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source: XIOS/trunk/src/type/type_impl.hpp @ 501

Last change on this file since 501 was 501, checked in by ymipsl, 10 years ago

Add licence copyright to all file ond directory src using the command :
svn propset -R copyright -F header_licence src

XIOS is now officialy under CeCILL licence

YM

Property copyright set to
Software name : XIOS (Xml I/O Server)
http://forge.ipsl.jussieu.fr/ioserver
Creation date : January 2009
Licence : CeCCIL version2
see license file in root directory : Licence_CeCILL_V2-en.txt
or http://www.cecill.info/licences/Licence_CeCILL_V2-en.html
Holder : CEA/LSCE (Laboratoire des Sciences du CLimat et de l'Environnement)
CNRS/IPSL (Institut Pierre Simon Laplace)
Project Manager : Yann Meurdesoif
yann.meurdesoif@cea.fr

File size: 4.5 KB

Line
1	#ifndef __XIOS_TYPE_IMPL__
2	#define __XIOS_TYPE_IMPL__
3
4	#include "xmlioserver_spl.hpp"
5	#include "exception.hpp"
6	#include "buffer_in.hpp"
7	#include "buffer_out.hpp"
8	#include "message.hpp"
9
10
11
12
13	namespace xios
14	{
15
16	using namespace std;
17
18	template <typename T>
19	CType<T>::CType(void)
20	{
21	empty=true ;
22	}
23
24	template <typename T>
25	CType<T>::CType(const T& val)
26	{
27	empty=true ;
28	set(val) ;
29	}
30
31	template <typename T>
32	CType<T>::CType(const CType<T>& type)
33	{
34	empty=true ;
35	set(type) ;
36	}
37
38	template <typename T>
39	CType<T>::CType(const CType_ref<T>& type)
40	{
41	empty=true ;
42	set(type) ;
43	}
44
45	template <typename T>
46	void CType<T>::set(const T& val)
47	{
48	if (empty)
49	{
50	ptrValue = new T(val) ;
51	empty=false ;
52	}
53	else *ptrValue = val ;
54	}
55
56	template <typename T>
57	void CType<T>::set(const CType<T>& type)
58	{
59	if (type.isEmpty()) reset() ;
60	else
61	{
62	if (empty)
63	{
64	ptrValue = new T(*type.ptrValue) ;
65	empty=false ;
66	}
67	else ptrValue = type.ptrValue ;
68	}
69	}
70
71	template <typename T>
72	void CType<T>::set(const CType_ref<T>& type)
73	{
74	if (type.isEmpty()) reset() ;
75	else
76	{
77	if (empty)
78	{
79	ptrValue = new T(*type.ptrValue) ;
80	empty=false ;
81	}
82	else ptrValue = type.ptrValue ;
83	}
84	}
85
86	template <typename T>
87	T& CType<T>::get(void)
88	{
89	checkEmpty();
90	return *ptrValue ;
91	}
92
93	template <typename T>
94	const T& CType<T>::get(void) const
95	{
96	checkEmpty();
97	return *ptrValue ;
98	}
99
100	template <typename T>
101	CType<T>& CType<T>::operator = (const T& val)
102	{
103	set(val) ;
104	return *this ;
105	}
106
107	template <typename T>
108	CType<T>& CType<T>::operator = (const CType<T>& type)
109	{
110	set(type) ;
111	return *this ;
112	}
113
114	template <typename T>
115	CType<T>& CType<T>::operator = (const CType_ref<T>& type)
116	{
117	set(type) ;
118	return *this ;
119	}
120
121	template <typename T>
122	CType<T>::operator T&()
123	{
124	checkEmpty();
125	return *ptrValue ;
126	}
127
128	template <typename T>
129	CType<T>* CType<T>::_clone(void) const
130	{
131	checkEmpty();
132	return new CType(*this) ;
133	}
134
135
136	template <typename T>
137	void CType<T>::_fromString(const string& str)
138	{
139	istringstream iss(str);
140	allocate() ;
141	iss>>*ptrValue ;
142	}
143
144	template <typename T>
145	size_t CType<T>::_size(void) const
146	{
147	return sizeof(T) ;
148	}
149
150	template <typename T>
151	bool CType<T>::_isEmpty(void) const
152	{
153	return empty ;
154	}
155
156	template <typename T>
157	string CType<T>::_toString(void) const
158	{
159	ostringstream oss;
160	checkEmpty();
161	oss<<*ptrValue ;
162	return oss.str() ;
163	}
164
165	template <typename T>
166	bool CType<T>::_toBuffer(CBufferOut& buffer) const
167	{
168	checkEmpty();
169	return buffer.put(*ptrValue) ;
170	}
171
172	template <typename T>
173	bool CType<T>::_fromBuffer(CBufferIn& buffer)
174	{
175	allocate() ;
176	return buffer.get(*ptrValue) ;
177	}
178
179
180	template <typename T>
181	void CType<T>::allocate(void)
182	{
183	if (empty)
184	{
185	ptrValue = new T ;
186	empty=false ;
187	}
188	}
189
190	template <typename T>
191	void CType<T>::_reset(void)
192	{
193	if (!empty)
194	{
195	delete ptrValue ;
196	empty=true ;
197	}
198	}
199
200	template <typename T>
201	void CType<T>::checkEmpty(void) const
202	{
203	if (empty) ERROR("template <typename T> void CTypef<T>::checkEmpty(void) const", <<"Type is not initialized") ;
204	}
205
206
207	template <typename T>
208	CBufferOut& operator<<(CBufferOut& buffer, const CType<T>& type)
209	{
210	if (!type.toBuffer(buffer)) ERROR("CBuffer& operator<<(CBuffer& buffer, CType<T>& type)",
211	<<"Buffer remain size is to low for size type") ;
212	return buffer ;
213	}
214
215
216	template <typename T>
217	CBufferOut& operator<<(CBufferOut& buffer, const T& type)
218	{
219	if (!CType<T>(type).toBuffer(buffer)) ERROR("operator<<(CBuffer& buffer, const T& type)",
220	<<"Buffer remain size is to low for size type") ;
221	return buffer ;
222	}
223
224	template <typename T>
225	CBufferIn& operator>>(CBufferIn& buffer, CType<T>& type)
226	{
227	if (! type.fromBuffer(buffer)) ERROR("CBuffer& operator<<(CBuffer& buffer, CType<T>& type)",
228	<<"Buffer remain size is to low for size type") ;
229	return buffer ;
230	}
231
232	/*
233	template <typename T>
234	CMessage& operator<<(CMessage& msg, const CType<T>& type)
235	{
236	msg.push(*type.clone()) ;
237	return msg ;
238	}
239	*/
240	template <typename T>
241	CMessage& operator<<(CMessage& msg, const T& type)
242	{
243	msg.push(CType<T>(type)) ;
244	return msg ;
245	}
246
247	}
248
249	#endif

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