55 using namespace EpetraExt;
60 const char *mapDescription,
70 handle = fopen(filename,
"w");
71 if (!handle)
return(-1);
78 if (writeHeader==
true) {
82 if (mapName!=0) fprintf(handle,
"%% \n%% %s\n", mapName);
83 if (mapDescription!=0) fprintf(handle,
"%% %s\n%% \n", mapDescription);
88 if (writeHeader==
true) {
101 if (v2.Import(v1, lengthImporter,
Insert))
return(-1);
103 fprintf(handle,
"%s",
"%Format Version:\n");
106 fprintf(handle,
"%s",
"%NumProc: Number of processors:\n");
108 fprintf(handle,
"%s",
"%MaxElementSize: Maximum element size:\n");
110 fprintf(handle,
"%s",
"%MinElementSize: Minimum element size:\n");
112 fprintf(handle,
"%s",
"%IndexBase: Index base of map:\n");
114 fprintf(handle,
"%s",
"%NumGlobalElements: Total number of GIDs in map:\n");
116 fprintf(handle,
"%s",
"%NumMyElements: BlockMap lengths per processor:\n");
117 for (
int i=0; i< v2.
MyLength(); i++) fprintf(handle,
"%% %d\n", v2[i]);
125 if (fclose(handle))
return(-1);
129 template<
typename int_type>
137 int_type * myElements = 0;
139 int * elementSizeList = 0;
146 Epetra_Map allGidsMap((int_type) -1, numRows, (int_type) 0,comm);
149 for (
int i=0; i<numRows; i++) allGids[i] = (int_type) map.
GID64(i);
152 for (
int i=0; i<numRows; i++) allSizes[i] = map.
ElementSize(i);
155 int numChunks = numProc;
156 int stripSize = allGids.GlobalLength64()/numChunks;
157 int remainder = allGids.GlobalLength64()%numChunks;
159 int curStripSize = 0;
162 if (comm.
MyPID()==0) {
163 importGidList.Size(stripSize+1);
164 if (doSizes) importSizeList.
Size(stripSize+1);
166 for (
int i=0; i<numChunks; i++) {
167 if (comm.
MyPID()==0) {
168 curStripSize = stripSize;
169 if (i<remainder) curStripSize++;
170 for (
int j=0; j<curStripSize; j++) importGidList[j] = j + curStart;
171 curStart += curStripSize;
174 Epetra_Map importGidMap((int_type) -1, curStripSize, importGidList.Values(), 0, comm);
178 if (importGids.Import(allGids, gidImporter,
Insert))
return(-1);
180 if (doSizes)
if (importSizes.Import(allSizes, gidImporter,
Insert))
return(-1);
185 int_type * myElements = importGids.Values();
186 int * elementSizeList = 0;
187 if (doSizes) elementSizeList = importSizes.
Values();
189 writeBlockMap(handle, importGids.MyLength(), myElements, elementSizeList, doSizes);
195 #ifndef EPETRA_NO_32BIT_GLOBAL_INDICES
197 return TBlockMapToHandle<int>(handle, map);
201 #ifndef EPETRA_NO_64BIT_GLOBAL_INDICES
203 return TBlockMapToHandle<long long>(handle, map);
207 throw "EpetraExt::BlockMapToHandle: GlobalIndices type unknown";
210 int writeBlockMap(FILE * handle,
long long length,
const int * v1,
const int * v2,
bool doSizes) {
212 for (
long long i=0; i<length; i++) {
213 fprintf(handle,
"%d", v1[i]);
214 if (doSizes) fprintf(handle,
" %d", v2[i]);
215 fprintf(handle,
"%s",
"\n");
220 int writeBlockMap(FILE * handle,
long long length,
const long long * v1,
const int * v2,
bool doSizes) {
222 for (
long long i=0; i<length; i++) {
223 fprintf(handle,
"%lld", v1[i]);
224 if (doSizes) fprintf(handle,
" %d", v2[i]);
225 fprintf(handle,
"%s",
"\n");
int writeBlockMap(FILE *handle, long long length, const int *v1, const int *v2, bool doSizes)
bool GlobalIndicesLongLong() const
long long IndexBase64() const
int BlockMapToMatrixMarketFile(const char *filename, const Epetra_BlockMap &map, const char *mapName, const char *mapDescription, bool writeHeader)
Writes an Epetra_BlockMap or Epetra_Map object to a Matrix Market format file.
long long NumGlobalElements64() const
#define mm_set_matrix(typecode)
bool ConstantElementSize() const
int mm_write_banner(FILE *f, MM_typecode matcode)
#define mm_set_integer(typecode)
int * ElementSizeList() const
bool GlobalIndicesInt() const
virtual int MyPID() const =0
int NumMyElements() const
long long GID64(int LID) const
int MyGlobalElementsPtr(int *&MyGlobalElementList) const
int BlockMapToHandle(FILE *handle, const Epetra_BlockMap &map)
const Epetra_Comm & Comm() const
virtual int NumProc() const =0
int TBlockMapToHandle(FILE *handle, const Epetra_BlockMap &map)
int MaxElementSize() const
#define mm_set_array(typecode)
int mm_write_mtx_array_size(FILE *f, long long M, long long N)
#define mm_initialize_typecode(typecode)
int MinElementSize() const