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Cloned library METIS with extra build files for internal package management.
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METIS/libmetis/stat.c

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/*
* Copyright 1997, Regents of the University of Minnesota
*
* stat.c
*
* This file computes various statistics
*
* Started 7/25/97
* George
*
* $Id: stat.c 17513 2014-08-05 16:20:50Z dominique $
*
*/
#include "metislib.h"
/*************************************************************************
* This function computes cuts and balance information
**************************************************************************/
void ComputePartitionInfoBipartite(graph_t *graph, idx_t nparts, idx_t *where)
{
idx_t i, j, k, nvtxs, ncon, mustfree=0;
idx_t *xadj, *adjncy, *vwgt, *vsize, *adjwgt, *kpwgts, *tmpptr;
idx_t *padjncy, *padjwgt, *padjcut;
nvtxs = graph->nvtxs;
ncon = graph->ncon;
xadj = graph->xadj;
adjncy = graph->adjncy;
vwgt = graph->vwgt;
vsize = graph->vsize;
adjwgt = graph->adjwgt;
if (vwgt == NULL) {
vwgt = graph->vwgt = ismalloc(nvtxs, 1, "vwgt");
mustfree = 1;
}
if (adjwgt == NULL) {
adjwgt = graph->adjwgt = ismalloc(xadj[nvtxs], 1, "adjwgt");
mustfree += 2;
}
printf("%"PRIDX"-way Cut: %5"PRIDX", Vol: %5"PRIDX", ", nparts, ComputeCut(graph, where), ComputeVolume(graph, where));
/* Compute balance information */
kpwgts = ismalloc(ncon*nparts, 0, "ComputePartitionInfo: kpwgts");
for (i=0; i<nvtxs; i++) {
for (j=0; j<ncon; j++)
kpwgts[where[i]*ncon+j] += vwgt[i*ncon+j];
}
if (ncon == 1) {
printf("\tBalance: %5.3"PRREAL" out of %5.3"PRREAL"\n",
1.0*nparts*kpwgts[iargmax(nparts, kpwgts,1)]/(1.0*isum(nparts, kpwgts, 1)),
1.0*nparts*vwgt[iargmax(nvtxs, vwgt,1)]/(1.0*isum(nparts, kpwgts, 1)));
}
else {
printf("\tBalance:");
for (j=0; j<ncon; j++)
printf(" (%5.3"PRREAL" out of %5.3"PRREAL")",
1.0*nparts*kpwgts[ncon*iargmax_strd(nparts, kpwgts+j, ncon)+j]/(1.0*isum(nparts, kpwgts+j, ncon)),
1.0*nparts*vwgt[ncon*iargmax_strd(nvtxs, vwgt+j, ncon)+j]/(1.0*isum(nparts, kpwgts+j, ncon)));
printf("\n");
}
/* Compute p-adjncy information */
padjncy = ismalloc(nparts*nparts, 0, "ComputePartitionInfo: padjncy");
padjwgt = ismalloc(nparts*nparts, 0, "ComputePartitionInfo: padjwgt");
padjcut = ismalloc(nparts*nparts, 0, "ComputePartitionInfo: padjwgt");
iset(nparts, 0, kpwgts);
for (i=0; i<nvtxs; i++) {
for (j=xadj[i]; j<xadj[i+1]; j++) {
if (where[i] != where[adjncy[j]]) {
padjncy[where[i]*nparts+where[adjncy[j]]] = 1;
padjcut[where[i]*nparts+where[adjncy[j]]] += adjwgt[j];
if (kpwgts[where[adjncy[j]]] == 0) {
padjwgt[where[i]*nparts+where[adjncy[j]]] += vsize[i];
kpwgts[where[adjncy[j]]] = 1;
}
}
}
for (j=xadj[i]; j<xadj[i+1]; j++)
kpwgts[where[adjncy[j]]] = 0;
}
for (i=0; i<nparts; i++)
