finley/src/Mesh_readGmsh.c

/*
 ************************************************************
 *          Copyright 2006, 2007 by ACcESS MNRF             *
 *                                                          *
 *              http://www.access.edu.au                    *
 *       Primary Business: Queensland, Australia            *
 *  Licensed under the Open Software License version 3.0    *
 *     http://www.opensource.org/licenses/osl-3.0.php       *
 *                                                          *
 ************************************************************
*/

/**************************************************************/

/*   Finley: read mesh */

/**************************************************************/

/*   Author: gross@access.edu.au */
/*   Version: $Id: Mesh_read.c 730 2006-05-15 04:03:49Z bcumming $ */

/**************************************************************/

#include "Mesh.h"
#include <stdio.h>


/**************************************************************/

/*  reads a mesh from a Finley file of name fname */

#define MAX_numNodes_gmsh 10

Finley_Mesh* Finley_Mesh_readGmsh(char* fname ,index_t numDim, index_t order, index_t reduced_order, bool_t optimize_labeling) {

  double version = 1.0;
  int format = 0, size = sizeof(double);
  dim_t numNodes, totalNumElements=0, numTags=0, numNodesPerElement, numNodesPerElement2, element_dim;
  index_t e, i0, j, gmsh_type, partition_id, itmp, final_element_type,  elementary_id;
  Finley_Mesh *mesh_p=NULL;
  char name[LenString_MAX],element_type[LenString_MAX],frm[20], line[LenString_MAX+1];
  char error_msg[LenErrorMsg_MAX];
  double rtmp0, rtmp1;
  double time0=Finley_timer();

  Finley_resetError();
 #if PASO_MPI
    sprintf(error_msg,"reading GMSH with MPI is not supported yet.");
    Finley_setError(IO_ERROR,error_msg);
    return NULL;

#else
  /* allocate mesh */
  mesh_p = Finley_Mesh_alloc(fname,numDim,order);
  if (! Finley_noError()) return NULL;

  /* get file handle */
  FILE * fileHandle_p = fopen(fname, "r");
  if (fileHandle_p==NULL) {
    sprintf(error_msg,"Opening Gmsh file %s for reading failed.",fname);
    Finley_setError(IO_ERROR,error_msg);
    return NULL;
  }

  /* start reading */
  while(1) {
    if (! Finley_noError()) break;
    /* find line staring with $ */
    do {
      if( ! fgets(line, sizeof(line), fileHandle_p) ) break;
      if(feof(fileHandle_p)) break;
    } while(line[0] != '$');

    if (feof(fileHandle_p)) break;


    /* format */
    if (!strncmp(&line[1], "MeshFormat", 10)) {
      fscanf(fileHandle_p, "%lf %d %d\n", &version, &format, &size);
    }
    /* nodes are read */
    if ( !strncmp(&line[1], "NOD", 3)   ||
         !strncmp(&line[1], "NOE", 3)   ||
         !strncmp(&line[1], "Nodes", 5)    ) {
     
      fscanf(fileHandle_p, "%d", &numNodes);
      if (! Finley_noError()) break;
      Finley_NodeFile_allocTable(mesh_p->Nodes, numNodes);
      if (! Finley_noError()) break;
      for (i0 = 0; i0 < numNodes; i0++) {
         if (1 == numDim) {
           fscanf(fileHandle_p, "%d %le %le %le\n", &mesh_p->Nodes->Id[i0],
                  &mesh_p->Nodes->Coordinates[INDEX2(0,i0,numDim)], 
                      &rtmp0, 
                      &rtmp1);
         } else if (2 == numDim) {
           fscanf(fileHandle_p, "%d %le %le %le\n", &mesh_p->Nodes->Id[i0],
                  &mesh_p->Nodes->Coordinates[INDEX2(0,i0,numDim)],
                  &mesh_p->Nodes->Coordinates[INDEX2(1,i0,numDim)],
                      &rtmp0);
         } else if (3 == numDim) {
           fscanf(fileHandle_p, "%d %le %le %le\n", &mesh_p->Nodes->Id[i0],
                  &mesh_p->Nodes->Coordinates[INDEX2(0,i0,numDim)],
                  &mesh_p->Nodes->Coordinates[INDEX2(1,i0,numDim)],
                  &mesh_p->Nodes->Coordinates[INDEX2(2,i0,numDim)]);
   
