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source: XIOS/dev/dev_olga/src/node/grid.hpp @ 1584

Last change on this file since 1584 was 1584, checked in by oabramkina, 6 years ago
Clean-up in transformation classes related to the new treatment of grid mask at the entrance of a workflow.
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 ``*
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1	#ifndef __XIOS_CGrid__
2	#define __XIOS_CGrid__
3
4	/// XIOS headers ///
5	#include "xios_spl.hpp"
6	#include "group_factory.hpp"
7
8	#include "declare_group.hpp"
9	#include "domain.hpp"
10	#include "axis.hpp"
11	#include "scalar.hpp"
12	#include "array_new.hpp"
13	#include "attribute_array.hpp"
14	#include "distribution_server.hpp"
15	#include "client_server_mapping.hpp"
16	#include "utils.hpp"
17	#include "transformation_enum.hpp"
18
19	namespace xios {
20
21	/// ////////////////////// Declarations ////////////////////// ///
22
23	class CGridGroup;
24	class CGridAttributes;
25	class CDomainGroup;
26	class CAxisGroup;
27	class CScalarGroup;
28	class CGrid;
29	class CDistributionClient;
30	class CDistributionServer;
31	class CServerDistributionDescription;
32	class CClientServerMapping;
33	class CGridTransformation;
34
35	///--------------------------------------------------------------
36
37	// Declare/Define CGridAttribute
38	BEGIN_DECLARE_ATTRIBUTE_MAP(CGrid)
39	# include "grid_attribute.conf"
40	END_DECLARE_ATTRIBUTE_MAP(CGrid)
41
42	///--------------------------------------------------------------
43
44	class CGrid
45	: public CObjectTemplate<CGrid>
46	, public CGridAttributes
47	{
48	/// typedef ///
49	typedef CObjectTemplate<CGrid> SuperClass;
50	typedef CGridAttributes SuperClassAttribute;
51
52	public:
53
54	typedef CGridAttributes RelAttributes;
55	typedef CGridGroup RelGroup;
56
57	enum EEventId
58	{
59	EVENT_ID_INDEX, EVENT_ID_ADD_DOMAIN, EVENT_ID_ADD_AXIS, EVENT_ID_ADD_SCALAR
60	};
61
62	/// Constructeurs ///
63	CGrid(void);
64	explicit CGrid(const StdString& id);
65	CGrid(const CGrid& grid); // Not implemented yet.
66	CGrid(const CGrid* const grid); // Not implemented yet.
67
68	/// Traitements ///
69	// void solveReference(void);
70
71	void checkEligibilityForCompressedOutput();
72
73	void solveDomainAxisRef(bool areAttributesChecked);
74
75	void checkMaskIndex(bool doCalculateIndex);
76
77	// virtual void toBinary (StdOStream& os) const;
78	// virtual void fromBinary(StdIStream& is);
79
80	void addRelFileCompressed(const StdString& filename);
81
82	/// Tests ///
83	bool isCompressible(void) const;
84	bool isWrittenCompressed(const StdString& filename) const;
85
86	public:
87
88	/// Accesseurs ///
89	StdSize getDimension(void);
90
91	StdSize getDataSize(void) const;
92
93	/// Entrees-sorties de champs
94	template <int n>
95	void inputField(const CArray<double,n>& field, CArray<double,1>& stored) const;
96	template <int n>
97	void maskField(const CArray<double,n>& field, CArray<double,1>& stored) const;
98	template <int n>
99	void outputField(const CArray<double,1>& stored, CArray<double,n>& field) const;
100	template <int n>
101	void uncompressField(const CArray<double,n>& data, CArray<double,1>& outData) const;
102
103	virtual void parse(xml::CXMLNode& node);
104
105	/// Destructeur ///
106	virtual ~CGrid(void);
107
108	public:
109
110	/// Accesseurs statiques ///
111	static StdString GetName(void);
112	static StdString GetDefName(void);
113
114	static ENodeType GetType(void);
115
116	/// Instanciateurs Statiques ///
117	static CGrid* createGrid(CDomain* domain);
118	static CGrid* createGrid(CDomain* domain, CAxis* axis);
119	static CGrid* createGrid(const std::vector<CDomain>& domains, const std::vector<CAxis>& axis,
120	const CArray<int,1>& axisDomainOrder = CArray<int,1>());
121	static CGrid* createGrid(StdString id, const std::vector<CDomain>& domains, const std::vector<CAxis>& axis,
122	const std::vector<CScalar*>& scalars, const CArray<int,1>& axisDomainOrder = CArray<int,1>());
123	static CGrid* createGrid(const std::vector<CDomain>& domains, const std::vector<CAxis>& axis,
124	const std::vector<CScalar*>& scalars, const CArray<int,1>& axisDomainOrder);
125	static StdString generateId(const std::vector<CDomain>& domains, const std::vector<CAxis>& axis,
126	const std::vector<CScalar*>& scalars, const CArray<int,1>& axisDomainOrder = CArray<int,1>());
127	static StdString generateId(const CGrid* gridSrc, const CGrid* gridDest);
