4.1.5 User-Defined References

Given a discriminated type T, the following type-related operational aspect may be specified:

A (view of a) type with a specified Implicit_Dereference aspect is a reference type. A reference object is an object of a reference type. The discriminant named by the Implicit_Dereference aspect is the reference discriminant of the reference type or reference object. A generalized_reference is a name that identifies a reference object, and denotes the object or subprogram designated by the reference discriminant of the reference object.

The expected type for the reference_object_name in a generalized_reference is any reference type. 

 The Implicit_Dereference aspect is nonoverridable (see 13.1.1).

A generalized_reference denotes a view equivalent to that of a dereference of the reference discriminant of the reference object.

Given a reference type T, the Implicit_Dereference aspect is inherited by descendants of type T if not overridden. If a descendant type constrains the value of the reference discriminant of T by a new discriminant, that new discriminant is the reference discriminant of the descendant. If the descendant type constrains the value of the reference discriminant of T by an expression other than the name of a new discriminant, a generalized_reference that identifies an object of the descendant type denotes the object or subprogram designated by the value of this constraining expression.

The evaluation of a generalized_reference consists of the evaluation of the reference_object_name and a determination of the object or subprogram designated by the reference discriminant of the named reference object. A check is made that the value of the reference discriminant is not the null access value. Constraint_Error is raised if this check fails. The generalized_reference denotes the object or subprogram designated by the value of the reference discriminant of the named reference object.