       
         }
         mesh_p->Nodes->degreeOfFreedom[i0]=mesh_p->Nodes->Id[i0];
         mesh_p->Nodes->Tag[i0]=0;
      }
    }
    /* elements */
    else if(!strncmp(&line[1], "ELM", 3) ||
        !strncmp(&line[1], "Elements", 8)) {

      ElementTypeId final_element_type = NoType;
      ElementTypeId final_face_element_type = NoType;
      index_t numElements=0;
      index_t numFaceElements=0;
      fscanf(fileHandle_p, "%d", &totalNumElements);

      index_t* id=TMPMEMALLOC(totalNumElements,index_t);
      index_t* tag=TMPMEMALLOC(totalNumElements,index_t);
      ElementTypeId* element_type=TMPMEMALLOC(totalNumElements,ElementTypeId);
      index_t* vertices=TMPMEMALLOC(totalNumElements*MAX_numNodes_gmsh,index_t);
      if (! (Finley_checkPtr(id) || Finley_checkPtr(tag) || Finley_checkPtr(element_type) || Finley_checkPtr(vertices) ) ) {
         /* read all in */
         for(e = 0; e < totalNumElements; e++) {
           fscanf(fileHandle_p, "%d %d", &id[e], &gmsh_type);
           switch (gmsh_type) {
               case 1:  /* line order 1 */
                   element_type[e]=Line2;
                   element_dim=1;
                   numNodesPerElement=2;  
                   break;
               case 2:  /* traingle order 1 */
                   element_type[e]=Tri3;
                   numNodesPerElement= 3;
                   element_dim=2;
                   break;
               case 3:  /* quadrilateral order 1 */
                   element_type[e]=Rec4;
                   numNodesPerElement= 4;
                   element_dim=2;
                   break;
               case 4:  /* tetrahedron order 1 */
                   element_type[e]=Tet4;
                   numNodesPerElement= 4;
                   element_dim=3;
                   break;
               case 5:  /* hexahedron order 1 */
                   element_type[e]=Hex8;
                   numNodesPerElement= 8;
                   element_dim=3;
                   break;
               case 8:  /* line order 2 */
                   element_type[e]=Line3;
                   numNodesPerElement= 3;
                   element_dim=1;
                   break;
               case 9:  /* traingle order 2 */
                   element_type[e]=Tri6;
                   numNodesPerElement= 6;
                   element_dim=2;
                   break;
               case 10:  /* quadrilateral order 2 */
                   element_type[e]=Rec9;
                   numNodesPerElement= 9;
                   element_dim=2;
                   break;
               case 11:  /* tetrahedron order 2 */
                   element_type[e]=Tet10;
                   numNodesPerElement= 10;
                   element_dim=3;
                   break;
               case 15 :  /* point */
                   element_type[e]=Point1;
                   numNodesPerElement= 1;
                   element_dim=0;
                   break;
               default:
                  element_type[e]=NoType;
                  sprintf(error_msg,"Unexected gmsh element type %d in mesh file %s.",gmsh_type,fname);
                  Finley_setError(IO_ERROR,error_msg);
           }
           if (element_dim == numDim) {
              if (final_element_type == NoType) {
                 final_element_type = element_type[e];
              } else if (final_element_type != element_type[e]) {
                  sprintf(error_msg,"Finley can handle a single type of internal elements only.");
                  Finley_setError(IO_ERROR,error_msg);
                  break;
              }
              numElements++;
           } else if (element_dim == numDim-1) {
              if (final_face_element_type == NoType) {
                 final_face_element_type = element_type[e];
              } else if (final_face_element_type != element_type[e]) {
                  sprintf(error_msg,"Finley can handle a single type of face elements only.");
                  Finley_setError(IO_ERROR,error_msg);
                  break;
              }
              numFaceElements++;
           }
           
