/usr/include/sigc++-2.0/sigc++/adaptors/compose.h is in libsigc++-2.0-dev 2.10.0-2.
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/* Do not edit! -- generated file */
#ifndef _SIGC_ADAPTORS_COMPOSE_H_
#define _SIGC_ADAPTORS_COMPOSE_H_
#include <sigc++/adaptors/adaptor_trait.h>
namespace sigc {
/** @defgroup compose compose()
* sigc::compose() combines two or three arbitrary functors.
* On invokation, parameters are passed on to one or two getter functor(s).
* The return value(s) are then passed on to the setter function.
*
* @par Examples:
* @code
* float square_root(float a) { return sqrtf(a); }
* float sum(float a, float b) { return a+b; }
* std::cout << sigc::compose(&square_root, &sum)(9, 16); // calls square_root(sum(3,6))
* std::cout << sigc::compose(&sum, &square_root, &square_root)(9); // calls sum(square_root(9), square_root(9))
* @endcode
*
* The functor sigc::compose() returns can be passed directly into
* sigc::signal::connect().
*
* @par Example:
* @code
* sigc::signal<float,float,float> some_signal;
* some_signal.connect(sigc::compose(&square_root, &sum));
* @endcode
*
* @ingroup adaptors
*/
/** Adaptor that combines two functors.
* Use the convenience function sigc::compose() to create an instance of sigc::compose1_functor.
*
* The following template arguments are used:
* - @e T_setter Type of the setter functor to wrap.
* - @e T_getter Type of the getter functor to wrap.
*
* @ingroup compose
*/
template <class T_setter, class T_getter>
struct compose1_functor : public adapts<T_setter>
{
typedef typename adapts<T_setter>::adaptor_type adaptor_type;
typedef T_setter setter_type;
typedef T_getter getter_type;
#ifndef DOXYGEN_SHOULD_SKIP_THIS
template <class T_arg1 = void, class T_arg2 = void, class T_arg3 = void, class T_arg4 = void, class T_arg5 = void, class T_arg6 = void, class T_arg7 = void>
struct deduce_result_type
{ typedef typename adaptor_type::template deduce_result_type<
sigc::deduce_result_t<T_getter, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6, T_arg7>
>::type type; };
#endif
typedef typename adaptor_type::result_type result_type;
result_type
operator()();
template <class T_arg1>
typename deduce_result_type<T_arg1>::type
operator()(T_arg1 _A_a1)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter, T_arg1>>
(get_(_A_a1));
}
template <class T_arg1, class T_arg2>
typename deduce_result_type<T_arg1, T_arg2>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter, T_arg1, T_arg2>>
(get_(_A_a1, _A_a2));
}
template <class T_arg1, class T_arg2, class T_arg3>
typename deduce_result_type<T_arg1, T_arg2, T_arg3>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter, T_arg1, T_arg2, T_arg3>>
(get_(_A_a1, _A_a2, _A_a3));
}
template <class T_arg1, class T_arg2, class T_arg3, class T_arg4>
typename deduce_result_type<T_arg1, T_arg2, T_arg3, T_arg4>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3, T_arg4 _A_a4)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter, T_arg1, T_arg2, T_arg3, T_arg4>>
(get_(_A_a1, _A_a2, _A_a3, _A_a4));
}
template <class T_arg1, class T_arg2, class T_arg3, class T_arg4, class T_arg5>
typename deduce_result_type<T_arg1, T_arg2, T_arg3, T_arg4, T_arg5>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3, T_arg4 _A_a4, T_arg5 _A_a5)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5>>
(get_(_A_a1, _A_a2, _A_a3, _A_a4, _A_a5));
}
template <class T_arg1, class T_arg2, class T_arg3, class T_arg4, class T_arg5, class T_arg6>
typename deduce_result_type<T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3, T_arg4 _A_a4, T_arg5 _A_a5, T_arg6 _A_a6)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6>>
(get_(_A_a1, _A_a2, _A_a3, _A_a4, _A_a5, _A_a6));
}
template <class T_arg1, class T_arg2, class T_arg3, class T_arg4, class T_arg5, class T_arg6, class T_arg7>
typename deduce_result_type<T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6, T_arg7>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3, T_arg4 _A_a4, T_arg5 _A_a5, T_arg6 _A_a6, T_arg7 _A_a7)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6, T_arg7>>
(get_(_A_a1, _A_a2, _A_a3, _A_a4, _A_a5, _A_a6, _A_a7));
}
/** Constructs a compose1_functor object that combines the passed functors.
* @param _A_setter Functor that receives the return values of the invokation of @e _A_getter1 and @e _A_getter2.
