#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <time.h>
#include "patoh.h"
#define NCONST 2
#define WDIFF 10
#define umax(a, b) (((a) >= (b)) ? (a) : (b))
#define usRandom(s) srand(s)
#define uRandom(l) (rand() % l)
void usage(char *name)
{
printf("usage: %s <partitioner-char> <hypergraph-filename> <#parts>\n", name);
printf("\t<partitioner-char> can be:\n");
printf("\t\tP: regular partition\n");
printf("\t\tF: with first #parts cells are fixed to a different part\n");
printf("\t\tM: %d-constraint partition\n", NCONST);
printf("\t\tA: run all of them\n");
printf("\t\tT: run all of them with skewed target weights\n");
exit(1);
}
void PrintInfo(char *pname, int _k, int *partweights, int cut, int _nconst, float *targetweights)
{
double *tot, *maxi;
int i, j;
tot = (double *) malloc(sizeof(double)*_nconst);
maxi = (double *) malloc(sizeof(double)*_nconst);
/* normalize target weight sum to 1.0 */
for (j=0; j<_nconst; ++j)
tot[j] = 0.0;
for (i=0; i<_k; ++i)
for (j=0; j<_nconst; ++j)
tot[j] += targetweights[i*_nconst+j];
for (i=0; i<_k; ++i)
for (j=0; j<_nconst; ++j)
targetweights[i*_nconst+j] /= tot[j];
printf("\n-------------------------------------------------------------------");
printf("\n Partitioner: %s", pname);
printf("\n %d-way cutsize = %d \n", _k, cut);
printf("\nPart Weights are:\n");
for (i=0; i<_nconst; ++i)
maxi[i] = tot[i] = 0.0;
for (i=0; i<_k; ++i)
for (j=0; j<_nconst; ++j)
tot[j] += partweights[i*_nconst+j];
for (i=0; i<_nconst; ++i)
maxi[i] = 0.0;
for (i=0; i<_k; ++i) {
printf("\n %3d :", i);
for (j=0; j<_nconst; ++j) {
double im= (double)((double)partweights[i*_nconst+j] - tot[j]*targetweights[i*_nconst+j]) / (tot[j]*targetweights[i*_nconst+j]);
maxi[j] = umax(maxi[j], im);
printf("%10d (TrgtR:%.3f imbal:%6.3lf%%) ", partweights[i*_nconst+j], targetweights[i*_nconst+j], 100.0*im);
}
}
printf("\n MaxImbals are:");
printf("\n ");
for (i=0; i<_nconst; ++i)
printf("%10.1lf%% ", 100.0*maxi[i]);
printf("\n");
free(maxi);
free(tot);
}
int main(int argc, char *argv[])
{
PaToH_Parameters args;
int _c, _n, _nconst, *cwghts, *nwghts,
*xpins, *pins, *partvec, cut, *partweights,
i, j, *cw;
char PT;
float *targetweights, *skewedtweights;
if (argc!=4)
usage(argv[0]);
PT = toupper(*argv[1]);
if (PT!='P' && PT!='F' && PT!='M' && PT!='A' && PT!='T')
usage(argv[0]);
usRandom(time(NULL));
PaToH_Read_Hypergraph(argv[2], &_c, &_n, &_nconst, &cwghts,
&nwghts, &xpins, &pins);
printf("===============================================================================\n");
printf("Hypergraph %10s -- #Cells=%6d #Nets=%6d #Pins=%8d #Const=%2d\n",
argv[2], _c, _n, xpins[_n], _nconst);
PaToH_Initialize_Parameters(&args, PATOH_CONPART,
PATOH_SUGPARAM_DEFAULT);
args._k = atoi(argv[3]);
args._k = (args._k>2) ? args._k : 2;
args.seed = 1;
partvec = (int *) malloc(_c*sizeof(int));
partweights = (int *) malloc(NCONST*args._k*sizeof(int));
targetweights = (float *) malloc(args._k*NCONST*sizeof(float));
skewedtweights = (float *) malloc(args._k*NCONST*sizeof(float));
for (i=0; i<args._k; ++i) {
targetweights[i] = 1.0/(float)args._k;
skewedtweights[i] = args._k-i;
}
PaToH_Alloc(&args, _c, _n, NCONST, cwghts, nwghts,
xpins, pins);
if (PT=='P' || PT=='A') {
PaToH_Partition(&args, _c, _n, cwghts, nwghts,
xpins, pins, partvec, partweights, &cut);
PrintInfo("Single Constraint", args._k, partweights, cut, 1, targetweights);
}
if (PT=='T') {
PaToH_Part(&args, _c, _n, 1, 0, cwghts, nwghts,
xpins, pins, skewedtweights, partvec, partweights, &cut);
printf("Skewed tweights:");
for (i=0; i<args._k; ++i)
printf("%.3f ", skewedtweights[i]);
printf("\n");
PrintInfo("Single Constraint Skewed", args._k, partweights, cut, 1, skewedtweights);
}
if (PT=='F' || PT=='A') {
memset(partvec, 0xff, _c*sizeof(int));
for (i=0; i<args._k; ++i)
partvec[i] = i;
PaToH_Partition_with_FixCells(&args, _c, _n, cwghts, nwghts,
xpins, pins, partvec, partweights, &cut);
PrintInfo("With FixCells", args._k, partweights, cut, 1, targetweights);
}
if (PT=='T') {
memset(partvec, 0xff, _c*sizeof(int));
for (i=0; i<args._k; ++i)
partvec[i] = i;
PaToH_Part(&args, _c, _n, 1, 1, cwghts, nwghts,
xpins, pins, skewedtweights, partvec, partweights, &cut);
PrintInfo("With FixCells Skewed", args._k, partweights, cut, 1, skewedtweights);
}
if (PT=='M' || PT=='A' || PT=='T') {
_nconst = NCONST;
cw = (int *) malloc(_c*_nconst*sizeof(int));
for (i=0; i<_c; ++i) {
for (j=0; j<_nconst; ++j) {
int w=cwghts[i]+(uRandom(WDIFF)-WDIFF/2)*j;
cw[i*_nconst+j] = umax(w, 1);
}
}
for (i=0; i<args._k; ++i)
for (j=0; j<_nconst;++j) {
targetweights[i*_nconst+j] = 1.0/(float)args._k;
skewedtweights[i*_nconst+j] = args._k-i;
}
if (PT=='T') {
PaToH_Part(&args, _c, _n, _nconst, 0, cw, nwghts,
xpins, pins, skewedtweights, partvec, partweights, &cut);
PrintInfo("MultiConstraint Skewed", args._k, partweights, cut, _nconst, skewedtweights);
} else {
PaToH_MultiConst_Partition(&args, _c, _n, _nconst, cw, xpins, pins, partvec, partweights, &cut);
PrintInfo("MultiConstraint", args._k, partweights, cut, _nconst, targetweights);
}
free(cw);
}
free(targetweights);
free(partweights);
free(partvec);
free(cwghts);
free(nwghts);
free(xpins);
free(pins);
PaToH_Free();
printf("\n");
return 0;
}
