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I have a homework in C++ to program a university. I have two main abstract classes Student and Course. In the Course, there are different child classes, such as SoftwareEngineering class... etc In the Student, there are different child classes, such as SoftwareEngineering student class.. etc.

Now, in the Course child classes, each child class has a function to register a student

void register(Student &s);

When I call the function register of each course child class ( such as the software engineering course class), I want to push that student reference into a vector. But I get the error

 cannot allocate an object of abstract type 'Student'

the Student class IS abstract, and has child classes SoftwareEngineeringStudent and such. But I -must- make the register function get an abstract object Student, not a specific type of student like SoftwareEngineeringStudent.

Is there a possible way around this?

here's a skeleton (not full code, of course!):

//Course.h
class Course{
virtual void reg(Student &s)=0

}
class SoftwareEngCourse : public Course{
void reg(Student &s);
}

//Student.h
class Student{
virtual void study(Course &c)=0;
}
class SoftwareEngStudent : public Student{
void study(Course &c);
}

now in the Course.cpp:

//Course.cpp
void SoftwareEngCourse::reg(Student &s){
   vector_of_Student_object.push_back(s);
}
share|improve this question
    
How do you call register function? You want to pass point of the child class and not the Student class, that's probably the issue. –  zadane Nov 13 '12 at 13:58
1  
Show us the declaraton for vector_of_Student_object. By the way, your variable naming is quite verbose. –  John Dibling Nov 13 '12 at 14:01
    
I call the register function in the main. the vector is defined as protected in the father class Course as std::vector<Student> members; By the way, perhaps the solution is dynamic casting? –  TheNotMe Nov 13 '12 at 14:04
    
@user1656647 dynamic casting? If adding to the vector was possible, it still wouldn't work because of slicing. –  Luchian Grigore Nov 13 '12 at 14:08

2 Answers 2

up vote 4 down vote accepted

In the comments you said that your vector is declared as:

std::vector<Student> vector_of_Student_object;

...and therein lies the problem. You trying to store Student objects in the vector, but you can't store a Student object because that class is abstract. Consider the following psudocode:

void foo(Student s)
{
}

int main()
{
  SoftwareStudent ss;
  foo(ss);
}

What happens to ss when foo is called? You are passing a SoftwareStudent, but foo just takes a Student. So ss is implicitly converted to its base class, Student which, since foo takes a Student by value, tries to construct a new Student by calling:

Student::Student(const Student& rhs)

In other words, the SoftwareStudent-specific attributes of ss You may not have implemented this constructor yourself, in which case the compiler did it for you.

The end result is you are trying to instantiate an abstract class because foo takes a Student by-value. This obviously won't work since you can't instantiate an abstract class.

This relates to your actual problem because your vector is a vector of Student objects, stored again by value. When you insert an object in to a vector, that object is copied. You end up trying to instantiate Student objects, which you can't do because Student is abstract.

You need to store something other than Student, either a Student reference or pointer. Since you can't have a vector of references, that leaves you with pointers.

Whenever dealing with pointers, it's best to deal with smart pointers rather than raw pointers as with smart pointers you don't need to worry as much about releasing the object, and very often you don't even have to use new explicitly. std::shared_ptr is probably the easiest to incorporate here, although std::unique_ptr might be a better fit semantically.

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This is pure amazing explanation, thank you. Will try it in a bit. Also, for some reason it is not identifying std::shared_ptr, even though I tried including tr1/memory, memory, and boost. But I will see about it. Will leave a comment in a bit when I try it. –  TheNotMe Nov 13 '12 at 16:38
    
Tried it and it worked. the register function of the course receives a reference to student. I declared the vector as a vector of pointers to student objects, and did vector.push_back(&s) (the address of the reference that came into the register function). This worked. But this leaves me wondering, this would be a whole lot of memory clearing. –  TheNotMe Nov 13 '12 at 16:41

Yes, make vector_of_Student_object a vector of (smart) pointers to students instead.

A vector of objects is probably not what you want anyway, since the objects will be sliced.

share|improve this answer
    
Whoever downvoted it didn't understand it, presumably. –  John Dibling Nov 13 '12 at 13:59
    
I dont know what smart pointers are and how to use them. Will look it up, but will be happy if I can get further indepth explanation on how to use smart pointers. –  TheNotMe Nov 13 '12 at 14:05
    
@user1656647 it's a C++ idiom which provides pointer-semantics to objects whose memory is managed automatically and provide clear ownership. You should look it up, in-depth description isn't going to fit in a comment box. –  Luchian Grigore Nov 13 '12 at 14:07
    
Upon further exploration, I've noted that we are allowed to use shared_ptr! will surely look it up. would shared_ptr in boost help? –  TheNotMe Nov 13 '12 at 14:09
    
@user1656647 yes, a vector of boost::shared_ptr or even std::shared_ptr would fix the issue. But then you'd also have to change the function to accept one of those instead of a student by reference. –  Luchian Grigore Nov 13 '12 at 14:10

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