1
template <class T>
class List
{
    public:

        List();
        ~List();

        ...

    protected:

        template <class T> struct Item
        {
            struct Item* next;
            T data;
        };

        ...

        struct Item<T>* allocate();
};

template <class T>
struct Item<T>* List<T>::allocate() // error here
{
    ...
    return object; // struct Item<T>*
}

how can i do that?

3
  • What is the specific error you get? Feb 22, 2010 at 16:34
  • Was it your intent to make the inner Item a template by itself or not? Feb 22, 2010 at 16:53
  • syntax error. it works now. thx to Matthieu M.
    – ohohoho
    Feb 22, 2010 at 16:58

5 Answers 5

3

You are reusing the T type name. Use a different one: template <class U> struct Item { ... (or remove templatization from Item all together - it looks like you are just fine with outer template parameter):

template <class T>
class List
{
    ...
    protected:

        struct Item
        {
            Item* next;
            T data;
        };

        Item* allocate() { return object; }
};
4
  • 1
    Why is this downvoted? It's correct... no need for Item to be declared as a template as well, since the intent is to reuse the same type as the class template was instantiated as.
    – Nick Meyer
    Feb 22, 2010 at 16:44
  • @Nick Meyer: (I didn't downvote it.) But, firstly, it doesn't answer the question, which was about out-of-class definition. And, secondly, how do you know the intent? In the OP, Item is an independent nested template, which can be used for other purposes in other contexts. Nothing says that it willalways be instantitated with the same argument as the "outer" class. Feb 22, 2010 at 16:59
  • And how using same type name for nested template helps then? Feb 22, 2010 at 17:21
  • What name are you talking abouyt? The parameter name T? It doesn't help. It is an error. The parameter name in the inner template must be different from the outer template's parameters. Apparently, in this case OP not only doesn't know the answer, the OP doesn't even know the question. Feb 22, 2010 at 18:12
3

The correct syntax for method definition is

template <class T>
typename List<T>::Item* List<T>::allocate()
{ 
    ... 
    return object; // struct Item<T>* 
} 

For some reason other posters insisted on attaching the <T> part to Item instead of List (tricked by your original version, apparently).

Sorry, I haven't noticed that Item is also a tempate by itself. In that case it has to be

template <class T> 
typename List<T>::template Item<T>* List<T>::allocate()
{ 
    ... 
    return object; // struct Item<T>* 
} 

However, note that it is illegal to re-use the same parameter name in the inner template declaration!!! Your original class definition is illegal. It has to be changed to something like

template <class T>
class List 
{ 
  ... 
  template <class U> struct Item // Note: `U` used intead of `T`
  { 
    struct Item* next; 
    U data; 
  }; 
  ...
  struct Item<T>* allocate(); 
}; 
2
  • Doesn't it have to be List<T>::Item<T>* because both List and Item are templates?
    – sepp2k
    Feb 22, 2010 at 16:44
  • @sepp2k: You are right. I think I finally got all the bits and pieces right. Feb 22, 2010 at 16:55
2

Write:

template <class T>
struct List<T>::Item* List<T>::allocate()
// etc

The :: operator tells the compiler that Item is a nested class of List.

1
  • Not correct yet :) Should be List<T>::Item*. Also, an extra typename keyword might be necessary (unless, that struct makes it unnecessary). P.S. No, it is not necessary with struct. Feb 22, 2010 at 16:42
1

The problem is deeper in fact:

You don't have to declare Item as being template, because it's a nested class within a template class it has access to T.

template <class T>
class List
{
public:

private:
  struct Item { ... };
};

And then you would define access like so:

template <class T>
typename List<T>::Item List<T>::access(...) {}

The point here is that List is a template class, so its parameters must be specified, while once T is specified for List it's not necessary to precise it once again.

Note typename ;)

0
1

You need to qualify the type: List::Item<T>

You can use the non-qualified name of the type when you are inside the class declaration, or inside the argument list or body of each of the member functions of the type (or derived classes), but not for the return type. When the compiler resolves the return type, it does not yet know that you are defining a member of the List template, and as such it will not look inside that class scope.

This is an interesting point of how compilers work that has actually influenced some changes in the upcoming standard to allow auto like return type definitions:

template<typename T, typename U>
auto sum( T lhs, U rhs ) -> delctype(lhs+rhs) 
{ return lhs+rhs; }

The compiler is able to deduce types T and U once the arguments are present, but you cannot tell it that the return type is decltype(lhs+rhs) as return type since neither lhs nor rhs are yet in scope. While this is a C++ only problem, it has its roots in the same problem you are facing: the scope of the return type is external to the scope of the method that is being declared.

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