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Scott Meyer in his book Effective C++ says dynamic_cast is used to perform safe casts down or across an inheritance hierarchy. That is, you use dynamic_cast to cast pointers or references to base class objects into pointers or references to derived or sibling base class objects in such a way that you can determine whether the casts succeeded.

Failed casts are indicated by a null pointer (when casting pointers) or an exception (when casting references).

I would like to get two code snippet showing the failed cast in the case of casting pointer and casting reference can be indicated.

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4  
Are you asking for examples of code that tests whether a pointer is null and of code that catches an exception? – James McNellis Jul 16 '12 at 18:18
    
No. I do not understand how casts could fail as mentioned by Scott. A code snippet would definitely help. – nitin_cherian Jul 16 '12 at 18:21
1  
1  
@JamesMcNellis : Kindly remember we all start as beginners. I got the code snippet from Reed anyways. – nitin_cherian Jul 16 '12 at 18:32
up vote 11 down vote accepted

For pointers, it's a simple null check:

A* a = new A();
B* b = dynamic_cast<B*>(a);

if (b == NULL)
{
    // Cast failed
}

For references, you can catch:

try {
    SomeType &item = dynamic_cast<SomeType&>(obj);
}
catch(const std::bad_cast& e) {
    // Cast failed
}
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@LinuxPenseur The check is assuming that "a" has a valid value. You'd have to check that first (for the allocation). The dynamic_cast check is checking whether A can safely be cast to "B" - so the check is against b for NULL - ie: b is null and a is not null. – Reed Copsey Jul 16 '12 at 18:28
    
@ReedCopsey : What is meant my safe cast. In which situation can b become NULL ? – nitin_cherian Jul 16 '12 at 18:30
1  
dynamic_cast is used when a class is polymorphic (has virtual function) and it does run-time checks, returning a NULLpointer. Using dynamic_cast you are telling it to doexactly what you want instead of C-Style conversions where it tries various type of conversions. dynamic_cast is also used when you don't know the object to be converted, instead of static_cast that is used for non-polymoprhic classes and where both types on the conversion are known – Vinicius Horta Jul 16 '12 at 18:31
2  
@LinuxPenseur: new() doesn't necessarily return a null pointer on fail, you may need to check for an exception here also. b will become NULL if a is not an instance of B. – πάντα ῥεῖ Jul 16 '12 at 18:37
1  
@Suzi it'd be the same as != NULL – Reed Copsey Mar 22 at 5:15

Here's a complete example that shows how dynamic_cast can fail to produce a pointer.

class A
{
public:
    virtual void Foo();
};

class B: public A
{
};

class C: public A
{
};

void test()
{
    A a;
    B b;
    A* pA = &b;
    B* pB = dynamic_cast<B*>(pA);  // this works OK, returns the expected pointer
    C* pC = dynamic_cast<C*>(pA);  // this returns NULL because B isn't a C
}

In the real world you'll be trying to cast pointers that weren't so straightforwardly created, perhaps they come from a vector for example.

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Based on the OP's comment (" I do not understand how casts could fail as mentioned by Scott."), the real question here is really something like: "how could a dynamic_cast fail?"

The time it would fail is when the target type does not match the dynamic type of the object. For a simple example:

struct A {
   virtual ~A() {}
};

class B : public A {};

int main() { 
    A *a = new A;

    B *b = dynamic_cast<B *>(a);    // should fail
    if (b == NULL)
        std::cout << "First cast failed.\n";

    A *c = new B;
    b = dynamic_cast<B *>(c);       // should succeed
    if (b == NULL)
        std::cout << "Second cast failed.\n";
    return 0;
}

Here although a could point to an object of type B, it actually does point to an object of type A. When we try to do a dynamic_cast to get it to point to a B, that fails. In the second attempt, we again have a pointer that not only could but does point to an object of type B. Since it does, the dynamic_cast to B * succeeds in this case.

The basic situation doesn't change (much) for the reference case, just a, b and c become references instead of pointers, and we note the failure by catching an exception (which @ReedCopsey has already demonstrated well enough that I don't think I have anything new to add).

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