/[escript]/trunk/finley/src/CPPAdapter/MeshAdapter.cpp
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Diff of /trunk/finley/src/CPPAdapter/MeshAdapter.cpp

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revision 1064 by gross, Tue Mar 27 06:21:02 2007 UTC revision 3355 by caltinay, Tue Nov 16 06:35:06 2010 UTC
# Line 1  Line 1 
 // $Id$  
 /*  
  ******************************************************************************  
  *                                                                            *  
  *       COPYRIGHT  ACcESS 2004 -  All Rights Reserved                        *  
  *                                                                            *  
  * This software is the property of ACcESS. No part of this code              *  
  * may be copied in any form or by any means without the expressed written    *  
  * consent of ACcESS.  Copying, use or modification of this software          *  
  * by any unauthorised person is illegal unless that person has a software    *  
  * license agreement with ACcESS.                                             *  
  *                                                                            *  
  ******************************************************************************  
 */  
1    
2  #ifdef PASO_MPI  /*******************************************************
3  #include <mpi.h>  *
4  #endif  * Copyright (c) 2003-2010 by University of Queensland
5  #include "MeshAdapter.h"  * Earth Systems Science Computational Center (ESSCC)
6    * http://www.uq.edu.au/esscc
7    *
8    * Primary Business: Queensland, Australia
9    * Licensed under the Open Software License version 3.0
10    * http://www.opensource.org/licenses/osl-3.0.php
11    *
12    *******************************************************/
13    
14    
15    #include "MeshAdapter.h"
16  #include "escript/Data.h"  #include "escript/Data.h"
17  #include "escript/DataFactory.h"  #include "escript/DataFactory.h"
18    #ifdef USE_NETCDF
19    #include <netcdfcpp.h>
20    #endif
21    extern "C" {
22    #include "esysUtils/blocktimer.h"
23    }
24    
25    #include <boost/python/import.hpp>
26    
27  using namespace std;  using namespace std;
28  using namespace escript;  using namespace escript;
# Line 45  const int MeshAdapter::ReducedContactEle Line 48  const int MeshAdapter::ReducedContactEle
48    
49  MeshAdapter::MeshAdapter(Finley_Mesh* finleyMesh)  MeshAdapter::MeshAdapter(Finley_Mesh* finleyMesh)
50  {  {
51    setFunctionSpaceTypeNames();     setFunctionSpaceTypeNames();
52    //     //
53    // need to use a null_deleter as Finley_Mesh_dealloc deletes the pointer     // need to use a null_deleter as Finley_Mesh_free deletes the pointer
54    // for us.     // for us.
55    m_finleyMesh.reset(finleyMesh,null_deleter());     m_finleyMesh.reset(finleyMesh,null_deleter());
56  }  }
57    
58  //  //
# Line 57  MeshAdapter::MeshAdapter(Finley_Mesh* fi Line 60  MeshAdapter::MeshAdapter(Finley_Mesh* fi
60  MeshAdapter::MeshAdapter(const MeshAdapter& in):  MeshAdapter::MeshAdapter(const MeshAdapter& in):
61  m_finleyMesh(in.m_finleyMesh)  m_finleyMesh(in.m_finleyMesh)
62  {  {
63    setFunctionSpaceTypeNames();     setFunctionSpaceTypeNames();
64  }  }
65    
66  MeshAdapter::~MeshAdapter()  MeshAdapter::~MeshAdapter()
67  {  {
68    //     //
69    // I hope the case for the pointer being zero has been taken care of.     // I hope the case for the pointer being zero has been taken care of.
70    //  cout << "In MeshAdapter destructor." << endl;     //  cout << "In MeshAdapter destructor." << endl;
71    if (m_finleyMesh.unique()) {     if (m_finleyMesh.unique()) {
72      //   cout << "Calling dealloc." << endl;        Finley_Mesh_free(m_finleyMesh.get());
73      Finley_Mesh_dealloc(m_finleyMesh.get());     }
74      //   cout << "Finished dealloc." << endl;  }
75    }  
76    int MeshAdapter::getMPISize() const
77    {
78       return m_finleyMesh.get()->MPIInfo->size;
79    }
80    int MeshAdapter::getMPIRank() const
81    {
82       return m_finleyMesh.get()->MPIInfo->rank;
83    }
84    void MeshAdapter::MPIBarrier() const
85    {
86    #ifdef ESYS_MPI
87       MPI_Barrier(m_finleyMesh.get()->MPIInfo->comm);
88    #endif
89       return;
90    }
91    bool MeshAdapter::onMasterProcessor() const
92    {
93       return m_finleyMesh.get()->MPIInfo->rank == 0;
94    }
95    
96    
97    #ifdef ESYS_MPI
98      MPI_Comm
99    #else
100      unsigned int
101    #endif
102    MeshAdapter::getMPIComm() const
103    {
104    #ifdef ESYS_MPI
105        return m_finleyMesh->MPIInfo->comm;
106    #else
107        return 0;
108    #endif
109  }  }
110    
111    
112  Finley_Mesh* MeshAdapter::getFinley_Mesh() const {  Finley_Mesh* MeshAdapter::getFinley_Mesh() const {
113     return m_finleyMesh.get();     return m_finleyMesh.get();
114  }  }
115    
116  void MeshAdapter::write(const std::string& fileName) const  void MeshAdapter::write(const string& fileName) const
117    {
118       char *fName = (fileName.size()+1>0) ? TMPMEMALLOC(fileName.size()+1,char) : (char*)NULL;
119       strcpy(fName,fileName.c_str());
120       Finley_Mesh_write(m_finleyMesh.get(),fName);
121       checkFinleyError();
122       TMPMEMFREE(fName);
123    }
124    
125    void MeshAdapter::Print_Mesh_Info(const bool full) const
126  {  {
127    char *fName = (fileName.size()+1>0) ? TMPMEMALLOC(fileName.size()+1,char) : (char*)NULL;     Finley_PrintMesh_Info(m_finleyMesh.get(), full);
128    strcpy(fName,fileName.c_str());  }
129    Finley_Mesh_write(m_finleyMesh.get(),fName);  
130    checkFinleyError();  void MeshAdapter::dump(const string& fileName) const
131    TMPMEMFREE(fName);  {
132    #ifdef USE_NETCDF
133       const NcDim* ncdims[12] = {NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL};
134       NcVar *ids;
135       int *int_ptr;
136       Finley_Mesh *mesh = m_finleyMesh.get();
137       Finley_TagMap* tag_map;
138       int num_Tags = 0;
139       int mpi_size             = mesh->MPIInfo->size;
140       int mpi_rank             = mesh->MPIInfo->rank;
141       int numDim               = mesh->Nodes->numDim;
142       int numNodes             = mesh->Nodes->numNodes;
143       int num_Elements         = mesh->Elements->numElements;
144       int num_FaceElements         = mesh->FaceElements->numElements;
145       int num_ContactElements      = mesh->ContactElements->numElements;
146       int num_Points           = mesh->Points->numElements;
147       int num_Elements_numNodes        = mesh->Elements->numNodes;
148       int num_FaceElements_numNodes    = mesh->FaceElements->numNodes;
149       int num_ContactElements_numNodes = mesh->ContactElements->numNodes;
150    #ifdef ESYS_MPI
151       MPI_Status status;
152    #endif
153    
154    /* Incoming token indicates it's my turn to write */
155    #ifdef ESYS_MPI
156       if (mpi_rank>0) MPI_Recv(&num_Tags, 0, MPI_INT, mpi_rank-1, 81800, mesh->MPIInfo->comm, &status);
157    #endif
158    
159       char *newFileName = Esys_MPI_appendRankToFileName(fileName.c_str(),
160                                                         mpi_size, mpi_rank);
161    
162       /* Figure out how much storage is required for tags */
163       tag_map = mesh->TagMap;
164       num_Tags = 0;
165       while (tag_map) {
166          num_Tags++;
167          tag_map=tag_map->next;
168       }
169    
170       // NetCDF error handler
171       NcError err(NcError::verbose_nonfatal);
172       // Create the file.
173       NcFile dataFile(newFileName, NcFile::Replace);
174       string msgPrefix("Error in MeshAdapter::dump: NetCDF operation failed - ");
175       // check if writing was successful
176       if (!dataFile.is_valid())
177          throw DataException(msgPrefix+"Open file for output");
178    
179       // Define dimensions (num_Elements and dim_Elements are identical,
180       // dim_Elements only appears if > 0)
181       if (! (ncdims[0] = dataFile.add_dim("numNodes", numNodes)) )
182          throw DataException(msgPrefix+"add_dim(numNodes)");
183       if (! (ncdims[1] = dataFile.add_dim("numDim", numDim)) )
184          throw DataException(msgPrefix+"add_dim(numDim)");
185       if (! (ncdims[2] = dataFile.add_dim("mpi_size_plus_1", mpi_size+1)) )
186          throw DataException(msgPrefix+"add_dim(mpi_size)");
187       if (num_Elements>0)
188          if (! (ncdims[3] = dataFile.add_dim("dim_Elements", num_Elements)) )
189             throw DataException(msgPrefix+"add_dim(dim_Elements)");
190       if (num_FaceElements>0)
191          if (! (ncdims[4] = dataFile.add_dim("dim_FaceElements", num_FaceElements)) )
192             throw DataException(msgPrefix+"add_dim(dim_FaceElements)");
193       if (num_ContactElements>0)
194          if (! (ncdims[5] = dataFile.add_dim("dim_ContactElements", num_ContactElements)) )
195             throw DataException(msgPrefix+"add_dim(dim_ContactElements)");
196       if (num_Points>0)
197          if (! (ncdims[6] = dataFile.add_dim("dim_Points", num_Points)) )
198             throw DataException(msgPrefix+"add_dim(dim_Points)");
199       if (num_Elements>0)
200          if (! (ncdims[7] = dataFile.add_dim("dim_Elements_Nodes", num_Elements_numNodes)) )
201             throw DataException(msgPrefix+"add_dim(dim_Elements_Nodes)");
202       if (num_FaceElements>0)
203          if (! (ncdims[8] = dataFile.add_dim("dim_FaceElements_numNodes", num_FaceElements_numNodes)) )
204             throw DataException(msgPrefix+"add_dim(dim_FaceElements_numNodes)");
205       if (num_ContactElements>0)
206          if (! (ncdims[9] = dataFile.add_dim("dim_ContactElements_numNodes", num_ContactElements_numNodes)) )
207             throw DataException(msgPrefix+"add_dim(dim_ContactElements_numNodes)");
208       if (num_Tags>0)
209          if (! (ncdims[10] = dataFile.add_dim("dim_Tags", num_Tags)) )
210             throw DataException(msgPrefix+"add_dim(dim_Tags)");
211    
212       // Attributes: MPI size, MPI rank, Name, order, reduced_order
213       if (!dataFile.add_att("mpi_size", mpi_size) )
214          throw DataException(msgPrefix+"add_att(mpi_size)");
215       if (!dataFile.add_att("mpi_rank", mpi_rank) )
216          throw DataException(msgPrefix+"add_att(mpi_rank)");
217       if (!dataFile.add_att("Name",mesh->Name) )
218          throw DataException(msgPrefix+"add_att(Name)");
219       if (!dataFile.add_att("numDim",numDim) )
220          throw DataException(msgPrefix+"add_att(order)");
221       if (!dataFile.add_att("order",mesh->integrationOrder) )
222          throw DataException(msgPrefix+"add_att(order)");
223       if (!dataFile.add_att("reduced_order",mesh->reducedIntegrationOrder) )
224          throw DataException(msgPrefix+"add_att(reduced_order)");
225       if (!dataFile.add_att("numNodes",numNodes) )
226          throw DataException(msgPrefix+"add_att(numNodes)");
227       if (!dataFile.add_att("num_Elements",num_Elements) )
228          throw DataException(msgPrefix+"add_att(num_Elements)");
229       if (!dataFile.add_att("num_FaceElements",num_FaceElements) )
230          throw DataException(msgPrefix+"add_att(num_FaceElements)");
231       if (!dataFile.add_att("num_ContactElements",num_ContactElements) )
232          throw DataException(msgPrefix+"add_att(num_ContactElements)");
233       if (!dataFile.add_att("num_Points",num_Points) )
234          throw DataException(msgPrefix+"add_att(num_Points)");
235       if (!dataFile.add_att("num_Elements_numNodes",num_Elements_numNodes) )
236          throw DataException(msgPrefix+"add_att(num_Elements_numNodes)");
237       if (!dataFile.add_att("num_FaceElements_numNodes",num_FaceElements_numNodes) )
238          throw DataException(msgPrefix+"add_att(num_FaceElements_numNodes)");
239       if (!dataFile.add_att("num_ContactElements_numNodes",num_ContactElements_numNodes) )
240          throw DataException(msgPrefix+"add_att(num_ContactElements_numNodes)");
241       if (!dataFile.add_att("Elements_TypeId", mesh->Elements->referenceElementSet->referenceElement->Type->TypeId) )
242          throw DataException(msgPrefix+"add_att(Elements_TypeId)");
243       if (!dataFile.add_att("FaceElements_TypeId", mesh->FaceElements->referenceElementSet->referenceElement->Type->TypeId) )
244          throw DataException(msgPrefix+"add_att(FaceElements_TypeId)");
245       if (!dataFile.add_att("ContactElements_TypeId", mesh->ContactElements->referenceElementSet->referenceElement->Type->TypeId) )
246          throw DataException(msgPrefix+"add_att(ContactElements_TypeId)");
247       if (!dataFile.add_att("Points_TypeId", mesh->Points->referenceElementSet->referenceElement->Type->TypeId) )
248          throw DataException(msgPrefix+"add_att(Points_TypeId)");
249       if (!dataFile.add_att("num_Tags", num_Tags) )
250          throw DataException(msgPrefix+"add_att(num_Tags)");
251    
252       // // // // // Nodes // // // // //
253    
254       // Nodes nodeDistribution
255       if (! ( ids = dataFile.add_var("Nodes_NodeDistribution", ncInt, ncdims[2])) )
256          throw DataException(msgPrefix+"add_var(Nodes_NodeDistribution)");
257       int_ptr = &mesh->Nodes->nodesDistribution->first_component[0];
258       if (! (ids->put(int_ptr, mpi_size+1)) )
259          throw DataException(msgPrefix+"put(Nodes_NodeDistribution)");
260    
261       // Nodes degreesOfFreedomDistribution
262       if (! ( ids = dataFile.add_var("Nodes_DofDistribution", ncInt, ncdims[2])) )
263          throw DataException(msgPrefix+"add_var(Nodes_DofDistribution)");
264       int_ptr = &mesh->Nodes->degreesOfFreedomDistribution->first_component[0];
265       if (! (ids->put(int_ptr, mpi_size+1)) )
266          throw DataException(msgPrefix+"put(Nodes_DofDistribution)");
267    
268       // Only write nodes if non-empty because NetCDF doesn't like empty arrays
269       // (it treats them as NC_UNLIMITED)
270       if (numNodes>0) {
271    
272          // Nodes Id
273          if (! ( ids = dataFile.add_var("Nodes_Id", ncInt, ncdims[0])) )
274             throw DataException(msgPrefix+"add_var(Nodes_Id)");
275          int_ptr = &mesh->Nodes->Id[0];
276          if (! (ids->put(int_ptr, numNodes)) )
277             throw DataException(msgPrefix+"put(Nodes_Id)");
278    
279          // Nodes Tag
280          if (! ( ids = dataFile.add_var("Nodes_Tag", ncInt, ncdims[0])) )
281             throw DataException(msgPrefix+"add_var(Nodes_Tag)");
282          int_ptr = &mesh->Nodes->Tag[0];
283          if (! (ids->put(int_ptr, numNodes)) )
284             throw DataException(msgPrefix+"put(Nodes_Tag)");
285    
286          // Nodes gDOF
287          if (! ( ids = dataFile.add_var("Nodes_gDOF", ncInt, ncdims[0])) )
288             throw DataException(msgPrefix+"add_var(Nodes_gDOF)");
289          int_ptr = &mesh->Nodes->globalDegreesOfFreedom[0];
290          if (! (ids->put(int_ptr, numNodes)) )
291             throw DataException(msgPrefix+"put(Nodes_gDOF)");
292    
293          // Nodes global node index
294          if (! ( ids = dataFile.add_var("Nodes_gNI", ncInt, ncdims[0])) )
295             throw DataException(msgPrefix+"add_var(Nodes_gNI)");
296          int_ptr = &mesh->Nodes->globalNodesIndex[0];
297          if (! (ids->put(int_ptr, numNodes)) )
298             throw DataException(msgPrefix+"put(Nodes_gNI)");
299    
300          // Nodes grDof
301          if (! ( ids = dataFile.add_var("Nodes_grDfI", ncInt, ncdims[0])) )
302             throw DataException(msgPrefix+"add_var(Nodes_grDfI)");
303          int_ptr = &mesh->Nodes->globalReducedDOFIndex[0];
304          if (! (ids->put(int_ptr, numNodes)) )
305             throw DataException(msgPrefix+"put(Nodes_grDfI)");
306    
307          // Nodes grNI
308          if (! ( ids = dataFile.add_var("Nodes_grNI", ncInt, ncdims[0])) )
309             throw DataException(msgPrefix+"add_var(Nodes_grNI)");
310          int_ptr = &mesh->Nodes->globalReducedNodesIndex[0];
311          if (! (ids->put(int_ptr, numNodes)) )
312             throw DataException(msgPrefix+"put(Nodes_grNI)");
313    
314          // Nodes Coordinates
315          if (! ( ids = dataFile.add_var("Nodes_Coordinates", ncDouble, ncdims[0], ncdims[1]) ) )
316             throw DataException(msgPrefix+"add_var(Nodes_Coordinates)");
317          if (! (ids->put(&(mesh->Nodes->Coordinates[INDEX2(0,0,numDim)]), numNodes, numDim)) )
318             throw DataException(msgPrefix+"put(Nodes_Coordinates)");
319    
320       }
321    
322       // // // // // Elements // // // // //
323    
324       if (num_Elements>0) {
325    
326          // Elements_Id
327          if (! ( ids = dataFile.add_var("Elements_Id", ncInt, ncdims[3])) )
328             throw DataException(msgPrefix+"add_var(Elements_Id)");
329          int_ptr = &mesh->Elements->Id[0];
330          if (! (ids->put(int_ptr, num_Elements)) )
331             throw DataException(msgPrefix+"put(Elements_Id)");
332    
333          // Elements_Tag
334          if (! ( ids = dataFile.add_var("Elements_Tag", ncInt, ncdims[3])) )
335             throw DataException(msgPrefix+"add_var(Elements_Tag)");
336          int_ptr = &mesh->Elements->Tag[0];
337          if (! (ids->put(int_ptr, num_Elements)) )
338             throw DataException(msgPrefix+"put(Elements_Tag)");
339    
340          // Elements_Owner
341          if (! ( ids = dataFile.add_var("Elements_Owner", ncInt, ncdims[3])) )
342             throw DataException(msgPrefix+"add_var(Elements_Owner)");
343          int_ptr = &mesh->Elements->Owner[0];
344          if (! (ids->put(int_ptr, num_Elements)) )
345             throw DataException(msgPrefix+"put(Elements_Owner)");
346    
347          // Elements_Color
348          if (! ( ids = dataFile.add_var("Elements_Color", ncInt, ncdims[3])) )
349             throw DataException(msgPrefix+"add_var(Elements_Color)");
350          int_ptr = &mesh->Elements->Color[0];
351          if (! (ids->put(int_ptr, num_Elements)) )
352             throw DataException(msgPrefix+"put(Elements_Color)");
353    
354          // Elements_Nodes
355          if (! ( ids = dataFile.add_var("Elements_Nodes", ncInt, ncdims[3], ncdims[7]) ) )
356             throw DataException(msgPrefix+"add_var(Elements_Nodes)");
357          if (! (ids->put(&(mesh->Elements->Nodes[0]), num_Elements, num_Elements_numNodes)) )
358             throw DataException(msgPrefix+"put(Elements_Nodes)");
359    
360       }
361    
362       // // // // // Face_Elements // // // // //
363    
364       if (num_FaceElements>0) {
365    
366          // FaceElements_Id
367          if (! ( ids = dataFile.add_var("FaceElements_Id", ncInt, ncdims[4])) )
368             throw DataException(msgPrefix+"add_var(FaceElements_Id)");
369          int_ptr = &mesh->FaceElements->Id[0];
370          if (! (ids->put(int_ptr, num_FaceElements)) )
371             throw DataException(msgPrefix+"put(FaceElements_Id)");
372    
373          // FaceElements_Tag
374          if (! ( ids = dataFile.add_var("FaceElements_Tag", ncInt, ncdims[4])) )
375             throw DataException(msgPrefix+"add_var(FaceElements_Tag)");
376          int_ptr = &mesh->FaceElements->Tag[0];
377          if (! (ids->put(int_ptr, num_FaceElements)) )
378             throw DataException(msgPrefix+"put(FaceElements_Tag)");
379    
380          // FaceElements_Owner
381          if (! ( ids = dataFile.add_var("FaceElements_Owner", ncInt, ncdims[4])) )
382             throw DataException(msgPrefix+"add_var(FaceElements_Owner)");
383          int_ptr = &mesh->FaceElements->Owner[0];
384          if (! (ids->put(int_ptr, num_FaceElements)) )
385             throw DataException(msgPrefix+"put(FaceElements_Owner)");
386    
387          // FaceElements_Color
388          if (! ( ids = dataFile.add_var("FaceElements_Color", ncInt, ncdims[4])) )
389             throw DataException(msgPrefix+"add_var(FaceElements_Color)");