* @param _A_getter Functor to invoke from operator()().
*/
compose1_functor(const T_setter& _A_setter, const T_getter& _A_getter)
: adapts<T_setter>(_A_setter), get_(_A_getter)
{}
getter_type get_; // public, so that visit_each() can access it
};
template <class T_setter, class T_getter>
typename compose1_functor<T_setter, T_getter>::result_type
compose1_functor<T_setter, T_getter>::operator()()
{ return this->functor_(get_()); }
/** Adaptor that combines three functors.
* Use the convenience function sigc::compose() to create an instance of sigc::compose2_functor.
*
* The following template arguments are used:
* - @e T_setter Type of the setter functor to wrap.
* - @e T_getter1 Type of the first getter functor to wrap.
* - @e T_getter2 Type of the second getter functor to wrap.
*
* @ingroup compose
*/
template <class T_setter, class T_getter1, class T_getter2>
struct compose2_functor : public adapts<T_setter>
{
typedef typename adapts<T_setter>::adaptor_type adaptor_type;
typedef T_setter setter_type;
typedef T_getter1 getter1_type;
typedef T_getter2 getter2_type;
#ifndef DOXYGEN_SHOULD_SKIP_THIS
template <class T_arg1=void, class T_arg2=void, class T_arg3=void, class T_arg4=void, class T_arg5=void, class T_arg6=void, class T_arg7=void>
struct deduce_result_type
{ typedef typename adaptor_type::template deduce_result_type<
typename sigc::deduce_result_t<T_getter1, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6, T_arg7>,
typename sigc::deduce_result_t<T_getter2, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6, T_arg7>
>::type result_type; };
#endif
typedef typename adaptor_type::result_type result_type;
result_type
operator()();
template <class T_arg1>
typename deduce_result_type<T_arg1>::type
operator()(T_arg1 _A_a1)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter1, T_arg1>,
sigc::deduce_result_t<T_getter2, T_arg1>>
(get1_(_A_a1), get2_(_A_a1));
}
template <class T_arg1, class T_arg2>
typename deduce_result_type<T_arg1, T_arg2>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter1, T_arg1, T_arg2>,
sigc::deduce_result_t<T_getter2, T_arg1, T_arg2>>
(get1_(_A_a1, _A_a2), get2_(_A_a1, _A_a2));
}
template <class T_arg1, class T_arg2, class T_arg3>
typename deduce_result_type<T_arg1, T_arg2, T_arg3>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter1, T_arg1, T_arg2, T_arg3>,
sigc::deduce_result_t<T_getter2, T_arg1, T_arg2, T_arg3>>
(get1_(_A_a1, _A_a2, _A_a3), get2_(_A_a1, _A_a2, _A_a3));
}
template <class T_arg1, class T_arg2, class T_arg3, class T_arg4>
typename deduce_result_type<T_arg1, T_arg2, T_arg3, T_arg4>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3, T_arg4 _A_a4)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter1, T_arg1, T_arg2, T_arg3, T_arg4>,
sigc::deduce_result_t<T_getter2, T_arg1, T_arg2, T_arg3, T_arg4>>
(get1_(_A_a1, _A_a2, _A_a3, _A_a4), get2_(_A_a1, _A_a2, _A_a3, _A_a4));
}
template <class T_arg1, class T_arg2, class T_arg3, class T_arg4, class T_arg5>
typename deduce_result_type<T_arg1, T_arg2, T_arg3, T_arg4, T_arg5>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3, T_arg4 _A_a4, T_arg5 _A_a5)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter1, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5>,
sigc::deduce_result_t<T_getter2, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5>>
(get1_(_A_a1, _A_a2, _A_a3, _A_a4, _A_a5), get2_(_A_a1, _A_a2, _A_a3, _A_a4, _A_a5));
}
template <class T_arg1, class T_arg2, class T_arg3, class T_arg4, class T_arg5, class T_arg6>
typename deduce_result_type<T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3, T_arg4 _A_a4, T_arg5 _A_a5, T_arg6 _A_a6)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter1, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6>,
sigc::deduce_result_t<T_getter2, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6>>
(get1_(_A_a1, _A_a2, _A_a3, _A_a4, _A_a5, _A_a6), get2_(_A_a1, _A_a2, _A_a3, _A_a4, _A_a5, _A_a6));
}
template <class T_arg1, class T_arg2, class T_arg3, class T_arg4, class T_arg5, class T_arg6, class T_arg7>
typename deduce_result_type<T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6, T_arg7>::type
operator()(T_arg1 _A_a1, T_arg2 _A_a2, T_arg3 _A_a3, T_arg4 _A_a4, T_arg5 _A_a5, T_arg6 _A_a6, T_arg7 _A_a7)
{ return this->functor_.SIGC_WORKAROUND_OPERATOR_PARENTHESES<sigc::deduce_result_t<T_getter1, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6, T_arg7>,
sigc::deduce_result_t<T_getter2, T_arg1, T_arg2, T_arg3, T_arg4, T_arg5, T_arg6, T_arg7>>
(get1_(_A_a1, _A_a2, _A_a3, _A_a4, _A_a5, _A_a6, _A_a7), get2_(_A_a1, _A_a2, _A_a3, _A_a4, _A_a5, _A_a6, _A_a7));
}
/** Constructs a compose2_functor object that combines the passed functors.
