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Based on the example on pp. 179

template<template<typename T, typename A> class C, typename T, typename A>
void erase(C<T, A>&c, const T& item)
    c.erase(std::remove(c.begin(), c.end(), item), c.end());

int _tmain(int /*argc*/, _TCHAR* /*argv*/[])
    list<int> lst;
    erase(lst, 42);

If I remove the typename T, typename A from the erase function signature, the VS2010 compiler gives the following errors:

Error 1   error C2065: 'T' : undeclared identifier
Error 2   error C2065: 'A' : undeclared identifier
Error 3   error C4430: missing type specifier - int assumed. Note: C++ does not support default-int
Error 4   error C2143: syntax error : missing ',' before '&'

Question1> What is the reason behind these compilation errors.

Is it true that we always have to explicitly define the type parameters used in the template template parameter?

Question2> When we call the following line, how does compiler deduce the type of A?

erase(lst, 42)

Is it true that the compiler deduce the type A based on the default argument for template parameter A that is defined in list?

Refer to list

template < class T, class Allocator = allocator<T> > class list;

And the type A is allocator<T>?

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2 Answers 2

up vote 8 down vote accepted

Question 1

First T and A are parameters to C, not to your erase() template. Therefore, they are not visible to it, what is visible are the second and third parameters you highlight with ^^^. Note that the first parameter is not a typename/class, it is a class template. A class template itself is not a type, only its instantiations are.

To better understand how first T and A are not visible and in fact don't play any role, you can rewrite it like this:

template<template<typename, typename> class C, typename T, typename A>

Question 2

It can deduce A because lst as passed as C<T, A>, so A is the second parameter of lst type's class template.

Finally, you should rewrite your function template in a different way:

template <typename C>
void erase(C& c, const typename C::value_type& item)
    c.erase(std::remove(c.begin(), c.end(), item), c.end());

This way, you don't restrict number and meaning of C template parameters. In fact, here C can be a non-templated type if wanted.

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+1 great answer to question and provides the solution. –  Mark B Mar 12 '12 at 14:48

If you remove these, A and T are only known in the context of C and not in the context of your erase() template.

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