/* Copyright 2004,2007 ENSEIRB, INRIA & CNRS ** ** This file is part of the Scotch software package for static mapping, ** graph partitioning and sparse matrix ordering. ** ** This software is governed by the CeCILL-C license under French law ** and abiding by the rules of distribution of free software. You can ** use, modify and/or redistribute the software under the terms of the ** CeCILL-C license as circulated by CEA, CNRS and INRIA at the following ** URL: "http://www.cecill.info". ** ** As a counterpart to the access to the source code and rights to copy, ** modify and redistribute granted by the license, users are provided ** only with a limited warranty and the software's author, the holder of ** the economic rights, and the successive licensors have only limited ** liability. ** ** In this respect, the user's attention is drawn to the risks associated ** with loading, using, modifying and/or developing or reproducing the ** software by the user in light of its specific status of free software, ** that may mean that it is complicated to manipulate, and that also ** therefore means that it is reserved for developers and experienced ** professionals having in-depth computer knowledge. Users are therefore ** encouraged to load and test the software's suitability as regards ** their requirements in conditions enabling the security of their ** systems and/or data to be ensured and, more generally, to use and ** operate it in the same conditions as regards security. ** ** The fact that you are presently reading this means that you have had ** knowledge of the CeCILL-C license and that you accept its terms. */ /************************************************************/ /** **/ /** NAME : hmesh_order_hd.c **/ /** **/ /** AUTHOR : Francois PELLEGRINI **/ /** **/ /** FUNCTION : This module orders a submesh using **/ /** the block-oriented Halo Approximate **/ /** (Multiple) Minimum Degree algorithm, **/ /** with super-variable accounting **/ /** R2HAMDf4 v2.0). **/ /** **/ /** DATES : # Version 4.0 : from : 10 dec 2003 **/ /** to : 24 jan 2004 **/ /** # Version 5.0 : from : 12 sep 2007 **/ /** to : 12 sep 2007 **/ /** **/ /************************************************************/ /* ** The defines and includes. */ #define HMESH_ORDER_HD #include "module.h" #include "common.h" #include "graph.h" #include "order.h" #include "mesh.h" #include "hmesh.h" #include "hall_order_hd.h" #include "hall_order_hx.h" #include "hmesh_order_hd.h" #include "hmesh_order_hx.h" #include "hmesh_order_si.h" /*****************************/ /* */ /* This is the main routine. */ /* */ /*****************************/ /* This routine performs the ordering. ** It returns: ** - 0 : if the ordering could be computed. ** - !0 : on error. */ int hmeshOrderHd ( const Hmesh * restrict const meshptr, Order * restrict const ordeptr, const Gnum ordenum, OrderCblk * restrict const cblkptr, /*+ Single column-block +*/ const HmeshOrderHdParam * restrict const paraptr) { Gnum * restrict petab; Gnum pfree; Gnum iwlen; Gnum * restrict iwtab; Gnum * restrict lentab; Gnum * restrict nvartab; Gnum * restrict elentab; Gnum * restrict lasttab; Gnum * restrict leaftab; Gnum * restrict secntab; /* Array of index to first secondary variable */ Gnum * restrict nexttab; /* Array of index of next principal variable */ Gnum * restrict frsttab; Gnum ncmpa; Gnum n; /* Number of nodes to order */ int o; n = meshptr->m.velmnbr + meshptr->m.vnodnbr; if (n < paraptr->colmin) /* If graph is too small, order simply */ return (hmeshOrderSi (meshptr, ordeptr, ordenum, cblkptr)); iwlen = (Gnum) ((double) meshptr->m.edgenbr * HMESHORDERHDCOMPRAT) + 32; if (iwlen < n) /* Prepare to re-use array */ iwlen = n; if (memAllocGroup ((void **) (void *) &petab, (size_t) (n * sizeof (Gnum)), &iwtab, (size_t) (iwlen * sizeof (Gnum)), &lentab, (size_t) (n * sizeof (Gnum)), &nvartab, (size_t) (n * sizeof (Gnum)), &elentab, (size_t) (n * sizeof (Gnum)), &lasttab, (size_t) (n * sizeof (Gnum)), &leaftab, (size_t) (n * sizeof (Gnum)), &frsttab, (size_t) (n * sizeof (Gnum)), &secntab, (size_t) (n * sizeof (Gnum)), &nexttab, (size_t) (n * sizeof (Gnum)), NULL) == NULL) { errorPrint ("hmeshOrderHd: out of memory"); return (1); } hmeshOrderHxFill (meshptr, petab, lentab, iwtab, elentab, &pfree); hallOrderHdHalmd (n, meshptr->m.velmnbr, iwlen, petab, pfree, lentab, iwtab, nvartab, elentab, lasttab, &ncmpa, leaftab, secntab, nexttab, frsttab); if (ncmpa < 0) { errorPrint ("hmeshOrderHd: internal error"); memFree (petab); /* Free group leader */ return (1); } o = hallOrderHxBuild (meshptr->m.baseval, n, meshptr->vnohnbr, (meshptr->m.vnumtax == NULL) ? NULL : meshptr->m.vnumtax + (meshptr->m.vnodbas - meshptr->m.baseval), /* Point to node part of vnumtab array */ ordeptr, cblkptr, nvartab - meshptr->m.baseval, lentab - meshptr->m.baseval, petab - meshptr->m.baseval, frsttab - meshptr->m.baseval, nexttab - meshptr->m.baseval, secntab - meshptr->m.baseval, iwtab - meshptr->m.baseval, elentab - meshptr->m.baseval, ordeptr->peritab + ordenum, /* Use given inverse permutation as inverse permutation space, never based */ leaftab, paraptr->colmin, paraptr->colmax, (float) paraptr->fillrat); memFree (petab); /* Free group leader */ return (o); }