Context Navigation

source: XIOS/dev/branch_yushan_merged/src/node/field.cpp @ 1141

Last change on this file since 1141 was 1134, checked in by yushan, 7 years ago
branch merged with trunk r1130
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 Property svn:executable set to ``*
File size: 47.2 KB

Line
1	#include "field.hpp"
2
3	#include "attribute_template.hpp"
4	#include "object_template.hpp"
5	#include "group_template.hpp"
6
7	#include "node_type.hpp"
8	#include "calendar_util.hpp"
9	#include "message.hpp"
10	#include "xios_spl.hpp"
11	#include "type.hpp"
12	#include "timer.hpp"
13	#include "context_client.hpp"
14	#include "context_server.hpp"
15	#include <set>
16	#include "garbage_collector.hpp"
17	#include "source_filter.hpp"
18	#include "store_filter.hpp"
19	#include "file_writer_filter.hpp"
20	#include "pass_through_filter.hpp"
21	#include "filter_expr_node.hpp"
22	#include "lex_parser.hpp"
23	#include "temporal_filter.hpp"
24	#include "spatial_transform_filter.hpp"
25
26	namespace xios{
27
28	/// ////////////////////// DÃ©finitions ////////////////////// ///
29
30	CField::CField(void)
31	: CObjectTemplate<CField>(), CFieldAttributes()
32	, grid(), file()
33	, written(false)
34	, nstep(0), nstepMax(0)
35	, hasOutputFile(false)
36	, domAxisScalarIds_(vector<StdString>(3,"")), areAllReferenceSolved(false), isReferenceSolved(false)
37	, useCompressedOutput(false)
38	, hasTimeInstant(false)
39	, hasTimeCentered(false)
40	, wasDataAlreadyReceivedFromServer(false)
41	, isEOF(false)
42	{ setVirtualVariableGroup(CVariableGroup::create(getId() + "_virtual_variable_group")); }
43
44	CField::CField(const StdString& id)
45	: CObjectTemplate<CField>(id), CFieldAttributes()
46	, grid(), file()
47	, written(false)
48	, nstep(0), nstepMax(0)
49	, hasOutputFile(false)
50	, domAxisScalarIds_(vector<StdString>(3,"")), areAllReferenceSolved(false), isReferenceSolved(false)
51	, useCompressedOutput(false)
52	, hasTimeInstant(false)
53	, hasTimeCentered(false)
54	, wasDataAlreadyReceivedFromServer(false)
55	, isEOF(false)
56	{ setVirtualVariableGroup(CVariableGroup::create(getId() + "_virtual_variable_group")); }
57
58	CField::~CField(void)
59	{}
60
61	//----------------------------------------------------------------
62
63	void CField::setVirtualVariableGroup(CVariableGroup* newVVariableGroup)
64	{
65	this->vVariableGroup = newVVariableGroup;
66	}
67
68	CVariableGroup* CField::getVirtualVariableGroup(void) const
69	{
70	return this->vVariableGroup;
71	}
72
73	std::vector<CVariable*> CField::getAllVariables(void) const
74	{
75	return this->vVariableGroup->getAllChildren();
76	}
77
78	void CField::solveDescInheritance(bool apply, const CAttributeMap* const parent)
79	{
80	SuperClassAttribute::setAttributes(parent, apply);
81	this->getVirtualVariableGroup()->solveDescInheritance(apply, NULL);
82	}
83
84	//----------------------------------------------------------------
85
86	bool CField::dispatchEvent(CEventServer& event)
87	{
88	if (SuperClass::dispatchEvent(event)) return true;
89	else
90	{
91	switch(event.type)
92	{
93	case EVENT_ID_UPDATE_DATA :
94	recvUpdateData(event);
95	return true;
96	break;
97
98	case EVENT_ID_READ_DATA :
99	recvReadDataRequest(event);
100	return true;
101	break;
102
103	case EVENT_ID_READ_DATA_READY :
104	recvReadDataReady(event);
105	return true;
106	break;
107
108	case EVENT_ID_ADD_VARIABLE :
109	recvAddVariable(event);
110	return true;
111	break;
112
113	case EVENT_ID_ADD_VARIABLE_GROUP :
114	recvAddVariableGroup(event);
115	return true;
116	break;
117
118	default :
119	ERROR("bool CField::dispatchEvent(CEventServer& event)", << "Unknown Event");
120	return false;
121	}
122	}
123	}
124
125	void CField::sendUpdateData(const CArray<double,1>& data)
126	{
127	CTimer::get("XIOS Send Data").resume();
128
129	CContext* context = CContext::getCurrent();
130	CContextClient* client = context->client;
131
132	CEventClient event(getType(), EVENT_ID_UPDATE_DATA);
133
134	map<int, CArray<int,1> >::iterator it;
135	list<CMessage> list_msg;
136	list<CArray<double,1> > list_data;
137
138	if (!grid->doGridHaveDataDistributed())
139	{
140	if (client->isServerLeader())
141	{
142	for (it = grid->storeIndex_toSrv.begin(); it != grid->storeIndex_toSrv.end(); it++)
143	{
144	int rank = it->first;
145	CArray<int,1>& index = it->second;
146
147	list_msg.push_back(CMessage());
148	list_data.push_back(CArray<double,1>(index.numElements()));
149
150	CArray<double,1>& data_tmp = list_data.back();
151	for (int n = 0; n < data_tmp.numElements(); n++) data_tmp(n) = data(index(n));
152
153	list_msg.back() << getId() << data_tmp;
154	event.push(rank, 1, list_msg.back());
155	}
156	client->sendEvent(event);
157	}
158	else client->sendEvent(event);
159	}
160	else
161	{
162	for (it = grid->storeIndex_toSrv.begin(); it != grid->storeIndex_toSrv.end(); it++)
163	{
164	int rank = it->first;
165	CArray<int,1>& index = it->second;
166
167	list_msg.push_back(CMessage());
168	list_data.push_back(CArray<double,1>(index.numElements()));
169
170	CArray<double,1>& data_tmp = list_data.back();
171	for (int n = 0; n < data_tmp.numElements(); n++) data_tmp(n) = data(index(n));
172
173	list_msg.back() << getId() << data_tmp;
174	event.push(rank, grid->nbSenders[rank], list_msg.back());
175	}
176	client->sendEvent(event);
177	}
178
179	CTimer::get("XIOS Send Data").suspend();
180	}
181
182	void CField::recvUpdateData(CEventServer& event)
183	{
184	vector<int> ranks;
185	vector<CBufferIn*> buffers;
186
187	list<CEventServer::SSubEvent>::iterator it;
188	string fieldId;
189
190	for (it = event.subEvents.begin(); it != event.subEvents.end(); ++it)
191	{
192	int rank = it->rank;
193	CBufferIn* buffer = it->buffer;
194	*buffer >> fieldId;
195	ranks.push_back(rank);
