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I found that dynamic_cast didn't work in a situation where I expected it to, and looking at the typeid of the objects at runtime has made the situation even less clear. I just want a cast from base to derived, and I can't figure out why it's not working.

I have a class structure something like this:

class BoundaryCondition {
public:
    virtual void DoSomething() = 0;

    virtual ~BoundaryCondition() { /* * */ }
}

class ReflectingBc : BoundaryCondition {
public:
    virtual void DoSomething();
}

class MarshakBc : BoundaryCondition {
public:
    virtual void DoSomething();

    MarshakBc(double value);

    void changeValueLaterOn(double value);
private:
    double value_;
}

I have (essentially) a std::vector<BoundaryCondition*> that represents boundary conditions in parts of the problem. I want to be able to take that vector and, for all MarshakBc objects inside it, call changeValueLaterOn. So I have a loop that looks like

for (std::vector<BoundaryCondition*>::iterator bc = bcPtrs_.begin();
        bc != bcPtrs_.end(); ++bc)
{
    if (std::string(typeid(MarshakBc).name()) == std::string(typeid(**bc).name()) )
    {
        std::cerr << "SAME! ";
    }

    if (typeid(MarshakBc) != typeid(**bc))
    {
        std::cerr << "NOT SAME ";
    }
    MarshakBc* thisBc = dynamic_cast<MarshakBc*>( &( **bc ) );
    if (thisBc == NULL) {
        std::cerr << "...nothing\n";
        continue;
    }
    thisBc->changeValueLaterOn( 1.23);
    std::cerr << "...set!\n";
}

If my vector contains a ReflectingBc*, then a MarshakBc*, my output looks like:

NOT SAME ...nothing
SAME! NOT SAME ...nothing

Am I misunderstanding something about dynamic_cast and typeid?

[The actual situation is more complicated than this because the definition of BoundaryCondition is in a different translation unit than the above code, and templates and such are involved, but the above code is very representative of what I'm doing and the result I'm getting.]


More details

Here is my actual routine, which is used inside a functor, and LoAnisoBc is the derived class and BoundaryConditionT is the base class:

template<class SnTraits_T, class LoTraits_T>
void FillLoAnisoBcs<SnTraits_T, LoTraits_T>::operator() (
        const BoundaryFaceT& bf,
        BoundaryConditionT& bc)
{
    std::cerr << "Want " << typeid(LoAnisoBc).name() << "\n";
    std::cerr << "Chkg " << typeid(bc).name() << "\n";

    if (std::string(typeid(LoAnisoBc).name()) == std::string(typeid(bc).name()) )
    {
        std::cerr << " SAME!";
    }

    if (!(typeid(LoAnisoBc) == typeid(bc))) {
        std::cerr << "...nothing\n";
    }

    // if we're not an "anisotropic BC", don't do anything
    LoAnisoBc* anisoBc = dynamic_cast<LoAnisoBc*>( &bc );
    if (anisoBc == NULL) {
        std::cerr << "...nothing\n";
        return;
    }

    anisoBc->setFCoeff( fCoeff_ );
    std::cerr << "; set fCoeff = " << fCoeff_ << "\n";
}

And here's the output

Want N6detLib17cellDiffusionOned28AnisotropicBoundaryConditionE
Chkg N6detLib17cellDiffusionOned27ReflectingBoundaryConditionE
NOT SAME...nothing
Want N6detLib17cellDiffusionOned28AnisotropicBoundaryConditionE
Chkg N6detLib17cellDiffusionOned28AnisotropicBoundaryConditionE
SAME! NOT SAME...nothing

So the bcPtrs_ structure and the boundary conditions are in one dynamic library (so it's one module in Python), and the instantiation of FillLoAnisoBcs is in another dynamic library. Erik suggests this as the probable issue and I agree.

share|improve this question
    
It should work. Could you provide a full test case showing the problem -- I fear the precise way you complete it is pertinent -- and additional informations such as tool chain and if the different C.U. are in different dynamic libraries. –  AProgrammer Apr 13 '11 at 16:12
    
How do you populate the vector? Show us the code... –  Nawaz Apr 13 '11 at 16:18
    
hmm.. not sure how this could work, bc is an iterator, when you de-reference the iterator your get a pointer to BoundaryCondition, the typeid of that pointer would be BoundaryCondition AFAIK... –  Nim Apr 13 '11 at 16:19
    
Sorry, that was a typo in my demo. See the real thing. @Nawaz: all of the relevant code would be thousands of lines. This is about as close as I can give you. –  Seth Johnson Apr 13 '11 at 16:24
    
@Seth Johnson: I guess you've hit a case of 18.5.1/1: "The names, encoding rule, and collating sequence for types are all unspecified and may differ between programs." - you're not really supposed to compare the names as there's no guarantees, but the behavior you see is still odd. Does it change if you e.g. use typeid(AnisotropicBoundaryCondition) .name() in the TU defining AnisotropicBoundaryCondition ? –  Erik Apr 13 '11 at 16:32
show 9 more comments

1 Answer

up vote 1 down vote accepted

typeid behaves strangely when you're crossing library boundaries - See e.g. When can typeid return different type_info instances for same type? for some cases. In particular, on linux you will need -rdynamic to ensure that type info objects from a library aren't removed, and thus inaccessible to the executable using the library.

My best guess at an explanation:

In the executable, where you see the LoAnisoBc definition, a type_info instance for LoAnisoBc exists. In the library, where LoAnisoBc "belongs", another type_info instance exists. type_info's operator== is likely implemented as a simple pointer comparison. So, when you get typeid of the static LoAnisoBc expression you get the executable instance, whereas the reference produces the library instance - same name but not same instance.

share|improve this answer
    
Looking at [type.info] in n3242 the implementation of operator== should normally return true if and only if the two objects being compared are the same (minus cv-qualification and reference). There is no guarantee that comparing the addresses of the type_info objects would work, but it seems to me that operator== should... Am I missing something ? –  Matthieu M. Apr 13 '11 at 17:40
    
@Matthieu M. As I said, I was guessing on the implementation the OP's toolchain uses - it would explain the behavior. There could definitely be other explanations as well, I just found this one likely, that type_info for his library compares pointers as the internal implementation of op== (The pointers of the backend structure, not the front type_info class). –  Erik Apr 13 '11 at 17:51
    
I understand, I'm just trying to see whether it conforms to the standard or not. It seem to me it does not... but I'm far from being a standardista. –  Matthieu M. Apr 13 '11 at 17:52
    
@Matthieu M. Consider a singleton structure containing a.o. the name literal and whatever other info is needed for a type - generated by the compiler. Then a type_info instance which contains only a pointer to this shared structure (produced by typeid). That'd give compliant behavior, and could produce the symptoms the OP sees when crossing lib boundaries - comparing the pointers to the different backend structures. –  Erik Apr 13 '11 at 17:55
    
I remember lurking through some boost header, that they needed to work around that particular problem too, when to use normal == compare and when to compare the names directly. Should be able to find out which compilers don't work with the normal way by looking at the defines. –  Xeo Apr 13 '11 at 21:17
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