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I currently have a class template that takes a series of types. Each type may need to be instantiated with the class, itself. What I currently have is something like this:

template <typename... Types>
struct TypeList; // Not defined

struct Placeholder; // Not defined

template <typename Types, typename AnotherType = Default>
class MyClass
    // ...

You can then use it like this:

typedef MyClass<TypeList<Container1<Placeholder>, Container2<std::string,
        Placeholder>, OtherType>, OptionalType> MyTypedef;
MyTypedef my_object;

MyClass will replace appearances of Placeholder with itself, use the resulting types, and all is well.

The problem occurs when I try to do something like either of these:

MyTypedef *my_ptr = &my_object;

Both of these cause a compiler error, because the compiler tries to instantiate Container1<Placeholder> and Container2<std::string, Placeholder> to do argument dependent lookup (ADL), and this instantiation with Placeholder, itself, fails.

I know it is possible to avoid ADL by doing, e.g.,

MyTypedef *my_ptr = std::addressof(my_object);

However, I don't want to burden the user of MyClass with having to constantly suppress ADL. Is there another, straightforward way to have the user provide a list of types without those types being used for ADL?

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At the risk of being obvious, why don't you just define TypeList and Placeholder? –  rici Feb 8 '13 at 21:25
I am not sure I understand this: "MyClass will replace appearances of Placeholder with itself, use the resulting types, and all is well." Can you explain what you mean? How can you replace the placeholder in MyClass<X<Placeholder>> with the full type that refers to the placeholder? –  David Rodríguez - dribeas Feb 8 '13 at 21:42
@rici Defining or not defining TypeList doesn't seem to make any difference. The problem with defining Placeholder is to what do I define it? Some templates wouldn't work with an empty struct, and I'd like to avoid having Placeholder mirror the entire interface of MyClass. –  rkjnsn Feb 8 '13 at 21:44
@rkjnsn, I don't actually understand what you're trying to do, but I don't see how a template that won't "work with an empty struct" will "work with an incomplete type". Mind you, I don't know what you mean by "work" in this context either. –  rici Feb 8 '13 at 21:53
@DavidRodríguez-dribeas MyClass basically does typedef typename SubstituteType<Types, Placeholder, MyClass>::type InternalTypeList, where SubstituteType does what it says on the tin. –  rkjnsn Feb 8 '13 at 21:54

1 Answer 1

Okay, I got everything working. The trick was to use a dependent type instead of using a template, directly. My final solution was to define TypeList as follows:

template <typename... Types>
struct TypeList
    struct Holder
        typedef TypeList<Types...> InnerTypeList;
        template <typename Types, typename AnotherType>
        friend class MyClass;
    typedef Holder type;

Then, the users of MyClass can do

typedef MyClass<TypeList<Container1<Placeholder>, Container2<std::string,
        Placeholder>::type, OtherType>, OptionalType> MyTypedef;
MyTypedef my_object;

Note the addition of '::type'

Finally, in MyClass, I replaced

typedef typename SubstituteType<Types, Placeholder, MyClass>::type InternalTypeList;


typedef typename SubstituteType<Types::InnerTypeList, Placeholder, MyClass>::type

giving me the same type for InternalTypeList as before.

Because the dependent type Holder has no template parameters of it's own, the compiler doesn't have to instantiate the Placeholder types for ADL purposes, and everything works properly.

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