       if(version <= 1.0){
         fscanf(fileHandle_p, "%d %d %d", &tag[e], &elementary_id, &numNodesPerElement2);
         partition_id = 1;
             if (numNodesPerElement2 != numNodesPerElement) {
                  sprintf(error_msg,"Illegal number of nodes for element %d in mesh file %s.",id[e],fname);
                  Finley_setError(IO_ERROR,error_msg);
             }
       } else {
         fscanf(fileHandle_p, "%d", &numTags);
         elementary_id = tag[e] = partition_id = 1;
             numNodesPerElement2=-1;
         for(j = 0; j < numTags; j++){
           fscanf(fileHandle_p, "%d", &itmp);       
           if (j == 0) {
             tag[e] = itmp;
           } else if (j == 1) {
             elementary_id = itmp;
           } else if (j == 2) {
             partition_id = itmp;
               }
           // ignore any other tags 
         }
       }
           if (! Finley_noError()) break;
           for(j = 0; j < numNodesPerElement; j++) fscanf(fileHandle_p, "%d", &vertices[INDEX2(j,e,MAX_numNodes_gmsh)]);
         }
         /* all elements have been read, now we have to identify the elements for finley */
         if (Finley_noError()) {
            /* first we have to identify the elements to define Elementis and FaceElements */
           mesh_p->Elements=Finley_ElementFile_alloc(final_element_type,mesh_p->order);
           mesh_p->FaceElements=Finley_ElementFile_alloc(final_face_element_type,mesh_p->order);
           mesh_p->ContactElements=Finley_ElementFile_alloc(Point1_Contact,mesh_p->order);
           mesh_p->Points=Finley_ElementFile_alloc(Point1,mesh_p->order);
           if (Finley_noError()) {
               Finley_ElementFile_allocTable(mesh_p->Elements, numElements);
               Finley_ElementFile_allocTable(mesh_p->FaceElements, numFaceElements);
               Finley_ElementFile_allocTable(mesh_p->ContactElements, 0);
               Finley_ElementFile_allocTable(mesh_p->Points, 0);
               if (Finley_noError()) {
                   mesh_p->Elements->minColor=0;
                   mesh_p->Elements->maxColor=numElements-1;
                   mesh_p->FaceElements->minColor=0;
                   mesh_p->FaceElements->maxColor=numFaceElements-1;
                   mesh_p->ContactElements->minColor=0;
                   mesh_p->ContactElements->maxColor=0;
                   mesh_p->Points->minColor=0;
                   mesh_p->Points->maxColor=0;
                   numElements=0;
                   numFaceElements=0;
                   for(e = 0; e < totalNumElements; e++) {
                      if (element_type[e] == final_element_type) {
                         mesh_p->Elements->Id[numElements]=id[e];
                         mesh_p->Elements->Tag[numElements]=tag[e];
                         mesh_p->Elements->Color[numElements]=numElements;
                         for (j = 0; j<  mesh_p->Elements->ReferenceElement->Type->numNodes; ++j) 
                                  mesh_p->Elements->Nodes[INDEX2(j, numElements, mesh_p->Elements->ReferenceElement->Type->numNodes)]=
                                                                                                  vertices[INDEX2(j,e,MAX_numNodes_gmsh)];
                         numElements++;
                      } else if (element_type[e] == final_face_element_type) {
                         mesh_p->FaceElements->Id[numFaceElements]=id[e];
                         mesh_p->FaceElements->Tag[numFaceElements]=tag[e];
                         mesh_p->FaceElements->Color[numFaceElements]=numFaceElements;
                         for (j = 0; j<  mesh_p->FaceElements->ReferenceElement->Type->numNodes; ++j) 
                                  mesh_p->FaceElements->Nodes[INDEX2(j, numFaceElements, mesh_p->FaceElements->ReferenceElement->Type->numNodes)]=
                                                                                                  vertices[INDEX2(j,e,MAX_numNodes_gmsh)];
                         numFaceElements++;
                      }
                   }
              }
           }
         }
      }
      /* and clean up */
      TMPMEMFREE(id);
      TMPMEMFREE(tag);
      TMPMEMFREE(element_type);
      TMPMEMFREE(vertices);
   }
   /* serach for end of data block */
   do {
      if (!fgets(line, sizeof(line), fileHandle_p)) {
         sprintf(error_msg,"Unexected end of file in %s",fname);
         Finley_setError(IO_ERROR,error_msg);
      }
      if (feof(fileHandle_p)) {
         sprintf(error_msg,"%s:Unexected end of file in %s",fname);
         Finley_setError(IO_ERROR,error_msg);
      }
      if (! Finley_noError()) break;
    } while(line[0] != '$');
  }