128	static CGrid* cloneGrid(const StdString& idNewGrid, CGrid* gridSrc);
129
130	public:
131	void computeIndexServer(void);
132	void computeIndex(void);
133	void computeIndexScalarGrid();
134	void computeWrittenIndex();
135
136	void solveDomainRef(bool checkAtt);
137	void solveAxisRef(bool checkAtt);
138	void solveScalarRef(bool checkAtt);
139	void solveDomainAxisRefInheritance(bool apply = true);
140	void solveTransformations();
141	void solveDomainAxisBaseRef();
142
143	CDomain* addDomain(const std::string& id=StdString());
144	CAxis* addAxis(const std::string& id=StdString());
145	CScalar* addScalar(const std::string& id=StdString());
146	void sendAddDomain(const std::string& id="");
147	void sendAddAxis(const std::string& id="");
148	void sendAddScalar(const std::string& id="");
149	void sendAllDomains();
150	void sendAllAxis();
151	void sendAllScalars();
152
153	static void recvAddDomain(CEventServer& event);
154	void recvAddDomain(CBufferIn& buffer);
155	static void recvAddAxis(CEventServer& event);
156	void recvAddAxis(CBufferIn& buffer);
157	static void recvAddScalar(CEventServer& event);
158	void recvAddScalar(CBufferIn& buffer);
159
160	static bool dispatchEvent(CEventServer& event);
161	static void recvIndex(CEventServer& event);
162	void recvIndex(vector<int> ranks, vector<CBufferIn*> buffers);
163	void sendIndex(void);
164	void sendIndexScalarGrid();
165
166	void setContextClient(CContextClient* contextClient);
167
168	void computeDomConServer();
169	std::map<int, int> getDomConServerSide();
170	std::map<int, StdSize> getAttributesBufferSize(CContextClient* client, bool bufferForWriting = false);
171	std::map<int, StdSize> getDataBufferSize(CContextClient* client, const std::string& id = "", bool bufferForWriting = false);
172	std::vector<StdString> getDomainList();
173	std::vector<StdString> getAxisList();
174	std::vector<StdString> getScalarList();
175	std::vector<CDomain*> getDomains();
176	std::vector<CAxis*> getAxis();
177	std::vector<CScalar*> getScalars();
178	CDomain* getDomain(int domainIndex);
179	CAxis* getAxis(int axisIndex);
180	CScalar* getScalar(int scalarIndex);
181	std::vector<int> getAxisOrder();
182	std::vector<int> getGlobalDimension();
183	bool isScalarGrid() const;
184
185	bool doGridHaveDataToWrite();
186	bool doGridHaveDataDistributed(CContextClient* client = 0);
187	size_t getWrittenDataSize() const;
188	int getNumberWrittenIndexes() const;
189	int getTotalNumberWrittenIndexes() const;
190	int getOffsetWrittenIndexes() const;
191
192	CDistributionServer* getDistributionServer();
193	CDistributionClient* getDistributionClient();
194	CGridTransformation* getTransformations();
195
196	void transformGrid(CGrid* transformGridSrc);
197	void completeGrid(CGrid* transformGridSrc = 0);
198	void doAutoDistribution(CGrid* transformGridSrc);
199	bool isTransformed();
200	void setTransformed();
201	bool isGenerated();
202	void setGenerated();
203	void addTransGridSource(CGrid* gridSrc);
204	std::map<CGrid*, std::pair<bool,StdString> >& getTransGridSource();
205	bool hasTransform();
206	size_t getGlobalWrittenSize(void) ;
207	// void getLocalMask(CArray<bool,1>& localMask) ;
208	// template<int N>
209	// void getLocalMask(const CArray<bool,N>& gridMask, CArray<bool,1>& localMask) ;
210	public:
211	CArray<int, 1> storeIndex_client;
212	CArray<bool, 1> storeMask_client;
213
214	/** Map containing indexes that will be sent in sendIndex(). */
215	std::map<CContextClient*, map<int, CArray<int, 1> > > storeIndex_toSrv;
216
217	/** Map storing the number of senders. Key = size of receiver's intracomm */
218	std::map<int, std::map<int,int> > nbSenders;
219
220	std::map<CContextClient*, std::map<int,int> > nbReadSenders;
221
222	map<int, CArray<int, 1> > storeIndex_fromSrv; // Support, for now, reading with level-1 server
223
224	map<int, CArray<size_t, 1> > outIndexFromClient; // Deprecated
225
226	map<int, CArray<size_t, 1> > compressedOutIndexFromClient;
227
228	/** Map storing received indexes. Key = sender rank, value = index array. */
229	map<int, CArray<size_t, 1> > outGlobalIndexFromClient;
230
231	// Manh Ha's comment: " A client receives global index from other clients (via recvIndex)
232	// then does mapping these index into local index of STORE_CLIENTINDEX
233	// In this way, store_clientIndex can be used as an input of a source filter
234	// Maybe we need a flag to determine whether a client wants to write. TODO "
235
236	/** Map storing received data. Key = sender rank, value = data array.
