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I have a generic function for pushing stuff on to the lua stack called luaU_push, which must be specialized for any type that wants to use it. For example:

template <>
inline void luaU_push<>(lua_State* L, const Vector2i& val)
{
    lua_newtable(L);
    luaU_setfield<int>(L, -1, "x", val.x);
    luaU_setfield<int>(L, -1, "y", val.y);
}

It turns out that Vector2i is actually a typedef. The real type is Vector2<int>. In a few other places I use Vector2fs, which are just a typedef for Vector2<float>.

I'd like to be able to have a luaU_push for Vector2fs. I could make a duplicate function for Vector2f, but I'd prefer to make this one generic so I can use it on any kind of Vector2<T>, but I can't figure out the syntax to do that. I thought that I could do something like this, but this does not appear to work:

template <>
template <typename T>
inline void luaU_push<>(lua_State* L, const sf::Vector2<T>& val)
{
    lua_newtable(L);
    luaU_setfield<T>(L, -1, "x", val.x);
    luaU_setfield<T>(L, -1, "y", val.y);
}

Is there a way to get this working the way I want?

Edit:

Follow up question: I had intended to use the answer to this question to fix a set of functions, including a few that only differ by return type, but I don't think the answer given is sufficient for this. For example, I have this function (which is basically the opposite of the function above)

template <>
inline sf::Vector2i luaU_to<>(lua_State* L, int index)
{
    return sf::Vector2i(
        luaU_getfield<int>(L, index, "x"),
        luaU_getfield<int>(L, index, "y"));
}

I don't believe that there's a way to use overloading to make this work in a generic way, and I can't use partial specialization. Is there any way to make it work in this case?

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1  
Function templates cannot be partially specialized. Use overloading instead. –  n.m. Feb 27 '12 at 7:15
    
n.m. is right: you should overload your function. But could you also please post your original generic luaU_push function before specialization? I fail to understand why you need to have this generic template function if you need to specialize it for evry type anyway... –  Francesco Feb 27 '12 at 7:43
    
@Francesco: The code is here. Perhaps I can get away with just overloading, but I did like the symmetry that I got with template specialization. e.g. lua_pushboolean is the same as luaU_push<bool> - and it makes it clear that the type you're pushing to Lua is what you expect. –  Alex Feb 27 '12 at 7:55

2 Answers 2

up vote 2 down vote accepted

Take this answer as a COMMENT.


    template < typename T >
    inline void luaU_push(lua_State* L, const sf::Vector2<T>& val)
    {
        lua_newtable(L);
        luaU_setfield(L, -1, "x", val.x);
        luaU_setfield(L, -1, "y", val.y);
    }

This should work. And in case of templated functions, a "base template" function will always have higher priority than a fully specialized one.

EDIT ::

You have overloaded the function "luaU_to" based upon the return type ! Which is not allowed and possible (unless you use some un-understandable/untidy nasty trick)

What you can do is, create a specialized version for each return data type and dont let compiler do the argument deduction for i.e mention the data type explicitly in the template call.

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Making my template specialization into an overload works in the case of my original example, but not in another case I have (a second example as been added to the question) - is there a way to make that work as well? –  Alex Feb 27 '12 at 8:04
    
@Alex: Seeing you code, a quick answer would be NO. functions cannot be overloaded on the basis of return type (a small exception in case of const) –  Arunmu Feb 27 '12 at 8:18

For your follow-up question:

as ArunMu noted above, it's illegal to overload a function or to specialize a template on the return type only.

What you could do instead is something like this:

class LuaCheck {
public:
  LuaCheck (lua_State* L, int index)
    : L_(L), index_ (index)
  { }

  operator int ()    { return luaL_checkinteger(L_, index_); } // (a)
  operator double () { return luaL_checknumber(L_, index_); }  // (b)

private:
  lua_State* L_;
  int        index_;
};

int main () {
  lua_State * L = ...;
  int index = ...;

  int    a = LuaCheck (L, index);  // will call (a)
  double b = LuaCheck (L, index);  // will call (b)
}
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