196	buffers.push_back(buffer);
197	}
198	get(fieldId)->recvUpdateData(ranks,buffers);
199	}
200
201	void CField::recvUpdateData(vector<int>& ranks, vector<CBufferIn*>& buffers)
202	{
203	if (data_srv.empty())
204	{
205	for (map<int, CArray<size_t, 1> >::iterator it = grid->outIndexFromClient.begin(); it != grid->outIndexFromClient.end(); ++it)
206	{
207	int rank = it->first;
208	data_srv.insert(std::make_pair(rank, CArray<double,1>(it->second.numElements())));
209	foperation_srv.insert(pair<int,boost::shared_ptr<func::CFunctor> >(rank,boost::shared_ptr<func::CFunctor>(new func::CInstant(data_srv[rank]))));
210	}
211	}
212
213	CContext* context = CContext::getCurrent();
214	const CDate& currDate = context->getCalendar()->getCurrentDate();
215	const CDate opeDate = last_operation_srv +freq_op + freq_operation_srv - freq_op;
216	const CDate writeDate = last_Write_srv + freq_write_srv;
217
218	if (opeDate <= currDate)
219	{
220	for (int n = 0; n < ranks.size(); n++)
221	{
222	CArray<double,1> data_tmp;
223	*buffers[n] >> data_tmp;
224	(*foperation_srv[ranks[n]])(data_tmp);
225	}
226	last_operation_srv = currDate;
227	}
228
229	if (writeDate < (currDate + freq_operation_srv))
230	{
231	for (int n = 0; n < ranks.size(); n++)
232	{
233	this->foperation_srv[ranks[n]]->final();
234	}
235
236	last_Write_srv = writeDate;
237	writeField();
238	lastlast_Write_srv = last_Write_srv;
239	}
240	}
241
242	void CField::writeField(void)
243	{
244	if (!getRelFile()->allDomainEmpty)
245	{
246	if (grid->doGridHaveDataToWrite() \|\| getRelFile()->type == CFile::type_attr::one_file)
247	{
248	getRelFile()->checkFile();
249	this->incrementNStep();
250	getRelFile()->getDataOutput()->writeFieldData(CField::get(this));
251	}
252	}
253	}
254
255	bool CField::sendReadDataRequest(const CDate& tsDataRequested)
256	{
257	CContext* context = CContext::getCurrent();
258	CContextClient* client = context->client;
259
260	lastDataRequestedFromServer = tsDataRequested;
261
262	if (!isEOF) // No need to send the request if we already know we are at EOF
263	{
264	CEventClient event(getType(), EVENT_ID_READ_DATA);
265	if (client->isServerLeader())
266	{
267	CMessage msg;
268	msg << getId();
269	const std::list<int>& ranks = client->getRanksServerLeader();
270	for (std::list<int>::const_iterator itRank = ranks.begin(), itRankEnd = ranks.end(); itRank != itRankEnd; ++itRank)
271	event.push(*itRank, 1, msg);
272	client->sendEvent(event);
273	}
274	else client->sendEvent(event);
275	}
276	else
277	serverSourceFilter->signalEndOfStream(tsDataRequested);
278
279	return !isEOF;
280	}
281
282	/*!
283	Send request new data read from file if need be, that is the current data is out-of-date.
284	\return true if and only if some data was requested
285	*/
286	bool CField::sendReadDataRequestIfNeeded(void)
287	{
288	const CDate& currentDate = CContext::getCurrent()->getCalendar()->getCurrentDate();
289
290	bool dataRequested = false;
291
292	while (currentDate >= lastDataRequestedFromServer)
293	{
294	info(20) << "currentDate : " << currentDate << endl ;
295	info(20) << "lastDataRequestedFromServer : " << lastDataRequestedFromServer << endl ;
296	info(20) << "file->output_freq.getValue() : " << file->output_freq.getValue() << endl ;
297	info(20) << "lastDataRequestedFromServer + file->output_freq.getValue() : " << lastDataRequestedFromServer + file->output_freq << endl ;
298
299	dataRequested \|= sendReadDataRequest(lastDataRequestedFromServer + file->output_freq);
300	}
301
302	return dataRequested;
303	}
304
305	void CField::recvReadDataRequest(CEventServer& event)
306	{
307	CBufferIn* buffer = event.subEvents.begin()->buffer;
308	StdString fieldId;
309	*buffer >> fieldId;
310	get(fieldId)->recvReadDataRequest();
311	}
312
313	void CField::recvReadDataRequest(void)
314	{
315	CContext* context = CContext::getCurrent();
316	CContextClient* client = context->client;
317
318	CEventClient event(getType(), EVENT_ID_READ_DATA_READY);
319	std::list<CMessage> msgs;
320
321	bool hasData = readField();
322
323	map<int, CArray<double,1> >::iterator it;
324	if (!grid->doGridHaveDataDistributed())
325	{
326	if (client->isServerLeader())
327	{
328	if (!data_srv.empty())
329	{
330	it = data_srv.begin();
331	const std::list<int>& ranks = client->getRanksServerLeader();
332	for (std::list<int>::const_iterator itRank = ranks.begin(), itRankEnd = ranks.end(); itRank != itRankEnd; ++itRank)
333	{
334	msgs.push_back(CMessage());
335	CMessage& msg = msgs.back();
336	msg << getId();
337	if (hasData)
338	msg << getNStep() - 1 << it->second;
339	else
340	msg << int(-1);
341	event.push(*itRank, 1, msg);
342	}
343	}
344	client->sendEvent(event);
345	}
346	else
347	{
348	// if (!data_srv.empty())
349	// {
350	// it = data_srv.begin();
351	// const std::list<int>& ranks = client->getRanksServerNotLeader();
352	// for (std::list<int>::const_iterator itRank = ranks.begin(), itRankEnd = ranks.end(); itRank != itRankEnd; ++itRank)
353	// {
354	// msgs.push_back(CMessage());
355	// CMessage& msg = msgs.back();
356	// msg << getId();
357	// if (hasData)
358	// msg << getNStep() - 1 << it->second;
359	// else
360	// msg << int(-1);
361	// event.push(*itRank, 1, msg);
362	// }
363	// }
364	client->sendEvent(event);
365	}
366	}
367	else
368	{
369	for (it = data_srv.begin(); it != data_srv.end(); it++)
370	{
371	msgs.push_back(CMessage());
372	CMessage& msg = msgs.back();
373	msg << getId();
374	if (hasData)
375	msg << getNStep() - 1 << it->second;
376	else
377	msg << int(-1);
378	event.push(it->first, grid->nbSenders[it->first], msg);
379	}
380	client->sendEvent(event);
381	}
382	}
383
384	bool CField::readField(void)
385	{
386	if (!getRelFile()->allDomainEmpty)
387	{
388	if (grid->doGridHaveDataToWrite() \|\| getRelFile()->type == CFile::type_attr::one_file)
