24 #include "boost/lambda/lambda.hpp" 43 adj_of_proc( vtx_distr.np() )
80 memcpy(
vtx_XYZ+3*loc_index, xyz, 3*
sizeof(
float));
105 unsigned int edge_size=3;
117 sdispls[proc] = total_size;
118 scounts[proc] = edge_size * (s)->size();
119 total_size += edge_size * ((s)->size)();
121 int * sendbuf =
new int [(total_size+1)];
128 "Mismatch between displacement %d and buffer position %d. \n", sdispls[proc], buf_pos );
129 while ( ! (s)->empty() ) {
131 sendbuf[buf_pos++]=edge.from;
132 sendbuf[buf_pos++]=edge.to;
133 sendbuf[buf_pos++]=edge.weight;
152 rdispls[proc] = total_size;
153 total_size += rcounts[proc];
156 int * recvbuf =
new int [total_size+1];
159 sendbuf, scounts, sdispls,
MPI_INT,
160 recvbuf, rcounts, rdispls,
MPI_INT,
172 int size=total_size/edge_size;
173 std::sort(edges, edges + size);
184 Edge unknown_edge={-1,-1,0};
185 Edge *last_edge=&unknown_edge;
187 for(i=0;i<size;i++) {
188 if (! (*last_edge < edges[i]) )
continue;
192 "Received non-local edge: %d %d at position %d\n",edges[i].
from, edges[i].
to,i);
195 OLD_ASSERT( row <= loc_from,
"Decrease in sorted edges at %d\n",i);
197 while ( row < loc_from ) rows[++row]=i;
198 adj[i_adj]=edges[i].
to;
222 unsigned int n_proc=0;
238 DebugOut() <<
"Connectivity of subgraphs is OK.\n";
249 for(
int i_neigh=
rows[vtx]; i_neigh<
rows[vtx+1];i_neigh++) {
250 neighbour =
adj[i_neigh];
268 for(col=
rows[row]; col<
rows[row+1]; col++) {
279 int loc_row, row, row_pos;
280 int col_pos,col,loc_col;
284 for(row_pos=
rows[loc_row];row_pos<
rows[loc_row+1];row_pos++) {
289 for(col_pos=rows[loc_col]; col_pos<rows[loc_col+1]; col_pos++)
290 if (
adj[col_pos]==row)
break;
291 if (
adj[col_pos]!=row)
return false;
316 ASSERT(0).error(
"Not implemented!");
327 PetscMalloc(lsize_vtxs*
sizeof(
int), &
rows);
328 PetscMalloc(lsize_adj*
sizeof(
int),&
adj);
340 MatPartitioningSetAdjacency(petsc_part, petsc_adj_mat);
341 MatPartitioningSetFromOptions(petsc_part);
342 MatPartitioningApply(petsc_part,&part_IS);
345 const PetscInt *is_array;
346 ISGetIndices(part_IS, &is_array);
348 ISRestoreIndices(part_IS, &is_array);
354 chkerr(ISDestroy(&part_IS));
355 chkerr(MatPartitioningDestroy(&petsc_part));
356 chkerr(MatDestroy(&petsc_adj_mat));
373 rows =
new int[lsize_vtxs];
374 adj =
new int[lsize_adj];
382 "METIS could be used only with localized distribution.\n");
396 #if (METIS_VER_MAJOR >= 5) 397 if (
sizeof(idx_t) !=
sizeof(
int) ) {
398 printf(
"ERROR in GRAPH_DIVIDE_C: Wrong type of integers for METIS.\n");
405 int options[METIS_NOPTIONS];
407 for (
unsigned int i = 0;i < METIS_NOPTIONS;i++) options[i] = -1;
409 options[METIS_OPTION_OBJTYPE] = METIS_OBJTYPE_CUT;
410 options[METIS_OPTION_CTYPE] = METIS_CTYPE_RM;
411 options[METIS_OPTION_IPTYPE] = METIS_IPTYPE_GROW;
412 options[METIS_OPTION_RTYPE] = METIS_RTYPE_GREEDY;
413 options[METIS_OPTION_NCUTS] = 1;
414 options[METIS_OPTION_NSEPS] = 1;
415 options[METIS_OPTION_NUMBERING] = num_flag;
416 options[METIS_OPTION_NITER] = 10;
417 options[METIS_OPTION_SEED] = 12345;
418 options[METIS_OPTION_MINCONN] = 1;
419 options[METIS_OPTION_CONTIG] = 0;
420 options[METIS_OPTION_COMPRESS] = 0;
421 options[METIS_OPTION_CCORDER] = 0;
422 options[METIS_OPTION_UFACTOR] = 30;
424 options[METIS_OPTION_DBGLVL] = 0;
429 for (
unsigned int i = 0; i < 5; i++ ) options[i] = 0;
435 for (
unsigned int i = 0; i <
vtx_distr.
