// objective: test \ref command with a variadic template function
// check: 070__ref__variadic__template_8cpp.xml
/** \file
*
* @attention
* @parblock
* At the time of writing, the part between \<\> is totally ignored:
* %func<Args...>(Args... args) is interpreted as %func(Args... args).
*
* Beware that a function parameter with either a \& or \* operator,
* e.g. 'const Args&... args', requires \\link and \\ref to specify
* such parameter as verbatim, i.e. 'const Args&... args'. At the
* time of writing, the form %func(const Args&...) will fail, unless
* the function parameter was declared just as 'const Args&...'.
* @endparblock
*
* \ref Test::func(int,Args...)const "variadic template method"
*
* References to the variadic template function overloads:
* @li \ref func(int,Args&... args) "First overload"
* @li \ref func(int,Args&&... args) "Second overload"
* @li \ref func(int,const Args&... args) "Third overload"
* @li \ref func(int,const Args&&... args) "Fourth overload"
* @li \ref func(int,Args*... args) "Fifth overload"
* @li \ref func(int,Args**... args) "Sixth overload"
* @li \ref func(int,const Args*... args) "Seventh overload"
* @li \ref func(int,const Args**... args) "Eighth overload"
* @li \ref func(int,Args...) "Ninth overload"
*
* The followings are interpreted the same:
* @li \ref func(int,const Args&... args) "without template argument"
* @li \ref func<Args...>(int,const Args&... args) "with template argument"
*
* See the \ref Test "test" class.
*/
/** A function
*/
void func(int p);
/** A variadic template function overload
*/
template <typename... Args>
void func(int p, Args&... args);
/** A variadic template function overload
*/
template <typename... Args>
void func(int p, Args&&... args);
/** A variadic template function overload
*/
template <typename... Args>
void func(int p, const Args&... args);
/** A variadic template function overload
*/
template <typename... Args>
void func(int p, const Args&&... args);
/** A variadic template function overload
*/
template <typename... Args>
void func(int p, Args*... args);
/** A variadic template function overload
*/
template <typename... Args>
void func(int p, Args**... args);
/** A variadic template function overload
*/
template <typename... Args>
void func(int p, const Args*... args);
/** A variadic template function overload
*/
template <typename... Args>
void func(int p, const Args**... args);
/** A variadic template function overload
*/
template <typename... Args>
void func(int p, Args... args);
/** A test */
class Test
{
public:
/** A variadic template method
*/
template <typename... Args>
void func(int p, Args... args) const;
};