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The following code produces this output:

1 is a null pointer
2 is not a null pointer

Code

class base {};
class derived1: public base {};
class derived2: public base {};

int main() {
    base *baseptr[1];
    baseptr[0] = new derived2;
    derived1 *derptr = new derived1;
    derived1 *derivedptr1 = dynamic_cast<derived1*>(baseptr[0]);
    derived1 *derivedptr2 = dynamic_cast<derived1*>(derptr);
    cout<<((derivedptr1==0)?"1 is null pointer":"1 is not a null pointer") << endl;
    cout<<((derivedptr2==0)?"2 is null pointer":"2 is not a null pointer") << endl;
}

Why is derivedptr2 only initialised and derivedptr1 is not? As both have a valid right hand side value. Does this have something to do with dynamic cast and the fact that in second case I am casting a derived1* to a derived1*?

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2  
Please first explain what you find confusing or strange about the output. –  Karl Knechtel Jun 4 '11 at 5:12
    
Why did you include static_cast in the caption, when the actual question does not even mention static_cast? –  AndreyT Jun 4 '11 at 5:27
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2 Answers

Firstly, your code is not compilable. In order to use dynamic_cast for anything else than upcasts you need a polymorphic type as the pointer operand. You are using it for [an attempted] cross-cast and your types are not polymorphic.

Secondly, if you make your classes polymorphic (so that the code compiles), then the behavior you report is really the expected behavior. The derivedptr1 pointer should indeed be null since derived2 object is not a derived1 object (and the objects in question are not parts of any common superobject). The cross-cast fails, and the dynamic_cast therefore evaluates to a null pointer. Did you expect anything else?

In the second case (for derivedptr2) you have an "identity" cast of derived1 * to derived1 *. The type is the same, so this cast is essentially a no-op. It just evaluates to the original value.

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*dynamic_cast* is used to check the validity of the downcast.
It returns a valid pointer if the pointer actually points to a type being casted to or a class derived from the class being pointed to.

baseptr[0] points to the type derived2.

With

dynamic_cast<derived1*>(baseptr[0]);

You are trying to check if basepte[0] actually points to derived1 or a class derived from it. Obviously, its neither so it returns a 0.

Similary, derptr is pointing to a type derived1.

With

dynamic_cast<derived1*>(derptr);

You are trying to check if derptr points to derived1, which is correct, hence it returns a valid pointer type, resulting in prints to Not null.

A Caveat: As @AndreyT rightly pointed out dynamic_cast only works for Polymorphic classes!

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