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source: XIOS/dev/XIOS_DEV_CMIP6/src/node/field.cpp @ 1306

Last change on this file since 1306 was 1306, checked in by oabramkina, 7 years ago
Correcting a check on freq_op and freq_offset: if freq_offset is defined it shouldn't be overwritten.
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: 52.3 KB

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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	#include "file_server_writer_filter.hpp"
26
27	namespace xios{
28
29	/// ////////////////////// DÃ©finitions ////////////////////// ///
30
31	CField::CField(void)
32	: CObjectTemplate<CField>(), CFieldAttributes()
33	, grid(), file()
34	, written(false)
35	, nstep(0), nstepMax(0)
36	, hasOutputFile(false)
37	, domAxisScalarIds_(vector<StdString>(3,""))
38	, areAllReferenceSolved(false), isReferenceSolved(false), isReferenceSolvedAndTransformed(false)
39	, useCompressedOutput(false)
40	, hasTimeInstant(false)
41	, hasTimeCentered(false)
42	, wasDataAlreadyReceivedFromServer(false)
43	, isEOF(false), nstepMaxRead(false)
44	{ setVirtualVariableGroup(CVariableGroup::create(getId() + "_virtual_variable_group")); }
45
46	CField::CField(const StdString& id)
47	: CObjectTemplate<CField>(id), CFieldAttributes()
48	, grid(), file()
49	, written(false)
50	, nstep(0), nstepMax(0)
51	, hasOutputFile(false)
52	, domAxisScalarIds_(vector<StdString>(3,""))
53	, areAllReferenceSolved(false), isReferenceSolved(false), isReferenceSolvedAndTransformed(false)
54	, useCompressedOutput(false)
55	, hasTimeInstant(false)
56	, hasTimeCentered(false)
57	, wasDataAlreadyReceivedFromServer(false)
58	, isEOF(false), nstepMaxRead(false)
59	{ setVirtualVariableGroup(CVariableGroup::create(getId() + "_virtual_variable_group")); }
60
61	CField::~CField(void)
62	{}
63
64	//----------------------------------------------------------------
65
66	void CField::setVirtualVariableGroup(CVariableGroup* newVVariableGroup)
67	{
68	this->vVariableGroup = newVVariableGroup;
69	}
70
71	CVariableGroup* CField::getVirtualVariableGroup(void) const
72	{
73	return this->vVariableGroup;
74	}
75
76	std::vector<CVariable*> CField::getAllVariables(void) const
77	{
78	return this->vVariableGroup->getAllChildren();
79	}
80
81	void CField::solveDescInheritance(bool apply, const CAttributeMap* const parent)
82	{
83	SuperClassAttribute::setAttributes(parent, apply);
84	this->getVirtualVariableGroup()->solveDescInheritance(apply, NULL);
85	}
86
87	//----------------------------------------------------------------
88
89	bool CField::dispatchEvent(CEventServer& event)
90	{
91	if (SuperClass::dispatchEvent(event)) return true;
92	else
93	{
94	switch(event.type)
95	{
96	case EVENT_ID_UPDATE_DATA :
97	recvUpdateData(event);
98	return true;
99	break;
100
101	case EVENT_ID_READ_DATA :
102	recvReadDataRequest(event);
103	return true;
104	break;
105
106	case EVENT_ID_READ_DATA_READY :
107	recvReadDataReady(event);
108	return true;
109	break;
110
111	case EVENT_ID_ADD_VARIABLE :
112	recvAddVariable(event);
113	return true;
114	break;
115
116	case EVENT_ID_ADD_VARIABLE_GROUP :
117	recvAddVariableGroup(event);
118	return true;
119	break;
120
121	default :
122	ERROR("bool CField::dispatchEvent(CEventServer& event)", << "Unknown Event");
123	return false;
124	}
125	}
126	}
127
128	void CField::sendUpdateData(const CArray<double,1>& data)
129	{
130	CTimer::get("Field : send data").resume();
131
132	CContext* context = CContext::getCurrent();
133	CContextClient* client = (!context->hasServer) ? context->client : this->file->getContextClient();
134	int receiverSize = client->serverSize;
135
136	CEventClient event(getType(), EVENT_ID_UPDATE_DATA);
137
138	map<int, CArray<int,1> >::iterator it;
139	list<CMessage> list_msg;
140	list<CArray<double,1> > list_data;
141
142	if (!grid->doGridHaveDataDistributed(client))
143	{
144	if (client->isServerLeader())
145	{
146	for (it = grid->storeIndex_toSrv[client].begin(); it != grid->storeIndex_toSrv[client].end(); it++)
147	{
148	int rank = it->first;
149	CArray<int,1>& index = it->second;
150
151	list_msg.push_back(CMessage());
152	list_data.push_back(CArray<double,1>(index.numElements()));
153
154	CArray<double,1>& data_tmp = list_data.back();
155	for (int n = 0; n < data_tmp.numElements(); n++) data_tmp(n) = data(index(n));
156
157	list_msg.back() << getId() << data_tmp;
158	event.push(rank, 1, list_msg.back());
159	}
160	client->sendEvent(event);
161	}
162	else client->sendEvent(event);
163	}
164	else
165	{
166	for (it = grid->storeIndex_toSrv[client].begin(); it != grid->storeIndex_toSrv[client].end(); it++)
167	{
168	int rank = it->first;
169	CArray<int,1>& index = it->second;
170
171	list_msg.push_back(CMessage());
172	list_data.push_back(CArray<double,1>(index.numElements()));
173
174	CArray<double,1>& data_tmp = list_data.back();
175	for (int n = 0; n < data_tmp.numElements(); n++) data_tmp(n) = data(index(n));
176
177	list_msg.back() << getId() << data_tmp;
178	event.push(rank, grid->nbSenders[receiverSize][rank], list_msg.back());
179	}
180	client->sendEvent(event);
181	}
182
183	CTimer::get("Field : send data").suspend();
184	}
185
186	void CField::recvUpdateData(CEventServer& event)
187	{
188	std::map<int,CBufferIn*> rankBuffers;
189
190	list<CEventServer::SSubEvent>::iterator it;
191	string fieldId;
192	CTimer::get("Field : recv data").resume();
193	for (it = event.subEvents.begin(); it != event.subEvents.end(); ++it)
194	{
195	int rank = it->rank;
196	CBufferIn* buffer = it->buffer;
197	*buffer >> fieldId;
198	rankBuffers[rank] = buffer;
199	}
200	get(fieldId)->recvUpdateData(rankBuffers);
201	CTimer::get("Field : recv data").suspend();
202	}
203
204	void CField::recvUpdateData(std::map<int,CBufferIn*>& rankBuffers)
205	{
206	CContext* context = CContext::getCurrent();
207
208	size_t sizeData = 0;
209	if (0 == recvDataSrv.numElements())
210	{
211	CArray<int,1>& storeClient = grid->storeIndex_client;
212
213	// Gather all data from different clients
214	recvDataSrv.resize(storeClient.numElements());
215	recvFoperationSrv = boost::shared_ptr<func::CFunctor>(new func::CInstant(recvDataSrv));
216	}
217
218	CArray<double,1> recv_data_tmp(recvDataSrv.numElements());
219	const CDate& currDate = context->getCalendar()->getCurrentDate();
220	const CDate opeDate = last_operation_srv +freq_op + freq_operation_srv - freq_op;
221
222	if (opeDate <= currDate)
223	{
224	for (map<int, CArray<size_t, 1> >::iterator it = grid->outLocalIndexStoreOnClient.begin(); it != grid->outLocalIndexStoreOnClient.end(); ++it)
225	{
226	CArray<double,1> tmp;
227	CArray<size_t,1>& indexTmp = it->second;
228	*(rankBuffers[it->first]) >> tmp;
229	for (int idx = 0; idx < indexTmp.numElements(); ++idx)
230	{
231	recv_data_tmp(indexTmp(idx)) = tmp(idx);
232	}
233	}
234	}
235
236	this->setData(recv_data_tmp);
237	}
238
239	void CField::writeUpdateData(const CArray<double,1>& data)
240	{
241	CContext* context = CContext::getCurrent();
242
243	const CDate& currDate = context->getCalendar()->getCurrentDate();
244	const CDate opeDate = last_operation_srv +freq_op + freq_operation_srv - freq_op;
245	const CDate writeDate = last_Write_srv + freq_write_srv;
246
247	if (opeDate <= currDate)
248	{
249	(*recvFoperationSrv)(data);
250	last_operation_srv = currDate;
251	}
252
253	if (writeDate < (currDate + freq_operation_srv))
254	{
255	recvFoperationSrv->final();
256	last_Write_srv = writeDate;
257	grid->computeWrittenIndex();
258	writeField();
259	lastlast_Write_srv = last_Write_srv;
260	}
261	}
262
263	void CField::writeField(void)
264	{
265	if (!getRelFile()->isEmptyZone())
266	{
267	if (grid->doGridHaveDataToWrite() \|\| getRelFile()->type == CFile::type_attr::one_file)
268	{
269	getRelFile()->checkWriteFile();
270	this->incrementNStep();
271	getRelFile()->getDataOutput()->writeFieldData(CField::get(this));