* @param _A_setter Functor that receives the return values of the invokation of @e _A_getter1 and @e _A_getter2.
* @param _A_getter1 Functor to invoke from operator()().
* @param _A_getter2 Functor to invoke from operator()().
*/
compose2_functor(const T_setter& _A_setter,
const T_getter1& _A_getter1,
const T_getter2& _A_getter2)
: adapts<T_setter>(_A_setter), get1_(_A_getter1), get2_(_A_getter2)
{}
getter1_type get1_; // public, so that visit_each() can access it
getter2_type get2_; // public, so that visit_each() can access it
};
template <class T_setter, class T_getter1, class T_getter2>
typename compose2_functor<T_setter, T_getter1, T_getter2>::result_type
compose2_functor<T_setter, T_getter1, T_getter2>::operator()()
{ return this->functor_(get1_(), get2_()); }
#ifndef DOXYGEN_SHOULD_SKIP_THIS
//template specialization of visitor<>::do_visit_each<>(action, functor):
/** Performs a functor on each of the targets of a functor.
* The function overload for sigc::compose1_functor performs a functor on the
* functors stored in the sigc::compose1_functor object.
*
* @ingroup compose
*/
template <class T_setter, class T_getter>
struct visitor<compose1_functor<T_setter, T_getter> >
{
template <class T_action>
static void do_visit_each(const T_action& _A_action,
const compose1_functor<T_setter, T_getter>& _A_target)
{
sigc::visit_each(_A_action, _A_target.functor_);
sigc::visit_each(_A_action, _A_target.get_);
}
};
//template specialization of visitor<>::do_visit_each<>(action, functor):
/** Performs a functor on each of the targets of a functor.
* The function overload for sigc::compose2_functor performs a functor on the
* functors stored in the sigc::compose2_functor object.
*
* @ingroup compose
*/
template <class T_setter, class T_getter1, class T_getter2>
struct visitor<compose2_functor<T_setter, T_getter1, T_getter2> >
{
template <class T_action>
static void do_visit_each(const T_action& _A_action,
const compose2_functor<T_setter, T_getter1, T_getter2>& _A_target)
{
sigc::visit_each(_A_action, _A_target.functor_);
sigc::visit_each(_A_action, _A_target.get1_);
sigc::visit_each(_A_action, _A_target.get2_);
}
};
#endif // DOXYGEN_SHOULD_SKIP_THIS
/** Creates an adaptor of type sigc::compose1_functor which combines two functors.
*
* @param _A_setter Functor that receives the return value of the invokation of @e _A_getter.
* @param _A_getter Functor to invoke from operator()().
* @return Adaptor that executes @e _A_setter with the value returned from invokation of @e _A_getter.
*
* @ingroup compose
*/
template <class T_setter, class T_getter>
inline compose1_functor<T_setter, T_getter>
compose(const T_setter& _A_setter, const T_getter& _A_getter)
{ return compose1_functor<T_setter, T_getter>(_A_setter, _A_getter); }
/** Creates an adaptor of type sigc::compose2_functor which combines three functors.
*
* @param _A_setter Functor that receives the return values of the invokation of @e _A_getter1 and @e _A_getter2.
* @param _A_getter1 Functor to invoke from operator()().
* @param _A_getter2 Functor to invoke from operator()().
* @return Adaptor that executes @e _A_setter with the values return from invokation of @e _A_getter1 and @e _A_getter2.
*
* @ingroup compose
*/
template <class T_setter, class T_getter1, class T_getter2>
inline compose2_functor<T_setter, T_getter1, T_getter2>
compose(const T_setter& _A_setter, const T_getter1& _A_getter1, const T_getter2& _A_getter2)
{ return compose2_functor<T_setter, T_getter1, T_getter2>(_A_setter, _A_getter1, _A_getter2); }
} /* namespace sigc */
#endif /* _SIGC_ADAPTORS_COMPOSE_H_ */
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