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I know that you can store a bunch of Parent* objects in a vector. However, if the functions you need to call on the objects cannot be defined in the parent class (they depend on a template parameter of the subclass) then how are you supposed to retrieve the objects from the container?

In this example:

#include <iostream>

class ImageBase{};

template <typename TPixel>
class Image : public ImageBase
  TPixel GetPixel() const {TPixel a; return a;}

template<typename TImage>
void Output(const TImage* image)
  std::cout << image->GetPixel();

int main(int, char *[])
  // Works correctly
  Image<float>* image = new Image<float>;

  ImageBase* image = new Image<float>;

  return 0;

The Output(image); where 'image' is a ImageBase* fails (of course) because GetPixel is not defined in ImageBase. I know you can dynamic_cast<> to a bunch of types to figure out if the subclass matches any of them, but this list could very quickly get very long. The long list would be fine if it could reside in one place, but how would you make a function to do this? The function would take an ImageBase*, but what would it return?

returnType? GetSubclass(ImageBase* input)
    return Image<float>*;
  else if(dynamic_cast<Image<int>*>(input))
    return Image<int>*;

It seems reasonable to me to want to be able to call some template functions on subclasses that only vary in signature by their template parameter (as setup in this example), does it not?

In my real case, both Image and ImageBase are part of a library, so I cannot change them.

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check out the visitor design pattern, this allows you to implement double dispatch. –  P3trus Jan 9 '12 at 20:42
Try Boost.any perhaps, which as an any_cast function. –  Kerrek SB Jan 9 '12 at 20:44
Kerrek SB - for any_cast you already need to know the type, right? std::vector<boost::any> v; v.push_back(new int); int* any_cast<int> (v[0]); –  David Doria Jan 9 '12 at 20:51
p3trus - I thought the idea of double dispatch was "dispatches a function call to different concrete functions depending on the runtime types of two objects involved in the call". Here I only have one object, right? –  David Doria Jan 9 '12 at 20:53
@David: The two objects are the Image and the image-processing algorithm. –  Ben Voigt Jan 9 '12 at 21:01
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1 Answer 1

up vote 3 down vote accepted

Visitor pattern to recover the type information, possibly with a templated helper implementing the visit function.

First, let's make your algorithm into a polymorphic functor object:

struct Output
    std::ostream& dest;
    Output(std::ostream& destination) : dest(destination) {}

    template<typename PixelType>
    void operator()(const Image<PixelType>* image) const
        dest << image->GetPixel();

Now, let's add a visitor interface:

struct ImageVisitor /* abstract */
    virtual void Visit(Image<RGBQUAD>*) const = 0;
    virtual void Visit(Image<RGBTRIPLE>*) const = 0;
    virtual void Visit(Image<RGBQUAD16>*) const = 0;
    virtual void Visit(Image<RGBTRIPLE16>*) const = 0;
    virtual void Visit(Image<RGBQUADF>*) const = 0;
    virtual void Visit(Image<RGBTRIPLEF>*) const = 0;
    virtual void Visit(Image<RGBQUADD>*) const = 0;
    virtual void Visit(Image<RGBTRIPLED>*) const = 0;

And a forwarder:

template<typename Functor>
struct ImageVisitorShim : ImageVisitor
    Functor& fn;
    ImageVisitorShim(Functor& algorithm) : fn(algorithm) {}

    virtual void Visit(Image<RGBQUAD>     *im) const { fn(im); }
    virtual void Visit(Image<RGBTRIPLE>   *im) const { fn(im); }
    virtual void Visit(Image<RGBQUAD16>   *im) const { fn(im); }
    virtual void Visit(Image<RGBTRIPLE16> *im) const { fn(im); }
    virtual void Visit(Image<RGBQUADF>    *im) const { fn(im); }
    virtual void Visit(Image<RGBTRIPLEF>  *im) const { fn(im); }
    virtual void Visit(Image<RGBQUADD>    *im) const { fn(im); }
    virtual void Visit(Image<RGBTRIPLED>  *im) const { fn(im); }

And a factory:

template<typename Functor>
ImageVisitorShim<Functor> MakeImageVisitor(Functor& f) { return f; }

Now a visitor-compliant image wrapper:

struct VisitableImageBase
    virtual void VisitWith(const ImageVisitor&) = 0;

template<typename PixelType>
struct VisitableImage : VisitableImageBase
    unique_ptr<Image<PixelType>> content; // or shared or raw pointer, if ownership is elsewhere

    VisitableImage(Image<PixelType>* im) : content(im) {}

    virtual void VisitWith(const ImageVisitor& v) { v.Visit(content.get()); }

Finally, you are able to use a polymorphic vector of images!

vector<unique_ptr<VisitableImageBase>> images;
Output outputter(std::cout);
for( auto vim : images ) vim->VisitWith(MakeImageVisitor(outputter));

That was a lot of code, but the good thing is that new types can be added without affecting existing functors (just extend the shim) as long as the functor was implemented with a template. And not much code is needed to add more image processing functions (just a new template functor class, similar to Output).

share|improve this answer
Hm, I am aware of the Visitor pattern, but I don't see how it applies here. I've seen it in the context of performing an operation on every item in a container, but in this case, performing that operation is exactly where I am having trouble. Would I have to use the visitor in all of the functions I want to call with these objects? –  David Doria Jan 9 '12 at 20:49
@DavidDoria: Ok, example is done (but not tested). –  Ben Voigt Jan 9 '12 at 21:17
Ben Voigt - wow, that IS a lot of code. Thanks for the example! However, I have tons of function templates that would be very tedious to turn into Functors. I still don't really understand why this is so complicated. The subclass objects still "know" their type right - I don't see why there isn't a function that can get them back to their original type? (created by 'new') –  David Doria Jan 9 '12 at 21:30
Ben Voigt - does it become significantly easier if I could edit ImageBase? I suppose I could create my own parent class : class MyImageBase : public ImageBase and do whatever I want there. –  David Doria Jan 9 '12 at 21:37
@DavidDoria: In some future version of C++, you'll be able to trivially convert a function template to a polymorphic functor using lambdas. But polymorphic lambdas didn't make it into C++11. Having a function that can get the original type back is easy (#include <typeinfo>), but as you mentioned in your question, the problem is that you need the original type at compile-time, not run-time, so you can use it for return values, local variables, overload resolution, etc. And then you need run-time selection from all those compile-time variants. –  Ben Voigt Jan 9 '12 at 21:47
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