390          int_ptr = &mesh->FaceElements->Color[0];
391          if (! (ids->put(int_ptr, num_FaceElements)) )
392             throw DataException(msgPrefix+"put(FaceElements_Color)");
393    
394          // FaceElements_Nodes
395          if (! ( ids = dataFile.add_var("FaceElements_Nodes", ncInt, ncdims[4], ncdims[8]) ) )
396             throw DataException(msgPrefix+"add_var(FaceElements_Nodes)");
397          if (! (ids->put(&(mesh->FaceElements->Nodes[0]), num_FaceElements, num_FaceElements_numNodes)) )
398             throw DataException(msgPrefix+"put(FaceElements_Nodes)");
399    
400       }
401    
402       // // // // // Contact_Elements // // // // //
403    
404       if (num_ContactElements>0) {
405    
406          // ContactElements_Id
407          if (! ( ids = dataFile.add_var("ContactElements_Id", ncInt, ncdims[5])) )
408             throw DataException(msgPrefix+"add_var(ContactElements_Id)");
409          int_ptr = &mesh->ContactElements->Id[0];
410          if (! (ids->put(int_ptr, num_ContactElements)) )
411             throw DataException(msgPrefix+"put(ContactElements_Id)");
412    
413          // ContactElements_Tag
414          if (! ( ids = dataFile.add_var("ContactElements_Tag", ncInt, ncdims[5])) )
415             throw DataException(msgPrefix+"add_var(ContactElements_Tag)");
416          int_ptr = &mesh->ContactElements->Tag[0];
417          if (! (ids->put(int_ptr, num_ContactElements)) )
418             throw DataException(msgPrefix+"put(ContactElements_Tag)");
419    
420          // ContactElements_Owner
421          if (! ( ids = dataFile.add_var("ContactElements_Owner", ncInt, ncdims[5])) )
422             throw DataException(msgPrefix+"add_var(ContactElements_Owner)");
423          int_ptr = &mesh->ContactElements->Owner[0];
424          if (! (ids->put(int_ptr, num_ContactElements)) )
425             throw DataException(msgPrefix+"put(ContactElements_Owner)");
426    
427          // ContactElements_Color
428          if (! ( ids = dataFile.add_var("ContactElements_Color", ncInt, ncdims[5])) )
429             throw DataException(msgPrefix+"add_var(ContactElements_Color)");
430          int_ptr = &mesh->ContactElements->Color[0];
431          if (! (ids->put(int_ptr, num_ContactElements)) )
432             throw DataException(msgPrefix+"put(ContactElements_Color)");
433    
434          // ContactElements_Nodes
435          if (! ( ids = dataFile.add_var("ContactElements_Nodes", ncInt, ncdims[5], ncdims[9]) ) )
436             throw DataException(msgPrefix+"add_var(ContactElements_Nodes)");
437          if (! (ids->put(&(mesh->ContactElements->Nodes[0]), num_ContactElements, num_ContactElements_numNodes)) )
438             throw DataException(msgPrefix+"put(ContactElements_Nodes)");
439    
440       }
441    
442       // // // // // Points // // // // //
443    
444       if (num_Points>0) {
445    
446          fprintf(stderr, "\n\n\nWARNING: MeshAdapter::dump has not been tested with Point elements\n\n\n");
447    
448          // Points_Id
449          if (! ( ids = dataFile.add_var("Points_Id", ncInt, ncdims[6])) )
450             throw DataException(msgPrefix+"add_var(Points_Id)");
451          int_ptr = &mesh->Points->Id[0];
452          if (! (ids->put(int_ptr, num_Points)) )
453             throw DataException(msgPrefix+"put(Points_Id)");
454    
455          // Points_Tag
456          if (! ( ids = dataFile.add_var("Points_Tag", ncInt, ncdims[6])) )
457             throw DataException(msgPrefix+"add_var(Points_Tag)");
458          int_ptr = &mesh->Points->Tag[0];
459          if (! (ids->put(int_ptr, num_Points)) )
460             throw DataException(msgPrefix+"put(Points_Tag)");
461    
462          // Points_Owner
463          if (! ( ids = dataFile.add_var("Points_Owner", ncInt, ncdims[6])) )
464             throw DataException(msgPrefix+"add_var(Points_Owner)");
465          int_ptr = &mesh->Points->Owner[0];
466          if (! (ids->put(int_ptr, num_Points)) )
467             throw DataException(msgPrefix+"put(Points_Owner)");
468    
469          // Points_Color
470          if (! ( ids = dataFile.add_var("Points_Color", ncInt, ncdims[6])) )
471             throw DataException(msgPrefix+"add_var(Points_Color)");
472          int_ptr = &mesh->Points->Color[0];
473          if (! (ids->put(int_ptr, num_Points)) )
474             throw DataException(msgPrefix+"put(Points_Color)");
475    
476          // Points_Nodes
477          // mesh->Nodes->Id[mesh->Points->Nodes[INDEX2(0,i,1)]]
478          if (! ( ids = dataFile.add_var("Points_Nodes", ncInt, ncdims[6]) ) )
479             throw DataException(msgPrefix+"add_var(Points_Nodes)");
480          if (! (ids->put(&(mesh->Points->Nodes[0]), num_Points)) )
481             throw DataException(msgPrefix+"put(Points_Nodes)");
482    
483       }
484    
485       // // // // // TagMap // // // // //
486    
487       if (num_Tags>0) {
488    
489          // Temp storage to gather node IDs
490          int *Tags_keys = TMPMEMALLOC(num_Tags, int);
491          char name_temp[4096];
492    
493          /* Copy tag data into temp arrays */
494          tag_map = mesh->TagMap;
495          if (tag_map) {
496             int i = 0;
497             while (tag_map) {
498                Tags_keys[i++] = tag_map->tag_key;
499                tag_map=tag_map->next;
500             }
501          }
502    
503          // Tags_keys
504          if (! ( ids = dataFile.add_var("Tags_keys", ncInt, ncdims[10])) )
505             throw DataException(msgPrefix+"add_var(Tags_keys)");
506          int_ptr = &Tags_keys[0];
507          if (! (ids->put(int_ptr, num_Tags)) )
508             throw DataException(msgPrefix+"put(Tags_keys)");
509    
510          // Tags_names_*
511          // This is an array of strings, it should be stored as an array but
512          // instead I have hacked in one attribute per string because the NetCDF
513          // manual doesn't tell how to do an array of strings
514          tag_map = mesh->TagMap;
515          if (tag_map) {
516             int i = 0;
517             while (tag_map) {
518                sprintf(name_temp, "Tags_name_%d", i);
519                if (!dataFile.add_att(name_temp, tag_map->name) )
520                   throw DataException(msgPrefix+"add_att(Tags_names_XX)");
521                tag_map=tag_map->next;
522                i++;
523             }
524          }
525    
526          TMPMEMFREE(Tags_keys);
527       }
528    
529    /* Send token to next MPI process so he can take his turn */
530    #ifdef ESYS_MPI
531       if (mpi_rank<mpi_size-1) MPI_Send(&num_Tags, 0, MPI_INT, mpi_rank+1, 81800, mesh->MPIInfo->comm);
532    #endif
533    
534       // NetCDF file is closed by destructor of NcFile object
535    
536    #else
537       Finley_setError(IO_ERROR, "MeshAdapter::dump: not configured with NetCDF. Please contact your installation manager.");
538    #endif  /* USE_NETCDF */
539       checkFinleyError();
540  }  }
541    
542  string MeshAdapter::getDescription() const  string MeshAdapter::getDescription() const
543  {  {
544    return "FinleyMesh";     return "FinleyMesh";
545  }  }
546    
547  string MeshAdapter::functionSpaceTypeAsString(int functionSpaceType) const  string MeshAdapter::functionSpaceTypeAsString(int functionSpaceType) const
548  {  {
549    FunctionSpaceNamesMapType::iterator loc;     FunctionSpaceNamesMapType::iterator loc;
550    loc=m_functionSpaceTypeNames.find(functionSpaceType);     loc=m_functionSpaceTypeNames.find(functionSpaceType);
551    if (loc==m_functionSpaceTypeNames.end()) {     if (loc==m_functionSpaceTypeNames.end()) {
552      return "Invalid function space type code.";        return "Invalid function space type code.";
553    } else {     } else {
554      return loc->second;        return loc->second;
555    }     }
556  }  }
557    
558  bool MeshAdapter::isValidFunctionSpaceType(int functionSpaceType) const  bool MeshAdapter::isValidFunctionSpaceType(int functionSpaceType) const
559  {  {
560    FunctionSpaceNamesMapType::iterator loc;     FunctionSpaceNamesMapType::iterator loc;
561    loc=m_functionSpaceTypeNames.find(functionSpaceType);     loc=m_functionSpaceTypeNames.find(functionSpaceType);
562    return (loc!=m_functionSpaceTypeNames.end());     return (loc!=m_functionSpaceTypeNames.end());
563  }  }
564    
565  void MeshAdapter::setFunctionSpaceTypeNames()  void MeshAdapter::setFunctionSpaceTypeNames()
566  {  {
567    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
568      (FunctionSpaceNamesMapType::value_type(DegreesOfFreedom,"Finley_DegreesOfFreedom"));     (FunctionSpaceNamesMapType::value_type(DegreesOfFreedom,"Finley_DegreesOfFreedom"));
569    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
570      (FunctionSpaceNamesMapType::value_type(ReducedDegreesOfFreedom,"Finley_ReducedDegreesOfFreedom"));     (FunctionSpaceNamesMapType::value_type(ReducedDegreesOfFreedom,"Finley_ReducedDegreesOfFreedom"));
571    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
572      (FunctionSpaceNamesMapType::value_type(Nodes,"Finley_Nodes"));     (FunctionSpaceNamesMapType::value_type(Nodes,"Finley_Nodes"));
573    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
574      (FunctionSpaceNamesMapType::value_type(ReducedNodes,"Finley_Reduced_Nodes"));     (FunctionSpaceNamesMapType::value_type(ReducedNodes,"Finley_Reduced_Nodes"));
575    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
576      (FunctionSpaceNamesMapType::value_type(Elements,"Finley_Elements"));     (FunctionSpaceNamesMapType::value_type(Elements,"Finley_Elements"));
577    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
578      (FunctionSpaceNamesMapType::value_type(ReducedElements,"Finley_Reduced_Elements"));     (FunctionSpaceNamesMapType::value_type(ReducedElements,"Finley_Reduced_Elements"));
579    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
580      (FunctionSpaceNamesMapType::value_type(FaceElements,"Finley_Face_Elements"));     (FunctionSpaceNamesMapType::value_type(FaceElements,"Finley_Face_Elements"));
581    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
582      (FunctionSpaceNamesMapType::value_type(ReducedFaceElements,"Finley_Reduced_Face_Elements"));     (FunctionSpaceNamesMapType::value_type(ReducedFaceElements,"Finley_Reduced_Face_Elements"));
583    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
584      (FunctionSpaceNamesMapType::value_type(Points,"Finley_Points"));     (FunctionSpaceNamesMapType::value_type(Points,"Finley_Points"));
585    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
586      (FunctionSpaceNamesMapType::value_type(ContactElementsZero,"Finley_Contact_Elements_0"));     (FunctionSpaceNamesMapType::value_type(ContactElementsZero,"Finley_Contact_Elements_0"));
587    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
588      (FunctionSpaceNamesMapType::value_type(ReducedContactElementsZero,"Finley_Reduced_Contact_Elements_0"));     (FunctionSpaceNamesMapType::value_type(ReducedContactElementsZero,"Finley_Reduced_Contact_Elements_0"));
589    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
590      (FunctionSpaceNamesMapType::value_type(ContactElementsOne,"Finley_Contact_Elements_1"));     (FunctionSpaceNamesMapType::value_type(ContactElementsOne,"Finley_Contact_Elements_1"));
591    m_functionSpaceTypeNames.insert     m_functionSpaceTypeNames.insert
592      (FunctionSpaceNamesMapType::value_type(ReducedContactElementsOne,"Finley_Reduced_Contact_Elements_1"));     (FunctionSpaceNamesMapType::value_type(ReducedContactElementsOne,"Finley_Reduced_Contact_Elements_1"));
593  }  }
594    
595  int MeshAdapter::getContinuousFunctionCode() const  int MeshAdapter::getContinuousFunctionCode() const
596  {  {
597    return Nodes;     return Nodes;
598  }  }
599  int MeshAdapter::getReducedContinuousFunctionCode() const  int MeshAdapter::getReducedContinuousFunctionCode() const
600  {  {
601    return ReducedNodes;     return ReducedNodes;
602  }  }
603    
604  int MeshAdapter::getFunctionCode() const  int MeshAdapter::getFunctionCode() const
605  {  {
606    return Elements;     return Elements;
607  }  }
608  int MeshAdapter::getReducedFunctionCode() const  int MeshAdapter::getReducedFunctionCode() const
609  {  {
610    return ReducedElements;     return ReducedElements;
611  }  }
612    
613  int MeshAdapter::getFunctionOnBoundaryCode() const  int MeshAdapter::getFunctionOnBoundaryCode() const
614  {  {
615    return FaceElements;     return FaceElements;
616  }  }
617  int MeshAdapter::getReducedFunctionOnBoundaryCode() const  int MeshAdapter::getReducedFunctionOnBoundaryCode() const
618  {  {
619    return ReducedFaceElements;     return ReducedFaceElements;
620  }  }
621    
622  int MeshAdapter::getFunctionOnContactZeroCode() const  int MeshAdapter::getFunctionOnContactZeroCode() const
623  {  {
624    return ContactElementsZero;     return ContactElementsZero;
625  }  }
626  int MeshAdapter::getReducedFunctionOnContactZeroCode() const  int MeshAdapter::getReducedFunctionOnContactZeroCode() const
627  {  {
628    return ReducedContactElementsZero;     return ReducedContactElementsZero;
629  }  }
630    
631  int MeshAdapter::getFunctionOnContactOneCode() const  int MeshAdapter::getFunctionOnContactOneCode() const
632  {  {
633    return ContactElementsOne;     return ContactElementsOne;
634  }  }
635  int MeshAdapter::getReducedFunctionOnContactOneCode() const  int MeshAdapter::getReducedFunctionOnContactOneCode() const
636  {  {
637    return ReducedContactElementsOne;     return ReducedContactElementsOne;
638  }  }
639    
640  int MeshAdapter::getSolutionCode() const  int MeshAdapter::getSolutionCode() const
641  {  {
642    return DegreesOfFreedom;     return DegreesOfFreedom;
643  }  }
644    
645  int MeshAdapter::getReducedSolutionCode() const  int MeshAdapter::getReducedSolutionCode() const
646  {  {
647    return ReducedDegreesOfFreedom;     return ReducedDegreesOfFreedom;
648  }  }
649    
650  int MeshAdapter::getDiracDeltaFunctionCode() const  int MeshAdapter::getDiracDeltaFunctionCode() const
651  {  {
652    return Points;     return Points;
653  }  }
654    
655  //  //
# Line 203  int MeshAdapter::getDiracDeltaFunctionCo Line 657  int MeshAdapter::getDiracDeltaFunctionCo
657  //  //
658  int MeshAdapter::getDim() const  int MeshAdapter::getDim() const
659  {  {
660    int numDim=Finley_Mesh_getDim(m_finleyMesh.get());     Finley_Mesh* mesh=m_finleyMesh.get();
661    checkFinleyError();     int numDim=Finley_Mesh_getDim(mesh);
662    return numDim;     checkFinleyError();
663       return numDim;
664    }
665    
666    //
667    // Return the number of data points summed across all MPI processes
668    //
669    int MeshAdapter::getNumDataPointsGlobal() const
670    {
671       return Finley_NodeFile_getGlobalNumNodes(m_finleyMesh.get()->Nodes);
672  }  }
673    
674  //  //
# Line 218  pair<int,int> MeshAdapter::getDataShape( Line 681  pair<int,int> MeshAdapter::getDataShape(
681     int numSamples=0;     int numSamples=0;
682     Finley_Mesh* mesh=m_finleyMesh.get();     Finley_Mesh* mesh=m_finleyMesh.get();
683     switch (functionSpaceCode) {     switch (functionSpaceCode) {
684        case(Nodes):     case(Nodes):
685             numDataPointsPerSample=1;     numDataPointsPerSample=1;
686             if (mesh->Nodes!=NULL) numSamples=mesh->Nodes->numNodes;     numSamples=Finley_NodeFile_getNumNodes(mesh->Nodes);
687             break;     break;
688        case(ReducedNodes):     case(ReducedNodes):
689             /* TODO: add ReducedNodes */     numDataPointsPerSample=1;
690             numDataPointsPerSample=1;     numSamples=Finley_NodeFile_getNumReducedNodes(mesh->Nodes);
691             if (mesh->Nodes!=NULL) numSamples=mesh->Nodes->numNodes;     break;
692             throw FinleyAdapterException("Error - ReducedNodes is not supported yet.");     case(Elements):
693             break;     if (mesh->Elements!=NULL) {
694        case(Elements):        numSamples=mesh->Elements->numElements;
695             if (mesh->Elements!=NULL) {        numDataPointsPerSample=mesh->Elements->referenceElementSet->referenceElement->Parametrization->numQuadNodes;
696               numSamples=mesh->Elements->numElements;     }
697               numDataPointsPerSample=mesh->Elements->ReferenceElement->numQuadNodes;     break;
698             }     case(ReducedElements):
699             break;     if (mesh->Elements!=NULL) {
700        case(ReducedElements):        numSamples=mesh->Elements->numElements;
701             if (mesh->Elements!=NULL) {        numDataPointsPerSample=mesh->Elements->referenceElementSet->referenceElementReducedQuadrature->Parametrization->numQuadNodes;
702               numSamples=mesh->Elements->numElements;     }
703               numDataPointsPerSample=mesh->Elements->ReferenceElementReducedOrder->numQuadNodes;     break;
704             }     case(FaceElements):
705             break;     if (mesh->FaceElements!=NULL) {
706        case(FaceElements):        numDataPointsPerSample=mesh->FaceElements->referenceElementSet->referenceElement->Parametrization->numQuadNodes;
707             if (mesh->FaceElements!=NULL) {        numSamples=mesh->FaceElements->numElements;
708                  numDataPointsPerSample=mesh->FaceElements->ReferenceElement->numQuadNodes;     }
709                  numSamples=mesh->FaceElements->numElements;     break;
710             }     case(ReducedFaceElements):
711             break;     if (mesh->FaceElements!=NULL) {
712        case(ReducedFaceElements):        numDataPointsPerSample=mesh->FaceElements->referenceElementSet->referenceElementReducedQuadrature->Parametrization->numQuadNodes;
713             if (mesh->FaceElements!=NULL) {        numSamples=mesh->FaceElements->numElements;
714                  numDataPointsPerSample=mesh->FaceElements->ReferenceElementReducedOrder->numQuadNodes;     }
715                  numSamples=mesh->FaceElements->numElements;     break;
716             }     case(Points):
717             break;     if (mesh->Points!=NULL) {
718        case(Points):        numDataPointsPerSample=1;
719             if (mesh->Points!=NULL) {        numSamples=mesh->Points->numElements;
720               numDataPointsPerSample=1;     }
721               numSamples=mesh->Points->numElements;     break;
722             }     case(ContactElementsZero):
723             break;     if (mesh->ContactElements!=NULL) {
724        case(ContactElementsZero):        numDataPointsPerSample=mesh->ContactElements->referenceElementSet->referenceElement->Parametrization->numQuadNodes;
725             if (mesh->ContactElements!=NULL) {        numSamples=mesh->ContactElements->numElements;
726               numDataPointsPerSample=mesh->ContactElements->ReferenceElement->numQuadNodes;     }
727               numSamples=mesh->ContactElements->numElements;     break;
728             }     case(ReducedContactElementsZero):
729             break;     if (mesh->ContactElements!=NULL) {
730        case(ReducedContactElementsZero):        numDataPointsPerSample=mesh->ContactElements->referenceElementSet->referenceElementReducedQuadrature->Parametrization->numQuadNodes;
731             if (mesh->ContactElements!=NULL) {        numSamples=mesh->ContactElements->numElements;
732               numDataPointsPerSample=mesh->ContactElements->ReferenceElementReducedOrder->numQuadNodes;     }
733               numSamples=mesh->ContactElements->numElements;     break;
734             }     case(ContactElementsOne):
735             break;     if (mesh->ContactElements!=NULL) {
736        case(ContactElementsOne):        numDataPointsPerSample=mesh->ContactElements->referenceElementSet->referenceElement->Parametrization->numQuadNodes;
737             if (mesh->ContactElements!=NULL) {        numSamples=mesh->ContactElements->numElements;