389	{
390	if (data_srv.empty())
391	{
392	for (map<int, CArray<size_t, 1> >::iterator it = grid->outIndexFromClient.begin(); it != grid->outIndexFromClient.end(); ++it)
393	data_srv.insert(std::make_pair(it->first, CArray<double,1>(it->second.numElements())));
394	}
395
396	getRelFile()->checkFile();
397	if (!nstepMax)
398	{
399	nstepMax = getRelFile()->getDataInput()->getFieldNbRecords(CField::get(this));
400	}
401
402	this->incrementNStep();
403
404	if (getNStep() > nstepMax && (getRelFile()->cyclic.isEmpty() \|\| !getRelFile()->cyclic) )
405	return false;
406
407	getRelFile()->getDataInput()->readFieldData(CField::get(this));
408	}
409	}
410
411	return true;
412	}
413
414	void CField::recvReadDataReady(CEventServer& event)
415	{
416	string fieldId;
417	vector<int> ranks;
418	vector<CBufferIn*> buffers;
419
420	list<CEventServer::SSubEvent>::iterator it;
421	for (it = event.subEvents.begin(); it != event.subEvents.end(); ++it)
422	{
423	ranks.push_back(it->rank);
424	CBufferIn* buffer = it->buffer;
425	*buffer >> fieldId;
426	buffers.push_back(buffer);
427	}
428	get(fieldId)->recvReadDataReady(ranks, buffers);
429	}
430
431	void CField::recvReadDataReady(vector<int> ranks, vector<CBufferIn*> buffers)
432	{
433	CContext* context = CContext::getCurrent();
434	int record;
435	std::map<int, CArray<double,1> > data;
436
437	for (int i = 0; i < ranks.size(); i++)
438	{
439	int rank = ranks[i];
440	*buffers[i] >> record;
441	isEOF = (record == int(-1));
442
443	if (!isEOF)
444	*buffers[i] >> data[rank];
445	else
446	break;
447	}
448
449	if (wasDataAlreadyReceivedFromServer)
450	lastDataReceivedFromServer = lastDataReceivedFromServer + file->output_freq;
451	else
452	{
453	lastDataReceivedFromServer = context->getCalendar()->getInitDate();
454	wasDataAlreadyReceivedFromServer = true;
455	}
456
457	if (isEOF)
458	serverSourceFilter->signalEndOfStream(lastDataReceivedFromServer);
459	else
460	serverSourceFilter->streamDataFromServer(lastDataReceivedFromServer, data);
461	}
462
463	//----------------------------------------------------------------
464
465	void CField::setRelFile(CFile* _file)
466	{
467	this->file = _file;
468	hasOutputFile = true;
469	}
470
471	//----------------------------------------------------------------
472
473	StdString CField::GetName(void) { return StdString("field"); }
474	StdString CField::GetDefName(void) { return CField::GetName(); }
475	ENodeType CField::GetType(void) { return eField; }
476
477	//----------------------------------------------------------------
478
479	CGrid* CField::getRelGrid(void) const
480	{
481	return this->grid;
482	}
483
484	//----------------------------------------------------------------
485
486	CFile* CField::getRelFile(void) const
487	{
488	return this->file;
489	}
490
491	int CField::getNStep(void) const
492	{
493	return this->nstep;
494	}
495
496	func::CFunctor::ETimeType CField::getOperationTimeType() const
497	{
498	return operationTimeType;
499	}
500
501	//----------------------------------------------------------------
502
503	void CField::incrementNStep(void)
504	{
505	this->nstep++;
506	}
507
508	void CField::resetNStep(int nstep /= 0/)
509	{
510	this->nstep = nstep;
511	}
512
513	void CField::resetNStepMax(void)
514	{
515	this->nstepMax = 0;
516	}
517
518	//----------------------------------------------------------------
519
520	bool CField::isActive(bool atCurrentTimestep /= false/) const
521	{
522	if (clientSourceFilter)
523	return atCurrentTimestep ? clientSourceFilter->isDataExpected(CContext::getCurrent()->getCalendar()->getCurrentDate()) : true;
524	else if (storeFilter)
525	return true;
526	else if (instantDataFilter)
527	ERROR("bool CField::isActive(bool atCurrentTimestep)",
528	<< "Impossible to check if field [ id = " << getId() << " ] is active as it cannot be used to receive nor send data.");
529
530	return false;
531	}
532
533	//----------------------------------------------------------------
534
535	bool CField::wasWritten() const
536	{
537	return written;
538	}
539
540	void CField::setWritten()
541	{
542	written = true;
543	}
544
545	//----------------------------------------------------------------
546
547	bool CField::getUseCompressedOutput() const
548	{
549	return useCompressedOutput;
550	}
551
552	void CField::setUseCompressedOutput()
553	{
554	useCompressedOutput = true;
555	}
556
557	//----------------------------------------------------------------
558
559	boost::shared_ptr<COutputPin> CField::getInstantDataFilter()
560	{
561	return instantDataFilter;
562	}
563
564	//----------------------------------------------------------------
565
566	void CField::solveOnlyReferenceEnabledField(bool doSending2Server)
567	{
568	CContext* context = CContext::getCurrent();
569	if (!isReferenceSolved)
570	{
571	isReferenceSolved = true;
572
573	if (context->hasClient)
574	{
575	solveRefInheritance(true);
576	if (hasDirectFieldReference()) getDirectFieldReference()->solveOnlyReferenceEnabledField(false);
577	}
578	else if (context->hasServer)
579	solveServerOperation();
580
581	solveGridReference();
582
583	if (context->hasClient)
584	{
585	solveGenerateGrid();
586	buildGridTransformationGraph();
587	}
588	}
589	}
590
591	/*!
592	Build up graph of grids which plays role of destination and source in grid transformation
593	This function should be called before \func solveGridReference()
594	*/
595	void CField::buildGridTransformationGraph()
596	{
597	CContext* context = CContext::getCurrent();
598	if (context->hasClient)
599	{
600	if (grid && !grid->isTransformed() && hasDirectFieldReference() && grid != getDirectFieldReference()->grid)
601	{
602	grid->addTransGridSource(getDirectFieldReference()->grid);
603	}
604	}
605	}
606
607	/*!