272	}
273	}
274	}
275
276	/*
277	Send a request for reading data.
278	Client sends a request to server for demanding server to read data and send back to it.
279	For now, this function is called only by client
280	In the future, it can be called by level-1 servers
281	\param [in] tsDataRequested timestamp when the call is made
282	*/
283	bool CField::sendReadDataRequest(const CDate& tsDataRequested)
284	{
285	CContext* context = CContext::getCurrent();
286	// CContextClient* client = context->client;
287
288	// This code is for future: If we want to read file with level-2 servers
289	CContextClient* client = (!context->hasServer) ? context->client : this->file->getContextClient();
290
291	lastDataRequestedFromServer = tsDataRequested;
292
293	if (!isEOF) // No need to send the request if we already know we are at EOF
294	{
295	CEventClient event(getType(), EVENT_ID_READ_DATA);
296	if (client->isServerLeader())
297	{
298	CMessage msg;
299	msg << getId();
300	const std::list<int>& ranks = client->getRanksServerLeader();
301	for (std::list<int>::const_iterator itRank = ranks.begin(), itRankEnd = ranks.end(); itRank != itRankEnd; ++itRank)
302	event.push(*itRank, 1, msg);
303	client->sendEvent(event);
304	}
305	else client->sendEvent(event);
306	}
307	else
308	serverSourceFilter->signalEndOfStream(tsDataRequested);
309
310	return !isEOF;
311	}
312
313	/*!
314	Send request new data read from file if need be, that is the current data is out-of-date.
315	\return true if and only if some data was requested
316	*/
317	bool CField::sendReadDataRequestIfNeeded(void)
318	{
319	const CDate& currentDate = CContext::getCurrent()->getCalendar()->getCurrentDate();
320
321	bool dataRequested = false;
322
323	while (currentDate >= lastDataRequestedFromServer)
324	{
325	info(20) << "currentDate : " << currentDate << endl ;
326	info(20) << "lastDataRequestedFromServer : " << lastDataRequestedFromServer << endl ;
327	info(20) << "file->output_freq.getValue() : " << file->output_freq.getValue() << endl ;
328	info(20) << "lastDataRequestedFromServer + file->output_freq.getValue() : " << lastDataRequestedFromServer + file->output_freq << endl ;
329
330	dataRequested \|= sendReadDataRequest(lastDataRequestedFromServer + file->output_freq);
331	}
332
333	return dataRequested;
334	}
335
336	void CField::recvReadDataRequest(CEventServer& event)
337	{
338	CBufferIn* buffer = event.subEvents.begin()->buffer;
339	StdString fieldId;
340	*buffer >> fieldId;
341	get(fieldId)->recvReadDataRequest();
342	}
343
344	/*!
345	Receive data request sent from client and process it
346	Every time server receives this request, it will try to read data and sent read data back to client
347	At the moment, this function is called by server level 1
348	In the future, this should (only) be done by the last level servers.
349	*/
350	void CField::recvReadDataRequest(void)
351	{
352	CContext* context = CContext::getCurrent();
353	CContextClient* client = context->client;
354
355	CEventClient event(getType(), EVENT_ID_READ_DATA_READY);
356	std::list<CMessage> msgs;
357
358	EReadField hasData = readField();
359
360	map<int, CArray<double,1> >::iterator it;
361	if (!grid->doGridHaveDataDistributed(client))
362	{
363	if (client->isServerLeader())
364	{
365	if (0 != recvDataSrv.numElements())
366	{
367	const std::list<int>& ranks = client->getRanksServerLeader();
368	for (std::list<int>::const_iterator itRank = ranks.begin(), itRankEnd = ranks.end(); itRank != itRankEnd; ++itRank)
369	{
370	msgs.push_back(CMessage());
371	CMessage& msg = msgs.back();
372	msg << getId();
373	switch (hasData)
374	{
375	case RF_DATA:
376	msg << getNStep() - 1 << recvDataSrv;
377	break;
378	case RF_NODATA:
379	msg << int(-2) << recvDataSrv;
380	break;
381	case RF_EOF:
382	default:
383	msg << int(-1);
384	break;
385	}
386
387	event.push(*itRank, 1, msg);
388	}
389	}
390	client->sendEvent(event);
391	}
392	else
393	{
394	client->sendEvent(event);
395	}
396	}
397	else
398	{
399	for (map<int, CArray<size_t, 1> >::iterator it = grid->outLocalIndexStoreOnClient.begin();
400	it != grid->outLocalIndexStoreOnClient.end(); ++it)
401	{
402	CArray<size_t,1>& indexTmp = it->second;
403	CArray<double,1> tmp(indexTmp.numElements());
404	for (int idx = 0; idx < indexTmp.numElements(); ++idx)
405	{
406	tmp(idx) = recvDataSrv(indexTmp(idx));
407	}
408
409	msgs.push_back(CMessage());
410	CMessage& msg = msgs.back();
411	msg << getId();
412	switch (hasData)
413	{
414	case RF_DATA:
415	msg << getNStep() - 1 << tmp;
416	break;
417	case RF_NODATA:
418	msg << int(-2) << tmp;
419	break;
420	case RF_EOF:
421	default:
422	msg << int(-1);
423	break;
424	}
425
426	event.push(it->first, grid->nbReadSenders[client][it->first], msg);
427	}
428	client->sendEvent(event);
429	}
430	}
431
432	/*!