kpwgts[i] = isum(nparts, padjncy+i*nparts, 1);
printf("Min/Max/Avg/Bal # of adjacent subdomains: %5"PRIDX" %5"PRIDX" %5"PRIDX" %7.3"PRREAL"\n",
kpwgts[iargmin(nparts, kpwgts,1)], kpwgts[iargmax(nparts, kpwgts,1)], isum(nparts, kpwgts, 1)/nparts,
1.0*nparts*kpwgts[iargmax(nparts, kpwgts,1)]/(1.0*isum(nparts, kpwgts, 1)));
for (i=0; i<nparts; i++)
kpwgts[i] = isum(nparts, padjcut+i*nparts, 1);
printf("Min/Max/Avg/Bal # of adjacent subdomain cuts: %5"PRIDX" %5"PRIDX" %5"PRIDX" %7.3"PRREAL"\n",
kpwgts[iargmin(nparts, kpwgts,1)], kpwgts[iargmax(nparts, kpwgts,1)], isum(nparts, kpwgts, 1)/nparts,
1.0*nparts*kpwgts[iargmax(nparts, kpwgts,1)]/(1.0*isum(nparts, kpwgts, 1)));
for (i=0; i<nparts; i++)
kpwgts[i] = isum(nparts, padjwgt+i*nparts, 1);
printf("Min/Max/Avg/Bal/Frac # of interface nodes: %5"PRIDX" %5"PRIDX" %5"PRIDX" %7.3"PRREAL" %7.3"PRREAL"\n",
kpwgts[iargmin(nparts, kpwgts,1)], kpwgts[iargmax(nparts, kpwgts,1)], isum(nparts, kpwgts, 1)/nparts,
1.0*nparts*kpwgts[iargmax(nparts, kpwgts,1)]/(1.0*isum(nparts, kpwgts, 1)), 1.0*isum(nparts, kpwgts, 1)/(1.0*nvtxs));
if (mustfree == 1 || mustfree == 3) {
gk_free((void **)&vwgt, LTERM);
graph->vwgt = NULL;
}
if (mustfree == 2 || mustfree == 3) {
gk_free((void **)&adjwgt, LTERM);
graph->adjwgt = NULL;
}
gk_free((void **)&kpwgts, &padjncy, &padjwgt, &padjcut, LTERM);
}
/*************************************************************************
* This function computes the balance of the partitioning
**************************************************************************/
void ComputePartitionBalance(graph_t *graph, idx_t nparts, idx_t *where, real_t *ubvec)
{
idx_t i, j, nvtxs, ncon;
idx_t *kpwgts, *vwgt;
real_t balance;
nvtxs = graph->nvtxs;
ncon = graph->ncon;
vwgt = graph->vwgt;
kpwgts = ismalloc(nparts, 0, "ComputePartitionInfo: kpwgts");
if (vwgt == NULL) {
for (i=0; i<nvtxs; i++)
kpwgts[where[i]]++;
ubvec[0] = 1.0*nparts*kpwgts[iargmax(nparts, kpwgts,1)]/(1.0*nvtxs);
}
else {
for (j=0; j<ncon; j++) {
iset(nparts, 0, kpwgts);
for (i=0; i<graph->nvtxs; i++)
kpwgts[where[i]] += vwgt[i*ncon+j];
ubvec[j] = 1.0*nparts*kpwgts[iargmax(nparts, kpwgts,1)]/(1.0*isum(nparts, kpwgts, 1));
}
}
gk_free((void **)&kpwgts, LTERM);
}
/*************************************************************************
* This function computes the balance of the element partitioning
**************************************************************************/
real_t ComputeElementBalance(idx_t ne, idx_t nparts, idx_t *where)
{
idx_t i;
idx_t *kpwgts;
real_t balance;
kpwgts = ismalloc(nparts, 0, "ComputeElementBalance: kpwgts");
for (i=0; i<ne; i++)
kpwgts[where[i]]++;
balance = 1.0*nparts*kpwgts[iargmax(nparts, kpwgts,1)]/(1.0*isum(nparts, kpwgts, 1));
gk_free((void **)&kpwgts, LTERM);
return balance;
}