I've asked a question about this class before, but here is one again.

I've created a Complex class:

```
public class Complex
{
public double Real { get; set; }
public double Imaginary { get; set; }
}
```

And I'm implementing the `Equals`

and the `Hashcode`

functions, and the Equal function takes in account a certain precision. I use the following logic for that:

```
public override bool Equals(object obj)
{
//Some default null checkint etc here, the next code is all that matters.
return Math.Abs(complex.Imaginary - Imaginary) <= 0.00001 &&
Math.Abs(complex.Real - Real) <= 0.00001;
}
```

Well this works, when the Imaginary and the Real part are really close to each other, it says they are the same.

Now I was trying to implement the HashCode function, I've used some examples John skeet used here, currently I have the following.

```
public override int GetHashCode()
{
var hash = 17;
hash = hash*23 + Real.GetHashCode();
hash = hash*23 + Imaginary.GetHashCode();
return hash;
}
```

However, this does not take in account the certain precision I want to use. So basically the following two classes:

`Complex1[Real = 1.123456; Imaginary = 1.123456]`

`Complex2[Real = 1.123457; Imaginary = 1.123457]`

Are `Equal`

but do not provide the same `HashCode`

, how can I achieve that?

`Complex c = new Complex(100,200);`

`Complex c2 = Complex.FromPolar(c.Argument, c. Magnitude);`

(I have not described the`c2`

functions/properties, but they are just basic complex number things. Now, mathematically those two complex numbers are exactly the same, yet programmatic they are not (they are not`Equal`

) – Timo Willemsen Apr 18 '11 at 13:41