433	Read field from a file.
434	A field is read with the distribution of data on the server side
435	\return State of field can be read from a file
436	*/
437	CField::EReadField CField::readField(void)
438	{
439	CContext* context = CContext::getCurrent();
440	grid->computeWrittenIndex();
441	getRelFile()->initRead();
442	EReadField readState = RF_DATA;
443
444	if (!getRelFile()->isEmptyZone())
445	{
446	if (grid->doGridHaveDataToWrite() \|\| getRelFile()->type == CFile::type_attr::one_file)
447	{
448	if (0 == recvDataSrv.numElements())
449	{
450	CArray<int,1>& storeClient = grid->storeIndex_client;
451	recvDataSrv.resize(storeClient.numElements());
452	}
453
454	getRelFile()->checkReadFile();
455
456	if (!nstepMax)
457	{
458	nstepMax = getRelFile()->getDataInput()->getFieldNbRecords(CField::get(this));
459	}
460
461	this->incrementNStep();
462
463	if (getNStep() > nstepMax && (getRelFile()->cyclic.isEmpty() \|\| !getRelFile()->cyclic) )
464	readState = RF_EOF;
465
466	if (RF_EOF != readState)
467	getRelFile()->getDataInput()->readFieldData(CField::get(this));
468	}
469	}
470	else
471	{
472	this->incrementNStep();
473	if (getNStep() > nstepMax && (getRelFile()->cyclic.isEmpty() \|\| !getRelFile()->cyclic) )
474	readState = RF_EOF;
475	else
476	readState = RF_NODATA;
477
478	if (!nstepMaxRead) // This can be a bug if we try to read field from zero time record
479	readState = RF_NODATA;
480	}
481
482	if (!nstepMaxRead)
483	{
484	MPI_Allreduce(MPI_IN_PLACE, &nstepMax, 1, MPI_INT, MPI_MAX, context->server->intraComm);
485	nstepMaxRead = true;
486	}
487
488	return readState;
489	}
490
491	/*
492	Receive read data from server.
493	At the moment, this function is called in the client side.
494	In the future, this function can be called hiearachically (server n-1, server n -2, ..., client)
495	\param event event containing read data
496	*/
497	void CField::recvReadDataReady(CEventServer& event)
498	{
499	string fieldId;
500	vector<int> ranks;
501	vector<CBufferIn*> buffers;
502
503	list<CEventServer::SSubEvent>::iterator it;
504	for (it = event.subEvents.begin(); it != event.subEvents.end(); ++it)
505	{
506	ranks.push_back(it->rank);
507	CBufferIn* buffer = it->buffer;
508	*buffer >> fieldId;
509	buffers.push_back(buffer);
510	}
511	get(fieldId)->recvReadDataReady(ranks, buffers);
512	}
513
514	/*!
515	Receive read data from server
516	\param [in] ranks Ranks of sending processes
517	\param [in] buffers buffers containing read data
518	*/
519	void CField::recvReadDataReady(vector<int> ranks, vector<CBufferIn*> buffers)
520	{
521	CContext* context = CContext::getCurrent();
522	int record;
523	std::map<int, CArray<double,1> > data;
524
525	for (int i = 0; i < ranks.size(); i++)
526	{
527	int rank = ranks[i];
528	*buffers[i] >> record;
529	isEOF = (record == int(-1));
530
531	if (!isEOF)
532	*buffers[i] >> data[rank];
533	else
534	break;
535	}
536
537	if (wasDataAlreadyReceivedFromServer)
538	lastDataReceivedFromServer = lastDataReceivedFromServer + file->output_freq;
539	else
540	{
541	lastDataReceivedFromServer = context->getCalendar()->getInitDate();
542	wasDataAlreadyReceivedFromServer = true;
543	}
544
545	if (isEOF)
546	serverSourceFilter->signalEndOfStream(lastDataReceivedFromServer);
547	else
548	serverSourceFilter->streamDataFromServer(lastDataReceivedFromServer, data);
549	}
550
551	//----------------------------------------------------------------
552
553	void CField::setRelFile(CFile* _file)
554	{
555	this->file = _file;
556	hasOutputFile = true;
557	}
558
559	//----------------------------------------------------------------
560
561	StdString CField::GetName(void) { return StdString("field"); }
562	StdString CField::GetDefName(void) { return CField::GetName(); }
563	ENodeType CField::GetType(void) { return eField; }
564
565	//----------------------------------------------------------------
566
567	CGrid* CField::getRelGrid(void) const
568	{
569	return this->grid;
570	}
571
572	//----------------------------------------------------------------
573
574	CFile* CField::getRelFile(void) const
575	{
576	return this->file;
577	}
578
579	int CField::getNStep(void) const
580	{
581	return this->nstep;
582	}
583
584	func::CFunctor::ETimeType CField::getOperationTimeType() const
585	{
586	return operationTimeType;
587	}
588
589	//----------------------------------------------------------------
590
591	void CField::incrementNStep(void)
592	{
593	this->nstep++;
594	}
595
596	void CField::resetNStep(int nstep /= 0/)
597	{
598	this->nstep = nstep;
599	}
600
601	void CField::resetNStepMax(void)
602	{
603	this->nstepMax = 0;
604	nstepMaxRead = false;
605	}
606
607	//----------------------------------------------------------------
608
609	bool CField::isActive(bool atCurrentTimestep /= false/) const
610	{
611	if (clientSourceFilter)
612	return atCurrentTimestep ? clientSourceFilter->isDataExpected(CContext::getCurrent()->getCalendar()->getCurrentDate()) : true;
613	else if (storeFilter)
614	return true;
615	else if (instantDataFilter)
616	ERROR("bool CField::isActive(bool atCurrentTimestep)",
617	<< "Impossible to check if field [ id = " << getId() << " ] is active as it cannot be used to receive nor send data.");
618
619	return false;
620	}
621
622	//----------------------------------------------------------------
623
624	bool CField::wasWritten() const
625	{
626	return written;
627	}
628
629	void CField::setWritten()
630	{
631	written = true;
632	}
633
634	//----------------------------------------------------------------
635
636	bool CField::getUseCompressedOutput() const
637	{
638	return useCompressedOutput;
639	}
640
641	void CField::setUseCompressedOutput()
642	{
643	useCompressedOutput = true;
644	}
645
646	//----------------------------------------------------------------
647
648	boost::shared_ptr<COutputPin> CField::getInstantDataFilter()
649	{
650	return instantDataFilter;
651	}
652
653	//----------------------------------------------------------------
654
655	/*!
656	Build up graph of grids which plays role of destination and source in grid transformation
657	This function should be called before \func solveGridReference()
658	*/
659	void CField::buildGridTransformationGraph()
660	{
661	CContext* context = CContext::getCurrent();
662	if (context->hasClient && !context->hasServer)
663	{
664	if (grid && !grid->isTransformed() && hasDirectFieldReference() && grid != getDirectFieldReference()->grid)
665	{
666	grid->addTransGridSource(getDirectFieldReference()->grid);
667	}
668	}
669	}
670
671	/*!
