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Dynamic dispatching of template functions?

I would like to use non-type templates to create grid cells with different memory footprints without having to use dynamically allocated memory on the heap, e.g.

template <int cell_size>
class myCell {...}

There is a finite number of cell sizes (approx. 10), thus I can easily instantiate all of them explicitly. However, which one of the cells are needed is not known at compile time but during runtime only.

I know that templates are a compile-time concept, but is there a way to use templated classes in this way, especially since I can guarantee that all necessary cell types are explicitly instantiated?

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marked as duplicate by TemplateRex, scompt.com, kiamlaluno, AProgrammer, tereško Aug 27 '12 at 15:57

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1 Answer 1

You can use factory pattern, but you'll need a base class as a return type:

template <int cell_size>
class myCell : public cellBase {...}

struct CellFactory
   static cellBase* getCell(int cell_size)
      switch (cell_size)
         case 1:
            return new myCell<1>;
         //and so on

This works because you're telling the compiler which specializations it can expect. But I think that a better design exists for the underlying problem you're trying to solve.

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By "better design", do you mean something else than the factory pattern, or something else than using templates? –  Michael Schlottke Aug 25 '12 at 14:34
@MichaelSchlottke something other than templates. Really depends on the actual problem. –  Luchian Grigore Aug 25 '12 at 14:38
I thought about using templates, as this would allow the compiler to optimize loops over the internal cell data. As far as I understand C++, if cell_size is just a member variable and used to allocate memory on the heap, all loops over the cell data would be execute as-is, since the compiler cannot make any deductions on the best optimization strategy at compile time. –  Michael Schlottke Aug 26 '12 at 6:45

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