237	* The map is created in CGrid::computeClientIndex and filled upon receiving data in CField::recvUpdateData() */
238	map<int, CArray<size_t, 1> > outLocalIndexStoreOnClient;
239
240	/** Indexes calculated based on server-like distribution.
241	* They are used for writing/reading data and only calculated for server level that does the writing/reading.
242	* Along with localIndexToWriteOnClient, these indexes are used to correctly place incoming data. */
243	CArray<size_t,1> localIndexToWriteOnServer;
244
245	/** Indexes calculated based on client-like distribution.
246	* They are used for writing/reading data and only calculated for server level that does the writing/reading.
247	* Along with localIndexToWriteOnServer, these indexes are used to correctly place incoming data. */
248	CArray<size_t,1> localIndexToWriteOnClient;
249
250	CArray<size_t,1> indexFromClients;
251
252	void checkMask(void);
253	void createMask(void);
254	void modifyMask(const CArray<int,1>& indexToModify, bool valueToModify = false);
255	void modifyMaskSize(const std::vector<int>& newDimensionSize, bool newValue = false);
256
257	void computeGridGlobalDimension(const std::vector<CDomain*>& domains,
258	const std::vector<CAxis*>& axis,
259	const std::vector<CScalar*>& scalars,
260	const CArray<int,1>& axisDomainOrder);
261
262	private:
263	template<int N>
264	void checkGridMask(CArray<bool,N>& gridMask,
265	const std::vector<CArray<bool,1>* >& domainMasks,
266	const std::vector<CArray<bool,1>* >& axisMasks,
267	const CArray<int,1>& axisDomainOrder,
268	bool createMask = false);
269	template<int N>
270	void modifyGridMask(CArray<bool,N>& gridMask, const CArray<int,1>& indexToModify, bool valueToModify);
271
272	template<int N>
273	void modifyGridMaskSize(CArray<bool,N>& gridMask, const std::vector<int>& eachDimSize, bool newValue);
274
275	void storeField_arr(const double* const data, CArray<double, 1>& stored) const;
276	void restoreField_arr(const CArray<double, 1>& stored, double* const data) const;
277	void uncompressField_arr(const double* const data, CArray<double, 1>& outData) const;
278	void maskField_arr(const double* const data, CArray<double, 1>& stored) const;
279
280	void setVirtualDomainGroup(CDomainGroup* newVDomainGroup);
281	void setVirtualAxisGroup(CAxisGroup* newVAxisGroup);
282	void setVirtualScalarGroup(CScalarGroup* newVScalarGroup);
283
284	void setDomainList(const std::vector<CDomain> domains = std::vector<CDomain>());
285	void setAxisList(const std::vector<CAxis> axis = std::vector<CAxis>());
286	void setScalarList(const std::vector<CScalar> scalars = std::vector<CScalar>());
287
288	CDomainGroup* getVirtualDomainGroup() const;
289	CAxisGroup* getVirtualAxisGroup() const;
290	CScalarGroup* getVirtualScalarGroup() const;
291
292	void checkAttributesAfterTransformation();
293	void setTransformationAlgorithms();
294	void computeIndexByElement(const std::vector<std::unordered_map<size_t,std::vector<int> > >& indexServerOnElement,
295	const CContextClient* client,
296	CClientServerMapping::GlobalIndexMap& globalIndexOnServer);
297	int computeGridGlobalDimension(std::vector<int>& globalDim,
298	const std::vector<CDomain*> domains,
299	const std::vector<CAxis*> axis,
300	const std::vector<CScalar*> scalars,
301	const CArray<int,1>& axisDomainOrder);
302	int getDistributedDimension();
303
304	void computeClientIndex();
305	void computeConnectedClients();
306	void computeClientIndexScalarGrid();
307	void computeConnectedClientsScalarGrid();
308
309	private:
310
311	/** Clients that have to send a grid. There can be multiple clients in case of secondary server, otherwise only one client. */
312	std::list<CContextClient*> clients;
313	std::set<CContextClient*> clientsSet;
314
315	bool isChecked;
316	bool isDomainAxisChecked;
317	bool isIndexSent;
318
319	CDomainGroup* vDomainGroup_;
320	CAxisGroup* vAxisGroup_;
321	CScalarGroup* vScalarGroup_;
322	std::vector<std::string> axisList_, domList_, scalarList_;