672	Generate a new grid destination if there are more than one grid source pointing to a same grid destination
673	*/
674	void CField::generateNewTransformationGridDest()
675	{
676	CContext* context = CContext::getCurrent();
677	if (context->hasClient && !context->hasServer)
678	{
679	std::map<CGrid*,std::pair<bool,StdString> >& gridSrcMap = grid->getTransGridSource();
680	if (1 < gridSrcMap.size())
681	{
682	// Search for grid source
683	CGrid* gridSrc = grid;
684	CField* currField = this;
685	std::vector<CField*> hieraField;
686
687	while (currField->hasDirectFieldReference() && (gridSrc == grid))
688	{
689	hieraField.push_back(currField);
690	CField* tmp = currField->getDirectFieldReference();
691	currField = tmp;
692	gridSrc = currField->grid;
693	}
694
695	if (gridSrcMap.end() != gridSrcMap.find(gridSrc))
696	{
697	CGrid* gridTmp;
698	std::pair<bool,StdString> newGridDest = gridSrcMap[gridSrc];
699	if (newGridDest.first)
700	{
701	StdString newIdGridDest = newGridDest.second;
702	if (!CGrid::has(newIdGridDest))
703	{
704	ERROR("CGrid* CGrid::generateNewTransformationGridDest()",
705	<< " Something wrong happened! Grid whose id " << newIdGridDest
706	<< "should exist ");
707	}
708	gridTmp = CGrid::get(newIdGridDest);
709	}
710	else
711	{
712	StdString newIdGridDest = CGrid::generateId(gridSrc, grid);
713	gridTmp = CGrid::cloneGrid(newIdGridDest, grid);
714
715	(gridSrcMap[gridSrc]).first = true;
716	(gridSrcMap[gridSrc]).second = newIdGridDest;
717	}
718
719	// Update all descendants
720	for (std::vector<CField*>::iterator it = hieraField.begin(); it != hieraField.end(); ++it)
721	{
722	(*it)->grid = gridTmp;
723	(it)->updateRef((it)->grid);
724	}
725	}
726	}
727	}
728	}
729
730	void CField::updateRef(CGrid* grid)
731	{
732	if (!grid_ref.isEmpty()) grid_ref.setValue(grid->getId());
733	else
734	{
735	std::vector<CAxis*> axisTmp = grid->getAxis();
736	std::vector<CDomain*> domainTmp = grid->getDomains();
737	if ((1<axisTmp.size()) \|\| (1<domainTmp.size()))
738	ERROR("void CField::updateRef(CGrid* grid)",
739	<< "More than one domain or axis is available for domain_ref/axis_ref of field " << this->getId());
740
741	if ((!domain_ref.isEmpty()) && (domainTmp.empty()))
742	ERROR("void CField::updateRef(CGrid* grid)",
743	<< "Incoherent between available domain and domain_ref of field " << this->getId());
744	if ((!axis_ref.isEmpty()) && (axisTmp.empty()))
745	ERROR("void CField::updateRef(CGrid* grid)",
746	<< "Incoherent between available axis and axis_ref of field " << this->getId());
747
748	if (!domain_ref.isEmpty()) domain_ref.setValue(domainTmp[0]->getId());
749	if (!axis_ref.isEmpty()) axis_ref.setValue(axisTmp[0]->getId());
750	}
751	}
752
753	/*!
754	Solve reference of all enabled fields even the source fields .
755	In this step, we do transformations.
756	*/
757	void CField::solveAllEnabledFieldsAndTransform()
758	{
759	CContext* context = CContext::getCurrent();
760	bool hasClient = context->hasClient;
761	bool hasServer = context->hasServer;
762
763	if (!isReferenceSolvedAndTransformed)
764	{
765	isReferenceSolvedAndTransformed = true;
766
767	if (hasClient && !hasServer)
768	{
769	solveRefInheritance(true);
770	if (hasDirectFieldReference()) getDirectFieldReference()->solveAllEnabledFieldsAndTransform();
771	}
772
773	if (hasServer)
774	solveServerOperation();
775
776	solveGridReference();
777
778	if (hasClient && !hasServer)
779	{
780	solveGenerateGrid();
781	buildGridTransformationGraph();
782	}
783
784	solveGridDomainAxisRef(false);
785
786	if (hasClient && !hasServer)
787	{
788	solveTransformedGrid();
789	}
790
791	solveGridDomainAxisRef(false);
792	}
793	}
794
795	void CField::checkGridOfEnabledFields()
796	{
797	solveCheckMaskIndex(false);
798	}
799
800	void CField::sendGridComponentOfEnabledFields()
801	{
802	solveGridDomainAxisRef(true);
803	// solveCheckMaskIndex(true);
804	}
805
806	void CField::sendGridOfEnabledFields()
807	{
808	// solveGridDomainAxisRef(true);
809	solveCheckMaskIndex(true);
810	}
811
812	void CField::solveOnlyReferenceEnabledField(bool doSending2Server)
813	{
814	CContext* context = CContext::getCurrent();
815	if (!isReferenceSolved)
816	{
817	isReferenceSolved = true;
818
819	if (context->hasClient && !context->hasServer)
820	{
821	solveRefInheritance(true);
822	if (hasDirectFieldReference()) getDirectFieldReference()->solveOnlyReferenceEnabledField(false);
823	}
824
825	if (context->hasServer)
826	solveServerOperation();
827
828	solveGridReference();
829
830	if (context->hasClient && !context->hasServer)
831	{
832	solveGenerateGrid();
833	buildGridTransformationGraph();
834	}
835	}
836	}
837
838	void CField::solveAllReferenceEnabledField(bool doSending2Server)
839	{
840	CContext* context = CContext::getCurrent();
841	solveOnlyReferenceEnabledField(doSending2Server);
842
843	if (!areAllReferenceSolved)
844	{
845	areAllReferenceSolved = true;
846
847	if (context->hasClient && !context->hasServer)
848	{
849	solveRefInheritance(true);
850	if (hasDirectFieldReference()) getDirectFieldReference()->solveAllReferenceEnabledField(false);
851	}
852	else if (context->hasServer)
853	solveServerOperation();
854
855	solveGridReference();
856	}
857
858	solveGridDomainAxisRef(doSending2Server);
859
860	if (context->hasClient && !context->hasServer)
861	{
862	solveTransformedGrid();
863	}
864
865	solveCheckMaskIndex(doSending2Server);
866	}
867
868	std::map<int, StdSize> CField::getGridAttributesBufferSize(CContextClient* client)
869	{
870	return grid->getAttributesBufferSize(client);
871	}
872
873	std::map<int, StdSize> CField::getGridDataBufferSize(CContextClient* client)
874	{
875	return grid->getDataBufferSize(client, getId());
876	}
877
878	size_t CField::getGlobalWrittenSize()
879	{
880	return grid->getGlobalWrittenSize();
881	}
882
883	//----------------------------------------------------------------
884
885	void CField::solveServerOperation(void)
886	{
887	CContext* context = CContext::getCurrent();
888
889	if (!context->hasServer \|\| !hasOutputFile) return;
890
891	if (freq_op.isEmpty())
892	freq_op.setValue(TimeStep);
893
894	if (freq_offset.isEmpty())
895	freq_offset.setValue(NoneDu);
896
897	freq_operation_srv = file->output_freq.getValue();
898	freq_write_srv = file->output_freq.getValue();
899
900	lastlast_Write_srv = context->getCalendar()->getInitDate();
901	last_Write_srv = context->getCalendar()->getInitDate();
902	last_operation_srv = context->getCalendar()->getInitDate();
903
904	const CDuration toffset = freq_operation_srv - freq_offset.getValue() - context->getCalendar()->getTimeStep();
905	last_operation_srv = last_operation_srv - toffset;
906
907	if (operation.isEmpty())
908	ERROR("void CField::solveServerOperation(void)",
909	<< "An operation must be defined for field \"" << getId() << "\".");
910
911	boost::shared_ptr<func::CFunctor> functor;
912	CArray<double, 1> dummyData;
913
914	#define DECLARE_FUNCTOR(MType, mtype) \
915	if (operation.getValue().compare(#mtype) == 0) \
916	{ \
917	functor.reset(new func::C##MType(dummyData)); \
918	}
919
920	#include "functor_type.conf"
921
922	if (!functor)
923	ERROR("void CField::solveServerOperation(void)",
924	<< "\"" << operation << "\" is not a valid operation.");
925
926	operationTimeType = functor->timeType();
927	}
928
929	//----------------------------------------------------------------
930
931	/*!