  /* close file */
  fclose(fileHandle_p);
  /* clean up */
  if (! Finley_noError()) {
     Finley_Mesh_dealloc(mesh_p);
     return NULL;
  }
  /*   resolve id's : */
  Finley_Mesh_resolveNodeIds(mesh_p);
  /* rearrange elements: */
  Finley_Mesh_prepare(mesh_p);
  /* that's it */
  #ifdef Finley_TRACE
  printf("timing: reading mesh: %.4e sec\n",Finley_timer()-time0);
  #endif
  #endif
  return mesh_p;
}
/*
* $Log$
*
*/

1	/*
2	************************************************************
3	* Copyright 2006, 2007 by ACcESS MNRF *
4	* *
5	* http://www.access.edu.au *
6	* Primary Business: Queensland, Australia *
7	* Licensed under the Open Software License version 3.0 *
8	* http://www.opensource.org/licenses/osl-3.0.php *
9	* *
10	************************************************************
11	*/
12
13	/**************************************************************/
14
15	/* Finley: read mesh */
16
17	/**************************************************************/
18
19	/* Author: gross@access.edu.au */
20	/* Version: $Id: Mesh_read.c 730 2006-05-15 04:03:49Z bcumming $ */
21
22	/**************************************************************/
23
24	#include "Mesh.h"
25	#include <stdio.h>
26
27
28	/**************************************************************/
29
30	/* reads a mesh from a Finley file of name fname */
31
32	#define MAX_numNodes_gmsh 10
33
34	Finley_Mesh* Finley_Mesh_readGmsh(char* fname ,index_t numDim, index_t order, index_t reduced_order, bool_t optimize_labeling) {
35
36	double version = 1.0;
37	int format = 0, size = sizeof(double);
38	dim_t numNodes, totalNumElements=0, numTags=0, numNodesPerElement, numNodesPerElement2, element_dim;
39	index_t e, i0, j, gmsh_type, partition_id, itmp, final_element_type, elementary_id;
40	Finley_Mesh *mesh_p=NULL;
41	char name[LenString_MAX],element_type[LenString_MAX],frm[20], line[LenString_MAX+1];
42	char error_msg[LenErrorMsg_MAX];
43	double rtmp0, rtmp1;
44	double time0=Finley_timer();
45
46	Finley_resetError();
47	#if PASO_MPI
48	sprintf(error_msg,"reading GMSH with MPI is not supported yet.");
49	Finley_setError(IO_ERROR,error_msg);
50	return NULL;
51
52	#else
53	/* allocate mesh */
54	mesh_p = Finley_Mesh_alloc(fname,numDim,order);
55	if (! Finley_noError()) return NULL;
56
57	/* get file handle */
58	FILE * fileHandle_p = fopen(fname, "r");
59	if (fileHandle_p==NULL) {
60	sprintf(error_msg,"Opening Gmsh file %s for reading failed.",fname);
61	Finley_setError(IO_ERROR,error_msg);
62	return NULL;
63	}
64
65	/* start reading */
66	while(1) {
67	if (! Finley_noError()) break;
68	/* find line staring with $ */
69	do {
70	if( ! fgets(line, sizeof(line), fileHandle_p) ) break;
71	if(feof(fileHandle_p)) break;
72	} while(line[0] != '$');
73
74	if (feof(fileHandle_p)) break;
