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I created two simple functions which get template parameters and an empty struct defining a type:

//S<T>::type results in T&
template <class T>
struct S
    typedef typename T& type;

//Example 1: get one parameter by reference and return it by value
template <class A>
temp(typename S<A>::type a1)
    return a1;

//Example 2: get two parameters by reference, perform the sum and return it
template <class A, class B>
temp2(typename S<A>::type a1, B a2)//typename struct S<B>::type a2)
    return a1 + a2;

The argument type is applied to the struct S to get the reference. I call them with some integer values but the compiler is unable to deduce the arguments:

int main()
    char c=6;
    int d=7;
    int res = temp(c);
    int res2 = temp2(d,7);

Error 1 error C2783: 'A temp(S::type)' : could not deduce template argument for 'A'

Error 2 error C2783: 'B temp2(S::type,B)' : could not deduce template argument for 'A'

Why is this happening? Is it that hard to see that the template arguments are char and int values?

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up vote 24 down vote accepted

Just as first note, typename name is used when you mention a dependent name. So you don't need it here.

template <class T>
struct S
    typedef T& type;

Regarding the template instantiation, the problem is that typename S<A>::type characterizes a nondeduced context for A. When a template parameter is used only in a nondeduced context (the case for A in your functions) it's not taken into consideration for template argument deduction. The details are at section of the C++ Standard (2003).

To make your call work, you need to explicitly specify the type:

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welcome to SO. and +1 :) – Johannes Schaub - litb Aug 12 '09 at 21:44
I edited the quote for some time. You first, so +1 :) – Kirill V. Lyadvinsky Aug 12 '09 at 21:50

It is looks like nondeduced context. According to C++ Standard

The nondeduced contexts are:

  • The nested-name-specifier of a type that was specified using a qualified-id.
  • A type that is a template-id in which one or more of the template-arguments is an expression that references a template-parameter.

When a type name is specified in a way that includes a nondeduced context, all of the types that comprise that type name are also nondeduced. However, a compound type can include both deduced and nondeduced types. [Example: If a type is specified as A<T>::B<T2>, both T and T2 are nondeduced. Likewise, if a type is specified as A<I+J>::X<T>, I, J, and T are nondeduced. If a type is specified as void f(typename A<T>::B, A<T>), the T in A<T>::B is nondeduced but the T in A<T> is deduced. ]

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Can you please explain me this in simple words with examples : The nested-name-specifier of a type that was specified using a qualified-id. I know nested name specifier is X<T>:: and qualified id is one which has :: as prefix , but unable conclude or understand whole thing. Thanks a lot :) – Mr.Anubis Jul 21 '12 at 17:16
is it like ` (The nested-name-specifier of a type) that was specified using a qualified-id. ` or ` The nested-name-specifier of a (type that was specified using a qualified-id.) ` – Mr.Anubis Jul 26 '12 at 17:39

Deduction works in the forward direction:

template <class T> void f(T);

f(2); // can deduce int from T

Why is this happening?

It doesn't work in the backwards direction (your example):

template <class A> void g(typename S<A>::type);

Is it that hard to see that the template arguments are char and int values?

Template deduction can do some magical (Turing-complete) things, but I don't think this is one of them.

You might use something like (untested):

template <class SA> void h(SA a1)
    STATIC_ASSERT(same_type<SA, S<A>::type>::value);
    typedef typename SA::type A;


Using your favorite static assert library (Boost has two).

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And now in the STL too: – ibizaman Jul 20 '13 at 12:04

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