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I am trying a basic thing with two classes and a free functions. First I have two classes :

struct BASE{
    BASE(int a = 0):a_(a){};
    virtual ~BASE(){};
    virtual void foo(){std::cout << "BASE " << std::endl;}
    int a_;

struct DERIVED: public BASE{
    void foo(){std::cout << "DERIVED " << std::endl;}

then I fill up a std::vector (or boost::ptr_vector)

std::vector<BASE* > vec;    
vec.push_back( new BASE(2));
vec.push_back( new DERIVED);

If I call my function foo, no pb the virtual stuff works well, but if I create two free functions :

void foo(BASE*   a, DERIVED*   b){
    std::cout << " mix base/derived " << std::endl;

void foo(BASE*   a, BASE*   b){
    std::cout << " full base " << std::endl;

if I do

foo(vec[0], vec[1]); //failed

I will get the message

full base

Well it is logical because I have vector of BASE*, but does it exist anyway to get the good call to my free function ? I need the inheritance so I can not really separate the 2 classes because I must fill up this container

Moreover at the end my vector will be fill up randomly, so I can not know by advance how cast properly.

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3 Answers 3

up vote 2 down vote accepted

The simplest (and quickest) way to get workaround is to introduce one more virtual function to unique identify derived classes (using int, enum values or typeid). So later you may call it and realize what exact derived class (or maybe base) you've got behind the BASE*, and do dynamic_cast to that type.

You gave no details about what problem you are trying to solve... just make sure that you've done a complete reaseach for existed solutions if you want to implement a Double Dispatch (or some kind of)...

But usually, if you need dynamic_cast it means that smth wrong with you design (OOP model of domain)...

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if you use a hand made RTTI (enum etc) you don't need dynamic_cast, static_cast is enough –  user1773602 Dec 5 '12 at 13:46
not quite correct! consider multiple inheritance (a romb-like) –  zaufi Dec 5 '12 at 13:55
Well I am making linear algebra between matrices. Presently I have a dense matrix class. When you multiply matrices C = A*B, you call the blas GEMM solver. But if one of your matrices is an identity matrix, you should just return A or B and call nothing. Presently, the ID matrices is based on a matrices class, it is not optimal, I allocate useless memory, and call DGEMM for nothing. My matrices fill up a vector and operations are performed randomly. I try to simplify a maximum in this example. Agree I should avoid the dynamic_cast –  Timocafé Dec 5 '12 at 13:57
@Timocafé: it would have helped if you had included that bit of information. What about a virtual bool IsIdentityMatrix() const method? –  MSalters Dec 5 '12 at 14:56
Well I implemented a solution with an enum, but your proposition is also very nice (and better), thank you. –  Timocafé Dec 5 '12 at 15:07

Just as you don't know in advance what your vec[i] is, so doesn't the compiler. Function overload resolution is a compile time process, while polymorphism - run time.

Thus it calls the void foo(BASE* a, BASE* b) version.

In other words, what you want to do is impossible, unless you use dynamic_cast to try to cast to every possible derived class. It will return 0 if the object is of wrong type.

However, many people will argue that use of dynamic_cast is indication of bad design. And it's expensive as well.

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yes, cast is evil, like void pointer ^_^ –  Timocafé Dec 5 '12 at 13:58

You need dynamic dispatching for that, something like this:

void foo(BASE *a, BASE *b) {
  if (DERIVED *bb = dynamic_cast<DERIVED*>(b)) {
    foo(a, bb);
  } else {
    std::cout << " full base " << std::endl;

If you don't want to use a dynamic_cast, you could add a virtual function to BASE which would return some form of class identifier (e.g. an enum), override this in each derived class and then fork the call based on the return value of this function (along with static_cast).

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I should avoid dynamic cast, I will try an enum –  Timocafé Dec 5 '12 at 13:57

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