currently not possible to declare a class type for a generic class.
See QC76605 for more information. Also the update below.
TMyClass<T> = class
TMyClassClass<T> = class of TMyClass<T>; //E2508 type parameters not allowed on this type
The workaround that is presented looks like this :
TMyIntClass = TMyType<Integer>;
TMyIntClassClass = Class of TMyIntClass;
But as commented, that would defeat the whole idea of generics, since the class would have to be subclassed for every generic instantiation.
Here is also a link to a similar workaround on generating a specialized subclass of a generic type: derive-from-specialized-generic-types. In this case it would look like this :
TMySpecialClass = Class(TMyType<Integer>);
The workaround proposed by RM:
TMyType<T> = class(a.TMyType<T>);
can be implemented with type safety using following scheme:
TMyType<T> = class
//WriteLn( Self.QualifiedClassName,' ',Unitb.TMyType<T>.QualifiedClassName);
Assert(Self.QualifiedClassName = Unitb.TMyType<T>.QualifiedClassName);
TMyType<T> = class(Unita.TMyType<T>);
Unita in 'Unita.pas',
Unitb in 'Unitb.pas';
t1 : Unita.TMyType<Integer>;
t2 : Unitb.TMyType<Integer>;
t3 : TMyType<Integer>;
//t1 := Unita.TMyType<Integer>.Create; //Exception EAssertionFailed !!
t2 := Unitb.TMyType<Integer>.Create;
t3 := TMyType<Integer>.Create;
When creating the generic class, a test is made to check that the created class is derived from the type declared in unit b. Thereby all attempts to create this class from unit a is detected.
Just to be clear, a reference to a generic class, "
class of type<T>" is not possible, but a copy of a generic class is fine.