Number c = a.intValue() + b.intValue();
which you might as well turn into
Integer c = a.intValue() + b.intValue();
if you're willing to suffer some rounding error, or
Float c = a.floatValue() + b.floatValue();
if you suspect that you're not dealing with integers and are okay with possible minor precision issues. Or, if you'd rather take a small performance blow instead of that error,
BigDecimal c = new BigDecimal(a.floatValue()).add(new BigDecimal(b.floatValue()));