Symaptic: os/ossrv/ossrv_pub/boost_apis/boost/lambda/casts.hpp@bde4ae8d615e (annotated)

sl@0	1	// - casts.hpp -- BLambda Library -------------
sl@0	2	//
sl@0	3	// Copyright (C) 2000 Gary Powell (powellg@amazon.com)
sl@0	4	// Copyright (C) 1999, 2000 Jaakko Järvi (jaakko.jarvi@cs.utu.fi)
sl@0	5	//
sl@0	6	// Distributed under the Boost Software License, Version 1.0. (See
sl@0	7	// accompanying file LICENSE_1_0.txt or copy at
sl@0	8	// http://www.boost.org/LICENSE_1_0.txt)
sl@0	9	//
sl@0	10	// For more information, see http://www.boost.org
sl@0	11
sl@0	12	// -----------------------------------------------
sl@0	13
sl@0	14	#if !defined(BOOST_LAMBDA_CASTS_HPP)
sl@0	15	#define BOOST_LAMBDA_CASTS_HPP
sl@0	16
sl@0	17	#include <typeinfo>
sl@0	18
sl@0	19	namespace boost {
sl@0	20	namespace lambda {
sl@0	21
sl@0	22	template<class T> class cast_action;
sl@0	23
sl@0	24	template<class T> class static_cast_action;
sl@0	25	template<class T> class dynamic_cast_action;
sl@0	26	template<class T> class const_cast_action;
sl@0	27	template<class T> class reinterpret_cast_action;
sl@0	28
sl@0	29	class typeid_action;
sl@0	30	class sizeof_action;
sl@0	31
sl@0	32	// Cast actions
sl@0	33
sl@0	34	template<class T> class cast_action<static_cast_action<T> >
sl@0	35	{
sl@0	36	public:
sl@0	37	template<class RET, class Arg1>
sl@0	38	static RET apply(Arg1 &a1) {
sl@0	39	return static_cast<RET>(a1);
sl@0	40	}
sl@0	41	};
sl@0	42
sl@0	43	template<class T> class cast_action<dynamic_cast_action<T> > {
sl@0	44	public:
sl@0	45	template<class RET, class Arg1>
sl@0	46	static RET apply(Arg1 &a1) {
sl@0	47	return dynamic_cast<RET>(a1);
sl@0	48	}
sl@0	49	};
sl@0	50
sl@0	51	template<class T> class cast_action<const_cast_action<T> > {
sl@0	52	public:
sl@0	53	template<class RET, class Arg1>
sl@0	54	static RET apply(Arg1 &a1) {
sl@0	55	return const_cast<RET>(a1);
sl@0	56	}
sl@0	57	};
sl@0	58
sl@0	59	template<class T> class cast_action<reinterpret_cast_action<T> > {
sl@0	60	public:
sl@0	61	template<class RET, class Arg1>
sl@0	62	static RET apply(Arg1 &a1) {
sl@0	63	return reinterpret_cast<RET>(a1);
sl@0	64	}
sl@0	65	};
sl@0	66
sl@0	67	// typedid action
sl@0	68	class typeid_action {
sl@0	69	public:
sl@0	70	template<class RET, class Arg1>
sl@0	71	static RET apply(Arg1 &a1) {
sl@0	72	return typeid(a1);
sl@0	73	}
sl@0	74	};
sl@0	75
sl@0	76	// sizeof action
sl@0	77	class sizeof_action
sl@0	78	{
sl@0	79	public:
sl@0	80	template<class RET, class Arg1>
sl@0	81	static RET apply(Arg1 &a1) {
sl@0	82	return sizeof(a1);
sl@0	83	}
sl@0	84	};
sl@0	85
sl@0	86
sl@0	87	// return types of casting lambda_functors (all "T" type.)
sl@0	88
sl@0	89	template<template <class> class cast_type, class T, class A>
sl@0	90	struct return_type_N<cast_action< cast_type<T> >, A> {
sl@0	91	typedef T type;
sl@0	92	};
sl@0	93
sl@0	94	// return type of typeid_action
sl@0	95	template<class A>
sl@0	96	struct return_type_N<typeid_action, A> {
sl@0	97	typedef std::type_info const & type;
sl@0	98	};
sl@0	99
sl@0	100	// return type of sizeof_action
sl@0	101
sl@0	102	template<class A>
sl@0	103	struct return_type_N<sizeof_action, A> {
sl@0	104	typedef std::size_t type;
sl@0	105	};
sl@0	106
sl@0	107
sl@0	108	// the four cast & typeid overloads.