75
76
77	/* format */
78	if (!strncmp(&line[1], "MeshFormat", 10)) {
79	fscanf(fileHandle_p, "%lf %d %d\n", &version, &format, &size);
80	}
81	/* nodes are read */
82	if ( !strncmp(&line[1], "NOD", 3) \|\|
83	!strncmp(&line[1], "NOE", 3) \|\|
84	!strncmp(&line[1], "Nodes", 5) ) {
85
86	fscanf(fileHandle_p, "%d", &numNodes);
87	if (! Finley_noError()) break;
88	Finley_NodeFile_allocTable(mesh_p->Nodes, numNodes);
89	if (! Finley_noError()) break;
90	for (i0 = 0; i0 < numNodes; i0++) {
91	if (1 == numDim) {
92	fscanf(fileHandle_p, "%d %le %le %le\n", &mesh_p->Nodes->Id[i0],
93	&mesh_p->Nodes->Coordinates[INDEX2(0,i0,numDim)],
94	&rtmp0,
95	&rtmp1);
96	} else if (2 == numDim) {
97	fscanf(fileHandle_p, "%d %le %le %le\n", &mesh_p->Nodes->Id[i0],
98	&mesh_p->Nodes->Coordinates[INDEX2(0,i0,numDim)],
99	&mesh_p->Nodes->Coordinates[INDEX2(1,i0,numDim)],
100	&rtmp0);
101	} else if (3 == numDim) {
102	fscanf(fileHandle_p, "%d %le %le %le\n", &mesh_p->Nodes->Id[i0],
103	&mesh_p->Nodes->Coordinates[INDEX2(0,i0,numDim)],
104	&mesh_p->Nodes->Coordinates[INDEX2(1,i0,numDim)],
105	&mesh_p->Nodes->Coordinates[INDEX2(2,i0,numDim)]);
106
107
108	}
109	mesh_p->Nodes->degreeOfFreedom[i0]=mesh_p->Nodes->Id[i0];
110	mesh_p->Nodes->Tag[i0]=0;
111	}
112	}
113	/* elements */
114	else if(!strncmp(&line[1], "ELM", 3) \|\|
115	!strncmp(&line[1], "Elements", 8)) {
116
117	ElementTypeId final_element_type = NoType;
118	ElementTypeId final_face_element_type = NoType;
119	index_t numElements=0;
120	index_t numFaceElements=0;
121	fscanf(fileHandle_p, "%d", &totalNumElements);
122
123	index_t* id=TMPMEMALLOC(totalNumElements,index_t);
124	index_t* tag=TMPMEMALLOC(totalNumElements,index_t);
125	ElementTypeId* element_type=TMPMEMALLOC(totalNumElements,ElementTypeId);
126	index_t* vertices=TMPMEMALLOC(totalNumElements*MAX_numNodes_gmsh,index_t);
127	if (! (Finley_checkPtr(id) \|\| Finley_checkPtr(tag) \|\| Finley_checkPtr(element_type) \|\| Finley_checkPtr(vertices) ) ) {
128	/* read all in */
129	for(e = 0; e < totalNumElements; e++) {
130	fscanf(fileHandle_p, "%d %d", &id[e], &gmsh_type);
131	switch (gmsh_type) {
132	case 1: /* line order 1 */
133	element_type[e]=Line2;
134	element_dim=1;
135	numNodesPerElement=2;
136	break;
137	case 2: /* traingle order 1 */
138	element_type[e]=Tri3;
139	numNodesPerElement= 3;
140	element_dim=2;
141	break;
142	case 3: /* quadrilateral order 1 */
143	element_type[e]=Rec4;
144	numNodesPerElement= 4;
145	element_dim=2;
146	break;
147	case 4: /* tetrahedron order 1 */
148	element_type[e]=Tet4;
149	numNodesPerElement= 4;
150	element_dim=3;
151	break;
152	case 5: /* hexahedron order 1 */
153	element_type[e]=Hex8;
154	numNodesPerElement= 8;
155	element_dim=3;
156	break;
157	case 8: /* line order 2 */