932	* Constructs the graph filter for the field, enabling or not the data output.
933	* This method should not be called more than once with enableOutput equal to true.
934	*
935	* \param gc the garbage collector to use when building the filter graph
936	* \param enableOutput must be true when the field data is to be
937	* read by the client or/and written to a file
938	*/
939	void CField::buildFilterGraph(CGarbageCollector& gc, bool enableOutput)
940	{
941	if (!isReferenceSolvedAndTransformed) solveAllEnabledFieldsAndTransform();
942
943	const bool detectMissingValues = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
944	const double defaultValue = detectMissingValues ? default_value : (!default_value.isEmpty() ? default_value : 0.0);
945
946	CContext* context = CContext::getCurrent();
947	bool hasWriterServer = context->hasServer && !context->hasClient;
948	bool hasIntermediateServer = context->hasServer && context->hasClient;
949
950	if (hasWriterServer)
951	{
952	if (!instantDataFilter)
953	instantDataFilter = clientSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid,true));
954
955
956	// If the field data is to be read by the client or/and written to a file
957	if (enableOutput && !storeFilter && !fileWriterFilter)
958	{
959	if (file && (file->mode.isEmpty() \|\| file->mode == CFile::mode_attr::write))
960	{
961	fileServerWriterFilter = boost::shared_ptr<CFileServerWriterFilter>(new CFileServerWriterFilter(gc, this));
962	instantDataFilter->connectOutput(fileServerWriterFilter, 0);
963	}
964	}
965	}
966	else if (hasIntermediateServer)
967	{
968	if (!instantDataFilter)
969	instantDataFilter = clientSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid, true));
970
971	// If the field data is to be read by the client or/and written to a file
972	if (enableOutput && !storeFilter && !fileWriterFilter)
973	{
974	if (file && (file->mode.isEmpty() \|\| file->mode == CFile::mode_attr::write))
975	{
976	fileWriterFilter = boost::shared_ptr<CFileWriterFilter>(new CFileWriterFilter(gc, this));
977	instantDataFilter->connectOutput(fileWriterFilter, 0);
978	}
979	}
980	}
981	else
982	{
983	// Start by building a filter which can provide the field's instant data
984	if (!instantDataFilter)
985	{
986	// Check if we have an expression to parse
987	if (hasExpression())
988	{
989	boost::scoped_ptr<IFilterExprNode> expr(parseExpr(getExpression() + '\0'));
990	boost::shared_ptr<COutputPin> filter = expr->reduce(gc, *this);
991
992	// Check if a spatial transformation is needed
993	if (!field_ref.isEmpty())
994	{
995	CGrid* gridRef = CField::get(field_ref)->grid;
996
997	if (grid && grid != gridRef && grid->hasTransform())
998	{
999	std::pair<boost::shared_ptr<CFilter>, boost::shared_ptr<CFilter> > filters = CSpatialTransformFilter::buildFilterGraph(gc, gridRef, grid, detectMissingValues, defaultValue);
1000
1001	filter->connectOutput(filters.first, 0);
1002	filter = filters.second;
1003	}
1004	}
1005
1006	instantDataFilter = filter;
1007	}
1008	// Check if we have a reference on another field
1009	else if (!field_ref.isEmpty())
1010	instantDataFilter = getFieldReference(gc);
1011	// Check if the data is to be read from a file
1012	else if (file && !file->mode.isEmpty() && file->mode == CFile::mode_attr::read)
1013	instantDataFilter = serverSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid, true,
1014	freq_offset.isEmpty() ? NoneDu : freq_offset,
1015	true,
1016	detectMissingValues, defaultValue));
1017	else // The data might be passed from the model
1018	{
1019	if (check_if_active.isEmpty()) check_if_active = false;
1020	instantDataFilter = clientSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid, false, NoneDu, false,
1021	detectMissingValues, defaultValue));
1022	}
1023	}
1024
1025	// If the field data is to be read by the client or/and written to a file
1026	if (enableOutput && !storeFilter && !fileWriterFilter)
1027	{
1028	if (!read_access.isEmpty() && read_access)
1029	{
1030	storeFilter = boost::shared_ptr<CStoreFilter>(new CStoreFilter(gc, CContext::getCurrent(), grid,
1031	detectMissingValues, defaultValue));
1032	instantDataFilter->connectOutput(storeFilter, 0);
1033	}
1034
1035	if (file && (file->mode.isEmpty() \|\| file->mode == CFile::mode_attr::write))
1036	{
1037	fileWriterFilter = boost::shared_ptr<CFileWriterFilter>(new CFileWriterFilter(gc, this));
1038	getTemporalDataFilter(gc, file->output_freq)->connectOutput(fileWriterFilter, 0);
1039	}
1040	}
1041	}
1042	}
1043
1044	/*!
1045	* Returns the filter needed to handle the field reference.
1046	* This method should only be called when building the filter graph corresponding to the field.
1047	*
1048	* \param gc the garbage collector to use
1049	* \return the output pin corresponding to the field reference
1050	*/
1051	boost::shared_ptr<COutputPin> CField::getFieldReference(CGarbageCollector& gc)
1052	{
1053	if (instantDataFilter \|\| field_ref.isEmpty())
1054	ERROR("COutputPin* CField::getFieldReference(CGarbageCollector& gc)",
1055	"Impossible to get the field reference for a field which has already been parsed or which does not have a field_ref.");
1056
1057	CField* fieldRef = CField::get(field_ref);
1058	fieldRef->buildFilterGraph(gc, false);
1059
1060	std::pair<boost::shared_ptr<CFilter>, boost::shared_ptr<CFilter> > filters;
1061	// Check if a spatial transformation is needed
1062	if (grid && grid != fieldRef->grid && grid->hasTransform())
1063	{
1064	bool hasMissingValue = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
1065	double defaultValue = hasMissingValue ? default_value : (!default_value.isEmpty() ? default_value : 0.0);
1066	filters = CSpatialTransformFilter::buildFilterGraph(gc, fieldRef->grid, grid, hasMissingValue, defaultValue);
1067	}
1068	else
1069	filters.first = filters.second = boost::shared_ptr<CFilter>(new CPassThroughFilter(gc));
1070
1071	fieldRef->getInstantDataFilter()->connectOutput(filters.first, 0);
1072
1073	return filters.second;
1074	}
1075
1076	/*!