738               numDataPointsPerSample=mesh->ContactElements->ReferenceElement->numQuadNodes;     }
739               numSamples=mesh->ContactElements->numElements;     break;
740             }     case(ReducedContactElementsOne):
741             break;     if (mesh->ContactElements!=NULL) {
742        case(ReducedContactElementsOne):        numDataPointsPerSample=mesh->ContactElements->referenceElementSet->referenceElementReducedQuadrature->Parametrization->numQuadNodes;
743             if (mesh->ContactElements!=NULL) {        numSamples=mesh->ContactElements->numElements;
744               numDataPointsPerSample=mesh->ContactElements->ReferenceElementReducedOrder->numQuadNodes;     }
745               numSamples=mesh->ContactElements->numElements;     break;
746             }     case(DegreesOfFreedom):
747             break;     if (mesh->Nodes!=NULL) {
748        case(DegreesOfFreedom):        numDataPointsPerSample=1;
749             if (mesh->Nodes!=NULL) {        numSamples=Finley_NodeFile_getNumDegreesOfFreedom(mesh->Nodes);
750               numDataPointsPerSample=1;     }
751  #ifndef PASO_MPI     break;
752               numSamples=mesh->Nodes->numDegreesOfFreedom;     case(ReducedDegreesOfFreedom):
753  #else     if (mesh->Nodes!=NULL) {
754               numSamples=mesh->Nodes->degreeOfFreedomDistribution->numLocal;        numDataPointsPerSample=1;
755  #endif        numSamples=Finley_NodeFile_getNumReducedDegreesOfFreedom(mesh->Nodes);
756             }     }
757             break;     break;
758        case(ReducedDegreesOfFreedom):     default:
759             if (mesh->Nodes!=NULL) {        stringstream temp;
760               numDataPointsPerSample=1;        temp << "Error - Invalid function space type: " << functionSpaceCode << " for domain: " << getDescription();
761  #ifndef PASO_MPI        throw FinleyAdapterException(temp.str());
762               numSamples=mesh->Nodes->reducedNumDegreesOfFreedom;        break;
763  #else     }
764               numSamples=mesh->Nodes->reducedDegreeOfFreedomDistribution->numLocal;     return pair<int,int>(numDataPointsPerSample,numSamples);
 #endif  
            }  
            break;  
       default:  
         stringstream temp;  
         temp << "Error - Invalid function space type: " << functionSpaceCode << " for domain: " << getDescription();  
         throw FinleyAdapterException(temp.str());  
         break;  
       }  
       return pair<int,int>(numDataPointsPerSample,numSamples);  
765  }  }
766    
767  //  //
768  // adds linear PDE of second order into a given stiffness matrix and right hand side:  // adds linear PDE of second order into a given stiffness matrix and right hand side:
769  //  //
770  void MeshAdapter::addPDEToSystem(  void MeshAdapter::addPDEToSystem(
771                       SystemMatrixAdapter& mat, escript::Data& rhs,                                   AbstractSystemMatrix& mat, escript::Data& rhs,
772                       const escript::Data& A, const escript::Data& B, const escript::Data& C,const  escript::Data& D,const  escript::Data& X,const  escript::Data& Y,                                   const escript::Data& A, const escript::Data& B, const escript::Data& C,const  escript::Data& D,const  escript::Data& X,const  escript::Data& Y,
773                       const escript::Data& d, const escript::Data& y,                                   const escript::Data& d, const escript::Data& y,
774                       const escript::Data& d_contact,const escript::Data& y_contact) const                                   const escript::Data& d_contact,const escript::Data& y_contact) const
775  {  {
776       SystemMatrixAdapter* smat=dynamic_cast<SystemMatrixAdapter*>(&mat);
777       if (smat==0)
778       {
779        throw FinleyAdapterException("finley only supports its own system matrices.");
780       }
781     escriptDataC _rhs=rhs.getDataC();     escriptDataC _rhs=rhs.getDataC();
782     escriptDataC _A  =A.getDataC();     escriptDataC _A  =A.getDataC();
783     escriptDataC _B=B.getDataC();     escriptDataC _B=B.getDataC();
# Line 334  void MeshAdapter::addPDEToSystem( Line 792  void MeshAdapter::addPDEToSystem(
792    
793     Finley_Mesh* mesh=m_finleyMesh.get();     Finley_Mesh* mesh=m_finleyMesh.get();
794    
795     Finley_Assemble_PDE(mesh->Nodes,mesh->Elements,mat.getPaso_SystemMatrix(), &_rhs, &_A, &_B, &_C, &_D, &_X, &_Y );     Finley_Assemble_PDE(mesh->Nodes,mesh->Elements,smat->getPaso_SystemMatrix(), &_rhs, &_A, &_B, &_C, &_D, &_X, &_Y );
796     checkFinleyError();     checkFinleyError();
797    
798     Finley_Assemble_PDE(mesh->Nodes,mesh->FaceElements, mat.getPaso_SystemMatrix(), &_rhs, 0, 0, 0, &_d, 0, &_y );     Finley_Assemble_PDE(mesh->Nodes,mesh->FaceElements, smat->getPaso_SystemMatrix(), &_rhs, 0, 0, 0, &_d, 0, &_y );
799     checkFinleyError();     checkFinleyError();
800    
801     Finley_Assemble_PDE(mesh->Nodes,mesh->ContactElements, mat.getPaso_SystemMatrix(), &_rhs , 0, 0, 0, &_d_contact, 0, &_y_contact );     Finley_Assemble_PDE(mesh->Nodes,mesh->ContactElements, smat->getPaso_SystemMatrix(), &_rhs , 0, 0, 0, &_d_contact, 0, &_y_contact );
802     checkFinleyError();     checkFinleyError();
803  }  }
804    
805    void  MeshAdapter::addPDEToLumpedSystem(
806                                            escript::Data& mat,
807                                            const escript::Data& D,
808                                            const escript::Data& d) const
809    {
810       escriptDataC _mat=mat.getDataC();
811       escriptDataC _D=D.getDataC();
812       escriptDataC _d=d.getDataC();
813    
814       Finley_Mesh* mesh=m_finleyMesh.get();
815    
816       Finley_Assemble_LumpedSystem(mesh->Nodes,mesh->Elements,&_mat, &_D);
817       checkFinleyError();
818      
819       Finley_Assemble_LumpedSystem(mesh->Nodes,mesh->FaceElements,&_mat, &_d);
820       checkFinleyError();
821    
822    }
823    
824    
825  //  //
826  // adds linear PDE of second order into the right hand side only  // adds linear PDE of second order into the right hand side only
827  //  //
# Line 366  void MeshAdapter::addPDEToRHS( escript:: Line 844  void MeshAdapter::addPDEToRHS( escript::
844     Finley_Assemble_PDE(mesh->Nodes,mesh->ContactElements, 0, &_rhs , 0, 0, 0, 0, 0, &_y_contact );     Finley_Assemble_PDE(mesh->Nodes,mesh->ContactElements, 0, &_rhs , 0, 0, 0, 0, 0, &_y_contact );
845     checkFinleyError();     checkFinleyError();
846  }  }
847    //
848    // adds PDE of second order into a transport problem
849    //
850    void MeshAdapter::addPDEToTransportProblem(
851                                               AbstractTransportProblem& tp, escript::Data& source, const escript::Data& M,
852                                               const escript::Data& A, const escript::Data& B, const escript::Data& C,
853                                               const  escript::Data& D,const  escript::Data& X,const  escript::Data& Y,
854                                               const escript::Data& d, const escript::Data& y,
855                                               const escript::Data& d_contact,const escript::Data& y_contact) const
856    {
857       TransportProblemAdapter* tpa=dynamic_cast<TransportProblemAdapter*>(&tp);
858       if (tpa==0)
859       {
860        throw FinleyAdapterException("finley only supports its own transport problems.");
861       }
862    
863    
864       DataTypes::ShapeType shape;
865       source.expand();
866       escriptDataC _source=source.getDataC();
867       escriptDataC _M=M.getDataC();
868       escriptDataC _A=A.getDataC();
869       escriptDataC _B=B.getDataC();
870       escriptDataC _C=C.getDataC();
871       escriptDataC _D=D.getDataC();
872       escriptDataC _X=X.getDataC();
873       escriptDataC _Y=Y.getDataC();
874       escriptDataC _d=d.getDataC();
875       escriptDataC _y=y.getDataC();
876       escriptDataC _d_contact=d_contact.getDataC();
877       escriptDataC _y_contact=y_contact.getDataC();
878    
879       Finley_Mesh* mesh=m_finleyMesh.get();
880       Paso_TransportProblem* _tp = tpa->getPaso_TransportProblem();
881    
882       Finley_Assemble_PDE(mesh->Nodes,mesh->Elements,_tp->mass_matrix, &_source, 0, 0, 0, &_M, 0, 0 );
883       checkFinleyError();
884    
885       Finley_Assemble_PDE(mesh->Nodes,mesh->Elements,_tp->transport_matrix, &_source, &_A, &_B, &_C, &_D, &_X, &_Y );
886       checkFinleyError();
887    
888       Finley_Assemble_PDE(mesh->Nodes,mesh->FaceElements, _tp->transport_matrix, &_source, 0, 0, 0, &_d, 0, &_y );
889       checkFinleyError();
890    
891       Finley_Assemble_PDE(mesh->Nodes,mesh->ContactElements, _tp->transport_matrix, &_source , 0, 0, 0, &_d_contact, 0, &_y_contact );
892       checkFinleyError();
893    }
894    
895  //  //
896  // interpolates data between different function spaces:  // interpolates data between different function spaces:
897  //  //
898  void MeshAdapter::interpolateOnDomain(escript::Data& target,const escript::Data& in) const  void MeshAdapter::interpolateOnDomain(escript::Data& target,const escript::Data& in) const
899  {  {
900    const MeshAdapter& inDomain=dynamic_cast<const MeshAdapter&>(in.getFunctionSpace().getDomain());     const MeshAdapter& inDomain=dynamic_cast<const MeshAdapter&>(*(in.getFunctionSpace().getDomain()));
901    const MeshAdapter& targetDomain=dynamic_cast<const MeshAdapter&>(target.getFunctionSpace().getDomain());     const MeshAdapter& targetDomain=dynamic_cast<const MeshAdapter&>(*(target.getFunctionSpace().getDomain()));
902    if (inDomain!=*this)       if (inDomain!=*this)  
903      throw FinleyAdapterException("Error - Illegal domain of interpolant.");        throw FinleyAdapterException("Error - Illegal domain of interpolant.");
904    if (targetDomain!=*this)     if (targetDomain!=*this)
905      throw FinleyAdapterException("Error - Illegal domain of interpolation target.");        throw FinleyAdapterException("Error - Illegal domain of interpolation target.");
906    
907    Finley_Mesh* mesh=m_finleyMesh.get();     Finley_Mesh* mesh=m_finleyMesh.get();
908    escriptDataC _target=target.getDataC();     escriptDataC _target=target.getDataC();
909    escriptDataC _in=in.getDataC();     escriptDataC _in=in.getDataC();
910    switch(in.getFunctionSpace().getTypeCode()) {     switch(in.getFunctionSpace().getTypeCode()) {
911       case(Nodes):     case(Nodes):
912          switch(target.getFunctionSpace().getTypeCode()) {        switch(target.getFunctionSpace().getTypeCode()) {
913             case(Nodes):        case(Nodes):
914             case(ReducedNodes):        case(ReducedNodes):
915             case(DegreesOfFreedom):        case(DegreesOfFreedom):
916             case(ReducedDegreesOfFreedom):        case(ReducedDegreesOfFreedom):
917                 Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);        Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);
918                 break;        break;
919             case(Elements):        case(Elements):
920             case(ReducedElements):        case(ReducedElements):
921                 Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in,&_target);
922                 break;        break;
923             case(FaceElements):        case(FaceElements):
924             case(ReducedFaceElements):        case(ReducedFaceElements):
925                 Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in,&_target);
926                 break;        break;
927             case(Points):        case(Points):
928                 Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&_in,&_target);
929                 break;        break;
930             case(ContactElementsZero):        case(ContactElementsZero):
931             case(ReducedContactElementsZero):        case(ReducedContactElementsZero):
932                 Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);
933                 break;        break;
934             case(ContactElementsOne):        case(ContactElementsOne):
935             case(ReducedContactElementsOne):        case(ReducedContactElementsOne):
936                 Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);
937                 break;        break;
938             default:        default:
939                 stringstream temp;           stringstream temp;
940                 temp << "Error - Interpolation on Domain: Finley does not know anything about function space type " << target.getFunctionSpace().getTypeCode();           temp << "Error - Interpolation on Domain: Finley does not know anything about function space type " << target.getFunctionSpace().getTypeCode();
941                 throw FinleyAdapterException(temp.str());           throw FinleyAdapterException(temp.str());
942                 break;           break;
943          }        }
944          break;        break;
945       case(ReducedNodes):     case(ReducedNodes):
946          switch(target.getFunctionSpace().getTypeCode()) {        switch(target.getFunctionSpace().getTypeCode()) {
947             case(Nodes):        case(Nodes):
948             case(ReducedNodes):        case(ReducedNodes):
949             case(DegreesOfFreedom):        case(DegreesOfFreedom):
950             case(ReducedDegreesOfFreedom):        case(ReducedDegreesOfFreedom):
951                 Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);        Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);
952                 break;        break;
953             case(Elements):        case(Elements):
954             case(ReducedElements):        case(ReducedElements):
955                 Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in,&_target);
956                 break;        break;
957             case(FaceElements):        case(FaceElements):
958             case(ReducedFaceElements):        case(ReducedFaceElements):
959                 Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in,&_target);
960                 break;        break;
961             case(Points):        case(Points):
962                 Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&_in,&_target);
963                 break;        break;
964             case(ContactElementsZero):        case(ContactElementsZero):
965             case(ReducedContactElementsZero):        case(ReducedContactElementsZero):
966                 Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);
967                 break;        break;
968             case(ContactElementsOne):        case(ContactElementsOne):
969             case(ReducedContactElementsOne):        case(ReducedContactElementsOne):
970                 Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);        Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);
971                 break;        break;
972             default:        default:
973                 stringstream temp;           stringstream temp;
974                 temp << "Error - Interpolation on Domain: Finley does not know anything about function space type " << target.getFunctionSpace().getTypeCode();           temp << "Error - Interpolation on Domain: Finley does not know anything about function space type " << target.getFunctionSpace().getTypeCode();
975                 throw FinleyAdapterException(temp.str());           throw FinleyAdapterException(temp.str());
976                 break;           break;
977          }        }
978          break;        break;
979       case(Elements):     case(Elements):
980          if (target.getFunctionSpace().getTypeCode()==Elements) {        if (target.getFunctionSpace().getTypeCode()==Elements) {
981             Finley_Assemble_CopyElementData(mesh->Elements,&_target,&_in);           Finley_Assemble_CopyElementData(mesh->Elements,&_target,&_in);
982          } else {        } else if (target.getFunctionSpace().getTypeCode()==ReducedElements) {
983             throw FinleyAdapterException("Error - No interpolation with data on elements possible.");           Finley_Assemble_AverageElementData(mesh->Elements,&_target,&_in);
984          }        } else {
985          break;           throw FinleyAdapterException("Error - No interpolation with data on elements possible.");
986       case(ReducedElements):        }
987          if (target.getFunctionSpace().getTypeCode()==ReducedElements) {        break;
988             Finley_Assemble_CopyElementData(mesh->Elements,&_target,&_in);     case(ReducedElements):
989          } else {        if (target.getFunctionSpace().getTypeCode()==ReducedElements) {
990             throw FinleyAdapterException("Error - No interpolation with data on elements with reduced integration order possible.");           Finley_Assemble_CopyElementData(mesh->Elements,&_target,&_in);
991          }        } else {
992          break;           throw FinleyAdapterException("Error - No interpolation with data on elements with reduced integration order possible.");
993       case(FaceElements):        }
994          if (target.getFunctionSpace().getTypeCode()==FaceElements) {        break;
995             Finley_Assemble_CopyElementData(mesh->FaceElements,&_target,&_in);     case(FaceElements):
996          } else {        if (target.getFunctionSpace().getTypeCode()==FaceElements) {
997             throw FinleyAdapterException("Error - No interpolation with data on face elements possible.");           Finley_Assemble_CopyElementData(mesh->FaceElements,&_target,&_in);
998         }        } else if (target.getFunctionSpace().getTypeCode()==ReducedFaceElements) {
999         break;           Finley_Assemble_AverageElementData(mesh->FaceElements,&_target,&_in);
1000       case(ReducedFaceElements):        } else {
1001          if (target.getFunctionSpace().getTypeCode()==FaceElements) {           throw FinleyAdapterException("Error - No interpolation with data on face elements possible.");
1002             Finley_Assemble_CopyElementData(mesh->FaceElements,&_target,&_in);        }
1003          } else {        break;
1004             throw FinleyAdapterException("Error - No interpolation with data on face elements with reduced integration order possible.");     case(ReducedFaceElements):
1005         }        if (target.getFunctionSpace().getTypeCode()==ReducedFaceElements) {
1006         break;           Finley_Assemble_CopyElementData(mesh->FaceElements,&_target,&_in);
1007       case(Points):        } else {
1008          if (target.getFunctionSpace().getTypeCode()==Points) {           throw FinleyAdapterException("Error - No interpolation with data on face elements with reduced integration order possible.");
1009             Finley_Assemble_CopyElementData(mesh->Points,&_target,&_in);        }
1010          } else {        break;
1011             throw FinleyAdapterException("Error - No interpolation with data on points possible.");     case(Points):
1012          }        if (target.getFunctionSpace().getTypeCode()==Points) {
1013          break;           Finley_Assemble_CopyElementData(mesh->Points,&_target,&_in);
1014       case(ContactElementsZero):        } else {
1015       case(ContactElementsOne):           throw FinleyAdapterException("Error - No interpolation with data on points possible.");
1016          if (target.getFunctionSpace().getTypeCode()==ContactElementsZero || target.getFunctionSpace().getTypeCode()==ContactElementsOne) {        }
1017             Finley_Assemble_CopyElementData(mesh->ContactElements,&_target,&_in);        break;
1018          } else {     case(ContactElementsZero):
1019             throw FinleyAdapterException("Error - No interpolation with data on contact elements possible.");     case(ContactElementsOne):
1020             break;        if (target.getFunctionSpace().getTypeCode()==ContactElementsZero || target.getFunctionSpace().getTypeCode()==ContactElementsOne) {
1021          }           Finley_Assemble_CopyElementData(mesh->ContactElements,&_target,&_in);