158	element_type[e]=Line3;
159	numNodesPerElement= 3;
160	element_dim=1;
161	break;
162	case 9: /* traingle order 2 */
163	element_type[e]=Tri6;
164	numNodesPerElement= 6;
165	element_dim=2;
166	break;
167	case 10: /* quadrilateral order 2 */
168	element_type[e]=Rec9;
169	numNodesPerElement= 9;
170	element_dim=2;
171	break;
172	case 11: /* tetrahedron order 2 */
173	element_type[e]=Tet10;
174	numNodesPerElement= 10;
175	element_dim=3;
176	break;
177	case 15 : /* point */
178	element_type[e]=Point1;
179	numNodesPerElement= 1;
180	element_dim=0;
181	break;
182	default:
183	element_type[e]=NoType;
184	sprintf(error_msg,"Unexected gmsh element type %d in mesh file %s.",gmsh_type,fname);
185	Finley_setError(IO_ERROR,error_msg);
186	}
187	if (element_dim == numDim) {
188	if (final_element_type == NoType) {
189	final_element_type = element_type[e];
190	} else if (final_element_type != element_type[e]) {
191	sprintf(error_msg,"Finley can handle a single type of internal elements only.");
192	Finley_setError(IO_ERROR,error_msg);
193	break;
194	}
195	numElements++;
196	} else if (element_dim == numDim-1) {
197	if (final_face_element_type == NoType) {
198	final_face_element_type = element_type[e];
199	} else if (final_face_element_type != element_type[e]) {
200	sprintf(error_msg,"Finley can handle a single type of face elements only.");
201	Finley_setError(IO_ERROR,error_msg);
202	break;
203	}
204	numFaceElements++;
205	}
206
207	if(version <= 1.0){
208	fscanf(fileHandle_p, "%d %d %d", &tag[e], &elementary_id, &numNodesPerElement2);
209	partition_id = 1;
210	if (numNodesPerElement2 != numNodesPerElement) {
211	sprintf(error_msg,"Illegal number of nodes for element %d in mesh file %s.",id[e],fname);
212	Finley_setError(IO_ERROR,error_msg);
213	}
214	} else {
215	fscanf(fileHandle_p, "%d", &numTags);
216	elementary_id = tag[e] = partition_id = 1;
217	numNodesPerElement2=-1;
218	for(j = 0; j < numTags; j++){
219	fscanf(fileHandle_p, "%d", &itmp);
220	if (j == 0) {
221	tag[e] = itmp;
222	} else if (j == 1) {
223	elementary_id = itmp;
224	} else if (j == 2) {
225	partition_id = itmp;
226	}
227	// ignore any other tags
228	}
229	}
230	if (! Finley_noError()) break;
231	for(j = 0; j < numNodesPerElement; j++) fscanf(fileHandle_p, "%d", &vertices[INDEX2(j,e,MAX_numNodes_gmsh)]);
232	}
233	/* all elements have been read, now we have to identify the elements for finley */
234	if (Finley_noError()) {
235	/* first we have to identify the elements to define Elementis and FaceElements */
236	mesh_p->Elements=Finley_ElementFile_alloc(final_element_type,mesh_p->order);
237	mesh_p->FaceElements=Finley_ElementFile_alloc(final_face_element_type,mesh_p->order);
238	mesh_p->ContactElements=Finley_ElementFile_alloc(Point1_Contact,mesh_p->order);