1077	* Returns the filter needed to handle a self reference in the field's expression.
1078	* If the needed filter does not exist, it is created, otherwise it is reused.
1079	* This method should only be called when building the filter graph corresponding
1080	* to the field's expression.
1081	*
1082	* \param gc the garbage collector to use
1083	* \return the output pin corresponding to a self reference
1084	*/
1085	boost::shared_ptr<COutputPin> CField::getSelfReference(CGarbageCollector& gc)
1086	{
1087	if (instantDataFilter \|\| !hasExpression())
1088	ERROR("COutputPin* CField::getSelfReference(CGarbageCollector& gc)",
1089	"Impossible to add a self reference to a field which has already been parsed or which does not have an expression.");
1090
1091	if (!selfReferenceFilter)
1092	{
1093	const bool detectMissingValues = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
1094	const double defaultValue = detectMissingValues ? default_value : (!default_value.isEmpty() ? default_value : 0.0);
1095
1096	if (file && !file->mode.isEmpty() && file->mode == CFile::mode_attr::read)
1097	{
1098	if (!serverSourceFilter)
1099	serverSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid, true,
1100	freq_offset.isEmpty() ? NoneDu : freq_offset,
1101	true,
1102	detectMissingValues, defaultValue));
1103
1104	selfReferenceFilter = serverSourceFilter;
1105	}
1106	else if (!field_ref.isEmpty())
1107	{
1108	CField* fieldRef = CField::get(field_ref);
1109	fieldRef->buildFilterGraph(gc, false);
1110	selfReferenceFilter = fieldRef->getInstantDataFilter();
1111	}
1112	else
1113	{
1114	if (!clientSourceFilter)
1115	{
1116	if (check_if_active.isEmpty()) check_if_active = false;
1117	clientSourceFilter = boost::shared_ptr<CSourceFilter>(new CSourceFilter(gc, grid, true, NoneDu, false,
1118	detectMissingValues, defaultValue));
1119	}
1120
1121	selfReferenceFilter = clientSourceFilter;
1122	}
1123	}
1124
1125	return selfReferenceFilter;
1126	}
1127
1128	/*!
1129	* Returns the temporal filter corresponding to the field's temporal operation
1130	* for the specified operation frequency. The filter is created if it does not
1131	* exist, otherwise it is reused.
1132	*
1133	* \param gc the garbage collector to use
1134	* \param outFreq the operation frequency, i.e. the frequency at which the output data will be computed
1135	* \return the output pin corresponding to the requested temporal filter
1136	*/
1137	boost::shared_ptr<COutputPin> CField::getTemporalDataFilter(CGarbageCollector& gc, CDuration outFreq)
1138	{
1139	std::map<CDuration, boost::shared_ptr<COutputPin> >::iterator it = temporalDataFilters.find(outFreq);
1140
1141	if (it == temporalDataFilters.end())
1142	{
1143	if (operation.isEmpty())
1144	ERROR("void CField::getTemporalDataFilter(CGarbageCollector& gc, CDuration outFreq)",
1145	<< "An operation must be defined for field \"" << getId() << "\".");
1146
1147	const bool detectMissingValues = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
1148	checkAttributes() ;
1149	boost::shared_ptr<CTemporalFilter> temporalFilter(new CTemporalFilter(gc, operation,
1150	CContext::getCurrent()->getCalendar()->getInitDate(),
1151	freq_op, freq_offset, outFreq,
1152	detectMissingValues, detectMissingValues ? default_value : 0.0));
1153
1154	instantDataFilter->connectOutput(temporalFilter, 0);
1155
1156	it = temporalDataFilters.insert(std::make_pair(outFreq, temporalFilter)).first;
1157	}
1158
1159	return it->second;
1160	}
1161
1162	/*!
1163	* Returns the temporal filter corresponding to the field's temporal operation
1164	* for the specified operation frequency.
1165	*
1166	* \param gc the garbage collector to use
1167	* \param outFreq the operation frequency, i.e. the frequency at which the output data will be computed
1168	* \return the output pin corresponding to the requested temporal filter
1169	*/
1170
1171	boost::shared_ptr<COutputPin> CField::getSelfTemporalDataFilter(CGarbageCollector& gc, CDuration outFreq)
1172	{
1173	if (instantDataFilter \|\| !hasExpression())
1174	ERROR("COutputPin* CField::getSelfTemporalDataFilter(CGarbageCollector& gc)",
1175	"Impossible to add a self reference to a field which has already been parsed or which does not have an expression.");
1176
1177	if (!selfReferenceFilter) getSelfReference(gc) ;
1178
1179	if (serverSourceFilter \|\| clientSourceFilter)
1180	{
1181	if (operation.isEmpty())
1182	ERROR("void CField::getSelfTemporalDataFilter(CGarbageCollector& gc, CDuration outFreq)",
1183	<< "An operation must be defined for field \"" << getId() << "\".");
1184
1185	const bool detectMissingValues = (!detect_missing_value.isEmpty() && !default_value.isEmpty() && detect_missing_value == true);
1186	checkAttributes() ;
1187	boost::shared_ptr<CTemporalFilter> temporalFilter(new CTemporalFilter(gc, operation,
1188	CContext::getCurrent()->getCalendar()->getInitDate(),
1189	freq_op, freq_offset, outFreq,
1190	detectMissingValues, detectMissingValues ? default_value : 0.0));
1191
1192	selfReferenceFilter->connectOutput(temporalFilter, 0);
1193	return temporalFilter ;
1194	}
1195	else if (!field_ref.isEmpty())
1196	{
1197	CField* fieldRef = CField::get(field_ref);
1198	fieldRef->buildFilterGraph(gc, false);
1199	return fieldRef->getTemporalDataFilter(gc, outFreq) ;
1200	}
1201	}
1202
1203	//----------------------------------------------------------------
1204	/*
1205	void CField::fromBinary(StdIStream& is)
1206	{
1207	SuperClass::fromBinary(is);
1208	#define CLEAR_ATT(name_)\
1209	SuperClassAttribute::operator[](#name_)->reset()
1210
1211	CLEAR_ATT(domain_ref);
1212	CLEAR_ATT(axis_ref);
1213	#undef CLEAR_ATT
1214
1215	}
1216	*/
1217	//----------------------------------------------------------------
1218
1219	void CField::solveGridReference(void)
1220	{
1221	if (grid_ref.isEmpty() && domain_ref.isEmpty() && axis_ref.isEmpty() && scalar_ref.isEmpty())
1222	{
1223	ERROR("CField::solveGridReference(void)",
1224	<< "A grid must be defined for field '" << getFieldOutputName() << "' .");
1225	}
1226	else if (!grid_ref.isEmpty() && (!domain_ref.isEmpty() \|\| !axis_ref.isEmpty() \|\| !scalar_ref.isEmpty()))
1227	{
1228	ERROR("CField::solveGridReference(void)",
1229	<< "Field '" << getFieldOutputName() << "' has both a grid and a domain/axis/scalar." << std::endl
1230	<< "Please define either 'grid_ref' or 'domain_ref'/'axis_ref'/'scalar_ref'.");
1231	}
1232
1233	if (grid_ref.isEmpty())
1234	{
1235	std::vector<CDomain*> vecDom;
1236	std::vector<CAxis*> vecAxis;
1237	std::vector<CScalar*> vecScalar;
1238	std::vector<int> axisDomainOrderTmp;
1239
1240	if (!domain_ref.isEmpty())
1241	{
1242	StdString tmp = domain_ref.getValue();