608	Generate a new grid destination if there are more than one grid source pointing to a same grid destination
609	*/
610	void CField::generateNewTransformationGridDest()
611	{
612	CContext* context = CContext::getCurrent();
613	if (context->hasClient)
614	{
615	std::map<CGrid*,std::pair<bool,StdString> >& gridSrcMap = grid->getTransGridSource();
616	if (1 < gridSrcMap.size())
617	{
618	// Search for grid source
619	CGrid* gridSrc = grid;
620	CField* currField = this;
621	std::vector<CField*> hieraField;
622
623	while (currField->hasDirectFieldReference() && (gridSrc == grid))
624	{
625	hieraField.push_back(currField);
626	CField* tmp = currField->getDirectFieldReference();
627	currField = tmp;
628	gridSrc = currField->grid;
629	}
630
631	if (gridSrcMap.end() != gridSrcMap.find(gridSrc))
632	{
633	CGrid* gridTmp;
634	std::pair<bool,StdString> newGridDest = gridSrcMap[gridSrc];
635	if (newGridDest.first)
636	{
637	StdString newIdGridDest = newGridDest.second;
638	if (!CGrid::has(newIdGridDest))
639	{
640	ERROR("CGrid* CGrid::generateNewTransformationGridDest()",
641	<< " Something wrong happened! Grid whose id " << newIdGridDest
642	<< "should exist ");
643	}
644	gridTmp = CGrid::get(newIdGridDest);
645	}
646	else
647	{
648	StdString newIdGridDest = CGrid::generateId(gridSrc, grid);
649	gridTmp = CGrid::cloneGrid(newIdGridDest, grid);
650
651	(gridSrcMap[gridSrc]).first = true;
652	(gridSrcMap[gridSrc]).second = newIdGridDest;
653	}
654
655	// Update all descendants
656	for (std::vector<CField*>::iterator it = hieraField.begin(); it != hieraField.end(); ++it)
657	{
658	(*it)->grid = gridTmp;
659	(it)->updateRef((it)->grid);
660	}
661	}
662	}
663	}
664	}
665
666	void CField::updateRef(CGrid* grid)
667	{
668	if (!grid_ref.isEmpty()) grid_ref.setValue(grid->getId());
669	else
670	{
671	std::vector<CAxis*> axisTmp = grid->getAxis();
672	std::vector<CDomain*> domainTmp = grid->getDomains();
673	if ((1<axisTmp.size()) \|\| (1<domainTmp.size()))
674	ERROR("void CField::updateRef(CGrid* grid)",
675	<< "More than one domain or axis is available for domain_ref/axis_ref of field " << this->getId());
676
677	if ((!domain_ref.isEmpty()) && (domainTmp.empty()))
678	ERROR("void CField::updateRef(CGrid* grid)",
679	<< "Incoherent between available domain and domain_ref of field " << this->getId());
680	if ((!axis_ref.isEmpty()) && (axisTmp.empty()))
681	ERROR("void CField::updateRef(CGrid* grid)",
682	<< "Incoherent between available axis and axis_ref of field " << this->getId());
683
684	if (!domain_ref.isEmpty()) domain_ref.setValue(domainTmp[0]->getId());
685	if (!axis_ref.isEmpty()) axis_ref.setValue(axisTmp[0]->getId());
686	}
687	}
688
689	void CField::solveAllReferenceEnabledField(bool doSending2Server)
690	{
691	CContext* context = CContext::getCurrent();
692	solveOnlyReferenceEnabledField(doSending2Server);
693
694	if (!areAllReferenceSolved)
695	{
696	areAllReferenceSolved = true;
697
698	if (context->hasClient)
699	{
700	solveRefInheritance(true);
701	if (hasDirectFieldReference()) getDirectFieldReference()->solveAllReferenceEnabledField(false);
702	}
703	else if (context->hasServer)
704	solveServerOperation();
705
706	solveGridReference();
707	}
708
709	solveGridDomainAxisRef(doSending2Server);
710
711	if (context->hasClient)
712	{
713	solveTransformedGrid();
714	}
715
716	solveCheckMaskIndex(doSending2Server);
717	}
718
719	std::map<int, StdSize> CField::getGridAttributesBufferSize()
720	{
721	return grid->getAttributesBufferSize();
722	}
723
724	std::map<int, StdSize> CField::getGridDataBufferSize()
725	{
726	return grid->getDataBufferSize(getId());
727	}
728
729	//----------------------------------------------------------------
730
731	void CField::solveServerOperation(void)
732	{
733	CContext* context = CContext::getCurrent();
734
735	if (!context->hasServer \|\| !hasOutputFile) return;
736
737	if (freq_op.isEmpty())
738	freq_op.setValue(TimeStep);
739
740	if (freq_offset.isEmpty())
741	freq_offset.setValue(NoneDu);
742
743	freq_operation_srv = file->output_freq.getValue();
744	freq_write_srv = file->output_freq.getValue();
745
746	lastlast_Write_srv = context->getCalendar()->getInitDate();
747	last_Write_srv = context->getCalendar()->getInitDate();
748	last_operation_srv = context->getCalendar()->getInitDate();
749
750	const CDuration toffset = freq_operation_srv - freq_offset.getValue() - context->getCalendar()->getTimeStep();
751	last_operation_srv = last_operation_srv - toffset;
752
753	if (operation.isEmpty())
754	ERROR("void CField::solveServerOperation(void)",
755	<< "An operation must be defined for field \"" << getId() << "\".");
756
757	boost::shared_ptr<func::CFunctor> functor;
758	CArray<double, 1> dummyData;
759
760	#define DECLARE_FUNCTOR(MType, mtype) \
761	if (operation.getValue().compare(#mtype) == 0) \
762	{ \
763	functor.reset(new func::C##MType(dummyData)); \
764	}
765
766	#include "functor_type.conf"
767
768	if (!functor)
769	ERROR("void CField::solveServerOperation(void)",
770	<< "\"" << operation << "\" is not a valid operation.");
771
772	operationTimeType = functor->timeType();
773	}
774
775	//----------------------------------------------------------------
776
777	/*!
778	* Constructs the graph filter for the field, enabling or not the data output.
779	* This method should not be called more than once with enableOutput equal to true.
