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I'm trying to write some metaprogramming code such that:

  • Inheriting from some class foo<c1, c2, c3, ...> results in inheritance from key<c1>, key<c2>, key<c3>, ...
  • The simplest approach doesn't quite work because you can't inherit from the same empty class more than once.
  • Handling the "..." portion isn't pretty (since it's copy-pasta), but works.

Okay, so, here's the attempt:

template<char c0, typename THEN, typename ELSE>
struct char_if
    typename THEN type;
template<typename THEN, typename ELSE>
struct char_if<0, THEN, ELSE>
    typename ELSE type;
class emptyClass {};

template<char c> class key
    char getKey(){return c;}

template<char c0, char c1, char c2, char c3, char c4>
class inheritFromAll
    typename char_if<c0, key<c0>, emptyClass>::type valid;

    class inherit
        : valid
        , inheritFromAll<c1, c2, c3, c4, 0>::inherit

template<char c1, char c2, char c3, char c4>
class inheritFromAll<0, c1, c2, c3, c4>
    class inherit {};

template<char c0 = 0, char c1 = 0, char c2 = 0, char c3 = 0, char c4 = 0>
class whatINeedToDo
    : public inheritFromAll<c0, c1, c2, c3, c4>::inherit
    bool success(){return true;}


int main() 
    whatINeedToDo<'A', 'B', 'c', 'D'> experiment;
    return 0;

I had originally though I could use Boost::Mpl to do it, but I honestly couldn't figure out how; I couldn't figure how you'd pass around a list<...> without always explicitly knowing the ... part.

Just doing:

template<> class key<0> {};

doesn't work because if I then have more than one 0 parameter, I try to inherit from the same thing twice. (If you can think of workaround for that, that'd also work).

I also haven't tried macros, because I think I know them less than I know metaprogramming, so they might work as a solution.

Any ideas?

Edit: I have a bad solution. I'd still like a meta-programming solution, for the learning, but the bad solution is this:

template<char c1, char c2, char c3> class inheritFromMany
    : public key<c1>
    , public key<c2>
    , public key<c3>

template<char c1, char c2> class inheritFromMany<c1, c2, 0>
    : key<c1>
    , key<c2>


Edit2: Woof, but I forgot a part. I need to pass a variable to the constructor of ''key'' - it's the same in all cases, but it's necessary.

Edit3: Addressing comments:

  • I'm not expecting the user to submit the same character more than once. If they did, I would only only want to inherit from that key once - I mean, I guess I didn't mention that because you can't do that? Which is why other, simpler solutions don't work?
  • The actual point of this is that key is a wrapper for a signal/slot (channel) behavior. The channel keeps a list of callbacks, which is actually just virtual key<ch>::callback. So, inheriting from a key gives you access to that key's channel, lets (or makes) you supply a callback. keyInput<ch1, ch2, ch3,...> is then a wrapper for that, so you don't have to key<ch1>, key<ch2>, key<ch3>
share|improve this question
You are missing the important piece of information from the question: what is it that you want to achieve. If presented with a list that contains the same element more than once, what do you expect to happen? Inherit from key<ch> only once removing duplicates? –  David Rodríguez - dribeas Feb 25 '10 at 22:59

1 Answer 1

up vote 3 down vote accepted

Without you saying what you actually want to achieve, this is a mostly academic exercise... but here is one way how you'd use MPL to inherit linearly:

template<class T> struct key {
    enum { value = T::value };
    char getKey() { return value; }

template<class Values> struct derivator 
    : mpl::inherit_linearly<
        , mpl::inherit< mpl::_1, key<mpl::_2> >

// usage:    
typedef mpl::vector_c<char, 1,2,3> values;
typedef derivator<values> generated;

// or:
derivator< mpl::vector_c<char, 1,2,3> > derived;

Maybe you can clarify on that basis what you need.

I need to pass a variable to the constructor of ''key'' - it's the same in all cases, but it's necessary.

Do you mean you want to pass a parameter through the inheritance-chain to all constructors? Then take a look at the solutions to this question.

As for avoiding mpl::vector_c in the visible interface, you could use your previous approach and build it internally by only inserting values not equal to zero in it:

template<char c, class S> struct push_char {
    typedef typename mpl::push_front<S, mpl::char_<c> >::type type;

template<class S> struct push_char<0, S> {
    typedef S type; // don't insert if char is 0

template<char c1=0, char c2=0, char c3=0>
struct char_vector { 
    // build the vector_c
        typename push_char<c1
      , typename push_char<c2
      , typename push_char<c3
      , mpl::vector_c<char> 

template<char c1=0, char c2=0, char c3=0> 
struct derivator 
    : mpl::inherit_linearly<
          typename char_vector<c1,c2,c3>::type
        , mpl::inherit< mpl::_1, key<mpl::_2> >
share|improve this answer
Is there any way to avoid using mpl::vector_c in usage? –  Narfanator Feb 26 '10 at 3:37
Of course you can make derivator a pseudo variadic template, but then you basically end up replicating vector_c or similar (like with most MPL functionality). Why exactly would you need to? –  Georg Fritzsche Feb 26 '10 at 4:43
It looks like the key bit is the inherit_linearly<_1, key<_2> >? –  Narfanator Feb 26 '10 at 20:04
Yes, the inherit_linearly expression is the core here. The rest is neccessary work around it. –  Georg Fritzsche Feb 26 '10 at 21:11

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