sl@0	109	// casts can take ordinary variables (not just lambda functors)
sl@0	110
sl@0	111	// static_cast
sl@0	112	template <class T, class Arg1>
sl@0	113	inline const lambda_functor<
sl@0	114	lambda_functor_base<
sl@0	115	action<1, cast_action<static_cast_action<T> > >,
sl@0	116	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	117	>
sl@0	118	>
sl@0	119	ll_static_cast(const Arg1& a1) {
sl@0	120	return
sl@0	121	lambda_functor_base<
sl@0	122	action<1, cast_action<static_cast_action<T> > >,
sl@0	123	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	124	>
sl@0	125	( tuple<typename const_copy_argument <const Arg1>::type>(a1));
sl@0	126	}
sl@0	127
sl@0	128	// dynamic_cast
sl@0	129	template <class T, class Arg1>
sl@0	130	inline const lambda_functor<
sl@0	131	lambda_functor_base<
sl@0	132	action<1, cast_action<dynamic_cast_action<T> > >,
sl@0	133	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	134	>
sl@0	135	>
sl@0	136	ll_dynamic_cast(const Arg1& a1) {
sl@0	137	return
sl@0	138	lambda_functor_base<
sl@0	139	action<1, cast_action<dynamic_cast_action<T> > >,
sl@0	140	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	141	>
sl@0	142	( tuple<typename const_copy_argument <const Arg1>::type>(a1));
sl@0	143	}
sl@0	144
sl@0	145	// const_cast
sl@0	146	template <class T, class Arg1>
sl@0	147	inline const lambda_functor<
sl@0	148	lambda_functor_base<
sl@0	149	action<1, cast_action<const_cast_action<T> > >,
sl@0	150	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	151	>
sl@0	152	>
sl@0	153	ll_const_cast(const Arg1& a1) {
sl@0	154	return
sl@0	155	lambda_functor_base<
sl@0	156	action<1, cast_action<const_cast_action<T> > >,
sl@0	157	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	158	>
sl@0	159	( tuple<typename const_copy_argument <const Arg1>::type>(a1));
sl@0	160	}
sl@0	161
sl@0	162	// reinterpret_cast
sl@0	163	template <class T, class Arg1>
sl@0	164	inline const lambda_functor<
sl@0	165	lambda_functor_base<
sl@0	166	action<1, cast_action<reinterpret_cast_action<T> > >,
sl@0	167	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	168	>
sl@0	169	>
sl@0	170	ll_reinterpret_cast(const Arg1& a1) {
sl@0	171	return
sl@0	172	lambda_functor_base<
sl@0	173	action<1, cast_action<reinterpret_cast_action<T> > >,
sl@0	174	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	175	>
sl@0	176	( tuple<typename const_copy_argument <const Arg1>::type>(a1));
sl@0	177	}
sl@0	178
sl@0	179	// typeid
sl@0	180	// can be applied to a normal variable as well (can refer to a polymorphic
sl@0	181	// class object)
sl@0	182	template <class Arg1>
sl@0	183	inline const lambda_functor<
sl@0	184	lambda_functor_base<
sl@0	185	action<1, typeid_action>,
sl@0	186	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	187	>
sl@0	188	>
sl@0	189	ll_typeid(const Arg1& a1) {
sl@0	190	return
sl@0	191	lambda_functor_base<
sl@0	192	action<1, typeid_action>,
sl@0	193	tuple<typename const_copy_argument <const Arg1>::type>
sl@0	194	>
sl@0	195	( tuple<typename const_copy_argument <const Arg1>::type>(a1));
sl@0	196	}
sl@0	197
sl@0	198	// sizeof(expression)
sl@0	199	// Always takes a lambda expression (if not, built in sizeof will do)
sl@0	200	template <class Arg1>
sl@0	201	inline const lambda_functor<
sl@0	202	lambda_functor_base<
sl@0	203	action<1, sizeof_action>,
sl@0	204	tuple<lambda_functor<Arg1> >
sl@0	205	>
sl@0	206	>
sl@0	207	ll_sizeof(const lambda_functor<Arg1>& a1) {
sl@0	208	return
sl@0	209	lambda_functor_base<
sl@0	210	action<1, sizeof_action>,
sl@0	211	tuple<lambda_functor<Arg1> >
sl@0	212	>
sl@0	213	( tuple<lambda_functor<Arg1> >(a1));
sl@0	214	}
sl@0	215
sl@0	216	} // namespace lambda
sl@0	217	} // namespace boost
sl@0	218
sl@0	219	#endif

author	sl@SLION-WIN7.fritz.box
	Fri, 15 Jun 2012 03:10:57 +0200
changeset 0	bde4ae8d615e
permissions	-rw-r--r--