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I have a base class, Parameter, and two derived classes: Scalar & Vector. In each derived class, I have a member function which takes a function pointer as input:

In the Scalar class:

typedef double (*samplerType)(RandNum& rnState);
void RegisterSampler( samplerType input );

In the Vector class:

typedef std::vector<double> (*samplerType)(RandNum& rnState);
void RegisterSampler( samplerType input );

Note the different return types: double and std::vector<double>. I would like to define this function within the mutual base class, Parameter -- so I changed the functions to take (void* input) and then tried the following when defining the functions within the Scalar & Vector classes:

samplerType inputSampler = dynamic_cast< samplerType >(input);

However, I get the following error in VS 2005:

error C2680: 'double (__cdecl *)(RandNum &)' : invalid target type for dynamic_cast
target type must be a pointer or reference to a defined class

Grumble Grumble Grumble... I'm not sure if this is valid (standard permitting) C++ or not, but I guess either way I'll treat this as a flaw in my design.

So, My standard approach would be to template the base class with the return type of the function, but I can't. The base class, Parameter, must -- by design -- be free of all type information. Is there a different way to design the inheritance?

My attempts to Google this have turned up virtually nil on function pointers -- Hence I'll believe that this is in fact invalid syntax, but perhaps just a really, really uncommon design challenge? Is this another one of those places, functors to the rescue?

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I don't understand the rationale: why do you want this typeless Parameter member to be in the base class? You can't use it since its type is unknown. A function object can't help you (unless you did something ugly like declare it as returning a boost::any) because the return type is essential to the type of the function object. –  James McNellis Apr 2 '11 at 0:16
I don't want it in the Base class, but I want access to the Registration function from a base class pointer. In other words, I have an array of Parameter* and I'd like to register a function which I know has the correct signature for given Parameter*. –  M. Tibbits Apr 2 '11 at 0:20
To what end? You can't use it unless you know its actual type, which from what you have said is dependent upon the derived classes, right? –  James McNellis Apr 2 '11 at 0:22
It doesn't seem like very good form to have a registration function in the base class that takes functions (pointers or objects) that actually return different types, as this difference is depended upon by the descendant classes and thus breaks polymorphism. –  Jollymorphic Apr 2 '11 at 0:25
Yes, I have a Parameter*, but I happen to know its true derived type. I'd like to call RegisterSampler on the Parameter*, but I guess I should just dynamic_cast< DerivedType* > first to avoid this whole mishegoss. Thanks! –  M. Tibbits Apr 2 '11 at 0:27
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1 Answer

up vote 1 down vote accepted

Aside from the design flaw that James points out, it's true that you can't cast from a function pointer to a normal void* pointer. You can however cast between function pointers of arbitary types (free-to-free, member-to-member):

typedef void (*samplerType)();
// in base class ...
samplerType sampler_;
template<class F>
void RegisterSampler(F sampler){
  // template so the user doesn't have to do the type cast
  sampler_ = reinterpret_cast<samplerType>(sampler);
// in derived class, where you access the sampler, you need to cast it back:
// (scalar)
typedef double (*realSamplerType)(RandNum& rnState);
// made-up function ...
void UseSampler(){
  realSamplerType sampler = reinterpret_cast<realSamplerType>(sampler_);
  double ret = sampler(param...);
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I just tried this and got: error C2440: 'static_cast' : cannot convert from 'Matrix<> (__cdecl *)(RandNum &)' to 'void (__cdecl *)(RandNum &)' Incompatible calling conventions for UDT return value –  M. Tibbits Apr 2 '11 at 0:41
@M. Tibbits: Lemme check that. –  Xeo Apr 2 '11 at 0:42
What you're saying looks reasonable, I just found this link, interesting read which agrees with you -- though you lose type-safety... type-safety? what type-safety? –  M. Tibbits Apr 2 '11 at 0:46
@M. Tibbits: My bad, you of course need a reinterpret_cast there. I have a bad habbit of just using C-Style casts so I always forget when to use which C++ cast... –  Xeo Apr 2 '11 at 0:47
@M. Tibbits: You can even use the typedefd version. :) That's what I meant with C-Style cast in my earlier comment. And the "void" function pointer doesn't need a parameter btw. Aside from that, dynamic_cast is only for pointers to struct/class objects, from base to derived and such. –  Xeo Apr 2 '11 at 0:54
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