780	*
781	* \param gc the garbage collector to use when building the filter graph
782	* \param enableOutput must be true when the field data is to be
783	* read by the client or/and written to a file
784	*/
785	void CField::buildFilterGraph(CGarbageCollector& gc, bool enableOutput)
786	{
787	if (!areAllReferenceSolved) solveAllReferenceEnabledField(false);
788
789	// Start by building a filter which can provide the field's instant data
790	if (!instantDataFilter)
791	{
792	// Check if we have an expression to parse
793	if (hasExpression())
794	{
795	boost::scoped_ptr<IFilterExprNode> expr(parseExpr(getExpression() + '\0'));
796	boost::shared_ptr<COutputPin> filter = expr->reduce(gc, *this);
797
798	// Check if a spatial transformation is needed
799	if (!field_ref.isEmpty())
800	{
801	CGrid* gridRef = CField::get(field_ref)->grid;
802
803	if (grid && grid != gridRef && grid->hasTransform())
804	{
805	bool hasMissingValue = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
806	double defaultValue = hasMissingValue ? default_value : (!default_value.isEmpty() ? default_value : 0.0);
807	std::pair<boost::shared_ptr<CFilter>, boost::shared_ptr<CFilter> > filters = CSpatialTransformFilter::buildFilterGraph(gc, gridRef, grid, hasMissingValue, defaultValue);
808
809	filter->connectOutput(filters.first, 0);
810	filter = filters.second;
811	}
812	}
813
814	instantDataFilter = filter;
815	}
816	// Check if we have a reference on another field
817	else if (!field_ref.isEmpty())
818	instantDataFilter = getFieldReference(gc);
819	// Check if the data is to be read from a file
820	else if (file && !file->mode.isEmpty() && file->mode == CFile::mode_attr::read)
821	instantDataFilter = serverSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid,
822	freq_offset.isEmpty() ? NoneDu : freq_offset,
823	true));
824	else // The data might be passed from the model
825	{
826	bool ignoreMissingValue = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
827	double defaultValue = ignoreMissingValue ? default_value : (!default_value.isEmpty() ? default_value : 0.0);
828	instantDataFilter = clientSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid, NoneDu, false,
829	ignoreMissingValue, defaultValue)); }
830	}
831
832	// If the field data is to be read by the client or/and written to a file
833	if (enableOutput && !storeFilter && !fileWriterFilter)
834	{
835	if (!read_access.isEmpty() && read_access)
836	{
837	storeFilter = boost::shared_ptr<CStoreFilter>(new CStoreFilter(gc, CContext::getCurrent(), grid));
838	instantDataFilter->connectOutput(storeFilter, 0);
839	}
840
841	if (file && (file->mode.isEmpty() \|\| file->mode == CFile::mode_attr::write))
842	{
843	fileWriterFilter = boost::shared_ptr<CFileWriterFilter>(new CFileWriterFilter(gc, this));
844	getTemporalDataFilter(gc, file->output_freq)->connectOutput(fileWriterFilter, 0);
845	}
846	}
847	}
848
849	/*!
850	* Returns the filter needed to handle the field reference.
851	* This method should only be called when building the filter graph corresponding to the field.
852	*
853	* \param gc the garbage collector to use
854	* \return the output pin corresponding to the field reference
855	*/
856	boost::shared_ptr<COutputPin> CField::getFieldReference(CGarbageCollector& gc)
857	{
858	if (instantDataFilter \|\| field_ref.isEmpty())
859	ERROR("COutputPin* CField::getFieldReference(CGarbageCollector& gc)",
860	"Impossible to get the field reference for a field which has already been parsed or which does not have a field_ref.");
861
862	CField* fieldRef = CField::get(field_ref);
863	fieldRef->buildFilterGraph(gc, false);
864
865	std::pair<boost::shared_ptr<CFilter>, boost::shared_ptr<CFilter> > filters;
866	// Check if a spatial transformation is needed
867	if (grid && grid != fieldRef->grid && grid->hasTransform())
868	{
869	bool hasMissingValue = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
870	double defaultValue = hasMissingValue ? default_value : (!default_value.isEmpty() ? default_value : 0.0);
871	filters = CSpatialTransformFilter::buildFilterGraph(gc, fieldRef->grid, grid, hasMissingValue, defaultValue);
872	}
873	else
874	filters.first = filters.second = boost::shared_ptr<CFilter>(new CPassThroughFilter(gc));
875
876	fieldRef->getInstantDataFilter()->connectOutput(filters.first, 0);
877
878	return filters.second;
879	}
880
881	/*!
882	* Returns the filter needed to handle a self reference in the field's expression.
883	* If the needed filter does not exist, it is created, otherwise it is reused.
884	* This method should only be called when building the filter graph corresponding
885	* to the field's expression.
886	*
887	* \param gc the garbage collector to use
888	* \return the output pin corresponding to a self reference
889	*/
890	boost::shared_ptr<COutputPin> CField::getSelfReference(CGarbageCollector& gc)
891	{
892	if (instantDataFilter \|\| !hasExpression())
893	ERROR("COutputPin* CField::getSelfReference(CGarbageCollector& gc)",
894	"Impossible to add a self reference to a field which has already been parsed or which does not have an expression.");
895
896	if (!selfReferenceFilter)
897	{
898	if (file && !file->mode.isEmpty() && file->mode == CFile::mode_attr::read)
899	{
900	if (!serverSourceFilter)
901	serverSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid,
902	freq_offset.isEmpty() ? NoneDu : freq_offset,
903	true));
904
905	selfReferenceFilter = serverSourceFilter;
906	}
907	else if (!field_ref.isEmpty())
908	{
909	CField* fieldRef = CField::get(field_ref);
910	fieldRef->buildFilterGraph(gc, false);
911	selfReferenceFilter = fieldRef->getInstantDataFilter();
912	}
913	else
914	{
915	if (!clientSourceFilter)
916	{
917	bool ignoreMissingValue = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
918	double defaultValue = ignoreMissingValue ? default_value : (!default_value.isEmpty() ? default_value : 0.0);
919	clientSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid, NoneDu, false,
920	ignoreMissingValue, defaultValue));
921	}
922
923	selfReferenceFilter = clientSourceFilter;
924	}
925	}
926
927	return selfReferenceFilter;
928	}
929
930	/*!
931	* Returns the temporal filter corresponding to the field's temporal operation
932	* for the specified operation frequency. The filter is created if it does not
933	* exist, otherwise it is reused.