323	bool isAxisListSet, isDomListSet, isScalarListSet;
324
325	/** Client-like distribution calculated based on the knowledge of the entire grid */
326	CDistributionClient* clientDistribution_;
327
328	/** Server-like distribution calculated upon receiving indexes */
329	CDistributionServer* serverDistribution_;
330
331	CClientServerMapping* clientServerMap_;
332	size_t writtenDataSize_;
333	int numberWrittenIndexes_, totalNumberWrittenIndexes_, offsetWrittenIndexes_;
334
335	/** Map storing local ranks of connected receivers. Key = size of receiver's intracomm.
336	* It is calculated in computeConnectedClients(). */
337	std::map<int, std::vector<int> > connectedServerRank_;
338
339	/** Map storing the size of data to be send. Key = size of receiver's intracomm
340	* It is calculated in computeConnectedClients(). */
341	std::map<int, std::map<int,size_t> > connectedDataSize_;
342
343	/** Ranks of connected receivers in case of reading. It is calculated in recvIndex(). */
344	std::vector<int> connectedServerRankRead_;
345
346	/** Size of data to be send in case of reading. It is calculated in recvIndex(). */
347	std::map<int,size_t> connectedDataSizeRead_;
348
349	bool isDataDistributed_;
350	//! True if and only if the data defined on the grid can be outputted in a compressed way
351	bool isCompressible_;
352	std::set<std::string> relFilesCompressed;
353
354	bool isTransformed_, isGenerated_;
355	bool computedWrittenIndex_;
356	std::vector<int> axisPositionInGrid_;
357	CGridTransformation* transformations_;
358	bool hasDomainAxisBaseRef_;
359	std::map<CGrid*, std::pair<bool,StdString> > gridSrc_;
360	bool hasTransform_;
361
362	/** Map storing global indexes of server-like (band-wise) distribution for sending to receivers.
363	* Key = size of receiver's intracomm.
364	*/
365	// std::map<CContextClient*, CClientServerMapping::GlobalIndexMap> globalIndexOnServer_;
366	std::map<int, CClientServerMapping::GlobalIndexMap> globalIndexOnServer_;
367
368
369	/** List order of axis and domain in a grid, if there is a domain, it will take value 1 (true), axis 0 (false) */
370	std::vector<int> order_;
371
372	}; // class CGrid
373
374	///--------------------------------------------------------------
375
376	template <int n>
377	void CGrid::inputField(const CArray<double,n>& field, CArray<double,1>& stored) const
378	{
379	//#ifdef __XIOS_DEBUG
380	if (this->getDataSize() != field.numElements())
381	ERROR("void CGrid::inputField(const CArray<double,n>& field, CArray<double,1>& stored) const",
382	<< "[ Awaiting data of size = " << this->getDataSize() << ", "
383	<< "Received data size = " << field.numElements() << " ] "
384	<< "The data array does not have the right size! "
385	<< "Grid = " << this->getId())
386	//#endif
387	this->storeField_arr(field.dataFirst(), stored);
388	}
389
390	template <int n>
391	void CGrid::maskField(const CArray<double,n>& field, CArray<double,1>& stored) const
392	{
393	//#ifdef __XIOS_DEBUG
394	if (this->getDataSize() != field.numElements())
395	ERROR("void CGrid::inputField(const CArray<double,n>& field, CArray<double,1>& stored) const",
396	<< "[ Awaiting data of size = " << this->getDataSize() << ", "
397	<< "Received data size = " << field.numElements() << " ] "
398	<< "The data array does not have the right size! "
399	<< "Grid = " << this->getId())
400	//#endif
401	this->maskField_arr(field.dataFirst(), stored);
402	}
403
404	template <int n>
405	void CGrid::outputField(const CArray<double,1>& stored, CArray<double,n>& field) const
406	{
407	//#ifdef __XIOS_DEBUG
408	if (this->getDataSize() != field.numElements())
409	ERROR("void CGrid::outputField(const CArray<double,1>& stored, CArray<double,n>& field) const",
410	<< "[ Size of the data = " << this->getDataSize() << ", "
411	<< "Output data size = " << field.numElements() << " ] "
412	<< "The ouput array does not have the right size! "
413	<< "Grid = " << this->getId())
414	//#endif
415	this->restoreField_arr(stored, field.dataFirst());
416	}
417
418	/*!