1022          break;        } else if (target.getFunctionSpace().getTypeCode()==ReducedContactElementsZero || target.getFunctionSpace().getTypeCode()==ReducedContactElementsOne) {
1023       case(ReducedContactElementsZero):           Finley_Assemble_AverageElementData(mesh->ContactElements,&_target,&_in);
1024       case(ReducedContactElementsOne):        } else {
1025          if (target.getFunctionSpace().getTypeCode()==ReducedContactElementsZero || target.getFunctionSpace().getTypeCode()==ReducedContactElementsOne) {           throw FinleyAdapterException("Error - No interpolation with data on contact elements possible.");
1026             Finley_Assemble_CopyElementData(mesh->ContactElements,&_target,&_in);        }
1027          } else {        break;
1028             throw FinleyAdapterException("Error - No interpolation with data on contact elements with reduced integration order possible.");     case(ReducedContactElementsZero):
1029             break;     case(ReducedContactElementsOne):
1030          }        if (target.getFunctionSpace().getTypeCode()==ReducedContactElementsZero || target.getFunctionSpace().getTypeCode()==ReducedContactElementsOne) {
1031          break;           Finley_Assemble_CopyElementData(mesh->ContactElements,&_target,&_in);
1032       case(DegreesOfFreedom):              } else {
1033          switch(target.getFunctionSpace().getTypeCode()) {           throw FinleyAdapterException("Error - No interpolation with data on contact elements with reduced integration order possible.");
1034             case(ReducedDegreesOfFreedom):        }
1035             case(DegreesOfFreedom):        break;
1036             case(Nodes):     case(DegreesOfFreedom):      
1037             case(ReducedNodes):        switch(target.getFunctionSpace().getTypeCode()) {
1038                Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);        case(ReducedDegreesOfFreedom):
1039                break;        case(DegreesOfFreedom):
1040  #ifndef PASO_MPI        Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);
1041             case(Elements):        break;
1042             case(ReducedElements):    
1043                Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in,&_target);        case(Nodes):
1044                break;        case(ReducedNodes):
1045             case(FaceElements):        if (getMPISize()>1) {
1046             case(ReducedFaceElements):           escript::Data temp=escript::Data(in);
1047                Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in,&_target);           temp.expand();
1048                break;           escriptDataC _in2 = temp.getDataC();
1049             case(Points):           Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in2);
1050                Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&_in,&_target);        } else {
1051                break;           Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);
1052             case(ContactElementsZero):        }
1053             case(ContactElementsOne):        break;
1054             case(ReducedContactElementsZero):        case(Elements):
1055             case(ReducedContactElementsOne):        case(ReducedElements):
1056                Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);        if (getMPISize()>1) {
1057               break;           escript::Data temp=escript::Data( in,  continuousFunction(*this) );
1058  #else           escriptDataC _in2 = temp.getDataC();
1059             /* need to copy Degrees of freedom data to nodal data so that the external values are available */           Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in2,&_target);
1060             case(Elements):        } else {
1061             case(ReducedElements):           Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in,&_target);
1062                escript::Data nodeTemp( in, continuousFunction(asAbstractContinuousDomain()) );        }
1063                Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&(nodeTemp.getDataC()),&_target);        break;
1064                break;        case(FaceElements):
1065             case(FaceElements):        case(ReducedFaceElements):
1066             case(ReducedFaceElements):        if (getMPISize()>1) {
1067                escript::Data nodeTemp( in, continuousFunction(asAbstractContinuousDomain()) );           escript::Data temp=escript::Data( in,  continuousFunction(*this) );
1068                Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&(nodeTemp.getDataC()),&_target);           escriptDataC _in2 = temp.getDataC();
1069                break;           Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in2,&_target);
1070             case(Points):    
1071                escript::Data nodeTemp( in, continuousFunction(asAbstractContinuousDomain()) );        } else {
1072                Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&(nodeTemp.getDataC()),&_target);           Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in,&_target);
1073                break;        }
1074             case(ContactElementsZero):        break;
1075             case(ContactElementsOne):        case(Points):
1076             case(ReducedContactElementsZero):        if (getMPISize()>1) {
1077             case(ReducedContactElementsOne):           escript::Data temp=escript::Data( in,  continuousFunction(*this) );
1078                escript::Data nodeTemp( in, continuousFunction(asAbstractContinuousDomain()) );           escriptDataC _in2 = temp.getDataC();
1079                Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&(nodeTemp.getDataC()),&_target);        } else {
1080               break;           Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&_in,&_target);
1081  #endif        }
1082             default:        break;
1083               stringstream temp;        case(ContactElementsZero):
1084               temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << target.getFunctionSpace().getTypeCode();        case(ContactElementsOne):
1085               throw FinleyAdapterException(temp.str());        case(ReducedContactElementsZero):
1086               break;        case(ReducedContactElementsOne):
1087          }        if (getMPISize()>1) {
1088          break;           escript::Data temp=escript::Data( in,  continuousFunction(*this) );
1089       case(ReducedDegreesOfFreedom):           escriptDataC _in2 = temp.getDataC();
1090         switch(target.getFunctionSpace().getTypeCode()) {           Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in2,&_target);
1091            case(Nodes):        } else {
1092               throw FinleyAdapterException("Error - Finley does not support interpolation from reduced degrees of freedom to mesh nodes.");           Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);
1093               break;        }
1094            case(ReducedNodes):        break;
1095               Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);        default:
1096               break;           stringstream temp;
1097            case(DegreesOfFreedom):           temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << target.getFunctionSpace().getTypeCode();
1098               throw FinleyAdapterException("Error - Finley does not support interpolation from reduced degrees of freedom to degrees of freedom");           throw FinleyAdapterException(temp.str());
1099               break;           break;
1100            case(ReducedDegreesOfFreedom):        }
1101               Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);        break;
1102               break;     case(ReducedDegreesOfFreedom):
1103            case(Elements):        switch(target.getFunctionSpace().getTypeCode()) {
1104            case(ReducedElements):        case(Nodes):
1105               Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in,&_target);        throw FinleyAdapterException("Error - Finley does not support interpolation from reduced degrees of freedom to mesh nodes.");
1106               break;        break;
1107            case(FaceElements):        case(ReducedNodes):
1108            case(ReducedFaceElements):        if (getMPISize()>1) {
1109               Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in,&_target);           escript::Data temp=escript::Data(in);
1110               break;           temp.expand();
1111            case(Points):           escriptDataC _in2 = temp.getDataC();
1112               Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&_in,&_target);           Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in2);
1113               break;        } else {
1114            case(ContactElementsZero):           Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);
1115            case(ContactElementsOne):        }
1116            case(ReducedContactElementsZero):        break;
1117            case(ReducedContactElementsOne):        case(DegreesOfFreedom):
1118               Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);        throw FinleyAdapterException("Error - Finley does not support interpolation from reduced degrees of freedom to degrees of freedom");
1119               break;        break;
1120            default:        case(ReducedDegreesOfFreedom):
1121               stringstream temp;        Finley_Assemble_CopyNodalData(mesh->Nodes,&_target,&_in);
1122               temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << target.getFunctionSpace().getTypeCode();        break;
1123               throw FinleyAdapterException(temp.str());        case(Elements):
1124               break;        case(ReducedElements):
1125         }        if (getMPISize()>1) {
1126         break;           escript::Data temp=escript::Data( in,  reducedContinuousFunction(*this) );
1127       default:           escriptDataC _in2 = temp.getDataC();
1128          stringstream temp;           Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in2,&_target);
1129          temp << "Error - Interpolation On Domain: Finley does not know anything about function space type %d" << in.getFunctionSpace().getTypeCode();        } else {
1130          throw FinleyAdapterException(temp.str());           Finley_Assemble_interpolate(mesh->Nodes,mesh->Elements,&_in,&_target);
1131          break;        }
1132    }        break;
1133    checkFinleyError();        case(FaceElements):
1134          case(ReducedFaceElements):
1135          if (getMPISize()>1) {
1136             escript::Data temp=escript::Data( in,  reducedContinuousFunction(*this) );
1137             escriptDataC _in2 = temp.getDataC();
1138             Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in2,&_target);
1139          } else {
1140             Finley_Assemble_interpolate(mesh->Nodes,mesh->FaceElements,&_in,&_target);
1141          }
1142          break;
1143          case(Points):
1144          if (getMPISize()>1) {
1145             escript::Data temp=escript::Data( in,  reducedContinuousFunction(*this) );
1146             escriptDataC _in2 = temp.getDataC();
1147             Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&_in2,&_target);
1148          } else {
1149             Finley_Assemble_interpolate(mesh->Nodes,mesh->Points,&_in,&_target);
1150          }
1151          break;
1152          case(ContactElementsZero):
1153          case(ContactElementsOne):
1154          case(ReducedContactElementsZero):
1155          case(ReducedContactElementsOne):
1156          if (getMPISize()>1) {
1157             escript::Data temp=escript::Data( in,  reducedContinuousFunction(*this) );
1158             escriptDataC _in2 = temp.getDataC();
1159             Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in2,&_target);
1160          } else {
1161             Finley_Assemble_interpolate(mesh->Nodes,mesh->ContactElements,&_in,&_target);
1162          }
1163          break;
1164          default:
1165             stringstream temp;
1166             temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << target.getFunctionSpace().getTypeCode();
1167             throw FinleyAdapterException(temp.str());
1168             break;
1169          }
1170          break;
1171       default:
1172          stringstream temp;
1173          temp << "Error - Interpolation On Domain: Finley does not know anything about function space type %d" << in.getFunctionSpace().getTypeCode();
1174          throw FinleyAdapterException(temp.str());
1175          break;
1176       }
1177       checkFinleyError();
1178  }  }
1179    
1180  //  //
# Line 613  void MeshAdapter::interpolateOnDomain(es Line 1182  void MeshAdapter::interpolateOnDomain(es
1182  //  //
1183  void MeshAdapter::setToX(escript::Data& arg) const  void MeshAdapter::setToX(escript::Data& arg) const
1184  {  {
1185    const MeshAdapter& argDomain=dynamic_cast<const MeshAdapter&>(arg.getFunctionSpace().getDomain());     const MeshAdapter& argDomain=dynamic_cast<const MeshAdapter&>(*(arg.getFunctionSpace().getDomain()));
1186    if (argDomain!=*this)     if (argDomain!=*this)
1187       throw FinleyAdapterException("Error - Illegal domain of data point locations");        throw FinleyAdapterException("Error - Illegal domain of data point locations");
1188    Finley_Mesh* mesh=m_finleyMesh.get();     Finley_Mesh* mesh=m_finleyMesh.get();
1189    // in case of values node coordinates we can do the job directly:     // in case of values node coordinates we can do the job directly:
1190    if (arg.getFunctionSpace().getTypeCode()==Nodes) {     if (arg.getFunctionSpace().getTypeCode()==Nodes) {
1191       escriptDataC _arg=arg.getDataC();        escriptDataC _arg=arg.getDataC();
1192       Finley_Assemble_NodeCoordinates(mesh->Nodes,&_arg);        Finley_Assemble_NodeCoordinates(mesh->Nodes,&_arg);
1193    } else {     } else {
1194       escript::Data tmp_data=Vector(0.0,continuousFunction(asAbstractContinuousDomain()),true);        escript::Data tmp_data=Vector(0.0,continuousFunction(*this),true);
1195       escriptDataC _tmp_data=tmp_data.getDataC();        escriptDataC _tmp_data=tmp_data.getDataC();
1196       Finley_Assemble_NodeCoordinates(mesh->Nodes,&_tmp_data);        Finley_Assemble_NodeCoordinates(mesh->Nodes,&_tmp_data);
1197       // this is then interpolated onto arg:        // this is then interpolated onto arg:
1198       interpolateOnDomain(arg,tmp_data);        interpolateOnDomain(arg,tmp_data);
1199    }     }
1200    checkFinleyError();     checkFinleyError();
1201  }  }
1202    
1203  //  //
# Line 636  void MeshAdapter::setToX(escript::Data& Line 1205  void MeshAdapter::setToX(escript::Data&
1205  //  //
1206  void MeshAdapter::setToNormal(escript::Data& normal) const  void MeshAdapter::setToNormal(escript::Data& normal) const
1207  {  {
1208    const MeshAdapter& normalDomain=dynamic_cast<const MeshAdapter&>(normal.getFunctionSpace().getDomain());  /*   const MeshAdapter& normalDomain=dynamic_cast<const MeshAdapter&>(normal.getFunctionSpace().getDomain());*/
1209    if (normalDomain!=*this)     const MeshAdapter& normalDomain=dynamic_cast<const MeshAdapter&>(*(normal.getFunctionSpace().getDomain()));
1210       throw FinleyAdapterException("Error - Illegal domain of normal locations");     if (normalDomain!=*this)
1211    Finley_Mesh* mesh=m_finleyMesh.get();        throw FinleyAdapterException("Error - Illegal domain of normal locations");
1212    escriptDataC _normal=normal.getDataC();     Finley_Mesh* mesh=m_finleyMesh.get();
1213    switch(normal.getFunctionSpace().getTypeCode()) {     escriptDataC _normal=normal.getDataC();
1214      case(Nodes):     switch(normal.getFunctionSpace().getTypeCode()) {
1215        throw FinleyAdapterException("Error - Finley does not support surface normal vectors for nodes");     case(Nodes):
1216        break;     throw FinleyAdapterException("Error - Finley does not support surface normal vectors for nodes");
1217      case(ReducedNodes):     break;
1218        throw FinleyAdapterException("Error - Finley does not support surface normal vectors for reduced nodes");     case(ReducedNodes):
1219        break;     throw FinleyAdapterException("Error - Finley does not support surface normal vectors for reduced nodes");
1220      case(Elements):     break;
1221        throw FinleyAdapterException("Error - Finley does not support surface normal vectors for elements");     case(Elements):
1222        break;     throw FinleyAdapterException("Error - Finley does not support surface normal vectors for elements");
1223      case(ReducedElements):     break;
1224        throw FinleyAdapterException("Error - Finley does not support surface normal vectors for elements with reduced integration order");     case(ReducedElements):
1225        break;     throw FinleyAdapterException("Error - Finley does not support surface normal vectors for elements with reduced integration order");
1226      case (FaceElements):     break;
1227        Finley_Assemble_setNormal(mesh->Nodes,mesh->FaceElements,&_normal);     case (FaceElements):
1228        break;     Finley_Assemble_setNormal(mesh->Nodes,mesh->FaceElements,&_normal);
1229      case (ReducedFaceElements):     break;
1230        Finley_Assemble_setNormal(mesh->Nodes,mesh->FaceElements,&_normal);     case (ReducedFaceElements):
1231        break;     Finley_Assemble_setNormal(mesh->Nodes,mesh->FaceElements,&_normal);
1232      case(Points):     break;
1233        throw FinleyAdapterException("Error - Finley does not support surface normal vectors for point elements");     case(Points):
1234        break;     throw FinleyAdapterException("Error - Finley does not support surface normal vectors for point elements");
1235      case (ContactElementsOne):     break;
1236      case (ContactElementsZero):     case (ContactElementsOne):
1237        Finley_Assemble_setNormal(mesh->Nodes,mesh->ContactElements,&_normal);     case (ContactElementsZero):
1238        break;     Finley_Assemble_setNormal(mesh->Nodes,mesh->ContactElements,&_normal);
1239      case (ReducedContactElementsOne):     break;
1240      case (ReducedContactElementsZero):     case (ReducedContactElementsOne):
1241        Finley_Assemble_setNormal(mesh->Nodes,mesh->ContactElements,&_normal);     case (ReducedContactElementsZero):
1242        break;     Finley_Assemble_setNormal(mesh->Nodes,mesh->ContactElements,&_normal);
1243      case(DegreesOfFreedom):     break;
1244        throw FinleyAdapterException("Error - Finley does not support surface normal vectors for degrees of freedom.");     case(DegreesOfFreedom):
1245        break;     throw FinleyAdapterException("Error - Finley does not support surface normal vectors for degrees of freedom.");
1246      case(ReducedDegreesOfFreedom):     break;
1247        throw FinleyAdapterException("Error - Finley does not support surface normal vectors for reduced degrees of freedom.");     case(ReducedDegreesOfFreedom):
1248        break;     throw FinleyAdapterException("Error - Finley does not support surface normal vectors for reduced degrees of freedom.");
1249      default:     break;
1250       default:
1251        stringstream temp;        stringstream temp;
1252        temp << "Error - Normal Vectors: Finley does not know anything about function space type " << normal.getFunctionSpace().getTypeCode();        temp << "Error - Normal Vectors: Finley does not know anything about function space type " << normal.getFunctionSpace().getTypeCode();
1253        throw FinleyAdapterException(temp.str());        throw FinleyAdapterException(temp.str());
1254        break;        break;
1255    }     }
1256    checkFinleyError();     checkFinleyError();
1257  }  }
1258    
1259  //  //
# Line 691  void MeshAdapter::setToNormal(escript::D Line 1261  void MeshAdapter::setToNormal(escript::D
1261  //  //
