While the example you provide is technically a factory method, it isn't very useful. Design patterns are only beneficial insofar as they can simplify development of the target application/feature.

Generally, the benefit of a factory method implementation comes from:

- Standardizing the creation logic for objects
- Providing a semantically meaningful interface for object construction

It's unclear how an instance method that takes no parameters would possibly add benefit over a default constructor.

Take a look at the C# example from the Wikipedia Factory Method article. (copied + pasted below)

```
public class Complex
{
public double real;
public double imaginary;
public static Complex FromCartesianFactory(double real, double imaginary)
{
return new Complex(real, imaginary);
}
public static Complex FromPolarFactory(double modulus, double angle)
{
return new Complex(modulus * Math.Cos(angle), modulus * Math.Sin(angle));
}
private Complex(double real, double imaginary)
{
this.real = real;
this.imaginary = imaginary;
}
}
Complex product = Complex.FromPolarFactory(1, Math.PI);
```

It is useful, because it specifies two factory methods, each with clearly defined parameters and a clearly defined interpretation of how those parameters would be used to construct a valid instance of a well-defined object. In addition, the constructor is `private`

and the factory method is `static`

, which ensures that the only means of constructing an instance of that object is to use the factory method. While it doesn't apply to this example particularly (because all possible `double`

parameter values are valid), it would make sense to put validation logic in the factory method or constructor as well.

In general, **the purpose of a factory method is to reduce code complexity by encapsulating object construction** and it is unclear how the example you provided would accomplish that objective.

`CreateProduct`

, so we can't tell if it's an abstract or a concrete factory. – Peter Ritchie Apr 23 '13 at 15:02