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a114f4a5a5
git-svn-id: file:///Users/frsyuki/project/msgpack-git/svn/x@100 5a5092ae-2292-43ba-b2d5-dcab9c1a2731
171 lines
4.9 KiB
Plaintext
171 lines
4.9 KiB
Plaintext
//
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// MessagePack for C++ static resolution routine
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//
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// Copyright (C) 2008 FURUHASHI Sadayuki
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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#ifndef MSGPACK_TYPE_TUPLE_HPP__
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#define MSGPACK_TYPE_TUPLE_HPP__
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#include "msgpack/object.hpp"
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namespace msgpack {
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namespace type {
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// FIXME operator==
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// FIXME operator!=
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<% GENERATION_LIMIT = 15 %>
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template <typename A0 = void<%1.upto(GENERATION_LIMIT+1) {|i|%>, typename A<%=i%> = void<%}%>>
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struct tuple;
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template <typename Tuple, int N>
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struct tuple_element;
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template <typename Tuple, int N>
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struct const_tuple_element;
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template <typename T>
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struct tuple_type {
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typedef T type;
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typedef T value_type;
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typedef T& reference;
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typedef const T& const_reference;
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typedef const T& transparent_reference;
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};
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template <typename T>
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struct tuple_type<T&> {
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typedef T type;
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typedef T& value_type;
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typedef T& reference;
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typedef const T& const_reference;
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typedef T& transparent_reference;
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};
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template <typename T>
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struct tuple_type<const T&> {
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typedef T type;
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typedef T& value_type;
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typedef T& reference;
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typedef const T& const_reference;
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typedef const T& transparent_reference;
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};
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<%0.upto(GENERATION_LIMIT) {|i|%>
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<%0.upto(i) {|j|%>
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template <typename A0<%1.upto(i) {|k|%>, typename A<%=k%><%}%>>
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struct tuple_element<tuple<A0<%1.upto(i) {|k|%>, A<%=k%><%}%>>, <%=j%>> : tuple_type<A<%=j%>> {
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tuple_element(tuple<A0<%1.upto(i) {|k|%>, A<%=k%> <%}%>>& x) : _x(x.a<%=j%>) {}
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typename tuple_type<A<%=j%>>::reference get() { return _x; }
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typename tuple_type<A<%=j%>>::const_reference get() const { return _x; }
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private:
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typename tuple_type<A<%=j%>>::reference _x;
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};
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<%}%>
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<%}%>
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<%0.upto(GENERATION_LIMIT) {|i|%>
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<%0.upto(i) {|j|%>
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template <typename A0<%1.upto(i) {|k|%>, typename A<%=k%><%}%>>
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struct const_tuple_element<tuple<A0<%1.upto(i) {|k|%>, A<%=k%><%}%>>, <%=j%>> : tuple_type<A<%=j%>> {
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const_tuple_element(const tuple<A0<%1.upto(i) {|k|%>, A<%=k%><%}%>>& x) : _x(x.a<%=j%>) {}
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typename tuple_type<A<%=j%>>::const_reference get() const { return _x; }
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private:
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typename tuple_type<A<%=j%>>::const_reference _x;
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};
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<%}%>
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<%}%>
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<%0.upto(GENERATION_LIMIT) {|i|%>
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template <typename A0<%1.upto(i) {|j|%>, typename A<%=j%><%}%>>
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tuple<A0<%1.upto(i) {|j|%>, A<%=j%><%}%>> make_tuple(typename tuple_type<A0>::transparent_reference a0<%1.upto(i) {|j|%>, typename tuple_type<A<%=j%>>::transparent_reference a<%=j%><%}%>)
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{
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return tuple<A0<%1.upto(i) {|j|%>, A<%=j%><%}%>>(a0<%1.upto(i) {|j|%>, a<%=j%><%}%>);
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}
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<%}%>
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template <>
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struct tuple<> {
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};
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<%0.upto(GENERATION_LIMIT) {|i|%>
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template <typename A0<%1.upto(i) {|j|%>, typename A<%=j%><%}%>>
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struct tuple<A0<%1.upto(i) {|j|%>, A<%=j%><%}%>> {
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typedef tuple<A0<%1.upto(i) {|j|%>, A<%=j%><%}%>> value_type;
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tuple() {}
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tuple(typename tuple_type<A0>::transparent_reference _a0<%1.upto(i) {|j|%>, typename tuple_type<A<%=j%>>::transparent_reference _a<%=j%><%}%>) :
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a0(_a0)<%1.upto(i) {|j|%>, a<%=j%>(_a<%=j%>)<%}%> {}
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tuple(object o) { o.convert(this); }
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template <int N> typename tuple_element<value_type, N>::reference get()
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{ return tuple_element<value_type, N>(*this).get(); }
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template <int N> typename const_tuple_element<value_type, N>::const_reference get() const
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{ return const_tuple_element<value_type, N>(*this).get(); }
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<%0.upto(i) {|j|%>
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A<%=j%> a<%=j%>;<%}%>
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};
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<%}%>
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} // namespace type
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inline type::tuple<>& operator>> (
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object o,
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type::tuple<>& v) {
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if(o.type != type::ARRAY) { throw type_error(); }
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return v;
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}
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<%0.upto(GENERATION_LIMIT) {|i|%>
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template <typename A0<%1.upto(i) {|j|%>, typename A<%=j%><%}%>>
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type::tuple<A0<%1.upto(i) {|j|%>, A<%=j%><%}%>>& operator>> (
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object o,
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type::tuple<A0<%1.upto(i) {|j|%>, A<%=j%><%}%>>& v) {
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if(o.type != type::ARRAY) { throw type_error(); }
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if(o.via.container.size < <%=i+1%>) { throw type_error(); }
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<%0.upto(i) {|j|%>
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o.via.container.ptr[<%=j%>].convert<A<%=j%>>(&v.template get<<%=j%>>());<%}%>
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return v;
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}
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<%}%>
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template <typename Stream>
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const packer<Stream>& operator<< (
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packer<Stream>& o,
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const type::tuple<>& v) {
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o.pack_array(0);
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return o;
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}
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<%0.upto(GENERATION_LIMIT) {|i|%>
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template <typename Stream, typename A0<%1.upto(i) {|j|%>, typename A<%=j%><%}%>>
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const packer<Stream>& operator<< (
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packer<Stream>& o,
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const type::tuple<A0<%1.upto(i) {|j|%>, A<%=j%><%}%>>& v) {
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o.pack_array(<%=i+1%>);
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<%0.upto(i) {|j|%>
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o.pack(v.template get<<%=j%>>());<%}%>
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return o;
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}
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<%}%>
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} // namespace msgpack
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#endif /* msgpack/type/tuple.hpp */
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