1243	if (CDomain::has(domain_ref))
1244	{
1245	vecDom.push_back(CDomain::get(domain_ref));
1246	axisDomainOrderTmp.push_back(2);
1247	}
1248	else
1249	ERROR("CField::solveGridReference(void)",
1250	<< "Invalid reference to domain '" << domain_ref.getValue() << "'.");
1251	}
1252
1253	if (!axis_ref.isEmpty())
1254	{
1255	if (CAxis::has(axis_ref))
1256	{
1257	vecAxis.push_back(CAxis::get(axis_ref));
1258	axisDomainOrderTmp.push_back(1);
1259	}
1260	else
1261	ERROR("CField::solveGridReference(void)",
1262	<< "Invalid reference to axis '" << axis_ref.getValue() << "'.");
1263	}
1264
1265	if (!scalar_ref.isEmpty())
1266	{
1267	if (CScalar::has(scalar_ref))
1268	{
1269	vecScalar.push_back(CScalar::get(scalar_ref));
1270	axisDomainOrderTmp.push_back(0);
1271	}
1272	else
1273	ERROR("CField::solveGridReference(void)",
1274	<< "Invalid reference to scalar '" << scalar_ref.getValue() << "'.");
1275	}
1276
1277	CArray<int,1> axisDomainOrder(axisDomainOrderTmp.size());
1278	for (int idx = 0; idx < axisDomainOrderTmp.size(); ++idx)
1279	{
1280	axisDomainOrder(idx) = axisDomainOrderTmp[idx];
1281	}
1282
1283	// Warning: the gridId shouldn't be set as the grid_ref since it could be inherited
1284	StdString gridId = CGrid::generateId(vecDom, vecAxis, vecScalar,axisDomainOrder);
1285	if (CGrid::has(gridId))
1286	this->grid = CGrid::get(gridId);
1287	else
1288	this->grid = CGrid::createGrid(gridId, vecDom, vecAxis, vecScalar,axisDomainOrder);
1289	}
1290	else
1291	{
1292	if (CGrid::has(grid_ref))
1293	this->grid = CGrid::get(grid_ref);
1294	else
1295	ERROR("CField::solveGridReference(void)",
1296	<< "Invalid reference to grid '" << grid_ref.getValue() << "'.");
1297	}
1298	}
1299
1300	void CField::solveGridDomainAxisRef(bool checkAtt)
1301	{
1302	grid->solveDomainAxisRef(checkAtt);
1303	}
1304
1305	void CField::solveCheckMaskIndex(bool doSendingIndex)
1306	{
1307	grid->checkMaskIndex(doSendingIndex);
1308	}
1309
1310	void CField::solveTransformedGrid()
1311	{
1312	if (grid && !grid->isTransformed() && hasDirectFieldReference() && grid != getDirectFieldReference()->grid)
1313	{
1314	std::vector<CGrid*> grids;
1315	// Source grid
1316	grids.push_back(getDirectFieldReference()->grid);
1317	// Intermediate grids
1318	if (!grid_path.isEmpty())
1319	{
1320	std::string gridId;
1321	size_t start = 0, end;
1322
1323	do
1324	{
1325	end = grid_path.getValue().find(',', start);
1326	if (end != std::string::npos)
1327	{
1328	gridId = grid_path.getValue().substr(start, end - start);
1329	start = end + 1;
1330	}
1331	else
1332	gridId = grid_path.getValue().substr(start);
1333
1334	if (!CGrid::has(gridId))
1335	ERROR("void CField::solveTransformedGrid()",
1336	<< "Invalid grid_path, the grid '" << gridId << "' does not exist.");
1337
1338	grids.push_back(CGrid::get(gridId));
1339	}
1340	while (end != std::string::npos);
1341	}
1342	// Destination grid
1343	grids.push_back(grid);
1344
1345	for (size_t i = 0, count = grids.size() - 1; i < count; ++i)
1346	{
1347	CGrid *gridSrc = grids[i];
1348	CGrid *gridDest = grids[i + 1];
1349	if (!gridDest->isTransformed())
1350	gridDest->transformGrid(gridSrc);
1351	}
1352	}
1353	else if (grid && grid->hasTransform() && !grid->isTransformed())
1354	{
1355	// Temporarily deactivate the self-transformation of grid
1356	//grid->transformGrid(grid);
1357	}
1358	}
1359
1360	void CField::solveGenerateGrid()
1361	{
1362	if (grid && !grid->isTransformed() && hasDirectFieldReference() && grid != getDirectFieldReference()->grid)
1363	grid->completeGrid(getDirectFieldReference()->grid);
1364	else
1365	grid->completeGrid();
1366	}
1367
1368	void CField::solveGridDomainAxisBaseRef()
1369	{
1370	grid->solveDomainAxisRef(false);
1371	grid->solveDomainAxisBaseRef();
1372	}
1373
1374	///-------------------------------------------------------------------
1375
1376	template <>
1377	void CGroupTemplate<CField, CFieldGroup, CFieldAttributes>::solveRefInheritance(void)
1378	{
1379	if (this->group_ref.isEmpty()) return;
1380	StdString gref = this->group_ref.getValue();
1381
1382	if (!CFieldGroup::has(gref))
1383	ERROR("CGroupTemplate<CField, CFieldGroup, CFieldAttributes>::solveRefInheritance(void)",
1384	<< "[ gref = " << gref << "]"
1385	<< " invalid group name !");
1386
1387	CFieldGroup* group = CFieldGroup::get(gref);
1388	CFieldGroup* owner = CFieldGroup::get(boost::polymorphic_downcast<CFieldGroup*>(this));
1389
1390	std::vector<CField*> allChildren = group->getAllChildren();
1391	std::vector<CField*>::iterator it = allChildren.begin(), end = allChildren.end();
1392
1393	for (; it != end; it++)
1394	{
1395	CField* child = *it;
1396	if (child->hasId()) owner->createChild()->field_ref.setValue(child->getId());
1397
1398	}
1399	}
1400
1401	void CField::scaleFactorAddOffset(double scaleFactor, double addOffset)
1402	{
1403	recvDataSrv = (recvDataSrv - addOffset) / scaleFactor;
1404	}
1405
1406	void CField::invertScaleFactorAddOffset(double scaleFactor, double addOffset)
1407	{
1408	recvDataSrv = recvDataSrv * scaleFactor + addOffset;
1409	}
1410
1411	void CField::outputField(CArray<double,1>& fieldOut)
1412	{
1413	CArray<size_t,1>& outIndexClient = grid->localIndexToWriteOnClient;
1414	CArray<size_t,1>& outIndexServer = grid->localIndexToWriteOnServer;
1415	for (size_t idx = 0; idx < outIndexServer.numElements(); ++idx)
1416	{
1417	fieldOut(outIndexServer(idx)) = recvDataSrv(outIndexClient(idx));
1418	}
1419	}
1420
1421	void CField::inputField(CArray<double,1>& fieldIn)
1422	{
1423	CArray<size_t,1>& outIndexClient = grid->localIndexToWriteOnClient;
1424	CArray<size_t,1>& outIndexServer = grid->localIndexToWriteOnServer;
1425	for (size_t idx = 0; idx < outIndexServer.numElements(); ++idx)
1426	{
1427	recvDataSrv(outIndexClient(idx)) = fieldIn(outIndexServer(idx));
1428	}
1429
1430	}
1431
1432	void CField::outputCompressedField(CArray<double,1>& fieldOut)
1433	{
1434	CArray<size_t,1>& outIndexClient = grid->localIndexToWriteOnClient;
1435	CArray<size_t,1>& outIndexServer = grid->localIndexToWriteOnServer;
1436	for (size_t idx = 0; idx < outIndexServer.numElements(); ++idx)
1437	{
1438	fieldOut((idx)) = recvDataSrv(outIndexClient(idx));
1439	}
1440	}
1441
1442	///-------------------------------------------------------------------
1443
1444	void CField::parse(xml::CXMLNode& node)
1445	{
1446	SuperClass::parse(node);
1447	if (!node.getContent(this->content))
1448	{
1449	if (node.goToChildElement())
1450	{
1451	do
1452	{
1453	if (node.getElementName() == "variable" \|\| node.getElementName() == "variable_group") this->getVirtualVariableGroup()->parseChild(node);
1454	} while (node.goToNextElement());
1455	node.goToParentElement();
1456	}
1457	}
1458	}
1459
1460	/*!
