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I am just wondering if the following C++ code guaranteed to work:

struct B1 {
    virtual void f() {};

struct B2 {
    virtual void f2() {};

struct D:public B1,public B2 {

int main() {
    D d;
    B1 *b1=&d;
    if (dynamic_cast<B2*>(b1)) {
      B2* b2 = reinterpret_cast<B2*>(b1); //is this conversion valid?
    return 1;

Of course, you would why do i need this? Because i want to replace this:

C::C(B1* b): member(dynamic_cast<B2*>(b)?dynamic_cast<B2*>(b)->m():b) {};

with better construction (by performance, to not check type safety twice):

C::C(B1* b): member(dynamic_cast<B2*>(b)?reinterpret_cast<B2*>(b)->m():b) {};

Thanks in advance!

share|improve this question
"Because i want to replace this (...) with something better (...)"? Your premise is wrong. – R. Martinho Fernandes Aug 15 '12 at 19:04
In which way is the second one better than the first? And please don't say performance. I'm not really one of the "anti-premature-optimization"-guys, but you don't mourn about the performance of a dynamic_cast when using things like virtual methods anyway, which bring more or less the same (negligable) performance-overhead (and are usually an even better approach than dynamic_casts, aynway). – Christian Rau Aug 15 '12 at 19:11
@ChristianRau - a static_cast won't work here. A static_cast can be used to move up or down in a hierarchy that's know to the compiler at the point of the cast. It won't do a cross-cast like the one at issue here. – Pete Becker Aug 15 '12 at 19:57
@ChristianRau - "inside" the hierarchy is not the same as "up or down". A static cast only moves up or down, not sideways. So it can go from a base class to a derived class, or from a derived class to a base class, but not from a B1* to a B2*. That requires a runtime determination that the actual type of the object that the B1* points to is a derived type that is also derived from B2. – Pete Becker Aug 15 '12 at 20:19
up vote 3 down vote accepted

No, that's definitely not valid. All you can do safely with reinterpret_cast is cast it back to the original type; anything else is implementation defined.

share|improve this answer
Thanks, this answers my question. – gena2x Aug 15 '12 at 20:47

The solution to a software problem is often to add a level of indirection, in this case, a function. Assuming that the dynamic_cast's are supposed to be to B2* (not B1), write a function that does the right thing:

B1 *get_b(B1 *b) {
    B2 *b2 = dynamic_cast<B2*>(b);
    if (b2)
        return b2->m();
        return b;

Then use that function in the initializer list:

C::C(B1 *b) : member(get_b(b)) { }
share|improve this answer
This is not direct answer, but better approach. Thanks . – gena2x Aug 15 '12 at 20:47
@gena2x - sometimes the right answer is to unask the question. <g> – Pete Becker Aug 15 '12 at 20:48
Unsure if i can follow this way, because this would require adding some kind of library to place this function, but still somehow i didn't thought about it =) – gena2x Aug 15 '12 at 20:55
@gena2x - you can make it an inline function, defined in the same header as the class that uses it. It could (and probably should) also be a static member function of that class. – Pete Becker Aug 15 '12 at 21:03
This "trick" supposed to be used multiple times across many classes, so, unfortunately, adding something to local translation unit would not help – gena2x Aug 15 '12 at 21:13

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