/* * Copyright 1997, Regents of the University of Minnesota * * mkmetis.c * * This file contains the top level routines for the multilevel k-way partitioning * algorithm KMETIS. * * Started 7/28/97 * George * * $Id: mkmetis.c,v 1.1.1.1 2003/01/23 17:21:06 estrade Exp $ * */ #include "metis.h" /************************************************************************* * This function is the entry point for KWMETIS **************************************************************************/ void METIS_mCPartGraphKway(int *nvtxs, int *ncon, idxtype *xadj, idxtype *adjncy, idxtype *vwgt, idxtype *adjwgt, int *wgtflag, int *numflag, int *nparts, float *rubvec, int *options, int *edgecut, idxtype *part) { int i, j; GraphType graph; CtrlType ctrl; if (*numflag == 1) Change2CNumbering(*nvtxs, xadj, adjncy); SetUpGraph(&graph, OP_KMETIS, *nvtxs, *ncon, xadj, adjncy, vwgt, adjwgt, *wgtflag); if (options[0] == 0) { /* Use the default parameters */ ctrl.CType = McKMETIS_CTYPE; ctrl.IType = McKMETIS_ITYPE; ctrl.RType = McKMETIS_RTYPE; ctrl.dbglvl = McKMETIS_DBGLVL; } else { ctrl.CType = options[OPTION_CTYPE]; ctrl.IType = options[OPTION_ITYPE]; ctrl.RType = options[OPTION_RTYPE]; ctrl.dbglvl = options[OPTION_DBGLVL]; } ctrl.optype = OP_KMETIS; ctrl.CoarsenTo = amax((*nvtxs)/(20*log2(*nparts)), 30*(*nparts)); ctrl.nmaxvwgt = 1.5/(1.0*ctrl.CoarsenTo); InitRandom(-1); AllocateWorkSpace(&ctrl, &graph, *nparts); IFSET(ctrl.dbglvl, DBG_TIME, InitTimers(&ctrl)); IFSET(ctrl.dbglvl, DBG_TIME, starttimer(ctrl.TotalTmr)); *edgecut = MCMlevelKWayPartitioning(&ctrl, &graph, *nparts, part, rubvec); IFSET(ctrl.dbglvl, DBG_TIME, stoptimer(ctrl.TotalTmr)); IFSET(ctrl.dbglvl, DBG_TIME, PrintTimers(&ctrl)); FreeWorkSpace(&ctrl, &graph); if (*numflag == 1) Change2FNumbering(*nvtxs, xadj, adjncy, part); } /************************************************************************* * This function takes a graph and produces a bisection of it **************************************************************************/ int MCMlevelKWayPartitioning(CtrlType *ctrl, GraphType *graph, int nparts, idxtype *part, float *rubvec) { int i, j, nvtxs; GraphType *cgraph; int options[10], edgecut; cgraph = MCCoarsen2Way(ctrl, graph); IFSET(ctrl->dbglvl, DBG_TIME, starttimer(ctrl->InitPartTmr)); MocAllocateKWayPartitionMemory(ctrl, cgraph, nparts); options[0] = 1; options[OPTION_CTYPE] = MATCH_SBHEM_INFNORM; options[OPTION_ITYPE] = IPART_RANDOM; options[OPTION_RTYPE] = RTYPE_FM; options[OPTION_DBGLVL] = 0; /* Determine what you will use as the initial partitioner, based on tolerances */ for (i=0; incon; i++) { if (rubvec[i] > 1.2) break; } if (i == graph->ncon) METIS_mCPartGraphRecursiveInternal(&cgraph->nvtxs, &cgraph->ncon, cgraph->xadj, cgraph->adjncy, cgraph->nvwgt, cgraph->adjwgt, &nparts, options, &edgecut, cgraph->where); else METIS_mCHPartGraphRecursiveInternal(&cgraph->nvtxs, &cgraph->ncon, cgraph->xadj, cgraph->adjncy, cgraph->nvwgt, cgraph->adjwgt, &nparts, rubvec, options, &edgecut, cgraph->where); IFSET(ctrl->dbglvl, DBG_TIME, stoptimer(ctrl->InitPartTmr)); IFSET(ctrl->dbglvl, DBG_IPART, printf("Initial %d-way partitioning cut: %d\n", nparts, edgecut)); IFSET(ctrl->dbglvl, DBG_KWAYPINFO, ComputePartitionInfo(cgraph, nparts, cgraph->where)); MocRefineKWayHorizontal(ctrl, graph, cgraph, nparts, rubvec); idxcopy(graph->nvtxs, graph->where, part); GKfree(&graph->nvwgt, &graph->npwgts, &graph->gdata, &graph->rdata, LTERM); return graph->mincut; }