lsize(); i++ ) part[i] = num_flag;
443 #if (METIS_VER_MAJOR >= 5) 444 options[METIS_OPTION_PTYPE] = METIS_PTYPE_RB;
445 options[METIS_OPTION_UFACTOR] = 1;
446 METIS_PartGraphRecursive(&n_vtx, &ncon,
rows,
adj,
448 ubvec, options, &edgecut,part);
450 METIS_PartGraphRecursive(&n_vtx,
rows,
adj,
452 &n_proc, options, &edgecut, part);
456 #if (METIS_VER_MAJOR >= 5) 457 options[METIS_OPTION_PTYPE] = METIS_PTYPE_KWAY;
458 options[METIS_OPTION_UFACTOR] = 30;
459 METIS_PartGraphKway(&n_vtx, &ncon,
rows,
adj,
461 ubvec, options, &edgecut, part);
463 METIS_PartGraphKway(&n_vtx,
rows,
adj,
465 &n_proc,options,&edgecut,part);
unsigned int size() const
get global size
unsigned int get_proc(unsigned int idx) const
get processor of the given index
bool check_subgraph_connectivity(int *part)
#define MessageOut()
Macro defining 'message' record of log.
SparseGraph(const Distribution &distr)
void chkerr(unsigned int ierr)
Replacement of new/delete operator in the spirit of xmalloc.
#define ASSERT(expr)
Allow use shorter versions of macro names if these names is not used with external library...
void set_vtx_position(const int vtx, const float xyz[3], int weight=1)
virtual ~SparseGraphPETSC()
int * part_to_check
created partitioning used through check of connectivity
Global macros to enhance readability and debugging, general constants.
int weight
Edge weights for communication (optional).
bool is_local(unsigned int idx) const
identify local index
#define MPI_Alltoall(sendbuf, sendcount, sendtype, recvbuf, recvcount, recvtype, comm)
void finalize()
Make sparse graph structures: rows, adj.
Virtual class for construction and partitioning of a distributed sparse graph.
Distribution vtx_distr
distribution of vertexes
virtual void allocate_sparse_graph(int lsize_vtxs, int lsize_adj)=0
unsigned int begin(int proc) const
get starting local index
vector< stack< Edge > > adj_of_proc
storage for graph edges for individual processors
virtual void partition(int *loc_part)
int proc_to_check
subgraph to check
unsigned int np() const
get num of processors
std::vector< int > checked_vtx
coloring of DFS algorithm
unsigned int myp() const
get my processor
Support classes for parallel programing.
float * vtx_XYZ
optional vertex coordinates (global array)
virtual ~SparseGraphMETIS()
ostream & operator<<(ostream &out, const SparseGraph &)
Output a sparse graph.
virtual void allocate_sparse_graph(int lsize_vtxs, int lsize_adj)
MPI_Comm get_comm() const
Returns communicator.
Distributed sparse graphs, partitioning.
#define WarningOut()
Macro defining 'warning' record of log.
virtual void allocate_sparse_graph(int lsize_vtxs, int lsize_adj)
int * vtx_weights
Vertex weights for computations (optional).
#define DebugOut()
Macro defining 'debug' record of log.
friend bool operator<(const Edge &a, const Edge &b)
void set_edge(const int a, const int b, int weight=1)
virtual void partition(int *loc_part)
#define MPI_Alltoallv(sendbuf, sendcounts, sdispls, sendtype, recvbuf, recvcounts, rdispls, recvtype, comm)
void printf(BasicWriter< Char > &w, BasicCStringRef< Char > format, ArgList args)
unsigned int lsize(int proc) const
get local size