1262  void MeshAdapter::interpolateACross(escript::Data& target,const escript::Data& source) const  void MeshAdapter::interpolateACross(escript::Data& target,const escript::Data& source) const
1263  {  {
1264    const MeshAdapter& targetDomain=dynamic_cast<const MeshAdapter&>(target.getFunctionSpace().getDomain());     const_Domain_ptr targetDomain_p=target.getFunctionSpace().getDomain();
1265    if (targetDomain!=*this)     const MeshAdapter* targetDomain=dynamic_cast<const MeshAdapter*>(targetDomain_p.get());
1266       throw FinleyAdapterException("Error - Illegal domain of interpolation target");     if (targetDomain!=this)
1267          throw FinleyAdapterException("Error - Illegal domain of interpolation target");
1268    
1269    throw FinleyAdapterException("Error - Finley does not allow interpolation across domains yet.");     throw FinleyAdapterException("Error - Finley does not allow interpolation across domains yet.");
1270  }  }
1271    
1272  //  //
1273  // calculates the integral of a function defined of arg:  // calculates the integral of a function defined of arg:
1274  //  //
1275  void MeshAdapter::setToIntegrals(std::vector<double>& integrals,const escript::Data& arg) const  void MeshAdapter::setToIntegrals(vector<double>& integrals,const escript::Data& arg) const
1276  {  {
1277    const MeshAdapter& argDomain=dynamic_cast<const MeshAdapter&>(arg.getFunctionSpace().getDomain());     const MeshAdapter& argDomain=dynamic_cast<const MeshAdapter&>(*(arg.getFunctionSpace().getDomain()));
1278    if (argDomain!=*this)     if (argDomain!=*this)
1279       throw FinleyAdapterException("Error - Illegal domain of integration kernel");        throw FinleyAdapterException("Error - Illegal domain of integration kernel");
1280    
1281    Finley_Mesh* mesh=m_finleyMesh.get();     double blocktimer_start = blocktimer_time();
1282    escriptDataC _arg=arg.getDataC();     Finley_Mesh* mesh=m_finleyMesh.get();
1283    switch(arg.getFunctionSpace().getTypeCode()) {     escriptDataC _temp;
1284       case(Nodes):     escript::Data temp;
1285          /* TODO */     escriptDataC _arg=arg.getDataC();
1286          throw FinleyAdapterException("Error - Integral of data on nodes is not supported.");     switch(arg.getFunctionSpace().getTypeCode()) {
1287          break;     case(Nodes):
1288       case(ReducedNodes):     temp=escript::Data( arg, escript::function(*this) );
1289          /* TODO */     _temp=temp.getDataC();
1290          throw FinleyAdapterException("Error - Integral of data on reduced nodes is not supported.");     Finley_Assemble_integrate(mesh->Nodes,mesh->Elements,&_temp,&integrals[0]);
1291          break;     break;
1292       case(Elements):     case(ReducedNodes):
1293          Finley_Assemble_integrate(mesh->Nodes,mesh->Elements,&_arg,&integrals[0]);     temp=escript::Data( arg, escript::function(*this) );
1294          break;     _temp=temp.getDataC();
1295       case(ReducedElements):     Finley_Assemble_integrate(mesh->Nodes,mesh->Elements,&_temp,&integrals[0]);
1296          Finley_Assemble_integrate(mesh->Nodes,mesh->Elements,&_arg,&integrals[0]);     break;
1297          break;     case(Elements):
1298       case(FaceElements):     Finley_Assemble_integrate(mesh->Nodes,mesh->Elements,&_arg,&integrals[0]);
1299          Finley_Assemble_integrate(mesh->Nodes,mesh->FaceElements,&_arg,&integrals[0]);     break;
1300          break;     case(ReducedElements):
1301       case(ReducedFaceElements):     Finley_Assemble_integrate(mesh->Nodes,mesh->Elements,&_arg,&integrals[0]);
1302          Finley_Assemble_integrate(mesh->Nodes,mesh->FaceElements,&_arg,&integrals[0]);     break;
1303          break;     case(FaceElements):
1304       case(Points):     Finley_Assemble_integrate(mesh->Nodes,mesh->FaceElements,&_arg,&integrals[0]);
1305          throw FinleyAdapterException("Error - Integral of data on points is not supported.");     break;
1306          break;     case(ReducedFaceElements):
1307       case(ContactElementsZero):     Finley_Assemble_integrate(mesh->Nodes,mesh->FaceElements,&_arg,&integrals[0]);
1308          Finley_Assemble_integrate(mesh->Nodes,mesh->ContactElements,&_arg,&integrals[0]);     break;
1309          break;     case(Points):
1310       case(ReducedContactElementsZero):     throw FinleyAdapterException("Error - Integral of data on points is not supported.");
1311          Finley_Assemble_integrate(mesh->Nodes,mesh->ContactElements,&_arg,&integrals[0]);     break;
1312          break;     case(ContactElementsZero):
1313       case(ContactElementsOne):     Finley_Assemble_integrate(mesh->Nodes,mesh->ContactElements,&_arg,&integrals[0]);
1314          Finley_Assemble_integrate(mesh->Nodes,mesh->ContactElements,&_arg,&integrals[0]);     break;
1315          break;     case(ReducedContactElementsZero):
1316       case(ReducedContactElementsOne):     Finley_Assemble_integrate(mesh->Nodes,mesh->ContactElements,&_arg,&integrals[0]);
1317          Finley_Assemble_integrate(mesh->Nodes,mesh->ContactElements,&_arg,&integrals[0]);     break;
1318          break;     case(ContactElementsOne):
1319       case(DegreesOfFreedom):     Finley_Assemble_integrate(mesh->Nodes,mesh->ContactElements,&_arg,&integrals[0]);
1320          throw FinleyAdapterException("Error - Integral of data on degrees of freedom is not supported.");     break;
1321          break;     case(ReducedContactElementsOne):
1322       case(ReducedDegreesOfFreedom):     Finley_Assemble_integrate(mesh->Nodes,mesh->ContactElements,&_arg,&integrals[0]);
1323          throw FinleyAdapterException("Error - Integral of data on reduced degrees of freedom is not supported.");     break;
1324          break;     case(DegreesOfFreedom):
1325       default:     temp=escript::Data( arg, escript::function(*this) );
1326          stringstream temp;     _temp=temp.getDataC();
1327          temp << "Error - Integrals: Finley does not know anything about function space type " << arg.getFunctionSpace().getTypeCode();     Finley_Assemble_integrate(mesh->Nodes,mesh->Elements,&_temp,&integrals[0]);
1328          throw FinleyAdapterException(temp.str());     break;
1329          break;     case(ReducedDegreesOfFreedom):
1330    }     temp=escript::Data( arg, escript::function(*this) );
1331    checkFinleyError();     _temp=temp.getDataC();
1332       Finley_Assemble_integrate(mesh->Nodes,mesh->Elements,&_temp,&integrals[0]);
1333       break;
1334       default:
1335          stringstream temp;
1336          temp << "Error - Integrals: Finley does not know anything about function space type " << arg.getFunctionSpace().getTypeCode();
1337          throw FinleyAdapterException(temp.str());
1338          break;
1339       }
1340       checkFinleyError();
1341       blocktimer_increment("integrate()", blocktimer_start);
1342  }  }
1343    
1344  //  //
# Line 765  void MeshAdapter::setToIntegrals(std::ve Line 1346  void MeshAdapter::setToIntegrals(std::ve
1346  //  //
1347  void MeshAdapter::setToGradient(escript::Data& grad,const escript::Data& arg) const  void MeshAdapter::setToGradient(escript::Data& grad,const escript::Data& arg) const
1348  {  {
1349    const MeshAdapter& argDomain=dynamic_cast<const MeshAdapter&>(arg.getFunctionSpace().getDomain());     const MeshAdapter& argDomain=dynamic_cast<const MeshAdapter&>(*(arg.getFunctionSpace().getDomain()));
1350    if (argDomain!=*this)     if (argDomain!=*this)
1351      throw FinleyAdapterException("Error - Illegal domain of gradient argument");        throw FinleyAdapterException("Error - Illegal domain of gradient argument");
1352    const MeshAdapter& gradDomain=dynamic_cast<const MeshAdapter&>(grad.getFunctionSpace().getDomain());     const MeshAdapter& gradDomain=dynamic_cast<const MeshAdapter&>(*(grad.getFunctionSpace().getDomain()));
1353    if (gradDomain!=*this)     if (gradDomain!=*this)
1354       throw FinleyAdapterException("Error - Illegal domain of gradient");        throw FinleyAdapterException("Error - Illegal domain of gradient");
1355    
1356    Finley_Mesh* mesh=m_finleyMesh.get();     Finley_Mesh* mesh=m_finleyMesh.get();
1357    escriptDataC _grad=grad.getDataC();     escriptDataC _grad=grad.getDataC();
1358    escriptDataC nodeDataC;     escriptDataC nodeDataC;
1359  #ifdef PASO_MPI     escript::Data temp;
1360    escript::Data nodeTemp( arg, continuousFunction(asAbstractContinuousDomain()) );     if (getMPISize()>1) {
1361    if( arg.getFunctionSpace().getTypeCode() != Nodes )        if( arg.getFunctionSpace().getTypeCode() == DegreesOfFreedom ) {
1362    {           temp=escript::Data( arg,  continuousFunction(*this) );
1363      Finley_Assemble_CopyNodalData(mesh->Nodes,&(nodeTemp.getDataC()),&(arg.getDataC()));           nodeDataC = temp.getDataC();
1364      nodeDataC = nodeTemp.getDataC();        } else if( arg.getFunctionSpace().getTypeCode() == ReducedDegreesOfFreedom ) {
1365    }           temp=escript::Data( arg,  reducedContinuousFunction(*this) );
1366    else           nodeDataC = temp.getDataC();
1367      nodeDataC = arg.getDataC();        } else {
1368  #else           nodeDataC = arg.getDataC();
1369    nodeDataC = arg.getDataC();        }
1370  #endif     } else {
1371    switch(grad.getFunctionSpace().getTypeCode()) {        nodeDataC = arg.getDataC();
1372         case(Nodes):     }
1373            throw FinleyAdapterException("Error - Gradient at nodes is not supported.");     switch(grad.getFunctionSpace().getTypeCode()) {
1374            break;     case(Nodes):
1375         case(ReducedNodes):     throw FinleyAdapterException("Error - Gradient at nodes is not supported.");
1376            throw FinleyAdapterException("Error - Gradient at reduced nodes is not supported.");     break;
1377            break;     case(ReducedNodes):
1378         case(Elements):     throw FinleyAdapterException("Error - Gradient at reduced nodes is not supported.");
1379            Finley_Assemble_gradient(mesh->Nodes,mesh->Elements,&_grad,&nodeDataC);     break;
1380            break;     case(Elements):
1381         case(ReducedElements):     Finley_Assemble_gradient(mesh->Nodes,mesh->Elements,&_grad,&nodeDataC);
1382            Finley_Assemble_gradient(mesh->Nodes,mesh->Elements,&_grad,&nodeDataC);     break;
1383            break;     case(ReducedElements):
1384         case(FaceElements):     Finley_Assemble_gradient(mesh->Nodes,mesh->Elements,&_grad,&nodeDataC);
1385            Finley_Assemble_gradient(mesh->Nodes,mesh->FaceElements,&_grad,&nodeDataC);     break;
1386            break;     case(FaceElements):
1387         case(ReducedFaceElements):     Finley_Assemble_gradient(mesh->Nodes,mesh->FaceElements,&_grad,&nodeDataC);
1388            Finley_Assemble_gradient(mesh->Nodes,mesh->FaceElements,&_grad,&nodeDataC);     break;
1389            break;     case(ReducedFaceElements):
1390         case(Points):     Finley_Assemble_gradient(mesh->Nodes,mesh->FaceElements,&_grad,&nodeDataC);
1391            throw FinleyAdapterException("Error - Gradient at points is not supported.");     break;
1392            break;     case(Points):
1393         case(ContactElementsZero):     throw FinleyAdapterException("Error - Gradient at points is not supported.");
1394            Finley_Assemble_gradient(mesh->Nodes,mesh->ContactElements,&_grad,&nodeDataC);     break;
1395            break;     case(ContactElementsZero):
1396         case(ReducedContactElementsZero):     Finley_Assemble_gradient(mesh->Nodes,mesh->ContactElements,&_grad,&nodeDataC);
1397            Finley_Assemble_gradient(mesh->Nodes,mesh->ContactElements,&_grad,&nodeDataC);     break;
1398            break;     case(ReducedContactElementsZero):
1399         case(ContactElementsOne):     Finley_Assemble_gradient(mesh->Nodes,mesh->ContactElements,&_grad,&nodeDataC);
1400            Finley_Assemble_gradient(mesh->Nodes,mesh->ContactElements,&_grad,&nodeDataC);     break;
1401            break;     case(ContactElementsOne):
1402         case(ReducedContactElementsOne):     Finley_Assemble_gradient(mesh->Nodes,mesh->ContactElements,&_grad,&nodeDataC);
1403            Finley_Assemble_gradient(mesh->Nodes,mesh->ContactElements,&_grad,&nodeDataC);     break;
1404            break;     case(ReducedContactElementsOne):
1405         case(DegreesOfFreedom):     Finley_Assemble_gradient(mesh->Nodes,mesh->ContactElements,&_grad,&nodeDataC);
1406            throw FinleyAdapterException("Error - Gradient at degrees of freedom is not supported.");     break;
1407            break;     case(DegreesOfFreedom):
1408         case(ReducedDegreesOfFreedom):     throw FinleyAdapterException("Error - Gradient at degrees of freedom is not supported.");
1409            throw FinleyAdapterException("Error - Gradient at reduced degrees of freedom is not supported.");     break;
1410            break;     case(ReducedDegreesOfFreedom):
1411         default:     throw FinleyAdapterException("Error - Gradient at reduced degrees of freedom is not supported.");
1412            stringstream temp;     break;
1413            temp << "Error - Gradient: Finley does not know anything about function space type " << arg.getFunctionSpace().getTypeCode();     default:
1414            throw FinleyAdapterException(temp.str());        stringstream temp;
1415            break;        temp << "Error - Gradient: Finley does not know anything about function space type " << arg.getFunctionSpace().getTypeCode();
1416    }        throw FinleyAdapterException(temp.str());
1417    checkFinleyError();        break;
1418       }
1419       checkFinleyError();
1420  }  }
1421    
1422  //  //
# Line 841  void MeshAdapter::setToGradient(escript: Line 1424  void MeshAdapter::setToGradient(escript:
1424  //  //
1425  void MeshAdapter::setToSize(escript::Data& size) const  void MeshAdapter::setToSize(escript::Data& size) const
1426  {  {
1427    Finley_Mesh* mesh=m_finleyMesh.get();     Finley_Mesh* mesh=m_finleyMesh.get();
1428    escriptDataC tmp=size.getDataC();     escriptDataC tmp=size.getDataC();
1429    switch(size.getFunctionSpace().getTypeCode()) {     switch(size.getFunctionSpace().getTypeCode()) {
1430         case(Nodes):     case(Nodes):
1431            throw FinleyAdapterException("Error - Size of nodes is not supported.");     throw FinleyAdapterException("Error - Size of nodes is not supported.");
1432            break;     break;
1433         case(ReducedNodes):     case(ReducedNodes):
1434            throw FinleyAdapterException("Error - Size of reduced nodes is not supported.");     throw FinleyAdapterException("Error - Size of reduced nodes is not supported.");
1435            break;     break;
1436         case(Elements):     case(Elements):
1437            Finley_Assemble_getSize(mesh->Nodes,mesh->Elements,&tmp);     Finley_Assemble_getSize(mesh->Nodes,mesh->Elements,&tmp);
1438            break;     break;
1439         case(ReducedElements):     case(ReducedElements):
1440            Finley_Assemble_getSize(mesh->Nodes,mesh->Elements,&tmp);     Finley_Assemble_getSize(mesh->Nodes,mesh->Elements,&tmp);
1441            break;     break;
1442         case(FaceElements):     case(FaceElements):
1443            Finley_Assemble_getSize(mesh->Nodes,mesh->FaceElements,&tmp);     Finley_Assemble_getSize(mesh->Nodes,mesh->FaceElements,&tmp);
1444            break;     break;
1445         case(ReducedFaceElements):     case(ReducedFaceElements):
1446            Finley_Assemble_getSize(mesh->Nodes,mesh->FaceElements,&tmp);     Finley_Assemble_getSize(mesh->Nodes,mesh->FaceElements,&tmp);
1447            break;     break;
1448         case(Points):     case(Points):
1449            throw FinleyAdapterException("Error - Size of point elements is not supported.");     throw FinleyAdapterException("Error - Size of point elements is not supported.");
1450            break;     break;
1451         case(ContactElementsZero):     case(ContactElementsZero):
1452         case(ContactElementsOne):     case(ContactElementsOne):
1453            Finley_Assemble_getSize(mesh->Nodes,mesh->ContactElements,&tmp);     Finley_Assemble_getSize(mesh->Nodes,mesh->ContactElements,&tmp);
1454            break;     break;
1455         case(ReducedContactElementsZero):     case(ReducedContactElementsZero):
1456         case(ReducedContactElementsOne):     case(ReducedContactElementsOne):
1457            Finley_Assemble_getSize(mesh->Nodes,mesh->ContactElements,&tmp);     Finley_Assemble_getSize(mesh->Nodes,mesh->ContactElements,&tmp);
1458            break;     break;
1459         case(DegreesOfFreedom):     case(DegreesOfFreedom):
1460            throw FinleyAdapterException("Error - Size of degrees of freedom is not supported.");     throw FinleyAdapterException("Error - Size of degrees of freedom is not supported.");
1461            break;     break;
1462         case(ReducedDegreesOfFreedom):     case(ReducedDegreesOfFreedom):
1463            throw FinleyAdapterException("Error - Size of reduced degrees of freedom is not supported.");     throw FinleyAdapterException("Error - Size of reduced degrees of freedom is not supported.");
1464            break;     break;
1465         default:     default:
1466            stringstream temp;        stringstream temp;
1467            temp << "Error - Element size: Finley does not know anything about function space type " << size.getFunctionSpace().getTypeCode();        temp << "Error - Element size: Finley does not know anything about function space type " << size.getFunctionSpace().getTypeCode();
1468            throw FinleyAdapterException(temp.str());        throw FinleyAdapterException(temp.str());
1469            break;        break;
1470    }     }
1471    checkFinleyError();     checkFinleyError();
1472  }  }
1473    
1474  // sets the location of nodes:  //
1475    // sets the location of nodes
1476    //
1477  void MeshAdapter::setNewX(const escript::Data& new_x)  void MeshAdapter::setNewX(const escript::Data& new_x)
1478  {  {
1479    Finley_Mesh* mesh=m_finleyMesh.get();     Finley_Mesh* mesh=m_finleyMesh.get();
1480    escriptDataC tmp;     escriptDataC tmp;
1481    const MeshAdapter& newDomain=dynamic_cast<const MeshAdapter&>(new_x.getFunctionSpace().getDomain());     const MeshAdapter& newDomain=dynamic_cast<const MeshAdapter&>(*(new_x.getFunctionSpace().getDomain()));
1482    if (newDomain!=*this)     if (newDomain!=*this)
1483       throw FinleyAdapterException("Error - Illegal domain of new point locations");        throw FinleyAdapterException("Error - Illegal domain of new point locations");
1484    tmp = new_x.getDataC();     if ( new_x.getFunctionSpace() == continuousFunction(*this) ) {
1485    Finley_Mesh_setCoordinates(mesh,&tmp);         tmp = new_x.getDataC();
1486    checkFinleyError();         Finley_Mesh_setCoordinates(mesh,&tmp);
1487  }     } else {
1488           escript::Data new_x_inter=escript::Data( new_x,  continuousFunction(*this) );
1489  // saves a data array in openDX format:         tmp = new_x_inter.getDataC();
1490  void MeshAdapter::saveDX(const std::string& filename,const boost::python::dict& arg) const         Finley_Mesh_setCoordinates(mesh,&tmp);
1491  {     }
1492      int MAX_namelength=256;     checkFinleyError();
1493      const int num_data=boost::python::extract<int>(arg.attr("__len__")());  }
   /* win32 refactor */  
   char* *names = (num_data>0) ? TMPMEMALLOC(num_data,char*) : (char**)NULL;  
   for(int i=0;i<num_data;i++)  
   {  
     names[i] = (MAX_namelength>0) ? TMPMEMALLOC(MAX_namelength,char) : (char*)NULL;  
   }  
1494    
1495    char* *c_names = (num_data>0) ? TMPMEMALLOC(num_data,char*) : (char**)NULL;  //
1496    escriptDataC *data = (num_data>0) ? TMPMEMALLOC(num_data,escriptDataC) : (escriptDataC*)NULL;  // Helper for the save* methods. Extracts optional data variable names and the
1497    escriptDataC* *ptr_data = (num_data>0) ? TMPMEMALLOC(num_data,escriptDataC*) : (escriptDataC**)NULL;  // corresponding pointers from python dictionary. Caller must free arrays.
