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#include <iostream>
#include <string>
#include <map>
#include <vector>

class base {};
class derived1 : public base
        unsigned short n;
            n = 2;
class derived2 : public base {};

void main()
    // way 1
        std::vector<derived1> a1;
        std::vector<derived2> a2;
        std::map<std::string, base*> b;
        b["abc"] = &;

    // way 2
        std::map<std::string, base*> b;
        b["abc"] = new derived1();
        delete dynamic_cast<derived1*>(b.find("abc")->second);

The error is "'dynamic_cast' : 'base' is not a polymorphic type". What should be done to fix this? Is everything properly cleaned up in both way1 and way2?

share|improve this question
main return type shouldn't be void. – Mahesh Jan 9 '11 at 14:38
up vote 7 down vote accepted

To make Base a polymorphic type, you need to give it at least one virtual function. The easiest in this case would be the destructor:

class Base {
  virtual ~Base() { }

Regarding your question about cleanup:
Technically, there is some undefined behaviour in both ways, because the objects that the map refers to are destroyed before the pointers are removed from the map. This has the result that the map, when it is destructed, contains invalid pointers and that causes undefined behaviour.
For practical purposes, this does not cause any problems with any known compiler.

Otherwise, you are properly cleaning up everything.
But in way2, you can make a simplification. When Base has a virtual destructor, you can just do

delete b.find("abc")->second;

without the dynamic cast.

share|improve this answer
Thanks for the well written answer. I'm suprised and verry pleased that I can simplify the delete line in way2. So I can clean up objects on the other side of pointers where I don't know all the information about the type of the object that is being pointed to. – alan2here Jan 9 '11 at 14:53
Dangling pointers do not cause Undefined Behavior unless they are dereferenced. And a map<std::string, base*> does not dereference any of its base* pointers in its destructor or any other method. – aschepler Jan 21 '11 at 1:02
@aschepler: Dangling pointers also cause UB (although with typically benign effects) if they are used in a context where an 'lvalue-to-rvalue conversion' occurs. Such a conversion occurs when a map<X, Y> destructs its contents. – Bart van Ingen Schenau Jan 21 '11 at 9:13

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