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It seems understanding template template param will kill me :(, lemme explain what misconception i made in my mind which confuses me :

template<class T>
class B {}; // A templated class

Here is another code :

template<template<class X> class Z = B> // problem is in this line for me
class BB{}; 

note the line in parameter list of templated class BB , which is :

template<class X> class Z = B

now what i want to ask is what stops c++ to think that Z is not a another templated class Z i.e :

template<class X> class Z{

rather than thinking Class Z is templated parameter itself.

Thanks a lot, i really appreciate any help to remove this misconception from my mind)

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I don't understand what you're asking. C++ knows that it is a template parameters because it is inside the template parameter list. Is that what you are asking? – Peter Alexander Jun 26 '11 at 14:20
@Peter So can please tell me that , is template template template parameter also possible?, if yes , please help me visualize it, thanks – user72424 Jun 26 '11 at 16:58
No, it's not possible. However, the reason it's not possible is simply because the standardisation committee decided that two's enough. There's nothing "conceptually" impossible about 3 levels of template indirection, it's just not standard C++. – Peter Alexander Jun 26 '11 at 17:02
up vote 42 down vote accepted

Mankarse has answered your question, but I thought I'd chime in anyway.

Template template parameters are just like normal template type parameters, except that they match templates instead of concrete types:

// Simple template class
template <typename Type>
class Foo
    Type m_member;

// Template template class
template <template <typename Type> class TemplateType>
class Bar
    TemplateType<int> m_ints;

If it helps, you can kind of think of them as like function pointers. Normal functions just accept arguments like normal templates just accept types. However, some functions accept function pointers which accept arguments, just like template template types accept templates that accept types:

void foo(int x)
    cout << x << endl;

void bar(void (*f)(int))

To answer your question in the comments: template template template parameters are not possible. However, the reason they are not possible is just because the standardisation committee decided that template templates were enough, probably to make lives easier for the compiler implementors. That being said, there's nothing stopping the committee from deciding that they are possible, then things like this would be valid C++:

template <template <template <typename> class> class TemplateTemplateType>
class Baz
    TemplateTemplateType<Foo> m_foos;

typedef Baz<Bar> Example;
// Example would then have Bar<Foo> m_foos;
// which would have Foo<int> m_ints;

Again, you can see parallels in function pointers.

                      types <=> values
                  templates <=> functions of values
         template templates <=> functions of functions of values
template template templates <=> functions of functions of functions of values

The analogous function to Baz would be:

void baz(void (*g)(void (*f)(int)))

Where would you use a template template template?

It's pretty far-fetched but I can think of one example: a really generic graph searching library.

Two common algorithms in graph searching are the depth-first search (DFS) and the breadth-first search (BFS). The implementation of the two algorithms is identical except in one regard: DFS uses a stack of nodes whereas BFS uses a queue. Ideally, we'd just write the algorithm once, with the stack/queue as an argument. Also, we'd want to specify the implementation container of the stack or queue, so that we could do something like:

search<Stack, Vector>( myGraph ); // DFS
search<Queue, Deque>( myGraph ); // BFS

But what is a Stack or a Queue? Well, just like in the STL a stack or a queue can be implemented with any kind of container: vectors, deques, lists etc. and could also be stacks of any element type, so our stacks or queues would have the interface:

Stack<Vector, int> // stack of ints, using a vector implementation
Queue<Deque, bool> // queue of bools, using a deque implementation

But Vector and Deque themselves are template types!

So finally, our Stack would be a template template like:

template <template <typename> class Storage, typename Element>
struct Stack
    void push(const Element& e) { m_storage.push_back(e); }
    void pop() { m_storage.pop_back(); }
    Storage<Element> m_storage;

And our search algorithm would then have to be a template template template!

template <template <template <typename> class, typename> class DataStructure,
          template <typename> class Storage,
          typename Graph>
void search(const Graph& g)
    DataStructure<Storage, typename Graph::Node> data;
    // do algorithm

That would be pretty intense, but hopefully you get the idea.

Remember: template template templates are not legal C++, so this whole graph search thing won't actually compile. It's just a "what if?" :)

share|improve this answer
@Peter : ThankXXXxxxx.... in tonsss... for your effort . can you please tell me more about your third line or how compiler does it? "except that they match templates instead of concrete types:" . Thanks again :) . P.S : my lord how do you know this too much in deep? , any private sources? – user72424 Jun 26 '11 at 17:51
Well, if you have a normal template like vector or list, you just give it a type, e.g. vector<int> or list<bool>. With template templates, instead of giving it a type, you give it a template. So if you had a template template TT you could do TT<vector> or TT<list>. Note that I'm giving it a template instead of a concrete type like int or bool. That's what a template template is. – Peter Alexander Jun 26 '11 at 17:52
@M3taSpl0it: Templates are a huge topic in C++. Way more than I can write about in a day. I'd recommend you start here: then once you feel you understand templates well maybe come back and read this again. – Peter Alexander Jun 26 '11 at 18:10
Today your Baz<Bar> Example compiles with gcc 4.9 even in pedantic std=c++98 mode. Scary enough! – Artem Pelenitsyn Aug 11 '15 at 14:53
Even more: as I read a grammar for template parameters in C++98 standard (chap 14 par. 1 and section 14.1 par. 1), I figured out that ttt-parameters are perfectly allowed by the standard. – Artem Pelenitsyn Aug 11 '15 at 15:02

This is part of the syntax of the language (which is monstrous and massively context-dependant). If template<class X> class Z occurs in a template-parameter-list then it is interpreted as declaration of a formal parameter Z with the meta-type (for want of a better word) "template class taking one class argument".

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