419	This function removes the effect of mask on received data on the server.
420	This function only serve for the checking purpose. TODO: Something must be done to seperate mask and data_index from each other in received data
421	\data data received data with masking effect on the server
422	\outData data without masking effect
423	*/
424	template <int N>
425	void CGrid::uncompressField(const CArray<double,N>& data, CArray<double,1>& outData) const
426	{
427	uncompressField_arr(data.dataFirst(), outData);
428	}
429
430	template<int N>
431	void CGrid::checkGridMask(CArray<bool,N>& gridMask,
432	const std::vector<CArray<bool,1>* >& domainMasks,
433	const std::vector<CArray<bool,1>* >& axisMasks,
434	const CArray<int,1>& axisDomainOrder,
435	bool createMask)
436	{
437	int idx = 0;
438	int numElement = axisDomainOrder.numElements();
439	int dim = domainMasks.size() * 2 + axisMasks.size();
440	std::vector<CDomain*> domainP = this->getDomains();
441	std::vector<CAxis*> axisP = this->getAxis();
442
443	std::vector<int> idxLoop(dim,0), indexMap(numElement), eachDimSize(dim);
444	std::vector<int> currentIndex(dim);
445	int idxDomain = 0, idxAxis = 0;
446	for (int i = 0; i < numElement; ++i)
447	{
448	indexMap[i] = idx;
449	if (2 == axisDomainOrder(i)) {
450	eachDimSize[indexMap[i]] = domainP[idxDomain]->ni;
451	eachDimSize[indexMap[i]+1] = domainP[idxDomain]->nj;
452	idx += 2; ++idxDomain;
453	}
454	else if (1 == axisDomainOrder(i)) {
455	// eachDimSize[indexMap[i]] = axisMasks[idxAxis]->numElements();
456	eachDimSize[indexMap[i]] = axisP[idxAxis]->n;
457	++idx; ++idxAxis;
458	}
459	else {};
460	}
461
462	if (!gridMask.isEmpty() && !createMask)
463	{
464	for (int i = 0; i < dim; ++i)
465	{
466	if (gridMask.extent(i) != eachDimSize[i])
467	ERROR("CGrid::checkMask(void)",
468	<< "The mask has one dimension whose size is different from the one of the local grid." << std::endl
469	<< "Local size of dimension " << i << " is " << eachDimSize[i] << "." << std::endl
470	<< "Mask size for dimension " << i << " is " << gridMask.extent(i) << "." << std::endl
471	<< "Grid = " << this->getId())
472	}
473	}
474	else {
475	CArrayBoolTraits<CArray<bool,N> >::resizeArray(gridMask,eachDimSize);
476	gridMask = true;
477	}
478
479	int ssize = gridMask.numElements();
480	idx = 0;
481	while (idx < ssize)
482	{
483	for (int i = 0; i < dim-1; ++i)
484	{
485	if (idxLoop[i] == eachDimSize[i])
486	{
487	idxLoop[i] = 0;
488	++idxLoop[i+1];
489	}
490	}
491
492	// Find out outer index
493	idxDomain = idxAxis = 0;
494	bool maskValue = true;
495	for (int i = 0; i < numElement; ++i)
496	{
497	if (2 == axisDomainOrder(i))
498	{
499	int idxTmp = idxLoop[indexMap[i]] + idxLoop[indexMap[i]+1] * eachDimSize[indexMap[i]];
500	if (idxTmp < (*domainMasks[idxDomain]).numElements())
501	maskValue = maskValue && (*domainMasks[idxDomain])(idxTmp);
502	else
503	maskValue = false;
504	++idxDomain;
505	}
506	else if (1 == axisDomainOrder(i))
507	{
508	int idxTmp = idxLoop[indexMap[i]];
509	if (idxTmp < (*axisMasks[idxAxis]).numElements())
510	maskValue = maskValue && (*axisMasks[idxAxis])(idxTmp);
511	else
512	maskValue = false;
513
514	++idxAxis;
515	}
516	}
