I have an abstract super class that implements an interface:

```
public abstract class FooMatrix implements Matrix {
public Vector multiply(Vector vec) {
// Code for Matrix * Vector
}
}
public interface Matrix {
public Vector multiply(Vector vec);
}
```

and then I have a subclass that extends the super class and implements a second interface that represents a mathematical subclass of the mathematical class represented by the first interface:

```
public interface Vector {
// Methods
}
public class FooVector extends FooMatrix implements Vector {
@Override
public Matrix multiply(Vector rightVec) {
// Code for Vector * Vector
}
}
```

So the subclass is returning a super class of the return type of the abstract super class. This isn't working, and I want to know how I can make it work.

In mathematics, vectors are a subclass of matrices. A matrix times a matrix yields another matrix, in general. If the second matrix is a vector, the result is a vector. If both matrices are vectors, the result is a matrix or a scalar for column vector times row vector or row vector times column vector, respectively. This assumes the dimensions are compatible.

I would like to represent this behaviour with Java classes in a way that respects mathematics and gives the most specific return types possible. In other words, I want `fooMatrix.multiply(Vector vec)`

to return `Vector`

, and not just `Matrix`

, but I want `fooVector.multiply(Vector rightVec)`

to return `Matrix`

and not `Vector`

(which would be incorrect.) I can deal with a scalar as a 1x1 `Matrix`

with another `Vector`

method `inner`

that calls `multiply(Vector rightVec)`

and then returns the single element of the 1x1 return `Matrix`

as a scalar.

I have found questions regarding covariant return types, but nothing like this.

Thanks!

`Vector`

a subclass of`Matrix`

. – Louis Wasserman Jan 29 '13 at 5:02Matrix = Matrix, MatrixVector = Vector, CovectorMatrix = Covector, CovectorVector = Number, and Vector*Covector = Matrix. – wdb Jan 29 '13 at 16:08