/* This software was developed by Bruce Hendrickson and Robert Leland * * at Sandia National Laboratories under US Department of Energy * * contract DE-AC04-76DP00789 and is copyrighted by Sandia Corporation. */ #include #include "params.h" #include "structs.h" #include "defs.h" void count(graph, nvtxs, sets, nsets, hops, dump, using_ewgts) struct vtx_data **graph; /* graph data structure */ int nvtxs; /* number of vtxs in graph */ short *sets; /* processor each vertex is assigned to */ int nsets; /* number of sets partitioned into */ short (*hops)[MAXSETS]; /* hops metric between sets */ int dump; /* flag for extended output */ int using_ewgts; /* are edge weights being used? */ { int *nguys; /* number of vtxs in each set */ int ncross; /* number of outgoing edges */ int nhops; /* number of hops */ int neighbor; /* neighbor of a vertex */ int nmax, nmin; /* largest and smallest set sizes */ int i, j; /* loop counters */ double *smalloc(); int sfree(); nguys = (int *) smalloc((unsigned) nsets * sizeof(int)); for (i = 0; i < nsets; i++) nguys[i] = 0; ncross = nhops = 0; for (i = 1; i <= nvtxs; i++) { nguys[sets[i]] += graph[i]->vwgt; for (j = 1; j < graph[i]->nedges; j++) { neighbor = graph[i]->edges[j]; if (sets[neighbor] != sets[i]) { if (using_ewgts) { ncross += graph[i]->ewgts[j]; nhops += graph[i]->ewgts[j] * hops[sets[i]][sets[neighbor]]; } else { ncross++; nhops += hops[sets[i]][sets[neighbor]]; } } } } ncross /= 2; nhops /= 2; nmax = nguys[0]; nmin = nguys[0]; for (i = 1; i < nsets; i++) { if (nguys[i] > nmax) nmax = nguys[i]; if (nguys[i] < nmin) nmin = nguys[i]; } printf("In subgraph: Cuts=%d, Hops=%d; Max=%d, Min=%d (nvtxs=%d).\n", ncross, nhops, nmax, nmin, nvtxs); if (dump) { for (i = 0; i < nsets; i++) printf(" Size of %d = %d\n", i, nguys[i]); for (i = 0; i < nvtxs; i++) printf("%d\n", sets[i]); printf("\n\n"); } sfree((char *) nguys); }