Assuming you really want complex numbers, and not just the imaginary component:

I would model a complex number just as you would model a 2D point, i.e. a pair of numbers.

Just as a point has x and y components, so a complex number has real and imaginary components.
Both components can just be modeled with ordinary numeric types (int, float, etc.)

However, you will need to define new functionality for all of the mathematical operations.

Addition and subtraction of complex numbers works the same way as addition and subtraction of points - add the separate components to each other, don't mix them. For example:

(3+2i)+(5+4i) = (8+6i)

Multiplication works just like you learned in algebra when multiplying (a+b)*(c+d) = (ac+ad+bc+bd).

Except now you also have to remember that i*i = -1. So:

(a+bi)*(c+di) = (ac+adi+bci+bdii) = (ac-bd) + (ad+bc)i

For division and exponentiation, see http://en.wikipedia.org/wiki/Complex_number

`(5+2i)*(9+5i) = newValue`

or`e^(i*pi)`

– Derek 朕會功夫 Mar 14 '13 at 1:26