1498    //
1499      boost::python::list keys=arg.keys();  void MeshAdapter::extractArgsFromDict(const boost::python::dict& arg, int& numData, char**& names, escriptDataC*& data, escriptDataC**& dataPtr) const
1500      for (int i=0;i<num_data;++i) {  {
1501           escript::Data& d=boost::python::extract<escript::Data&>(arg[keys[i]]);     numData = boost::python::extract<int>(arg.attr("__len__")());
1502           if (dynamic_cast<const MeshAdapter&>(d.getFunctionSpace().getDomain()) !=*this)     /* win32 refactor */
1503               throw FinleyAdapterException("Error  in saveDX: Data must be defined on same Domain");     names = (numData>0) ? TMPMEMALLOC(numData, char*) : (char**)NULL;
1504           data[i]=d.getDataC();     data = (numData>0) ? TMPMEMALLOC(numData,escriptDataC) : (escriptDataC*)NULL;
1505           ptr_data[i]=&(data[i]);     dataPtr = (numData>0) ? TMPMEMALLOC(numData,escriptDataC*) : (escriptDataC**)NULL;
1506           std::string n=boost::python::extract<std::string>(keys[i]);  
1507           c_names[i]=&(names[i][0]);     boost::python::list keys=arg.keys();
1508           if (n.length()>MAX_namelength-1) {     for (int i=0; i<numData; ++i) {
1509              strncpy(c_names[i],n.c_str(),MAX_namelength-1);        string n=boost::python::extract<string>(keys[i]);
1510              c_names[i][MAX_namelength-1]='\0';        escript::Data& d=boost::python::extract<escript::Data&>(arg[keys[i]]);
1511           } else {        if (dynamic_cast<const MeshAdapter&>(*(d.getFunctionSpace().getDomain())) !=*this)
1512              strcpy(c_names[i],n.c_str());           throw FinleyAdapterException("Error: Data must be defined on same Domain");
1513           }        data[i] = d.getDataC();
1514      }        dataPtr[i] = &(data[i]);
1515      Finley_Mesh_saveDX(filename.c_str(),m_finleyMesh.get(),num_data,c_names,ptr_data);        names[i] = TMPMEMALLOC(n.length()+1, char);
1516      checkFinleyError();        strcpy(names[i], n.c_str());
1517           }
1518        /* win32 refactor */  }
1519    TMPMEMFREE(c_names);  
1520    TMPMEMFREE(data);  //
1521    TMPMEMFREE(ptr_data);  // saves mesh and optionally data arrays in openDX format
1522    for(int i=0;i<num_data;i++)  //
1523    {  void MeshAdapter::saveDX(const string& filename,const boost::python::dict& arg) const
1524      TMPMEMFREE(names[i]);  {
1525    }     int num_data;
1526    TMPMEMFREE(names);     char **names;
1527       escriptDataC *data;
1528       escriptDataC **ptr_data;
1529    
1530      return;     extractArgsFromDict(arg, num_data, names, data, ptr_data);
1531       Finley_Mesh_saveDX(filename.c_str(), m_finleyMesh.get(), num_data, names, ptr_data);
1532       checkFinleyError();
1533    
1534       /* win32 refactor */
1535       TMPMEMFREE(data);
1536       TMPMEMFREE(ptr_data);
1537       for(int i=0; i<num_data; i++)
1538       {
1539          TMPMEMFREE(names[i]);
1540       }
1541       TMPMEMFREE(names);
1542    
1543       return;
1544  }  }
1545    
1546  // saves a data array in openVTK format:  //
1547  void MeshAdapter::saveVTK(const std::string& filename,const boost::python::dict& arg) const  // saves mesh and optionally data arrays in VTK format
1548    //
1549    void MeshAdapter::saveVTK(const string& filename,const boost::python::dict& arg,  const string& metadata, const string& metadata_schema) const
1550  {  {
1551      int MAX_namelength=256;      boost::python::object pySaveVTK = boost::python::import("esys.weipa").attr("_saveVTK");
1552      const int num_data=boost::python::extract<int>(arg.attr("__len__")());      pySaveVTK(filename, const_cast<MeshAdapter*>(this)->getPtr(),
1553    /* win32 refactor */                metadata, metadata_schema, arg);
1554    char* *names = (num_data>0) ? TMPMEMALLOC(num_data,char*) : (char**)NULL;  }
   for(int i=0;i<num_data;i++)  
   {  
     names[i] = (MAX_namelength>0) ? TMPMEMALLOC(MAX_namelength,char) : (char*)NULL;  
   }  
1555    
1556    char* *c_names = (num_data>0) ? TMPMEMALLOC(num_data,char*) : (char**)NULL;  bool MeshAdapter::ownSample(int fs_code, index_t id) const
1557    escriptDataC *data = (num_data>0) ? TMPMEMALLOC(num_data,escriptDataC) : (escriptDataC*)NULL;  {
1558    escriptDataC* *ptr_data = (num_data>0) ? TMPMEMALLOC(num_data,escriptDataC*) : (escriptDataC**)NULL;  #ifdef ESYS_MPI
1559        index_t myFirstNode=0, myLastNode=0, k=0;
1560      boost::python::list keys=arg.keys();      index_t* globalNodeIndex=0;
1561      for (int i=0;i<num_data;++i) {      Finley_Mesh* mesh_p=m_finleyMesh.get();
1562           escript::Data& d=boost::python::extract<escript::Data&>(arg[keys[i]]);      if (fs_code == FINLEY_REDUCED_NODES)
1563           if (dynamic_cast<const MeshAdapter&>(d.getFunctionSpace().getDomain()) !=*this)      {
1564               throw FinleyAdapterException("Error  in saveVTK: Data must be defined on same Domain");      myFirstNode = Finley_NodeFile_getFirstReducedNode(mesh_p->Nodes);
1565           data[i]=d.getDataC();      myLastNode = Finley_NodeFile_getLastReducedNode(mesh_p->Nodes);
1566           ptr_data[i]=&(data[i]);      globalNodeIndex = Finley_NodeFile_borrowGlobalReducedNodesIndex(mesh_p->Nodes);
          std::string n=boost::python::extract<std::string>(keys[i]);  
          c_names[i]=&(names[i][0]);  
          if (n.length()>MAX_namelength-1) {  
             strncpy(c_names[i],n.c_str(),MAX_namelength-1);  
             c_names[i][MAX_namelength-1]='\0';  
          } else {  
             strcpy(c_names[i],n.c_str());  
          }  
1567      }      }
1568  #ifndef PASO_MPI          else
1569      Finley_Mesh_saveVTK(filename.c_str(),m_finleyMesh.get(),num_data,c_names,ptr_data);      {
1570  #else      myFirstNode = Finley_NodeFile_getFirstNode(mesh_p->Nodes);
1571      Finley_Mesh_saveVTK_MPIO(filename.c_str(),m_finleyMesh.get(),num_data,c_names,ptr_data);      myLastNode = Finley_NodeFile_getLastNode(mesh_p->Nodes);
1572        globalNodeIndex = Finley_NodeFile_borrowGlobalNodesIndex(mesh_p->Nodes);
1573        }
1574        k=globalNodeIndex[id];
1575        return static_cast<bool>( (myFirstNode <= k) && (k < myLastNode) );
1576  #endif  #endif
1577        return true;
1578    }
1579    
1580    
 checkFinleyError();  
   /* win32 refactor */  
   TMPMEMFREE(c_names);  
   TMPMEMFREE(data);  
   TMPMEMFREE(ptr_data);  
   for(int i=0;i<num_data;i++)  
   {  
     TMPMEMFREE(names[i]);  
   }  
   TMPMEMFREE(names);  
1581    
1582      return;  //
1583    // creates a SystemMatrixAdapter stiffness matrix an initializes it with zeros
1584    //
1585    ASM_ptr MeshAdapter::newSystemMatrix(
1586                                                     const int row_blocksize,
1587                                                     const escript::FunctionSpace& row_functionspace,
1588                                                     const int column_blocksize,
1589                                                     const escript::FunctionSpace& column_functionspace,
1590                                                     const int type) const
1591    {
1592       int reduceRowOrder=0;
1593       int reduceColOrder=0;
1594       // is the domain right?
1595       const MeshAdapter& row_domain=dynamic_cast<const MeshAdapter&>(*(row_functionspace.getDomain()));
1596       if (row_domain!=*this)
1597          throw FinleyAdapterException("Error - domain of row function space does not match the domain of matrix generator.");
1598       const MeshAdapter& col_domain=dynamic_cast<const MeshAdapter&>(*(column_functionspace.getDomain()));
1599       if (col_domain!=*this)
1600          throw FinleyAdapterException("Error - domain of columnn function space does not match the domain of matrix generator.");
1601       // is the function space type right
1602       if (row_functionspace.getTypeCode()==DegreesOfFreedom) {
1603          reduceRowOrder=0;
1604       } else if (row_functionspace.getTypeCode()==ReducedDegreesOfFreedom) {
1605          reduceRowOrder=1;
1606       } else {
1607          throw FinleyAdapterException("Error - illegal function space type for system matrix rows.");
1608       }
1609       if (column_functionspace.getTypeCode()==DegreesOfFreedom) {
1610          reduceColOrder=0;
1611       } else if (column_functionspace.getTypeCode()==ReducedDegreesOfFreedom) {
1612          reduceColOrder=1;
1613       } else {
1614          throw FinleyAdapterException("Error - illegal function space type for system matrix columns.");
1615       }
1616       // generate matrix:
1617    
1618       Paso_SystemMatrixPattern* fsystemMatrixPattern=Finley_getPattern(getFinley_Mesh(),reduceRowOrder,reduceColOrder);
1619       checkFinleyError();
1620       Paso_SystemMatrix* fsystemMatrix;
1621       int trilinos = 0;
1622       if (trilinos) {
1623    #ifdef TRILINOS
1624          /* Allocation Epetra_VrbMatrix here */
1625    #endif
1626       }
1627       else {
1628          fsystemMatrix=Paso_SystemMatrix_alloc(type,fsystemMatrixPattern,row_blocksize,column_blocksize,FALSE);
1629       }
1630       checkPasoError();
1631       Paso_SystemMatrixPattern_free(fsystemMatrixPattern);
1632       SystemMatrixAdapter* sma=new SystemMatrixAdapter(fsystemMatrix, row_blocksize, row_functionspace, column_blocksize, column_functionspace);
1633       return ASM_ptr(sma);
1634    //   return SystemMatrixAdapter(fsystemMatrix,row_blocksize,row_functionspace,column_blocksize,column_functionspace);
1635  }  }
1636                                                                                                                                                                            
1637                                                                                                                                                                            //
1638  // creates a SystemMatrixAdapter stiffness matrix an initializes it with zeros:  // creates a TransportProblemAdapter
1639  SystemMatrixAdapter MeshAdapter::newSystemMatrix(  //
1640                        const int row_blocksize,  ATP_ptr MeshAdapter::newTransportProblem(
1641                        const escript::FunctionSpace& row_functionspace,                                                           const bool useBackwardEuler,
1642                        const int column_blocksize,                                                           const int blocksize,
1643                        const escript::FunctionSpace& column_functionspace,                                                           const escript::FunctionSpace& functionspace,
1644                        const int type) const                                                           const int type) const
1645  {  {
1646      int reduceRowOrder=0;     int reduceOrder=0;
1647      int reduceColOrder=0;     // is the domain right?
1648      // is the domain right?     const MeshAdapter& domain=dynamic_cast<const MeshAdapter&>(*(functionspace.getDomain()));
1649      const MeshAdapter& row_domain=dynamic_cast<const MeshAdapter&>(row_functionspace.getDomain());     if (domain!=*this)
1650      if (row_domain!=*this)        throw FinleyAdapterException("Error - domain of function space does not match the domain of transport problem generator.");
1651            throw FinleyAdapterException("Error - domain of row function space does not match the domain of matrix generator.");     // is the function space type right
1652      const MeshAdapter& col_domain=dynamic_cast<const MeshAdapter&>(column_functionspace.getDomain());     if (functionspace.getTypeCode()==DegreesOfFreedom) {
1653      if (col_domain!=*this)        reduceOrder=0;
1654            throw FinleyAdapterException("Error - domain of columnn function space does not match the domain of matrix generator.");     } else if (functionspace.getTypeCode()==ReducedDegreesOfFreedom) {
1655      // is the function space type right        reduceOrder=1;
1656      if (row_functionspace.getTypeCode()==DegreesOfFreedom) {     } else {
1657          reduceRowOrder=0;        throw FinleyAdapterException("Error - illegal function space type for system matrix rows.");
1658      } else if (row_functionspace.getTypeCode()==ReducedDegreesOfFreedom) {     }
1659          reduceRowOrder=1;     // generate matrix:
1660      } else {  
1661          throw FinleyAdapterException("Error - illegal function space type for system matrix rows.");     Paso_SystemMatrixPattern* fsystemMatrixPattern=Finley_getPattern(getFinley_Mesh(),reduceOrder,reduceOrder);
1662      }     checkFinleyError();
1663      if (column_functionspace.getTypeCode()==DegreesOfFreedom) {     Paso_TransportProblem* transportProblem;
1664          reduceColOrder=0;     transportProblem=Paso_TransportProblem_alloc(useBackwardEuler,fsystemMatrixPattern,blocksize);
1665      } else if (column_functionspace.getTypeCode()==ReducedDegreesOfFreedom) {     checkPasoError();
1666          reduceColOrder=1;     Paso_SystemMatrixPattern_free(fsystemMatrixPattern);
1667      } else {     TransportProblemAdapter* tpa=new TransportProblemAdapter(transportProblem,useBackwardEuler,blocksize,functionspace);
1668          throw FinleyAdapterException("Error - illegal function space type for system matrix columns.");     return ATP_ptr(tpa);
1669      }  //   return TransportProblemAdapter(transportProblem,useBackwardEuler,blocksize,functionspace);
     // generate matrix:  
       
     Paso_SystemMatrixPattern* fsystemMatrixPattern=Finley_getPattern(getFinley_Mesh(),reduceRowOrder,reduceColOrder);  
     checkFinleyError();  
     Paso_SystemMatrix* fsystemMatrix=Paso_SystemMatrix_alloc(type,fsystemMatrixPattern,row_blocksize,column_blocksize);  
     checkPasoError();  
     Paso_SystemMatrixPattern_dealloc(fsystemMatrixPattern);  
     return SystemMatrixAdapter(fsystemMatrix,row_blocksize,row_functionspace,column_blocksize,column_functionspace);  
1670  }  }
1671    
1672  //  //
# Line 1053  SystemMatrixAdapter MeshAdapter::newSyst Line 1678  SystemMatrixAdapter MeshAdapter::newSyst
1678  // returns true if data at the atom_type is considered as being cell centered:  // returns true if data at the atom_type is considered as being cell centered:
1679  bool MeshAdapter::isCellOriented(int functionSpaceCode) const  bool MeshAdapter::isCellOriented(int functionSpaceCode) const
1680  {  {
1681    switch(functionSpaceCode) {     switch(functionSpaceCode) {
1682         case(Nodes):     case(Nodes):
1683         case(DegreesOfFreedom):     case(DegreesOfFreedom):
1684         case(ReducedDegreesOfFreedom):     case(ReducedDegreesOfFreedom):
1685            return false;     return false;
1686            break;     break;
1687         case(Elements):     case(Elements):
1688         case(FaceElements):     case(FaceElements):
1689         case(Points):     case(Points):
1690         case(ContactElementsZero):     case(ContactElementsZero):
1691         case(ContactElementsOne):     case(ContactElementsOne):
1692         case(ReducedElements):     case(ReducedElements):
1693         case(ReducedFaceElements):     case(ReducedFaceElements):
1694         case(ReducedContactElementsZero):     case(ReducedContactElementsZero):
1695         case(ReducedContactElementsOne):     case(ReducedContactElementsOne):
1696            return true;     return true;
1697            break;     break;
1698         default:     default:
1699            stringstream temp;        stringstream temp;
1700            temp << "Error - Cell: Finley does not know anything about function space type " << functionSpaceCode;        temp << "Error - Cell: Finley does not know anything about function space type " << functionSpaceCode;
1701            throw FinleyAdapterException(temp.str());        throw FinleyAdapterException(temp.str());
1702            break;        break;
1703    }     }
1704    checkFinleyError();     checkFinleyError();
1705    return false;     return false;
1706    }
1707    
1708    bool
1709    MeshAdapter::commonFunctionSpace(const vector<int>& fs, int& resultcode) const
1710    {
1711       /* The idea is to use equivalence classes. [Types which can be interpolated back and forth]
1712        class 1: DOF <-> Nodes
1713        class 2: ReducedDOF <-> ReducedNodes
1714        class 3: Points
1715        class 4: Elements
1716        class 5: ReducedElements
1717        class 6: FaceElements
1718        class 7: ReducedFaceElements
1719        class 8: ContactElementZero <-> ContactElementOne
1720        class 9: ReducedContactElementZero <-> ReducedContactElementOne
1721    
1722       There is also a set of lines. Interpolation is possible down a line but not between lines.
1723       class 1 and 2 belong to all lines so aren't considered.