934	*
935	* \param gc the garbage collector to use
936	* \param outFreq the operation frequency, i.e. the frequency at which the output data will be computed
937	* \return the output pin corresponding to the requested temporal filter
938	*/
939	boost::shared_ptr<COutputPin> CField::getTemporalDataFilter(CGarbageCollector& gc, CDuration outFreq)
940	{
941	std::map<CDuration, boost::shared_ptr<COutputPin> >::iterator it = temporalDataFilters.find(outFreq);
942
943	if (it == temporalDataFilters.end())
944	{
945	if (operation.isEmpty())
946	ERROR("void CField::getTemporalDataFilter(CGarbageCollector& gc, CDuration outFreq)",
947	<< "An operation must be defined for field \"" << getId() << "\".");
948
949	if (freq_op.isEmpty())
950	freq_op.setValue(TimeStep);
951	if (freq_offset.isEmpty())
952	freq_offset.setValue(NoneDu);
953
954	const bool ignoreMissingValue = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
955
956	boost::shared_ptr<CTemporalFilter> temporalFilter(new CTemporalFilter(gc, operation,
957	CContext::getCurrent()->getCalendar()->getInitDate(),
958	freq_op, freq_offset, outFreq,
959	ignoreMissingValue, ignoreMissingValue ? default_value : 0.0));
960	instantDataFilter->connectOutput(temporalFilter, 0);
961
962	it = temporalDataFilters.insert(std::make_pair(outFreq, temporalFilter)).first;
963	}
964
965	return it->second;
966	}
967
968	/*!
969	* Returns the temporal filter corresponding to the field's temporal operation
970	* for the specified operation frequency.
971	*
972	* \param gc the garbage collector to use
973	* \param outFreq the operation frequency, i.e. the frequency at which the output data will be computed
974	* \return the output pin corresponding to the requested temporal filter
975	*/
976
977	boost::shared_ptr<COutputPin> CField::getSelfTemporalDataFilter(CGarbageCollector& gc, CDuration outFreq)
978	{
979	if (instantDataFilter \|\| !hasExpression())
980	ERROR("COutputPin* CField::getSelfTemporalDataFilter(CGarbageCollector& gc)",
981	"Impossible to add a self reference to a field which has already been parsed or which does not have an expression.");
982
983	if (!selfReferenceFilter) getSelfReference(gc) ;
984
985	if (serverSourceFilter \|\| clientSourceFilter)
986	{
987	if (operation.isEmpty())
988	ERROR("void CField::getSelfTemporalDataFilter(CGarbageCollector& gc, CDuration outFreq)",
989	<< "An operation must be defined for field \"" << getId() << "\".");
990
991	if (freq_op.isEmpty()) freq_op.setValue(TimeStep);
992	if (freq_offset.isEmpty()) freq_offset.setValue(NoneDu);
993
994	const bool ignoreMissingValue = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
995
996	boost::shared_ptr<CTemporalFilter> temporalFilter(new CTemporalFilter(gc, operation,
997	CContext::getCurrent()->getCalendar()->getInitDate(),
998	freq_op, freq_offset, outFreq,
999	ignoreMissingValue, ignoreMissingValue ? default_value : 0.0));
1000	selfReferenceFilter->connectOutput(temporalFilter, 0);
1001	return temporalFilter ;
1002	}
1003	else if (!field_ref.isEmpty())
1004	{
1005	CField* fieldRef = CField::get(field_ref);
1006	fieldRef->buildFilterGraph(gc, false);
1007	return fieldRef->getTemporalDataFilter(gc, outFreq) ;
1008	}
1009	}
1010
1011	//----------------------------------------------------------------
1012	/*
1013	void CField::fromBinary(StdIStream& is)
1014	{
1015	SuperClass::fromBinary(is);
1016	#define CLEAR_ATT(name_)\
1017	SuperClassAttribute::operator[](#name_)->reset()
1018
1019	CLEAR_ATT(domain_ref);
1020	CLEAR_ATT(axis_ref);
1021	#undef CLEAR_ATT
1022
1023	}
1024	*/
1025	//----------------------------------------------------------------
1026
1027	void CField::solveGridReference(void)
1028	{
1029	if (grid_ref.isEmpty() && domain_ref.isEmpty() && axis_ref.isEmpty() && scalar_ref.isEmpty())
1030	{
1031	ERROR("CField::solveGridReference(void)",
1032	<< "A grid must be defined for field '" << getFieldOutputName() << "' .");
1033	}
1034	else if (!grid_ref.isEmpty() && (!domain_ref.isEmpty() \|\| !axis_ref.isEmpty() \|\| !scalar_ref.isEmpty()))
1035	{
1036	ERROR("CField::solveGridReference(void)",
1037	<< "Field '" << getFieldOutputName() << "' has both a grid and a domain/axis/scalar." << std::endl
1038	<< "Please define either 'grid_ref' or 'domain_ref'/'axis_ref'/'scalar_ref'.");
1039	}
1040
1041	if (grid_ref.isEmpty())
1042	{
1043	std::vector<CDomain*> vecDom;
1044	std::vector<CAxis*> vecAxis;
1045	std::vector<CScalar*> vecScalar;
1046	std::vector<int> axisDomainOrderTmp;
1047
1048	if (!domain_ref.isEmpty())
1049	{
1050	StdString tmp = domain_ref.getValue();
1051	if (CDomain::has(domain_ref))
1052	{
1053	vecDom.push_back(CDomain::get(domain_ref));
1054	axisDomainOrderTmp.push_back(2);
1055	}
1056	else
1057	ERROR("CField::solveGridReference(void)",
1058	<< "Invalid reference to domain '" << domain_ref.getValue() << "'.");
1059	}
1060
1061	if (!axis_ref.isEmpty())
1062	{
1063	if (CAxis::has(axis_ref))
1064	{
1065	vecAxis.push_back(CAxis::get(axis_ref));
1066	axisDomainOrderTmp.push_back(1);
1067	}
1068	else
1069	ERROR("CField::solveGridReference(void)",
1070	<< "Invalid reference to axis '" << axis_ref.getValue() << "'.");
1071	}
1072
1073	if (!scalar_ref.isEmpty())
1074	{
1075	if (CScalar::has(scalar_ref))
1076	{
1077	vecScalar.push_back(CScalar::get(scalar_ref));
1078	axisDomainOrderTmp.push_back(0);
1079	}
1080	else
1081	ERROR("CField::solveGridReference(void)",
1082	<< "Invalid reference to scalar '" << scalar_ref.getValue() << "'.");
1083	}
1084
1085	CArray<int,1> axisDomainOrder(axisDomainOrderTmp.size());
1086	for (int idx = 0; idx < axisDomainOrderTmp.size(); ++idx)
1087	{
1088	axisDomainOrder(idx) = axisDomainOrderTmp[idx];
1089	}
1090
1091	// Warning: the gridId shouldn't be set as the grid_ref since it could be inherited
1092	StdString gridId = CGrid::generateId(vecDom, vecAxis, vecScalar,axisDomainOrder);
1093	if (CGrid::has(gridId))
1094	this->grid = CGrid::get(gridId);
1095	else
1096	this->grid = CGrid::createGrid(gridId, vecDom, vecAxis, vecScalar,axisDomainOrder);
1097	}
1098	else
1099	{
1100	if (CGrid::has(grid_ref))
1101	this->grid = CGrid::get(grid_ref);
