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I want to implement a factory function for creating objects. My object template looks like this:

template <typename TA, typename TB>
struct MyImpl : public MyInterface
    // content

and my factory is like this:

MyInterface* factory(char ta, char tb)
    if(ta == 'c' && tb == 'c')
        return new MyImpl<char, char>();
    if(ta == 'c' && tb == 's')
        return new MyImpl<char, short>();
    if(ta == 's' && tb == 'c')
        return new MyImpl<short, char>();
    // and so on ....

The factory function must accept non-static char data (ta, tb) for it could not be determined at compile time, and I think that's the whole point of this factory. In fact, ta and tb are read from a file (or network).

I want a simpler solution to avoid the annoying 2-level switch.

I think my question is similar to how-would-one-write-a-meta-if-else-if-in-c with the exception that I cannot use static parameters.

Perhaps I should just fallback to C macros and use some macro tricks to shrink my current code?

Thanks in advance!


Answer to @Rob:

My actual code would be more complex with many other stuffs in it and harder to read and not related in many aspects. I'm trying to get the pseudo-code right, If there is any problem, please kindly inform me :-).

Answer to @Dynguss:

My problem is that in my actual implementation, parameters of the factory (ta, tb) would be large in range, like 10 X ta and 20 X tb, and combination of ta and tb would be very long in lines, and hard to maintain. So I need at least some way to ease the combination efforts.

share|improve this question
Factroy? You mean "Fake Troy", like in ancient Greece? Are you trying to write a Trojan? – Kerrek SB Sep 24 '12 at 13:45
@Dynguss: I think the example speaks for itself: <short, char> – Karoly Horvath Sep 24 '12 at 13:52
Is generating the code an option? You could generate a nice switch, and reduce the O(n^2) to an O(n) lookup. – Karoly Horvath Sep 24 '12 at 13:53
@Dynguss: it's a factory, creating objects based on saved textual configuration. if it's not clear, you should check what the factory design pattern is. – Karoly Horvath Sep 24 '12 at 13:59
Your code has two errors in it that may be unrelated to question, or may not. Could you post actual (not pseudo-code) that demonstrates your question? See for more information. – Robᵩ Sep 24 '12 at 14:57

3 Answers 3

up vote 13 down vote accepted

Here's an idea:

template <typename T>
MyInterface * factroy(char t)
    if (t == 'c') { return MyImpl<T, char>();  }
    if (t == 's') { return MyImpl<T, short>(); }
    // ...

MyInterface * factory(char ta, char tb)
    if (ta == 'c') { return factroy<char>(tb);  }
    if (ta == 's') { return factroy<short>(tb); }
    // ...

With variadic templates, this pattern could be extended to any number of type arguments – for example:

struct Base { virtual ~Base() = default; };
template <typename A, typename B, typename C> struct Foo : Base { };

#include <tuple>

template <typename ...Args>
constexpr Base * factory(std::tuple<Args...>)
    return new Foo<Args...>;

template <typename ...Args, typename ...Char>
constexpr Base * factory(std::tuple<Args...>, char t, Char ... ts)
    return t == 'c' ? make(std::tuple<char,      Args...>(), ts...)
         : t == 's' ? make(std::tuple<short int, Args...>(), ts...)
         : t == 'i' ? make(std::tuple<int,       Args...>(), ts...)
         : t == 'l' ? make(std::tuple<long int,  Args...>(), ts...)
         : nullptr;

Usage: auto p = factory(std::tuple<>(), 'c', 's', 'l');

share|improve this answer
Nice use of factroy! – paddy Sep 24 '12 at 14:07
Quite a bit more elegant, still two switches, though. – Arkadiy Sep 24 '12 at 14:15
@Arkadiy: with C++11 it can be done with just one, I think. – Kerrek SB Sep 24 '12 at 14:51
Could you demonstrate how? Or direct me at a place where I can see it? My familiarity with 11 is sadly lacking at the moment... – Arkadiy Sep 24 '12 at 15:07
@Arkadiy: Something like template <typename ...Args, typename ...Chars> factory(Chars ... ts), and then unwrap. Let me see if I can rig something up. – Kerrek SB Sep 24 '12 at 15:56

What about:

MyInterface* factory(char ta, char tb)
    switch( ta << 8 | tb )
    case 'cc': return MyImpl<char, char>();
    case 'cs': return MyImpl<char, short>();
    case 'sc': return MyImpl<short, char>();
    // and so on ....

NOTE: This work fine on Intel/AMD x86 and x64, on CPU with different endianness (for example PPC), you must swap ta and tb like this: switch( ta | tb << 8 ).

share|improve this answer
I get your point, but I think there's little difference between your impl and my pseudo code, except for in efficiency aspect. May be you didn't get my problem, thanks anyway. – tdihp Sep 25 '12 at 2:07

If you could separate you Impl constructor into new Impl(new InnerImpl) then there is a possibility of a very involved solution that replaces switches with a map:

  struct Creator {
     virtual ~Creator(){};
     virtual Interface *create(InterfaceInner *) = 0;
     virtual InterfaceInner *createInner() = 0;

  std::Map<char, Creator *> creatorMap;

  template<char T>
  struct Factory {
     Factory() {
       creatorMap.insert(T, &this->creator);

  struct Factory<'s'> {
    struct ShortCreator : public Creator {
     virtual Interface *create(InterfaceInner *inner) {return new Impl<short>(inner);}
     virtual InterfaceInner *createInner(return new ImplInner<short>());
    } creator;

  Factory<'s'> shortFactory;
  Factory<'c'> charFactory;

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