1724        line 0: class 3
1725        line 1: class 4,5
1726        line 2: class 6,7
1727        line 3: class 8,9
1728    
1729       For classes with multiple members (eg class 2) we have vars to record if there is at least one instance.
1730       eg hasnodes is true if we have at least one instance of Nodes.
1731       */
1732        if (fs.empty())
1733        {
1734            return false;
1735        }
1736        vector<int> hasclass(10);
1737        vector<int> hasline(4);
1738        bool hasnodes=false;
1739        bool hasrednodes=false;
1740        bool hascez=false;
1741        bool hasrcez=false;
1742        for (int i=0;i<fs.size();++i)
1743        {
1744        switch(fs[i])
1745        {
1746        case(Nodes):   hasnodes=true;   // no break is deliberate
1747        case(DegreesOfFreedom):
1748            hasclass[1]=1;
1749            break;
1750        case(ReducedNodes):    hasrednodes=true;    // no break is deliberate
1751        case(ReducedDegreesOfFreedom):
1752            hasclass[2]=1;
1753            break;
1754        case(Points):
1755            hasline[0]=1;
1756            hasclass[3]=1;
1757            break;
1758        case(Elements):
1759            hasclass[4]=1;
1760            hasline[1]=1;
1761            break;
1762        case(ReducedElements):
1763            hasclass[5]=1;
1764            hasline[1]=1;
1765            break;
1766        case(FaceElements):
1767            hasclass[6]=1;
1768            hasline[2]=1;
1769            break;
1770        case(ReducedFaceElements):
1771            hasclass[7]=1;
1772            hasline[2]=1;
1773            break;
1774        case(ContactElementsZero):  hascez=true;    // no break is deliberate
1775        case(ContactElementsOne):
1776            hasclass[8]=1;
1777            hasline[3]=1;
1778            break;
1779        case(ReducedContactElementsZero):   hasrcez=true;   // no break is deliberate
1780        case(ReducedContactElementsOne):
1781            hasclass[9]=1;
1782            hasline[3]=1;
1783            break;
1784        default:
1785            return false;
1786        }
1787        }
1788        int totlines=hasline[0]+hasline[1]+hasline[2]+hasline[3];
1789        // fail if we have more than one leaf group
1790    
1791        if (totlines>1)
1792        {
1793        return false;   // there are at least two branches we can't interpolate between
1794        }
1795        else if (totlines==1)
1796        {
1797        if (hasline[0]==1)      // we have points
1798        {
1799            resultcode=Points;
1800        }
1801        else if (hasline[1]==1)
1802        {
1803            if (hasclass[5]==1)
1804            {
1805            resultcode=ReducedElements;
1806            }
1807            else
1808            {
1809            resultcode=Elements;
1810            }
1811        }
1812        else if (hasline[2]==1)
1813        {
1814            if (hasclass[7]==1)
1815            {
1816            resultcode=ReducedFaceElements;
1817            }
1818            else
1819            {
1820            resultcode=FaceElements;
1821            }
1822        }
1823        else    // so we must be in line3
1824        {
1825            if (hasclass[9]==1)
1826            {
1827            // need something from class 9
1828            resultcode=(hasrcez?ReducedContactElementsZero:ReducedContactElementsOne);
1829            }
1830            else
1831            {
1832            // something from class 8
1833            resultcode=(hascez?ContactElementsZero:ContactElementsOne);
1834            }
1835        }
1836        }
1837        else    // totlines==0
1838        {
1839        if (hasclass[2]==1)
1840        {
1841            // something from class 2
1842            resultcode=(hasrednodes?ReducedNodes:ReducedDegreesOfFreedom);
1843        }
1844        else
1845        {   // something from class 1
1846            resultcode=(hasnodes?Nodes:DegreesOfFreedom);
1847        }
1848        }
1849        return true;
1850  }  }
1851    
1852  bool MeshAdapter::probeInterpolationOnDomain(int functionSpaceType_source,int functionSpaceType_target) const  bool MeshAdapter::probeInterpolationOnDomain(int functionSpaceType_source,int functionSpaceType_target) const
1853  {  {
1854    switch(functionSpaceType_source) {     switch(functionSpaceType_source) {
1855       case(Nodes):     case(Nodes):
1856          switch(functionSpaceType_target) {      switch(functionSpaceType_target) {
1857             case(Nodes):      case(Nodes):
1858             case(ReducedNodes):      case(ReducedNodes):
1859             case(ReducedDegreesOfFreedom):      case(ReducedDegreesOfFreedom):
1860             case(DegreesOfFreedom):      case(DegreesOfFreedom):
1861             case(Elements):      case(Elements):
1862             case(ReducedElements):      case(ReducedElements):
1863             case(FaceElements):      case(FaceElements):
1864             case(ReducedFaceElements):      case(ReducedFaceElements):
1865             case(Points):      case(Points):
1866             case(ContactElementsZero):      case(ContactElementsZero):
1867             case(ReducedContactElementsZero):      case(ReducedContactElementsZero):
1868             case(ContactElementsOne):      case(ContactElementsOne):
1869             case(ReducedContactElementsOne):      case(ReducedContactElementsOne):
1870                 return true;      return true;
1871             default:      default:
1872                 stringstream temp;            stringstream temp;
1873                 temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_target;            temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_target;
1874                 throw FinleyAdapterException(temp.str());            throw FinleyAdapterException(temp.str());
1875          }     }
1876          break;     break;
1877       case(ReducedNodes):     case(ReducedNodes):
1878          switch(functionSpaceType_target) {      switch(functionSpaceType_target) {
1879             case(ReducedNodes):      case(ReducedNodes):
1880             case(ReducedDegreesOfFreedom):      case(ReducedDegreesOfFreedom):
1881             case(Elements):      case(Elements):
1882             case(ReducedElements):      case(ReducedElements):
1883             case(FaceElements):      case(FaceElements):
1884             case(ReducedFaceElements):      case(ReducedFaceElements):
1885             case(Points):      case(Points):
1886             case(ContactElementsZero):      case(ContactElementsZero):
1887             case(ReducedContactElementsZero):      case(ReducedContactElementsZero):
1888             case(ContactElementsOne):      case(ContactElementsOne):
1889             case(ReducedContactElementsOne):      case(ReducedContactElementsOne):
1890                 return true;      return true;
1891            case(Nodes):      case(Nodes):
1892            case(DegreesOfFreedom):      case(DegreesOfFreedom):
1893               return false;      return false;
1894             default:      default:
1895                 stringstream temp;          stringstream temp;
1896                 temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_target;          temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_target;
1897                 throw FinleyAdapterException(temp.str());          throw FinleyAdapterException(temp.str());
1898          }     }
1899          break;     break;
1900       case(Elements):     case(Elements):
1901          if (functionSpaceType_target==Elements) {      if (functionSpaceType_target==Elements) {
1902             return true;        return true;
1903          } else {      } else if (functionSpaceType_target==ReducedElements) {
1904             return false;        return true;
         }  
      case(ReducedElements):  
         if (functionSpaceType_target==ReducedElements) {  
            return true;  
         } else {  
            return false;  
         }  
      case(FaceElements):  
         if (functionSpaceType_target==FaceElements) {  
            return true;  
1905          } else {          } else {
1906             return false;            return false;
         }  
      case(ReducedFaceElements):  
         if (functionSpaceType_target==ReducedFaceElements) {  
            return true;  
         } else {  
            return false;  
         }  
      case(Points):  
         if (functionSpaceType_target==Points) {  
            return true;  
         } else {  
            return false;  
         }  
      case(ContactElementsZero):  
      case(ContactElementsOne):  
         if (functionSpaceType_target==ContactElementsZero || functionSpaceType_target==ContactElementsOne) {  
            return true;  
         } else {  
            return false;  
         }  
      case(ReducedContactElementsZero):  
      case(ReducedContactElementsOne):  
         if (functionSpaceType_target==ReducedContactElementsZero || functionSpaceType_target==ReducedContactElementsOne) {  
            return true;  
         } else {  
            return false;  
         }  
      case(DegreesOfFreedom):  
         switch(functionSpaceType_target) {  
            case(ReducedDegreesOfFreedom):  
            case(DegreesOfFreedom):  
            case(Nodes):  
            case(ReducedNodes):  
            case(Elements):  
            case(ReducedElements):  
            case(Points):  
            case(FaceElements):  
            case(ReducedFaceElements):  
            case(ContactElementsZero):  
            case(ReducedContactElementsZero):  
            case(ContactElementsOne):  
            case(ReducedContactElementsOne):  
               return true;  
            default:  
              stringstream temp;  
              temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_target;  
              throw FinleyAdapterException(temp.str());  
1907          }          }
1908          break;     case(ReducedElements):
1909       case(ReducedDegreesOfFreedom):      if (functionSpaceType_target==ReducedElements) {
1910         switch(functionSpaceType_target) {        return true;
1911            case(ReducedDegreesOfFreedom):      } else {
1912            case(ReducedNodes):            return false;
1913            case(Elements):      }
1914            case(ReducedElements):     case(FaceElements):
1915            case(FaceElements):      if (functionSpaceType_target==FaceElements) {
1916            case(ReducedFaceElements):              return true;
1917            case(Points):      } else if (functionSpaceType_target==ReducedFaceElements) {
1918            case(ContactElementsZero):              return true;
1919            case(ReducedContactElementsZero):      } else {
1920            case(ContactElementsOne):              return false;
1921            case(ReducedContactElementsOne):      }
1922                return true;     case(ReducedFaceElements):
1923            case(Nodes):      if (functionSpaceType_target==ReducedFaceElements) {
1924            case(DegreesOfFreedom):              return true;
1925               return false;      } else {
1926            default:          return false;
1927               stringstream temp;      }
1928               temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_target;     case(Points):
1929               throw FinleyAdapterException(temp.str());      if (functionSpaceType_target==Points) {
1930         }              return true;
1931         break;      } else {
1932       default:              return false;
1933          stringstream temp;      }
1934          temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_source;     case(ContactElementsZero):
1935          throw FinleyAdapterException(temp.str());     case(ContactElementsOne):
1936          break;      if (functionSpaceType_target==ContactElementsZero || functionSpaceType_target==ContactElementsOne) {
1937    }              return true;
1938    checkFinleyError();      } else if (functionSpaceType_target==ReducedContactElementsZero || functionSpaceType_target==ReducedContactElementsOne) {
1939    return false;              return true;
1940        } else {
1941                return false;
1942        }
1943       case(ReducedContactElementsZero):
1944       case(ReducedContactElementsOne):
1945        if (functionSpaceType_target==ReducedContactElementsZero || functionSpaceType_target==ReducedContactElementsOne) {
1946                return true;
1947        } else {
1948                return false;
1949        }
1950       case(DegreesOfFreedom):
1951        switch(functionSpaceType_target) {
1952        case(ReducedDegreesOfFreedom):
1953        case(DegreesOfFreedom):
1954        case(Nodes):
1955        case(ReducedNodes):
1956        case(Elements):
1957        case(ReducedElements):
1958        case(Points):
1959        case(FaceElements):
1960        case(ReducedFaceElements):
1961        case(ContactElementsZero):
1962        case(ReducedContactElementsZero):
1963        case(ContactElementsOne):
1964        case(ReducedContactElementsOne):
1965        return true;
1966        default:
1967            stringstream temp;
1968            temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_target;
1969            throw FinleyAdapterException(temp.str());
1970        }
1971        break;
1972       case(ReducedDegreesOfFreedom):
1973       switch(functionSpaceType_target) {
1974        case(ReducedDegreesOfFreedom):
1975        case(ReducedNodes):
1976        case(Elements):
1977        case(ReducedElements):
1978        case(FaceElements):
1979        case(ReducedFaceElements):
1980        case(Points):
1981        case(ContactElementsZero):
1982        case(ReducedContactElementsZero):
1983        case(ContactElementsOne):
1984        case(ReducedContactElementsOne):
1985        return true;
1986        case(Nodes):
1987        case(DegreesOfFreedom):
1988        return false;
1989        default:
1990            stringstream temp;
1991            temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_target;
1992            throw FinleyAdapterException(temp.str());
1993        }
1994        break;
1995       default:
1996          stringstream temp;
1997          temp << "Error - Interpolation On Domain: Finley does not know anything about function space type " << functionSpaceType_source;
1998          throw FinleyAdapterException(temp.str());
1999          break;
2000       }
2001       checkFinleyError();
2002       return false;
2003  }  }
2004    
2005  bool MeshAdapter::probeInterpolationACross(int functionSpaceType_source,const AbstractDomain& targetDomain, int functionSpaceType_target) const  bool MeshAdapter::probeInterpolationACross(int functionSpaceType_source,const AbstractDomain& targetDomain, int functionSpaceType_target) const
2006  {  {
2007      return false;     return false;
2008  }  }
2009    
2010  bool MeshAdapter::operator==(const AbstractDomain& other) const  bool MeshAdapter::operator==(const AbstractDomain& other) const
2011  {  {
2012    const MeshAdapter* temp=dynamic_cast<const MeshAdapter*>(&other);     const MeshAdapter* temp=dynamic_cast<const MeshAdapter*>(&other);
2013    if (temp!=0) {     if (temp!=0) {
2014      return (m_finleyMesh==temp->m_finleyMesh);        return (m_finleyMesh==temp->m_finleyMesh);
2015    } else {     } else {
2016      return false;        return false;
2017    }     }
2018  }  }
2019    
2020  bool MeshAdapter::operator!=(const AbstractDomain& other) const  bool MeshAdapter::operator!=(const AbstractDomain& other) const
2021  {  {
2022    return !(operator==(other));     return !(operator==(other));
2023  }  }
2024    
2025  int MeshAdapter::getSystemMatrixTypeId(const int solver, const int package, const bool symmetry) const  int MeshAdapter::getSystemMatrixTypeId(const int solver, const int preconditioner, const int package, const bool symmetry) const
2026    {
2027       Finley_Mesh* mesh=m_finleyMesh.get();
2028       int out=Paso_SystemMatrix_getSystemMatrixTypeId(SystemMatrixAdapter::mapOptionToPaso(solver),SystemMatrixAdapter::mapOptionToPaso(preconditioner), SystemMatrixAdapter::mapOptionToPaso(package),symmetry?1:0, mesh->MPIInfo);
2029       checkPasoError();
2030       return out;
2031    }
2032    int MeshAdapter::getTransportTypeId(const int solver, const int preconditioner, const int package, const bool symmetry) const
2033  {  {
2034     int out=Paso_SystemMatrix_getSystemMatrixTypeId(SystemMatrixAdapter::mapOptionToPaso(solver),SystemMatrixAdapter::mapOptionToPaso(package),symmetry?1:0);     Finley_Mesh* mesh=m_finleyMesh.get();
2035       int out=Paso_TransportProblem_getTypeId(SystemMatrixAdapter::mapOptionToPaso(solver),SystemMatrixAdapter::mapOptionToPaso(preconditioner), SystemMatrixAdapter::mapOptionToPaso(package),symmetry?1:0, mesh->MPIInfo);
2036     checkPasoError();     checkPasoError();
2037     return out;     return out;
2038  }  }
2039    
2040  escript::Data MeshAdapter::getX() const  escript::Data MeshAdapter::getX() const
2041  {  {
2042    return continuousFunction(asAbstractContinuousDomain()).getX();     return continuousFunction(*this).getX();
2043  }  }
2044    
2045  escript::Data MeshAdapter::getNormal() const  escript::Data MeshAdapter::getNormal() const
2046  {  {
2047    return functionOnBoundary(asAbstractContinuousDomain()).getNormal();     return functionOnBoundary(*this).getNormal();
2048  }  }
2049    
2050  escript::Data MeshAdapter::getSize() const  escript::Data MeshAdapter::getSize() const
2051  {  {
2052    return function(asAbstractContinuousDomain()).getSize();     return escript::function(*this).getSize();
2053  }  }
2054    
2055  int* MeshAdapter::borrowSampleReferenceIDs(int functionSpaceType) const  const int* MeshAdapter::borrowSampleReferenceIDs(int functionSpaceType) const
2056  {  {
2057    int *out=0,i;     int *out = NULL;
2058    Finley_Mesh* mesh=m_finleyMesh.get();     Finley_Mesh* mesh=m_finleyMesh.get();
2059    switch (functionSpaceType) {     switch (functionSpaceType) {
2060      case(Nodes):     case(Nodes):
2061        if (mesh->Nodes!=NULL) {     out=mesh->Nodes->Id;
2062          out=mesh->Nodes->Id;     break;
2063          break;     case(ReducedNodes):
2064        }     out=mesh->Nodes->reducedNodesId;
2065      case(ReducedNodes):     break;
2066        throw FinleyAdapterException("Error -  ReducedNodes not supported yet.");     case(Elements):
