DoSomething procedures must reside outside the class hierarchy in this case. I can't reverse the structure, so I can't take advantage of class inheritance and polymorphism.
Furthermore, this is just an example. I'd like to focus on the core question: how can I cast an object to its parent class at runtime.
The key to understanding this is the fact that Delphi is a statically typed language. Remember also that you are calling non-polymorphic procedures. Which means that the type of the parameter is determined at compile time. And the overload resolution is based on that type. So, overload resolution happens at compile time.
So, your example:
does what you want because the type of the parameter is known at compile time. It's simply not possible to make anything like
do what you want because the type of the parameter has to be known at compile time.
How can I cast an object to its parent class at runtime?
This is the crux of the matter. Casting is not a runtime construct, it is a compile time construct. So the simple answer is that you cannot cast an object to its runtime type.
If you cannot use polymorphic dispatch then your only option is hard-coded casts. The example in Cosmin's answer shows how to do that in a quite usable fashion but the fact remains that overloads are resolved at compile time. There's simply no way to escape that.
You ask in a comment if RTTI can be helpful here. Well, it won't help you with any casting or overload resolution as already discussed. However, it can help you avoid lots of boilerplate hard coded casts. Here's a simple example:
TClass1 = class
TClass1Class = class of TClass1;
TClass2a = class(TClass1)
TClass2b = class(TClass1)
TClass1Dispatcher = class
class var Context: TRttiContext;
class procedure DoSomething_TClass1(AObj: TClass1);
class procedure DoSomething_TClass2a(AObj: TClass2a);
class procedure DoSomething_TClass2b(AObj: TClass2b);
class procedure DoSomething(AObj: TClass1; AClass: TClass1Class); overload;
class procedure DoSomething(AObj: TClass1); overload;
class procedure TClass1Dispatcher.DoSomething_TClass1(AObj: TClass1);
class procedure TClass1Dispatcher.DoSomething_TClass2a(AObj: TClass2a);
class procedure TClass1Dispatcher.DoSomething_TClass2b(AObj: TClass2b);
class procedure TClass1Dispatcher.DoSomething(AObj: TClass1; AClass: TClass1Class);
if AClass<>TClass1 then
LType := Context.GetType(TypeInfo(TClass1Dispatcher));
LMethod := LType.GetMethod('DoSomething_'+AClass.ClassName);
class procedure TClass1Dispatcher.DoSomething(AObj: TClass1);
Obviously such an approach relies on you following the naming convention.
One of the main benefits of this approach over the hard-coded casting variants is that the order of calling the inherited methods is determined by the class hierarchy.