239	mesh_p->Points=Finley_ElementFile_alloc(Point1,mesh_p->order);
240	if (Finley_noError()) {
241	Finley_ElementFile_allocTable(mesh_p->Elements, numElements);
242	Finley_ElementFile_allocTable(mesh_p->FaceElements, numFaceElements);
243	Finley_ElementFile_allocTable(mesh_p->ContactElements, 0);
244	Finley_ElementFile_allocTable(mesh_p->Points, 0);
245	if (Finley_noError()) {
246	mesh_p->Elements->minColor=0;
247	mesh_p->Elements->maxColor=numElements-1;
248	mesh_p->FaceElements->minColor=0;
249	mesh_p->FaceElements->maxColor=numFaceElements-1;
250	mesh_p->ContactElements->minColor=0;
251	mesh_p->ContactElements->maxColor=0;
252	mesh_p->Points->minColor=0;
253	mesh_p->Points->maxColor=0;
254	numElements=0;
255	numFaceElements=0;
256	for(e = 0; e < totalNumElements; e++) {
257	if (element_type[e] == final_element_type) {
258	mesh_p->Elements->Id[numElements]=id[e];
259	mesh_p->Elements->Tag[numElements]=tag[e];
260	mesh_p->Elements->Color[numElements]=numElements;
261	for (j = 0; j< mesh_p->Elements->ReferenceElement->Type->numNodes; ++j)
262	mesh_p->Elements->Nodes[INDEX2(j, numElements, mesh_p->Elements->ReferenceElement->Type->numNodes)]=
263	vertices[INDEX2(j,e,MAX_numNodes_gmsh)];
264	numElements++;
265	} else if (element_type[e] == final_face_element_type) {
266	mesh_p->FaceElements->Id[numFaceElements]=id[e];
267	mesh_p->FaceElements->Tag[numFaceElements]=tag[e];
268	mesh_p->FaceElements->Color[numFaceElements]=numFaceElements;
269	for (j = 0; j< mesh_p->FaceElements->ReferenceElement->Type->numNodes; ++j)
270	mesh_p->FaceElements->Nodes[INDEX2(j, numFaceElements, mesh_p->FaceElements->ReferenceElement->Type->numNodes)]=
271	vertices[INDEX2(j,e,MAX_numNodes_gmsh)];
272	numFaceElements++;
273	}
274	}
275	}
276	}
277	}
278	}
279	/* and clean up */
280	TMPMEMFREE(id);
281	TMPMEMFREE(tag);
282	TMPMEMFREE(element_type);
283	TMPMEMFREE(vertices);
284	}
285	/* serach for end of data block */
286	do {
287	if (!fgets(line, sizeof(line), fileHandle_p)) {
288	sprintf(error_msg,"Unexected end of file in %s",fname);
289	Finley_setError(IO_ERROR,error_msg);
290	}
291	if (feof(fileHandle_p)) {
292	sprintf(error_msg,"%s:Unexected end of file in %s",fname);
293	Finley_setError(IO_ERROR,error_msg);
294	}
295	if (! Finley_noError()) break;
296	} while(line[0] != '$');
297	}
298
299	/* close file */
300	fclose(fileHandle_p);
301	/* clean up */
302	if (! Finley_noError()) {
303	Finley_Mesh_dealloc(mesh_p);
304	return NULL;
305	}
306	/* resolve id's : */
307	Finley_Mesh_resolveNodeIds(mesh_p);
308	/* rearrange elements: */
309	Finley_Mesh_prepare(mesh_p);
310	/* that's it */
311	#ifdef Finley_TRACE
312	printf("timing: reading mesh: %.4e sec\n",Finley_timer()-time0);
313	#endif
314	#endif
315	return mesh_p;
316	}
317	/*
318	* $Log$
319	*
320	*/
321