2067        break;     out=mesh->Elements->Id;
2068      case(Elements):     break;
2069        out=mesh->FaceElements->Id;     case(ReducedElements):
2070        break;     out=mesh->Elements->Id;
2071      case(ReducedElements):     break;
2072        out=mesh->Elements->Id;     case(FaceElements):
2073        break;     out=mesh->FaceElements->Id;
2074      case(FaceElements):     break;
2075        out=mesh->FaceElements->Id;     case(ReducedFaceElements):
2076        break;     out=mesh->FaceElements->Id;
2077      case(ReducedFaceElements):     break;
2078        out=mesh->FaceElements->Id;     case(Points):
2079        break;     out=mesh->Points->Id;
2080      case(Points):     break;
2081        out=mesh->Points->Id;     case(ContactElementsZero):
2082        break;     out=mesh->ContactElements->Id;
2083      case(ContactElementsZero):     break;
2084        out=mesh->ContactElements->Id;     case(ReducedContactElementsZero):
2085        break;     out=mesh->ContactElements->Id;
2086      case(ReducedContactElementsZero):     break;
2087        out=mesh->ContactElements->Id;     case(ContactElementsOne):
2088        break;     out=mesh->ContactElements->Id;
2089      case(ContactElementsOne):     break;
2090        out=mesh->ContactElements->Id;     case(ReducedContactElementsOne):
2091        break;     out=mesh->ContactElements->Id;
2092      case(ReducedContactElementsOne):     break;
2093        out=mesh->ContactElements->Id;     case(DegreesOfFreedom):
2094        break;     out=mesh->Nodes->degreesOfFreedomId;
2095      case(DegreesOfFreedom):     break;
2096        out=mesh->Nodes->degreeOfFreedomId;     case(ReducedDegreesOfFreedom):
2097        break;     out=mesh->Nodes->reducedDegreesOfFreedomId;
2098      case(ReducedDegreesOfFreedom):     break;
2099        out=mesh->Nodes->reducedDegreeOfFreedomId;     default:
       break;  
     default:  
2100        stringstream temp;        stringstream temp;
2101        temp << "Error - Invalid function space type: " << functionSpaceType << " for domain: " << getDescription();        temp << "Error - Invalid function space type: " << functionSpaceType << " for domain: " << getDescription();
2102        throw FinleyAdapterException(temp.str());        throw FinleyAdapterException(temp.str());
2103        break;        break;
2104    }     }
2105    return out;     return out;
2106  }  }
2107  int MeshAdapter::getTagFromSampleNo(int functionSpaceType, int sampleNo) const  int MeshAdapter::getTagFromSampleNo(int functionSpaceType, int sampleNo) const
2108  {  {
2109    int out=0;     int out=0;
2110    Finley_Mesh* mesh=m_finleyMesh.get();     Finley_Mesh* mesh=m_finleyMesh.get();
2111    switch (functionSpaceType) {     switch (functionSpaceType) {
2112    case(Nodes):     case(Nodes):
2113      out=mesh->Nodes->Tag[sampleNo];     out=mesh->Nodes->Tag[sampleNo];
2114      break;     break;
2115    case(ReducedNodes):     case(ReducedNodes):
2116      throw FinleyAdapterException(" Error - ReducedNodes does not support tags.");     throw FinleyAdapterException(" Error - ReducedNodes does not support tags.");
2117      break;     break;
2118    case(Elements):     case(Elements):
2119      out=mesh->Elements->Tag[sampleNo];     out=mesh->Elements->Tag[sampleNo];
2120      break;     break;
2121    case(ReducedElements):     case(ReducedElements):
2122      out=mesh->Elements->Tag[sampleNo];     out=mesh->Elements->Tag[sampleNo];
2123      break;     break;
2124    case(FaceElements):     case(FaceElements):
2125      out=mesh->FaceElements->Tag[sampleNo];     out=mesh->FaceElements->Tag[sampleNo];
2126      break;     break;
2127    case(ReducedFaceElements):     case(ReducedFaceElements):
2128      out=mesh->FaceElements->Tag[sampleNo];     out=mesh->FaceElements->Tag[sampleNo];
2129      break;     break;
2130    case(Points):     case(Points):
2131      out=mesh->Points->Tag[sampleNo];     out=mesh->Points->Tag[sampleNo];
2132      break;     break;
2133    case(ContactElementsZero):     case(ContactElementsZero):
2134      out=mesh->ContactElements->Tag[sampleNo];     out=mesh->ContactElements->Tag[sampleNo];
2135      break;     break;
2136    case(ReducedContactElementsZero):     case(ReducedContactElementsZero):
2137      out=mesh->ContactElements->Tag[sampleNo];     out=mesh->ContactElements->Tag[sampleNo];
2138      break;     break;
2139    case(ContactElementsOne):     case(ContactElementsOne):
2140      out=mesh->ContactElements->Tag[sampleNo];     out=mesh->ContactElements->Tag[sampleNo];
2141      break;     break;
2142    case(ReducedContactElementsOne):     case(ReducedContactElementsOne):
2143      out=mesh->ContactElements->Tag[sampleNo];     out=mesh->ContactElements->Tag[sampleNo];
2144      break;     break;
2145    case(DegreesOfFreedom):     case(DegreesOfFreedom):
2146      throw FinleyAdapterException(" Error - DegreesOfFreedom does not support tags.");     throw FinleyAdapterException(" Error - DegreesOfFreedom does not support tags.");
2147      break;     break;
2148    case(ReducedDegreesOfFreedom):     case(ReducedDegreesOfFreedom):
2149      throw FinleyAdapterException(" Error - ReducedDegreesOfFreedom does not support tags.");     throw FinleyAdapterException(" Error - ReducedDegreesOfFreedom does not support tags.");
2150      break;     break;
2151    default:     default:
2152      stringstream temp;        stringstream temp;
2153      temp << "Error - Invalid function space type: " << functionSpaceType << " for domain: " << getDescription();        temp << "Error - Invalid function space type: " << functionSpaceType << " for domain: " << getDescription();
2154      throw FinleyAdapterException(temp.str());        throw FinleyAdapterException(temp.str());
2155      break;        break;
2156    }     }
2157    return out;     return out;
2158  }  }
2159    
2160    
2161  void MeshAdapter::setTags(const int functionSpaceType, const int newTag, const escript::Data& mask) const  void MeshAdapter::setTags(const int functionSpaceType, const int newTag, const escript::Data& mask) const
2162  {  {
2163       Finley_Mesh* mesh=m_finleyMesh.get();
2164       escriptDataC tmp=mask.getDataC();
2165       switch(functionSpaceType) {
2166       case(Nodes):
2167       Finley_NodeFile_setTags(mesh->Nodes,newTag,&tmp);
2168       break;
2169       case(ReducedNodes):
2170       throw FinleyAdapterException("Error - ReducedNodes does not support tags");
2171       break;
2172       case(DegreesOfFreedom):
2173       throw FinleyAdapterException("Error - DegreesOfFreedom does not support tags");
2174       break;
2175       case(ReducedDegreesOfFreedom):
2176       throw FinleyAdapterException("Error - ReducedDegreesOfFreedom does not support tags");
2177       break;
2178       case(Elements):
2179       Finley_ElementFile_setTags(mesh->Elements,newTag,&tmp);
2180       break;
2181       case(ReducedElements):
2182       Finley_ElementFile_setTags(mesh->Elements,newTag,&tmp);
2183       break;
2184       case(FaceElements):
2185       Finley_ElementFile_setTags(mesh->FaceElements,newTag,&tmp);
2186       break;
2187       case(ReducedFaceElements):
2188       Finley_ElementFile_setTags(mesh->FaceElements,newTag,&tmp);
2189       break;
2190       case(Points):
2191       Finley_ElementFile_setTags(mesh->Points,newTag,&tmp);
2192       break;
2193       case(ContactElementsZero):
2194       Finley_ElementFile_setTags(mesh->ContactElements,newTag,&tmp);
2195       break;
2196       case(ReducedContactElementsZero):
2197       Finley_ElementFile_setTags(mesh->ContactElements,newTag,&tmp);
2198       break;
2199       case(ContactElementsOne):
2200       Finley_ElementFile_setTags(mesh->ContactElements,newTag,&tmp);
2201       break;
2202       case(ReducedContactElementsOne):
2203       Finley_ElementFile_setTags(mesh->ContactElements,newTag,&tmp);
2204       break;
2205       default:
2206          stringstream temp;
2207          temp << "Error - Finley does not know anything about function space type " << functionSpaceType;
2208          throw FinleyAdapterException(temp.str());
2209       }
2210       checkFinleyError();
2211       return;
2212    }
2213    
2214    void MeshAdapter::setTagMap(const string& name,  int tag)
2215    {
2216       Finley_Mesh* mesh=m_finleyMesh.get();
2217       Finley_Mesh_addTagMap(mesh, name.c_str(),tag);
2218       checkPasoError();
2219       // throwStandardException("MeshAdapter::set TagMap is not implemented.");
2220    }
2221    
2222    int MeshAdapter::getTag(const string& name) const
2223    {
2224       Finley_Mesh* mesh=m_finleyMesh.get();
2225       int tag=0;
2226       tag=Finley_Mesh_getTag(mesh, name.c_str());
2227       checkPasoError();
2228       // throwStandardException("MeshAdapter::getTag is not implemented.");
2229       return tag;
2230    }
2231    
2232    bool MeshAdapter::isValidTagName(const string& name) const
2233    {
2234       Finley_Mesh* mesh=m_finleyMesh.get();
2235       return Finley_Mesh_isValidTagName(mesh,name.c_str());
2236    }
2237    
2238    string MeshAdapter::showTagNames() const
2239    {
2240       stringstream temp;
2241       Finley_Mesh* mesh=m_finleyMesh.get();
2242       Finley_TagMap* tag_map=mesh->TagMap;
2243       while (tag_map) {
2244          temp << tag_map->name;
2245          tag_map=tag_map->next;
2246          if (tag_map) temp << ", ";
2247       }
2248       return temp.str();
2249    }
2250    
2251    int MeshAdapter::getNumberOfTagsInUse(int functionSpaceCode) const
2252    {
2253    Finley_Mesh* mesh=m_finleyMesh.get();    Finley_Mesh* mesh=m_finleyMesh.get();
2254    escriptDataC tmp=mask.getDataC();    dim_t numTags=0;
2255    switch(functionSpaceType) {    switch(functionSpaceCode) {
2256         case(Nodes):     case(Nodes):
2257            Finley_NodeFile_setTags(mesh->Nodes,newTag,&tmp);            numTags=mesh->Nodes->numTagsInUse;
2258            break;            break;
2259         case(ReducedNodes):     case(ReducedNodes):
2260            throw FinleyAdapterException("Error - ReducedNodes does not support tags");            throw FinleyAdapterException("Error - ReducedNodes does not support tags");
2261            break;            break;
2262         case(DegreesOfFreedom):     case(DegreesOfFreedom):
2263            throw FinleyAdapterException("Error - DegreesOfFreedom does not support tags");            throw FinleyAdapterException("Error - DegreesOfFreedom does not support tags");
2264            break;            break;
2265         case(ReducedDegreesOfFreedom):     case(ReducedDegreesOfFreedom):
2266            throw FinleyAdapterException("Error - ReducedDegreesOfFreedom does not support tags");            throw FinleyAdapterException("Error - ReducedDegreesOfFreedom does not support tags");
2267            break;            break;
2268         case(Elements):     case(Elements):
2269            Finley_ElementFile_setTags(mesh->Elements,newTag,&tmp);     case(ReducedElements):
2270            break;            numTags=mesh->Elements->numTagsInUse;
2271         case(ReducedElements):            break;
2272            Finley_ElementFile_setTags(mesh->Elements,newTag,&tmp);     case(FaceElements):
2273            break;     case(ReducedFaceElements):
2274         case(FaceElements):            numTags=mesh->FaceElements->numTagsInUse;
2275            Finley_ElementFile_setTags(mesh->FaceElements,newTag,&tmp);            break;
2276            break;     case(Points):
2277         case(ReducedFaceElements):            numTags=mesh->Points->numTagsInUse;
2278            Finley_ElementFile_setTags(mesh->FaceElements,newTag,&tmp);            break;
2279       case(ContactElementsZero):
2280       case(ReducedContactElementsZero):
2281       case(ContactElementsOne):
2282       case(ReducedContactElementsOne):
2283              numTags=mesh->ContactElements->numTagsInUse;
2284            break;            break;
2285         case(Points):     default:
2286            Finley_ElementFile_setTags(mesh->Points,newTag,&tmp);        stringstream temp;
2287          temp << "Error - Finley does not know anything about function space type " << functionSpaceCode;
2288          throw FinleyAdapterException(temp.str());
2289      }
2290      return numTags;
2291    }
2292    
2293    const int* MeshAdapter::borrowListOfTagsInUse(int functionSpaceCode) const
2294    {
2295      Finley_Mesh* mesh=m_finleyMesh.get();
2296      index_t* tags=NULL;
2297      switch(functionSpaceCode) {
2298       case(Nodes):
2299              tags=mesh->Nodes->tagsInUse;
2300            break;            break;
2301         case(ContactElementsZero):     case(ReducedNodes):
2302            Finley_ElementFile_setTags(mesh->ContactElements,newTag,&tmp);            throw FinleyAdapterException("Error - ReducedNodes does not support tags");
2303            break;            break;
2304         case(ReducedContactElementsZero):     case(DegreesOfFreedom):
2305            Finley_ElementFile_setTags(mesh->ContactElements,newTag,&tmp);            throw FinleyAdapterException("Error - DegreesOfFreedom does not support tags");
2306            break;            break;
2307         case(ContactElementsOne):     case(ReducedDegreesOfFreedom):
2308            Finley_ElementFile_setTags(mesh->ContactElements,newTag,&tmp);            throw FinleyAdapterException("Error - ReducedDegreesOfFreedom does not support tags");
2309            break;            break;
2310         case(ReducedContactElementsOne):     case(Elements):
2311            Finley_ElementFile_setTags(mesh->ContactElements,newTag,&tmp);     case(ReducedElements):
2312              tags=mesh->Elements->tagsInUse;
2313              break;
2314       case(FaceElements):
2315       case(ReducedFaceElements):
2316              tags=mesh->FaceElements->tagsInUse;
2317              break;
2318       case(Points):
2319              tags=mesh->Points->tagsInUse;
2320              break;
2321       case(ContactElementsZero):
2322       case(ReducedContactElementsZero):
2323       case(ContactElementsOne):
2324       case(ReducedContactElementsOne):
2325              tags=mesh->ContactElements->tagsInUse;
2326            break;            break;
2327         default:     default:
2328            stringstream temp;        stringstream temp;
2329            temp << "Error - Finley does not know anything about function space type " << functionSpaceType;        temp << "Error - Finley does not know anything about function space type " << functionSpaceCode;
2330            throw FinleyAdapterException(temp.str());        throw FinleyAdapterException(temp.str());
2331    }    }
2332    checkFinleyError();    return tags;
   return;  
2333  }  }
2334    
2335  void MeshAdapter::setTagMap(const std::string& name,  int tag)  
2336    bool MeshAdapter::canTag(int functionSpaceCode) const
2337  {  {
2338    Finley_Mesh* mesh=m_finleyMesh.get();    switch(functionSpaceCode) {
2339    Finley_Mesh_addTagMap(mesh, name.c_str(),tag);     case(Nodes):
2340    checkPasoError();     case(Elements):
2341    // throwStandardException("MeshAdapter::set TagMap is not implemented.");     case(ReducedElements):
2342       case(FaceElements):
2343       case(ReducedFaceElements):
2344       case(Points):
2345       case(ContactElementsZero):
2346       case(ReducedContactElementsZero):
2347       case(ContactElementsOne):
2348       case(ReducedContactElementsOne):
2349              return true;
2350       case(ReducedNodes):
2351       case(DegreesOfFreedom):
2352       case(ReducedDegreesOfFreedom):
2353          return false;
2354       default:
2355        return false;
2356      }
2357  }  }
2358    
2359  int MeshAdapter::getTag(const std::string& name) const  AbstractDomain::StatusType MeshAdapter::getStatus() const
2360  {  {
2361    Finley_Mesh* mesh=m_finleyMesh.get();    Finley_Mesh* mesh=m_finleyMesh.get();
2362    int tag=0;    return Finley_Mesh_getStatus(mesh);
   tag=Finley_Mesh_getTag(mesh, name.c_str());  
   checkPasoError();  
   // throwStandardException("MeshAdapter::getTag is not implemented.");  
   return tag;  
2363  }  }
2364    
2365  bool MeshAdapter::isValidTagName(const std::string& name) const  int MeshAdapter::getApproximationOrder(const int functionSpaceCode) const
2366  {  {
2367      
2368    Finley_Mesh* mesh=m_finleyMesh.get();    Finley_Mesh* mesh=m_finleyMesh.get();
2369    return Finley_Mesh_isValidTagName(mesh,name.c_str());    int order =-1;
2370      switch(functionSpaceCode) {
2371       case(Nodes):
2372       case(DegreesOfFreedom):
2373              order=mesh->approximationOrder;
2374              break;
2375       case(ReducedNodes):
2376       case(ReducedDegreesOfFreedom):
2377              order=mesh->reducedApproximationOrder;
2378              break;
2379       case(Elements):
2380       case(FaceElements):
2381       case(Points):
2382       case(ContactElementsZero):
2383       case(ContactElementsOne):
2384              order=mesh->integrationOrder;
2385              break;
2386       case(ReducedElements):
2387       case(ReducedFaceElements):
2388       case(ReducedContactElementsZero):
2389       case(ReducedContactElementsOne):
2390              order=mesh->reducedIntegrationOrder;
2391              break;
2392       default:
2393          stringstream temp;
2394          temp << "Error - Finley does not know anything about function space type " << functionSpaceCode;
2395          throw FinleyAdapterException(temp.str());
2396      }
2397      return order;
2398  }  }
2399    
2400  std::string MeshAdapter::showTagNames() const  bool MeshAdapter::supportsContactElements() const
2401  {  {
2402    stringstream temp;    return true;
2403    Finley_Mesh* mesh=m_finleyMesh.get();  }
2404    Finley_TagMap* tag_map=mesh->TagMap;  
2405    while (tag_map) {  ReferenceElementSetWrapper::ReferenceElementSetWrapper(Finley_ElementTypeId id, index_t order, index_t reducedOrder)
2406       temp << tag_map->name;  {
2407       tag_map=tag_map->next;    m_refSet = Finley_ReferenceElementSet_alloc(id, order, reducedOrder);
2408       if (tag_map) temp << ", ";  }
2409    }  
2410    return temp.str();  ReferenceElementSetWrapper::~ReferenceElementSetWrapper()
2411    {
2412      Finley_ReferenceElementSet_dealloc(m_refSet);
2413  }  }
2414    
2415  }  // end of namespace  }  // end of namespace

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