1461	This function retrieves Id of corresponding domain_ref and axis_ref (if any)
1462	of a field. In some cases, only domain exists but axis doesn't
1463	\return pair of Domain and Axis id
1464	*/
1465	const std::vector<StdString>& CField::getRefDomainAxisIds()
1466	{
1467	CGrid* cgPtr = getRelGrid();
1468	if (NULL != cgPtr)
1469	{
1470	std::vector<StdString>::iterator it;
1471	if (!domain_ref.isEmpty())
1472	{
1473	std::vector<StdString> domainList = cgPtr->getDomainList();
1474	it = std::find(domainList.begin(), domainList.end(), domain_ref.getValue());
1475	if (domainList.end() != it) domAxisScalarIds_[0] = *it;
1476	}
1477
1478	if (!axis_ref.isEmpty())
1479	{
1480	std::vector<StdString> axisList = cgPtr->getAxisList();
1481	it = std::find(axisList.begin(), axisList.end(), axis_ref.getValue());
1482	if (axisList.end() != it) domAxisScalarIds_[1] = *it;
1483	}
1484
1485	if (!scalar_ref.isEmpty())
1486	{
1487	std::vector<StdString> scalarList = cgPtr->getScalarList();
1488	it = std::find(scalarList.begin(), scalarList.end(), scalar_ref.getValue());
1489	if (scalarList.end() != it) domAxisScalarIds_[2] = *it;
1490	}
1491	}
1492	return (domAxisScalarIds_);
1493	}
1494
1495	CVariable* CField::addVariable(const string& id)
1496	{
1497	return vVariableGroup->createChild(id);
1498	}
1499
1500	CVariableGroup* CField::addVariableGroup(const string& id)
1501	{
1502	return vVariableGroup->createChildGroup(id);
1503	}
1504
1505	void CField::setContextClient(CContextClient* contextClient)
1506	{
1507	client = contextClient;
1508	grid->setContextClient(contextClient);
1509	}
1510
1511	CContextClient* CField::getContextClient()
1512	{
1513	return client;
1514	}
1515
1516	void CField::sendAddAllVariables(CContextClient* client)
1517	{
1518	std::vector<CVariable*> allVar = getAllVariables();
1519	std::vector<CVariable*>::const_iterator it = allVar.begin();
1520	std::vector<CVariable*>::const_iterator itE = allVar.end();
1521
1522	for (; it != itE; ++it)
1523	{
1524	this->sendAddVariable((*it)->getId(), client);
1525	(*it)->sendAllAttributesToServer(client);
1526	(*it)->sendValue(client);
1527	}
1528	}
1529
1530	void CField::sendAddVariable(const string& id, CContextClient* client)
1531	{
1532	sendAddItem(id, (int)EVENT_ID_ADD_VARIABLE, client);
1533	}
1534
1535	void CField::sendAddVariableGroup(const string& id, CContextClient* client)
1536	{
1537	sendAddItem(id, (int)EVENT_ID_ADD_VARIABLE_GROUP, client);
1538	}
1539
1540	void CField::recvAddVariable(CEventServer& event)
1541	{
1542
1543	CBufferIn* buffer = event.subEvents.begin()->buffer;
1544	string id;
1545	*buffer >> id;
1546	get(id)->recvAddVariable(*buffer);
1547	}
1548
1549	void CField::recvAddVariable(CBufferIn& buffer)
1550	{
1551	string id;
1552	buffer >> id;
1553	addVariable(id);
1554	}
1555
1556	void CField::recvAddVariableGroup(CEventServer& event)
1557	{
1558
1559	CBufferIn* buffer = event.subEvents.begin()->buffer;
1560	string id;
1561	*buffer >> id;
1562	get(id)->recvAddVariableGroup(*buffer);
1563	}
1564
1565	void CField::recvAddVariableGroup(CBufferIn& buffer)
1566	{
1567	string id;
1568	buffer >> id;
1569	addVariableGroup(id);
1570	}
1571
1572	/*!
1573	* Check on freq_off and freq_op attributes.
1574	*/
1575	void CField::checkAttributes(void)
1576	{
1577	if (freq_op.isEmpty())
1578	{
1579	if (operation.getValue()=="instant")
1580	freq_op.setValue(file->output_freq.getValue());
1581	else
1582	freq_op.setValue(TimeStep);
1583	}
1584	if (freq_offset.isEmpty())
1585	freq_offset.setValue(freq_op.getValue()-TimeStep);
1586	}
1587
1588	/*!
1589	* Returns string arithmetic expression associated to the field.
1590	* \return if content is defined return content string, otherwise, if "expr" attribute is defined, return expr string.
1591	*/
1592	const string& CField::getExpression(void)
1593	{
1594	if (!expr.isEmpty() && content.empty())
1595	{
1596	content = expr;
1597	expr.reset();
1598	}
1599
1600	return content;
1601	}
1602
1603	bool CField::hasExpression(void) const
1604	{
1605	return (!expr.isEmpty() \|\| !content.empty());
1606	}
1607
1608
1609	DEFINE_REF_FUNC(Field,field)
1610	} // namespace xios

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