1102	else
1103	ERROR("CField::solveGridReference(void)",
1104	<< "Invalid reference to grid '" << grid_ref.getValue() << "'.");
1105	}
1106	}
1107
1108	void CField::solveGridDomainAxisRef(bool checkAtt)
1109	{
1110	grid->solveDomainAxisRef(checkAtt);
1111	}
1112
1113	void CField::solveCheckMaskIndex(bool doSendingIndex)
1114	{
1115	grid->checkMaskIndex(doSendingIndex);
1116	}
1117
1118	void CField::solveTransformedGrid()
1119	{
1120	if (grid && !grid->isTransformed() && hasDirectFieldReference() && grid != getDirectFieldReference()->grid)
1121	{
1122	std::vector<CGrid*> grids;
1123	// Source grid
1124	grids.push_back(getDirectFieldReference()->grid);
1125	// Intermediate grids
1126	if (!grid_path.isEmpty())
1127	{
1128	std::string gridId;
1129	size_t start = 0, end;
1130
1131	do
1132	{
1133	end = grid_path.getValue().find(',', start);
1134	if (end != std::string::npos)
1135	{
1136	gridId = grid_path.getValue().substr(start, end - start);
1137	start = end + 1;
1138	}
1139	else
1140	gridId = grid_path.getValue().substr(start);
1141
1142	if (!CGrid::has(gridId))
1143	ERROR("void CField::solveTransformedGrid()",
1144	<< "Invalid grid_path, the grid '" << gridId << "' does not exist.");
1145
1146	grids.push_back(CGrid::get(gridId));
1147	}
1148	while (end != std::string::npos);
1149	}
1150	// Destination grid
1151	grids.push_back(grid);
1152
1153	for (size_t i = 0, count = grids.size() - 1; i < count; ++i)
1154	{
1155	CGrid *gridSrc = grids[i];
1156	CGrid *gridDest = grids[i + 1];
1157	if (!gridDest->isTransformed())
1158	gridDest->transformGrid(gridSrc);
1159	}
1160	}
1161	else if (grid && grid->hasTransform() && !grid->isTransformed())
1162	{
1163	// Temporarily deactivate the self-transformation of grid
1164	//grid->transformGrid(grid);
1165	}
1166	}
1167
1168	void CField::solveGenerateGrid()
1169	{
1170	if (grid && !grid->isTransformed() && hasDirectFieldReference() && grid != getDirectFieldReference()->grid)
1171	grid->completeGrid(getDirectFieldReference()->grid);
1172	else
1173	grid->completeGrid();
1174	}
1175
1176	void CField::solveGridDomainAxisBaseRef()
1177	{
1178	grid->solveDomainAxisRef(false);
1179	grid->solveDomainAxisBaseRef();
1180	}
1181
1182	///-------------------------------------------------------------------
1183
1184	template <>
1185	void CGroupTemplate<CField, CFieldGroup, CFieldAttributes>::solveRefInheritance(void)
1186	{
1187	if (this->group_ref.isEmpty()) return;
1188	StdString gref = this->group_ref.getValue();
1189
1190	if (!CFieldGroup::has(gref))
1191	ERROR("CGroupTemplate<CField, CFieldGroup, CFieldAttributes>::solveRefInheritance(void)",
1192	<< "[ gref = " << gref << "]"
1193	<< " invalid group name !");
1194
1195	CFieldGroup* group = CFieldGroup::get(gref);
1196	CFieldGroup* owner = CFieldGroup::get(boost::polymorphic_downcast<CFieldGroup*>(this));
1197
1198	std::vector<CField*> allChildren = group->getAllChildren();
1199	std::vector<CField*>::iterator it = allChildren.begin(), end = allChildren.end();
1200
1201	for (; it != end; it++)
1202	{
1203	CField* child = *it;
1204	if (child->hasId()) owner->createChild()->field_ref.setValue(child->getId());
1205
1206	}
1207	}
1208
1209	void CField::scaleFactorAddOffset(double scaleFactor, double addOffset)
1210	{
1211	map<int, CArray<double,1> >::iterator it;
1212	for (it = data_srv.begin(); it != data_srv.end(); it++) it->second = (it->second - addOffset) / scaleFactor;
1213	}
1214
1215	void CField::invertScaleFactorAddOffset(double scaleFactor, double addOffset)
1216	{
1217	map<int, CArray<double,1> >::iterator it;
1218	for (it = data_srv.begin(); it != data_srv.end(); it++) it->second = it->second * scaleFactor + addOffset;
1219	}
1220
1221	void CField::outputField(CArray<double,3>& fieldOut)
1222	{
1223	map<int, CArray<double,1> >::iterator it;
1224	for (it = data_srv.begin(); it != data_srv.end(); it++)
1225	{
1226	grid->outputField(it->first, it->second, fieldOut.dataFirst());
1227	}
1228	}
1229
1230	void CField::outputField(CArray<double,2>& fieldOut)
1231	{
1232	map<int, CArray<double,1> >::iterator it;
1233	for(it=data_srv.begin();it!=data_srv.end();it++)
1234	{
1235	grid->outputField(it->first, it->second, fieldOut.dataFirst());
1236	}
1237	}
1238
1239	void CField::outputField(CArray<double,1>& fieldOut)
1240	{
1241	map<int, CArray<double,1> >::iterator it;
1242
1243	for (it = data_srv.begin(); it != data_srv.end(); it++)
1244	{
1245	grid->outputField(it->first, it->second, fieldOut.dataFirst());
1246	}
1247	}
1248
1249	void CField::inputField(CArray<double,3>& fieldOut)
1250	{
1251	map<int, CArray<double,1> >::iterator it;
1252	for (it = data_srv.begin(); it != data_srv.end(); it++)
1253	{
1254	grid->inputField(it->first, fieldOut.dataFirst(), it->second);
1255	}
1256	}
1257
1258	void CField::inputField(CArray<double,2>& fieldOut)
1259	{
1260	map<int, CArray<double,1> >::iterator it;
1261	for(it = data_srv.begin(); it != data_srv.end(); it++)
1262	{
1263	grid->inputField(it->first, fieldOut.dataFirst(), it->second);
1264	}
1265	}
1266
1267	void CField::inputField(CArray<double,1>& fieldOut)
1268	{
1269	map<int, CArray<double,1> >::iterator it;
1270	for (it = data_srv.begin(); it != data_srv.end(); it++)
1271	{
1272	grid->inputField(it->first, fieldOut.dataFirst(), it->second);
1273	}
1274	}
1275
1276	void CField::outputCompressedField(CArray<double,1>& fieldOut)
1277	{
1278	map<int, CArray<double,1> >::iterator it;
1279
1280	for (it = data_srv.begin(); it != data_srv.end(); it++)
1281	{
1282	grid->outputCompressedField(it->first, it->second, fieldOut.dataFirst());
1283	}
1284	}
1285
1286	///-------------------------------------------------------------------
1287
1288	void CField::parse(xml::CXMLNode& node)
1289	{
1290	SuperClass::parse(node);
1291	if (!node.getContent(this->content))
1292	{
1293	if (node.goToChildElement())
1294	{
1295	do
1296	{
1297	if (node.getElementName() == "variable" \|\| node.getElementName() == "variable_group") this->getVirtualVariableGroup()->parseChild(node);
1298	} while (node.goToNextElement());
1299	node.goToParentElement();
1300	}
1301	}
1302	}
1303
1304	/*!
