I have the following code:
#include <iostream>
class Grandma
{
public:
virtual void foo() = 0;
};
class Mom : public Grandma{};
class Dad
{
public:
void foo() { std::cout << "dad's foo impl"; }
};
class Me : public Mom, public Dad{};
int main()
{
Me m;
m.foo();
}
and getting : cannot instantiate abstract class
I know what this error means, I know I can't instantiate Grandma because of pure-virtual.
But why can't I instantiate Me, when compiler knows I am derived from Mom and Dad and Dad has foo
implemented?
I know I can fixed it by adding foo
into Me
and inside it call e.g. Dad::foo
, but I am afraid it is not solution for my case.
Is it really necessary to have virtual method implementation between its declaration and instantiated object (when traversing "class hierarchy graph")? See ASCI graph
A
|
B1 B2
\ |
C1 C2
| /
|/
D
|
E
When I want to instantiate E and have virtual declaration in A, the only way to make it run is to define it in A, B2, C1, D or E? and similarly when is virtual declaration in C2 only way is to define it in C2, D or E?
I know this may be silly question, but I had a loooong day and can not think anymore.
Please, do not answer just with - "It is not possible", but try to add explanation why not.
Thank you!
EDIT -- foo() in Dad
is of course should not be private
Dad
class doesn't derive fromGrandma
class, soDad::foo
doesn't override base class pure virtual function. Additionally, your derivation is not virtual, so you have two separate subobjects inMe
Dad
were to derive fromGrandma
, there would have been a diamond, and the same error, making the derivation virtual would have solved the latter.