517
518	int maskIndex = idxLoop[0];
519	int mulDim = 1;
520	for (int k = 1; k < dim; ++k)
521	{
522	mulDim *= eachDimSize[k-1];
523	maskIndex += idxLoop[k]*mulDim;
524	}
525	*(gridMask.dataFirst()+maskIndex) &= maskValue;
526
527	++idxLoop[0];
528	++idx;
529	}
530	}
531
532	template<int N>
533	void CGrid::modifyGridMaskSize(CArray<bool,N>& gridMask,
534	const std::vector<int>& eachDimSize,
535	bool newValue)
536	{
537	if (N != eachDimSize.size())
538	{
539	// ERROR("CGrid::modifyGridMaskSize(CArray<bool,N>& gridMask,
540	// const std::vector<int>& eachDimSize,
541	// bool newValue)",
542	// << "Dimension size of the mask is different from input dimension size." << std::endl
543	// << "Mask dimension is " << N << "." << std::endl
544	// << "Input dimension is " << eachDimSize.size() << "." << std::endl
545	// << "Grid = " << this->getId())
546	}
547	CArrayBoolTraits<CArray<bool,N> >::resizeArray(gridMask,eachDimSize);
548	gridMask = newValue;
549	}
550
551
552	/*!
553	Modify the current mask of grid, the local index to be modified will take value false
554	\param [in/out] gridMask current mask of grid
555	\param [in] indexToModify local index to modify
556	*/
557	template<int N>
558	void CGrid::modifyGridMask(CArray<bool,N>& gridMask, const CArray<int,1>& indexToModify, bool valueToModify)
559	{
560	int num = indexToModify.numElements();
561	for (int idx = 0; idx < num; ++idx)
562	{
563	*(gridMask.dataFirst()+indexToModify(idx)) = valueToModify;
564	}
565	}
566	///--------------------------------------------------------------
567
568
569	/*!
570	A grid can have multiple dimension, so can its mask in the form of multi-dimension array.
571	It's not a good idea to store all multi-dimension arrays corresponding to each mask.
572	One of the ways is to convert this array into 1-dimension one and every process is taken place on it.
573	\param [in] multi-dimension array grid mask
574	*/
575	//template<int N>
576	//void CGrid::getLocalMask(const CArray<bool,N>& gridMask, CArray<bool,1>& localMask)
577	//{
578	// if (gridMask.isEmpty()) return ;
579	// int dim = gridMask.dimensions();
580	// std::vector<int> dimensionSizes(dim);
581	// for (int i = 0; i < dim; ++i) dimensionSizes[i] = gridMask.extent(i);
582	//
583	// std::vector<int> idxLoop(dim,0);
584	// int ssize = gridMask.numElements(), idx = 0;
585	// localMask.resize(ssize);
586	// while (idx < ssize)
587	// {
588	// for (int i = 0; i < dim-1; ++i)
589	// {
590	// if (idxLoop[i] == dimensionSizes[i])
591	// {
592	// idxLoop[i] = 0;
593	// ++idxLoop[i+1];
594	// }
595	// }
596	//
597	// int maskIndex = idxLoop[0];
598	// int mulDim = 1;
599	// for (int k = 1; k < dim; ++k)
600	// {
601	// mulDim *= dimensionSizes[k-1];
602	// maskIndex += idxLoop[k]*mulDim;
603	// }
604	// localMask(maskIndex) = *(gridMask.dataFirst()+maskIndex);
605	//
606	// ++idxLoop[0];
607	// ++idx;
608	// }
609	//}
610
611	// Declare/Define CGridGroup and CGridDefinition
612	DECLARE_GROUP(CGrid);
613
614	///--------------------------------------------------------------
615
616	} // namespace xios
617
618	#endif // __XIOS_CGrid__

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