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Based on More Effective C++ Item 3: Never treat arrays polymorphically, we should avoid treating an array polymorphically.

So why we can use std::vector to hold pointers pointing to the base class without problems?

Thank you

#include <iostream>
#include "boost/shared_ptr.hpp"
#include <vector>

class BaseClass {
public:
    virtual void PrintMe() const {
        std::cout << "BaseClass" << std::endl;
    }
    virtual ~BaseClass() {}
};

class SubClass : public BaseClass {
public:
    virtual void PrintMe() const {
        std::cout << "SubClass" << std::endl;
    }
};

int main()
{
    std::vector<boost::shared_ptr<BaseClass> > vecPtrs;
    boost::shared_ptr<BaseClass> shp1(new BaseClass);
    vecPtrs.push_back(shp1);

    boost::shared_ptr<BaseClass> shp2(new SubClass);
    vecPtrs.push_back(shp2);

    for (size_t i = 0; i < vecPtrs.size(); ++i)
    {
        vecPtrs[i]->PrintMe();
    }
}

// Output:

BaseClass
SubClass
Press any key to continue . . .
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No difference. You could store the pointers in an array as well. The text is probably about not storing different types of objects directly in the array. That doesn't work with a vector either. –  Bo Persson Feb 19 '13 at 17:43
    
My question is about to store pointers of different subclass of a baseclass into a container. –  q0987 Feb 19 '13 at 17:45
    
an array polymorphically sounds very weird to me. You are using polymorphically as a noun when it is clearly an adverb? –  thang Feb 19 '13 at 17:53
    
@thang: Most sentences sound a bit weird if you accidentally a word. –  Mike Seymour Feb 19 '13 at 17:55
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4 Answers 4

up vote 8 down vote accepted

It's fine to use either an array or vector to hold pointers to polymorphic types.

The problem is if you try to treat an array of objects polymorphically. Array access via a pointer uses the pointer type to determine the size of the array objects, which will go horribly wrong if the pointer type does not match the object type.

Base * stuff = new Derived[10]; // No compile error: pointer conversion is allowed
stuff[2].do_something();        // Still no compile error, but weird runtime errors.
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There is nothing magic about std::vector. A regular array holding pointers to base classes will work just the same.

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My question is focus on polymorphism. –  q0987 Feb 19 '13 at 17:46
    
@q0987: The problems array have with polymorphism are the same that vector have. –  K-ballo Feb 19 '13 at 17:47
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The problem is this:

struct base {
    int element;
};

struct derived : base {
    int another_element;
};

void f(base *p) {
    std::cout << (void*)&p[1] << '\n';
}

int main() {
    derived array[20];
    std::cout << (void*)&array[1] << '\n';
    f(array);
    return 0;
}

If you run this program you'll get two different addresses for the element at index 1 in the array.

This happens because at the point of the call to f, the name array decays into a pointer to its first element. That's a derived*, and the compiler converts that pointer into a base* and passes it to f. Inside f, pointer arithmetic treats the passed-in pointer as a base*. p[1] points to an object whose address is sizeof(base) bytes above p, that is, it points into the middle of the first derived object in the array.

So anything you do with array elements other than the first will give you nonsense.

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It's saying you shouldn't do this:

Base array[N];
array[0] = Derived1();
array[1] = Derived2();

These derived objects will be sliced when they are placed in the array.

The exact same is true for a standard container like std::vector. For polymorphic behaviour in C++, you need to use pointers:

std::unique_ptr<Base> array[N];
array[0].reset(new Derived1());
array[1].reset(new Derived2());
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