Multiple Inheritance in C++

 

　　Multiple Inheritance is a feature of C++ where a class can inherit from more than one classes.

　　The constructors of inherited classes are called in the same order in which they are inherited. For example, in the following program, B’s constructor is called before A’s constructor.

#include<iostream>
using namespace std;

class A
{
public:
    A()  
    { 
        cout << "A's constructor called" << endl; 
    }
};

class B
{
public:
    B()  
    { 
        cout << "B's constructor called" << endl; 
    }
};

class C: public B, public A  // Note the order
{
public:
    C()  
    { 
        cout << "C's constructor called" << endl; 
    }
};

int main()
{
    C c;
    return 0;
}

　　Output:

　　B's constructor called
　　A's constructor called
　　C's constructor called
　　

　　The destructors are called in reverse order of constructors.

 

　　The diamond problem
　　The diamond problem occurs when two superclasses of a class have a common base class.

　　For example, in the following diagram, the TA class gets two copies of all attributes of Person class, this causes ambiguities.

　　For example, consider the following program.

#include<iostream>
using namespace std;
class Person 
{
    // Data members of person 
public:
    Person(int x)  
    { 
        cout << "Person::Person(int ) called" << endl;   
    }
};

class Faculty : public Person 
{
    // data members of Faculty
public:
    Faculty(int x):Person(x)   
    {
        cout<<"Faculty::Faculty(int ) called"<< endl;
    }
};

class Student : public Person 
{
    // data members of Student
public:
    Student(int x):Person(x) 
    {
        cout<<"Student::Student(int ) called"<< endl;
    }
};

class TA : public Faculty, public Student  
{
public:
    TA(int x):Student(x), Faculty(x)   
    {
        cout<<"TA::TA(int ) called"<< endl;
    }
};

int main()  
{
    TA ta1(30);
}

　　Output：

　　Person::Person(int ) called
　　Faculty::Faculty(int ) called
　　Person::Person(int ) called
　　Student::Student(int ) called
　　TA::TA(int ) called
　　

　　In the above program, constructor of ‘Person’ is called two times. Destructor of ‘Person’ will also be called two times when object ‘ta1′ is destructed. So object 'ta1' has two copies of all members of ‘Person’, this causes ambiguities（歧义）. The solution to this problem is ‘virtual’ keyword. We make the classes ‘Faculty’ and ‘Student’ as virtual base classes to avoid two copies of ‘Person’ in ‘TA’ class.

　　For example, consider the following program.

#include<iostream>
using namespace std;
class Person {
public:
    Person(int x)  
    { 
        cout << "Person::Person(int ) called" << endl;   
    }
    Person()     
    { 
        cout << "Person::Person() called" << endl;   
    }
};

class Faculty : virtual public Person 
{
public:
    Faculty(int x):Person(x)   
    {
        cout<<"Faculty::Faculty(int ) called"<< endl;
    }
};

class Student : virtual public Person 
{
public:
    Student(int x):Person(x) 
    {
        cout<<"Student::Student(int ) called"<< endl;
    }
};

class TA : public Faculty, public Student  
{
public:
    TA(int x):Student(x), Faculty(x)   
    {
        cout<<"TA::TA(int ) called"<< endl;
    }
};

int main()  
{
    TA ta1(30);
}

　　Output:

　　Person::Person() called
　　Faculty::Faculty(int ) called
　　Student::Student(int ) called
　　TA::TA(int ) called
　　

　　In the above program, constructor of ‘Person’ is called once. One important thing to note in the above output is, the default constructor of ‘Person’ is called. When we use ‘virtual’ keyword, the default constructor of grandparent class is called by default even if the parent classes explicitly call parameterized constructor.

　　How to call the parameterized constructor of the ‘Person’ class? The constructor has to be called in ‘TA’ class.

　　For example, see the following program.

#include<iostream>
using namespace std;
class Person {
public:
    Person(int x)  
    { 
        cout << "Person::Person(int ) called" << endl;   
    }
    Person()     
    { 
        cout << "Person::Person() called" << endl;   
    }
};

class Faculty : virtual public Person 
{
public:
    Faculty(int x):Person(x)   
    {
        cout<<"Faculty::Faculty(int ) called"<< endl;
    }
};

class Student : virtual public Person 
{
public:
    Student(int x):Person(x) 
    {
        cout<<"Student::Student(int ) called"<< endl;
    }
};

class TA : public Faculty, public Student  
{
public:
    TA(int x):Student(x), Faculty(x), Person(x)        //the difference 
    {
        cout<<"TA::TA(int ) called"<< endl;
    }
};

int main()  
{
    TA ta1(30);
}

　　Output:

　　Person::Person(int ) called
　　Faculty::Faculty(int ) called
　　Student::Student(int ) called
　　TA::TA(int ) called

 

　　In general, it is not allowed to call the grandparent’s constructor directly, it has to be called through parent class. It is allowed only when ‘virtual’ keyword is used.

　　

　　As an exercise, predict the output of following programs.

　　Question 1

#include<iostream>
using namespace std;

class A
{
    int x;
public:
    void setX(int i) 
    {
        x = i;
    }
    void print() 
    { 
        cout << x; 
    }
};

class B:  public A
{
public:
    B()  
    { 
        setX(10); 
    }
};

class C:  public A  
{
public:
    C()  
    { 
        setX(20); 
    }
};

class D: public B, public C 
{43 };

int main()
{
    D d;
    d.print();
    return 0;
}

　　编译错误： 'D::print' is ambiguous

 

　　Question 2

#include<iostream>
using namespace std;

class A
{
    int x;
public:
    void setX(int i) 
    {
        x = i;
    }
    void print() 
    { 
        cout << x; 
    }
};

class B:  virtual public A
{
public:
    B()  
    { 
        setX(10); 
    }
};

class C:  virtual public A  
{
public:
    C()  
    { 
        setX(20); 
    }
};

class D: public B, public C 
{
    
};

int main()
{
    D d;
    d.print();
    return 0;
}

　　Output：　　20

 

 

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　　2013-11-26　　20:11:35