1305	This function retrieves Id of corresponding domain_ref and axis_ref (if any)
1306	of a field. In some cases, only domain exists but axis doesn't
1307	\return pair of Domain and Axis id
1308	*/
1309	const std::vector<StdString>& CField::getRefDomainAxisIds()
1310	{
1311	CGrid* cgPtr = getRelGrid();
1312	if (NULL != cgPtr)
1313	{
1314	std::vector<StdString>::iterator it;
1315	if (!domain_ref.isEmpty())
1316	{
1317	std::vector<StdString> domainList = cgPtr->getDomainList();
1318	it = std::find(domainList.begin(), domainList.end(), domain_ref.getValue());
1319	if (domainList.end() != it) domAxisScalarIds_[0] = *it;
1320	}
1321
1322	if (!axis_ref.isEmpty())
1323	{
1324	std::vector<StdString> axisList = cgPtr->getAxisList();
1325	it = std::find(axisList.begin(), axisList.end(), axis_ref.getValue());
1326	if (axisList.end() != it) domAxisScalarIds_[1] = *it;
1327	}
1328
1329	if (!scalar_ref.isEmpty())
1330	{
1331	std::vector<StdString> scalarList = cgPtr->getScalarList();
1332	it = std::find(scalarList.begin(), scalarList.end(), scalar_ref.getValue());
1333	if (scalarList.end() != it) domAxisScalarIds_[2] = *it;
1334	}
1335	}
1336	return (domAxisScalarIds_);
1337	}
1338
1339	CVariable* CField::addVariable(const string& id)
1340	{
1341	return vVariableGroup->createChild(id);
1342	}
1343
1344	CVariableGroup* CField::addVariableGroup(const string& id)
1345	{
1346	return vVariableGroup->createChildGroup(id);
1347	}
1348
1349	void CField::sendAddAllVariables()
1350	{
1351	std::vector<CVariable*> allVar = getAllVariables();
1352	std::vector<CVariable*>::const_iterator it = allVar.begin();
1353	std::vector<CVariable*>::const_iterator itE = allVar.end();
1354
1355	for (; it != itE; ++it)
1356	{
1357	this->sendAddVariable((*it)->getId());
1358	(*it)->sendAllAttributesToServer();
1359	(*it)->sendValue();
1360	}
1361	}
1362
1363	void CField::sendAddVariable(const string& id)
1364	{
1365	CContext* context = CContext::getCurrent();
1366
1367	if (!context->hasServer)
1368	{
1369	CContextClient* client = context->client;
1370
1371	CEventClient event(this->getType(),EVENT_ID_ADD_VARIABLE);
1372	if (client->isServerLeader())
1373	{
1374	CMessage msg;
1375	msg << this->getId();
1376	msg << id;
1377	const std::list<int>& ranks = client->getRanksServerLeader();
1378	for (std::list<int>::const_iterator itRank = ranks.begin(), itRankEnd = ranks.end(); itRank != itRankEnd; ++itRank)
1379	event.push(*itRank,1,msg);
1380	client->sendEvent(event);
1381	}
1382	else client->sendEvent(event);
1383	}
1384	}
1385
1386	void CField::sendAddVariableGroup(const string& id)
1387	{
1388	CContext* context = CContext::getCurrent();
1389	if (!context->hasServer)
1390	{
1391	CContextClient* client = context->client;
1392
1393	CEventClient event(this->getType(),EVENT_ID_ADD_VARIABLE_GROUP);
1394	if (client->isServerLeader())
1395	{
1396	CMessage msg;
1397	msg << this->getId();
1398	msg << id;
1399	const std::list<int>& ranks = client->getRanksServerLeader();
1400	for (std::list<int>::const_iterator itRank = ranks.begin(), itRankEnd = ranks.end(); itRank != itRankEnd; ++itRank)
1401	event.push(*itRank,1,msg);
1402	client->sendEvent(event);
1403	}
1404	else client->sendEvent(event);
1405	}
1406	}
1407
1408	void CField::recvAddVariable(CEventServer& event)
1409	{
1410
1411	CBufferIn* buffer = event.subEvents.begin()->buffer;
1412	string id;
1413	*buffer >> id;
1414	get(id)->recvAddVariable(*buffer);
1415	}
1416
1417	void CField::recvAddVariable(CBufferIn& buffer)
1418	{
1419	string id;
1420	buffer >> id;
1421	addVariable(id);
1422	}
1423
1424	void CField::recvAddVariableGroup(CEventServer& event)
1425	{
1426
1427	CBufferIn* buffer = event.subEvents.begin()->buffer;
1428	string id;
1429	*buffer >> id;
1430	get(id)->recvAddVariableGroup(*buffer);
1431	}
1432
1433	void CField::recvAddVariableGroup(CBufferIn& buffer)
1434	{
1435	string id;
1436	buffer >> id;
1437	addVariableGroup(id);
1438	}
1439
1440	/*!
1441	* Returns string arithmetic expression associated to the field.
1442	* \return if content is defined return content string, otherwise, if "expr" attribute is defined, return expr string.
1443	*/
1444	const string& CField::getExpression(void)
1445	{
1446	if (!expr.isEmpty() && content.empty())
1447	{
1448	content = expr;
1449	expr.reset();
1450	}
1451
1452	return content;
1453	}
1454
1455	bool CField::hasExpression(void) const
1456	{
1457	return (!expr.isEmpty() \|\| !content.empty());
1458	}
1459
1460	DEFINE_REF_FUNC(Field,field)
1461	} // namespace xios

Note: See TracBrowser for help on using the repository browser.

Download in other formats: