This have been asked in the interview.
How to write own dynamic_cast. I think, on the basis of typeid's name function.
Now how to implement own typid? I have no clue on it.
There is a reason you don't have any clue,
The pointer arithmetic
In order to illustrate this, think of the following design:
An instance of
Now think of the work necessary for casting:
Therefore, it is necessary to know the memory layout of the objects to be able to cast between one derived object and one of its base. And this is only known to the compiler, the information is not accessible through any API, it's not standardised or anything else.
In code, this would translate like:
And that is, of course, for a
Now, if you were able to use
Writing dynamic_cast ?
First things first, we need to clarify the specifications of
I don't know about you, but I think it's going to be ugly. Using
The issue here is that
Another amusing thing:
An almost solution
You need some little things in the constructor:
So, let's check:
Good luck to anyone trying to implement this outside of the compiler, really :x
ONe way is to declare a static identifier (an integer for example) which defines the class ID. In the class you could implement both static and scoped routines wich returns the class identifier (Remeber to mark routines virtual).
The static identifier shall be initialized at application initialization. One way is to call an InitializeId routine for each class, but this mean that the class names must be known, and the initialization code shall be modified each time the class hierarchy is modified. Another way is to check for valid identifier at construction time, but this introduces an overhead since each time a class is constructed the check is executed, but only the first time is usefull (additionally if no class is constructed, the static routine cannot be usefull since the identifier is never initialized).
A fair implementation could be a template class:
CLASS_IMP shall be defined in for each class deriving from ClassId, and gClassId and gClassMap shall be visible at global scope.
The available class identifiers are keeped by a single static integer variable accessible by all classes (a base class ClassID or a global variable), which is incremented each time a new class identifier is assigned.
To represents the class hierarchy is sufficient a map between the class identifier and its derived classes. To know whether any class can be casted to a specific class, iterate over the map and check declare derivations.
There are many difficulties to face... use of references! virtual derivations! bad casting! Bad class type mapping initialization will lead to casting errors...
Relationships between classes shall be defined manually, hardcoded with the initialization routine. This allow to determine whether a class derived from, or whether two classes as a common derivation.
Personally I agree with "there is a reason if compilers implements dynamic_cast"; probably the compiler do the things better (especially with respect of the example code!).
Easy. Derive all objects from some typeid interface with a virtual function WhoAmI(). Override it in all deriving classes.
To attempt an answer slightly less routine, if slightly less defined:
What you need to do is cast the pointer to an int*, create a new type T on the stack, cast a pointer to it to int*, and compare the first int in both types. This will do a vtable address comparison. If they are the same type, they will have the same vtable. Else, they don't.
The more sensible of us just stick an integral constant in our classes.