/*! \file Copyright (c) 2003, The Regents of the University of California, through Lawrence Berkeley National Laboratory (subject to receipt of any required approvals from U.S. Dept. of Energy) All rights reserved. The source code is distributed under BSD license, see the file License.txt at the top-level directory. */ typedef int shortint; /* *************************************************************** */ /* *************************************************************** */ /* **** GENMMD ..... MULTIPLE MINIMUM EXTERNAL DEGREE **** */ /* *************************************************************** */ /* *************************************************************** */ /* AUTHOR - JOSEPH W.H. LIU */ /* DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */ /* PURPOSE - THIS ROUTINE IMPLEMENTS THE MINIMUM DEGREE */ /* ALGORITHM. IT MAKES USE OF THE IMPLICIT REPRESENTATION */ /* OF ELIMINATION GRAPHS BY QUOTIENT GRAPHS, AND THE */ /* NOTION OF INDISTINGUISHABLE NODES. IT ALSO IMPLEMENTS */ /* THE MODIFICATIONS BY MULTIPLE ELIMINATION AND MINIMUM */ /* EXTERNAL DEGREE. */ /* --------------------------------------------- */ /* CAUTION - THE ADJACENCY VECTOR ADJNCY WILL BE */ /* DESTROYED. */ /* --------------------------------------------- */ /* INPUT PARAMETERS - */ /* NEQNS - NUMBER OF EQUATIONS. */ /* (XADJ,ADJNCY) - THE ADJACENCY STRUCTURE. */ /* DELTA - TOLERANCE VALUE FOR MULTIPLE ELIMINATION. */ /* MAXINT - MAXIMUM MACHINE REPRESENTABLE (SHORT) INTEGER */ /* (ANY SMALLER ESTIMATE WILL DO) FOR MARKING */ /* NODES. */ /* OUTPUT PARAMETERS - */ /* PERM - THE MINIMUM DEGREE ORDERING. */ /* INVP - THE INVERSE OF PERM. */ /* NOFSUB - AN UPPER BOUND ON THE NUMBER OF NONZERO */ /* SUBSCRIPTS FOR THE COMPRESSED STORAGE SCHEME. */ /* WORKING PARAMETERS - */ /* DHEAD - VECTOR FOR HEAD OF DEGREE LISTS. */ /* INVP - USED TEMPORARILY FOR DEGREE FORWARD LINK. */ /* PERM - USED TEMPORARILY FOR DEGREE BACKWARD LINK. */ /* QSIZE - VECTOR FOR SIZE OF SUPERNODES. */ /* LLIST - VECTOR FOR TEMPORARY LINKED LISTS. */ /* MARKER - A TEMPORARY MARKER VECTOR. */ /* PROGRAM SUBROUTINES - */ /* MMDELM, MMDINT, MMDNUM, MMDUPD. */ /* *************************************************************** */ /* Subroutine */ int genmmd_(int *neqns, int *xadj, shortint *adjncy, shortint *invp, shortint *perm, int *delta, shortint *dhead, shortint *qsize, shortint *llist, shortint *marker, int *maxint, int *nofsub) { /* System generated locals */ int i__1; /* Local variables */ int mdeg, ehead, i, mdlmt, mdnode; extern /* Subroutine */ int slu_mmdelm_(int *, int *, shortint *, shortint *, shortint *, shortint *, shortint *, shortint *, shortint *, int *, int *), slu_mmdupd_(int *, int *, int *, shortint *, int *, int *, shortint *, shortint *, shortint *, shortint *, shortint *, shortint *, int *, int *), slu_mmdint_(int *, int *, shortint *, shortint *, shortint *, shortint *, shortint *, shortint *, shortint *), slu_mmdnum_(int *, shortint *, shortint *, shortint *); int nextmd, tag, num; /* *************************************************************** */ /* *************************************************************** */ /* Parameter adjustments */ --marker; --llist; --qsize; --dhead; --perm; --invp; --adjncy; --xadj; /* Function Body */ if (*neqns <= 0) { return 0; } /* ------------------------------------------------ */ /* INITIALIZATION FOR THE MINIMUM DEGREE ALGORITHM. */ /* ------------------------------------------------ */ *nofsub = 0; slu_mmdint_(neqns, &xadj[1], &adjncy[1], &dhead[1], &invp[1], &perm[1], & qsize[1], &llist[1], &marker[1]); /* ---------------------------------------------- */ /* NUM COUNTS THE NUMBER OF ORDERED NODES PLUS 1. */ /* ---------------------------------------------- */ num = 1; /* ----------------------------- */ /* ELIMINATE ALL ISOLATED NODES. */ /* ----------------------------- */ nextmd = dhead[1]; L100: if (nextmd <= 0) { goto L200; } mdnode = nextmd; nextmd = invp[mdnode]; marker[mdnode] = *maxint; invp[mdnode] = -num; ++num; goto L100; L200: /* ---------------------------------------- */ /* SEARCH FOR NODE OF THE MINIMUM DEGREE. */ /* MDEG IS THE CURRENT MINIMUM DEGREE; */ /* TAG IS USED TO FACILITATE MARKING NODES. */ /* ---------------------------------------- */ if (num > *neqns) { goto L1000; } tag = 1; dhead[1] = 0; mdeg = 2; L300: if (dhead[mdeg] > 0) { goto L400; } ++mdeg; goto L300; L400: /* ------------------------------------------------- */ /* USE VALUE OF DELTA TO SET UP MDLMT, WHICH GOVERNS */ /* WHEN A DEGREE UPDATE IS TO BE PERFORMED. */ /* ------------------------------------------------- */ mdlmt = mdeg + *delta; ehead = 0; L500: mdnode = dhead[mdeg]; if (mdnode > 0) { goto L600; } ++mdeg; if (mdeg > mdlmt) { goto L900; } goto L500; L600: /* ---------------------------------------- */ /* REMOVE MDNODE FROM THE DEGREE STRUCTURE. */ /* ---------------------------------------- */ nextmd = invp[mdnode]; dhead[mdeg] = nextmd; if (nextmd > 0) { perm[nextmd] = -mdeg; } invp[mdnode] = -num; *nofsub = *nofsub + mdeg + qsize[mdnode] - 2; if (num + qsize[mdnode] > *neqns) { goto L1000; } /* ---------------------------------------------- */ /* ELIMINATE MDNODE AND PERFORM QUOTIENT GRAPH */ /* TRANSFORMATION. RESET TAG VALUE IF NECESSARY. */ /* ---------------------------------------------- */ ++tag; if (tag < *maxint) { goto L800; } tag = 1; i__1 = *neqns; for (i = 1; i <= i__1; ++i) { if (marker[i] < *maxint) { marker[i] = 0; } /* L700: */ } L800: slu_mmdelm_(&mdnode, &xadj[1], &adjncy[1], &dhead[1], &invp[1], &perm[1], & qsize[1], &llist[1], &marker[1], maxint, &tag); num += qsize[mdnode]; llist[mdnode] = ehead; ehead = mdnode; if (*delta >= 0) { goto L500; } L900: /* ------------------------------------------- */ /* UPDATE DEGREES OF THE NODES INVOLVED IN THE */ /* MINIMUM DEGREE NODES ELIMINATION. */ /* ------------------------------------------- */ if (num > *neqns) { goto L1000; } slu_mmdupd_(&ehead, neqns, &xadj[1], &adjncy[1], delta, &mdeg, &dhead[1], & invp[1], &perm[1], &qsize[1], &llist[1], &marker[1], maxint, &tag) ; goto L300; L1000: slu_mmdnum_(neqns, &perm[1], &invp[1], &qsize[1]); return 0; } /* genmmd_ */ /* *************************************************************** */ /* *************************************************************** */ /* *** MMDINT ..... MULT MINIMUM DEGREE INITIALIZATION *** */ /* *************************************************************** */ /* *************************************************************** */ /* AUTHOR - JOSEPH W.H. LIU */ /* DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */ /* PURPOSE - THIS ROUTINE PERFORMS INITIALIZATION FOR THE */ /* MULTIPLE ELIMINATION VERSION OF THE MINIMUM DEGREE */ /* ALGORITHM. */ /* INPUT PARAMETERS - */ /* NEQNS - NUMBER OF EQUATIONS. */ /* (XADJ,ADJNCY) - ADJACENCY STRUCTURE. */ /* OUTPUT PARAMETERS - */ /* (DHEAD,DFORW,DBAKW) - DEGREE DOUBLY LINKED STRUCTURE. */ /* QSIZE - SIZE OF SUPERNODE (INITIALIZED TO ONE). */ /* LLIST - LINKED LIST. */ /* MARKER - MARKER VECTOR. */ /* *************************************************************** */ /* Subroutine */ int slu_mmdint_(int *neqns, int *xadj, shortint *adjncy, shortint *dhead, shortint *dforw, shortint *dbakw, shortint *qsize, shortint *llist, shortint *marker) { /* System generated locals */ int i__1; /* Local variables */ int ndeg, node, fnode; /* *************************************************************** */ /* *************************************************************** */ /* Parameter adjustments */ --marker; --llist; --qsize; --dbakw; --dforw; --dhead; --adjncy; --xadj; /* Function Body */ i__1 = *neqns; for (node = 1; node <= i__1; ++node) { dhead[node] = 0; qsize[node] = 1; marker[node] = 0; llist[node] = 0; /* L100: */ } /* ------------------------------------------ */ /* INITIALIZE THE DEGREE DOUBLY LINKED LISTS. */ /* ------------------------------------------ */ i__1 = *neqns; for (node = 1; node <= i__1; ++node) { ndeg = xadj[node + 1] - xadj[node] + 1; fnode = dhead[ndeg]; dforw[node] = fnode; dhead[ndeg] = node; if (fnode > 0) { dbakw[fnode] = node; } dbakw[node] = -ndeg; /* L200: */ } return 0; } /* slu_mmdint_ */ /* *************************************************************** */ /* *************************************************************** */ /* ** MMDELM ..... MULTIPLE MINIMUM DEGREE ELIMINATION *** */ /* *************************************************************** */ /* *************************************************************** */ /* AUTHOR - JOSEPH W.H. LIU */ /* DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */ /* PURPOSE - THIS ROUTINE ELIMINATES THE NODE MDNODE OF */ /* MINIMUM DEGREE FROM THE ADJACENCY STRUCTURE, WHICH */ /* IS STORED IN THE QUOTIENT GRAPH FORMAT. IT ALSO */ /* TRANSFORMS THE QUOTIENT GRAPH REPRESENTATION OF THE */ /* ELIMINATION GRAPH. */ /* INPUT PARAMETERS - */ /* MDNODE - NODE OF MINIMUM DEGREE. */ /* MAXINT - ESTIMATE OF MAXIMUM REPRESENTABLE (SHORT) */ /* INT. */ /* TAG - TAG VALUE. */ /* UPDATED PARAMETERS - */ /* (XADJ,ADJNCY) - UPDATED ADJACENCY STRUCTURE. */ /* (DHEAD,DFORW,DBAKW) - DEGREE DOUBLY LINKED STRUCTURE. */ /* QSIZE - SIZE OF SUPERNODE. */ /* MARKER - MARKER VECTOR. */ /* LLIST - TEMPORARY LINKED LIST OF ELIMINATED NABORS. */ /* *************************************************************** */ /* Subroutine */ int slu_mmdelm_(int *mdnode, int *xadj, shortint *adjncy, shortint *dhead, shortint *dforw, shortint *dbakw, shortint *qsize, shortint *llist, shortint *marker, int *maxint, int *tag) { /* System generated locals */ int i__1, i__2; /* Local variables */ int node, link, rloc, rlmt, i, j, nabor, rnode, elmnt, xqnbr, istop, jstop, istrt, jstrt, nxnode, pvnode, nqnbrs, npv; /* *************************************************************** */ /* *************************************************************** */ /* ----------------------------------------------- */ /* FIND REACHABLE SET AND PLACE IN DATA STRUCTURE. */ /* ----------------------------------------------- */ /* Parameter adjustments */ --marker; --llist; --qsize; --dbakw; --dforw; --dhead; --adjncy; --xadj; /* Function Body */ marker[*mdnode] = *tag; istrt = xadj[*mdnode]; istop = xadj[*mdnode + 1] - 1; /* ------------------------------------------------------- */ /* ELMNT POINTS TO THE BEGINNING OF THE LIST OF ELIMINATED */ /* NABORS OF MDNODE, AND RLOC GIVES THE STORAGE LOCATION */ /* FOR THE NEXT REACHABLE NODE. */ /* ------------------------------------------------------- */ elmnt = 0; rloc = istrt; rlmt = istop; i__1 = istop; for (i = istrt; i <= i__1; ++i) { nabor = adjncy[i]; if (nabor == 0) { goto L300; } if (marker[nabor] >= *tag) { goto L200; } marker[nabor] = *tag; if (dforw[nabor] < 0) { goto L100; } adjncy[rloc] = nabor; ++rloc; goto L200; L100: llist[nabor] = elmnt; elmnt = nabor; L200: ; } L300: /* ----------------------------------------------------- */ /* MERGE WITH REACHABLE NODES FROM GENERALIZED ELEMENTS. */ /* ----------------------------------------------------- */ if (elmnt <= 0) { goto L1000; } adjncy[rlmt] = -elmnt; link = elmnt; L400: jstrt = xadj[link]; jstop = xadj[link + 1] - 1; i__1 = jstop; for (j = jstrt; j <= i__1; ++j) { node = adjncy[j]; link = -node; if (node < 0) { goto L400; } else if (node == 0) { goto L900; } else { goto L500; } L500: if (marker[node] >= *tag || dforw[node] < 0) { goto L800; } marker[node] = *tag; /* --------------------------------- */ /* USE STORAGE FROM ELIMINATED NODES */ /* IF NECESSARY. */ /* --------------------------------- */ L600: if (rloc < rlmt) { goto L700; } link = -adjncy[rlmt]; rloc = xadj[link]; rlmt = xadj[link + 1] - 1; goto L600; L700: adjncy[rloc] = node; ++rloc; L800: ; } L900: elmnt = llist[elmnt]; goto L300; L1000: if (rloc <= rlmt) { adjncy[rloc] = 0; } /* -------------------------------------------------------- */ /* FOR EACH NODE IN THE REACHABLE SET, DO THE FOLLOWING ... */ /* -------------------------------------------------------- */ link = *mdnode; L1100: istrt = xadj[link]; istop = xadj[link + 1] - 1; i__1 = istop; for (i = istrt; i <= i__1; ++i) { rnode = adjncy[i]; link = -rnode; if (rnode < 0) { goto L1100; } else if (rnode == 0) { goto L1800; } else { goto L1200; } L1200: /* -------------------------------------------- */ /* IF RNODE IS IN THE DEGREE LIST STRUCTURE ... */ /* -------------------------------------------- */ pvnode = dbakw[rnode]; if (pvnode == 0 || pvnode == -(*maxint)) { goto L1300; } /* ------------------------------------- */ /* THEN REMOVE RNODE FROM THE STRUCTURE. */ /* ------------------------------------- */ nxnode = dforw[rnode]; if (nxnode > 0) { dbakw[nxnode] = pvnode; } if (pvnode > 0) { dforw[pvnode] = nxnode; } npv = -pvnode; if (pvnode < 0) { dhead[npv] = nxnode; } L1300: /* ---------------------------------------- */ /* PURGE INACTIVE QUOTIENT NABORS OF RNODE. */ /* ---------------------------------------- */ jstrt = xadj[rnode]; jstop = xadj[rnode + 1] - 1; xqnbr = jstrt; i__2 = jstop; for (j = jstrt; j <= i__2; ++j) { nabor = adjncy[j]; if (nabor == 0) { goto L1500; } if (marker[nabor] >= *tag) { goto L1400; } adjncy[xqnbr] = nabor; ++xqnbr; L1400: ; } L1500: /* ---------------------------------------- */ /* IF NO ACTIVE NABOR AFTER THE PURGING ... */ /* ---------------------------------------- */ nqnbrs = xqnbr - jstrt; if (nqnbrs > 0) { goto L1600; } /* ----------------------------- */ /* THEN MERGE RNODE WITH MDNODE. */ /* ----------------------------- */ qsize[*mdnode] += qsize[rnode]; qsize[rnode] = 0; marker[rnode] = *maxint; dforw[rnode] = -(*mdnode); dbakw[rnode] = -(*maxint); goto L1700; L1600: /* -------------------------------------- */ /* ELSE FLAG RNODE FOR DEGREE UPDATE, AND */ /* ADD MDNODE AS A NABOR OF RNODE. */ /* -------------------------------------- */ dforw[rnode] = nqnbrs + 1; dbakw[rnode] = 0; adjncy[xqnbr] = *mdnode; ++xqnbr; if (xqnbr <= jstop) { adjncy[xqnbr] = 0; } L1700: ; } L1800: return 0; } /* slu_mmdelm_ */ /* *************************************************************** */ /* *************************************************************** */ /* ***** MMDUPD ..... MULTIPLE MINIMUM DEGREE UPDATE ***** */ /* *************************************************************** */ /* *************************************************************** */ /* AUTHOR - JOSEPH W.H. LIU */ /* DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */ /* PURPOSE - THIS ROUTINE UPDATES THE DEGREES OF NODES */ /* AFTER A MULTIPLE ELIMINATION STEP. */ /* INPUT PARAMETERS - */ /* EHEAD - THE BEGINNING OF THE LIST OF ELIMINATED */ /* NODES (I.E., NEWLY FORMED ELEMENTS). */ /* NEQNS - NUMBER OF EQUATIONS. */ /* (XADJ,ADJNCY) - ADJACENCY STRUCTURE. */ /* DELTA - TOLERANCE VALUE FOR MULTIPLE ELIMINATION. */ /* MAXINT - MAXIMUM MACHINE REPRESENTABLE (SHORT) */ /* INTEGER. */ /* UPDATED PARAMETERS - */ /* MDEG - NEW MINIMUM DEGREE AFTER DEGREE UPDATE. */ /* (DHEAD,DFORW,DBAKW) - DEGREE DOUBLY LINKED STRUCTURE. */ /* QSIZE - SIZE OF SUPERNODE. */ /* LLIST - WORKING LINKED LIST. */ /* MARKER - MARKER VECTOR FOR DEGREE UPDATE. */ /* TAG - TAG VALUE. */ /* *************************************************************** */ /* Subroutine */ int slu_mmdupd_(int *ehead, int *neqns, int *xadj, shortint *adjncy, int *delta, int *mdeg, shortint *dhead, shortint *dforw, shortint *dbakw, shortint *qsize, shortint *llist, shortint *marker, int *maxint, int *tag) { /* System generated locals */ int i__1, i__2; /* Local variables */ int node, mtag, link, mdeg0, i, j, enode, fnode, nabor, elmnt, istop, jstop, q2head, istrt, jstrt, qxhead, iq2, deg, deg0; /* *************************************************************** */ /* *************************************************************** */ /* Parameter adjustments */ --marker; --llist; --qsize; --dbakw; --dforw; --dhead; --adjncy; --xadj; /* Function Body */ mdeg0 = *mdeg + *delta; elmnt = *ehead; L100: /* ------------------------------------------------------- */ /* FOR EACH OF THE NEWLY FORMED ELEMENT, DO THE FOLLOWING. */ /* (RESET TAG VALUE IF NECESSARY.) */ /* ------------------------------------------------------- */ if (elmnt <= 0) { return 0; } mtag = *tag + mdeg0; if (mtag < *maxint) { goto L300; } *tag = 1; i__1 = *neqns; for (i = 1; i <= i__1; ++i) { if (marker[i] < *maxint) { marker[i] = 0; } /* L200: */ } mtag = *tag + mdeg0; L300: /* --------------------------------------------- */ /* CREATE TWO LINKED LISTS FROM NODES ASSOCIATED */ /* WITH ELMNT: ONE WITH TWO NABORS (Q2HEAD) IN */ /* ADJACENCY STRUCTURE, AND THE OTHER WITH MORE */ /* THAN TWO NABORS (QXHEAD). ALSO COMPUTE DEG0, */ /* NUMBER OF NODES IN THIS ELEMENT. */ /* --------------------------------------------- */ q2head = 0; qxhead = 0; deg0 = 0; link = elmnt; L400: istrt = xadj[link]; istop = xadj[link + 1] - 1; i__1 = istop; for (i = istrt; i <= i__1; ++i) { enode = adjncy[i]; link = -enode; if (enode < 0) { goto L400; } else if (enode == 0) { goto L800; } else { goto L500; } L500: if (qsize[enode] == 0) { goto L700; } deg0 += qsize[enode]; marker[enode] = mtag; /* ---------------------------------- */ /* IF ENODE REQUIRES A DEGREE UPDATE, */ /* THEN DO THE FOLLOWING. */ /* ---------------------------------- */ if (dbakw[enode] != 0) { goto L700; } /* --------------------------------------- */ /* PLACE EITHER IN QXHEAD OR Q2HEAD LISTS. */ /* --------------------------------------- */ if (dforw[enode] == 2) { goto L600; } llist[enode] = qxhead; qxhead = enode; goto L700; L600: llist[enode] = q2head; q2head = enode; L700: ; } L800: /* -------------------------------------------- */ /* FOR EACH ENODE IN Q2 LIST, DO THE FOLLOWING. */ /* -------------------------------------------- */ enode = q2head; iq2 = 1; L900: if (enode <= 0) { goto L1500; } if (dbakw[enode] != 0) { goto L2200; } ++(*tag); deg = deg0; /* ------------------------------------------ */ /* IDENTIFY THE OTHER ADJACENT ELEMENT NABOR. */ /* ------------------------------------------ */ istrt = xadj[enode]; nabor = adjncy[istrt]; if (nabor == elmnt) { nabor = adjncy[istrt + 1]; } /* ------------------------------------------------ */ /* IF NABOR IS UNELIMINATED, INCREASE DEGREE COUNT. */ /* ------------------------------------------------ */ link = nabor; if (dforw[nabor] < 0) { goto L1000; } deg += qsize[nabor]; goto L2100; L1000: /* -------------------------------------------- */ /* OTHERWISE, FOR EACH NODE IN THE 2ND ELEMENT, */ /* DO THE FOLLOWING. */ /* -------------------------------------------- */ istrt = xadj[link]; istop = xadj[link + 1] - 1; i__1 = istop; for (i = istrt; i <= i__1; ++i) { node = adjncy[i]; link = -node; if (node == enode) { goto L1400; } if (node < 0) { goto L1000; } else if (node == 0) { goto L2100; } else { goto L1100; } L1100: if (qsize[node] == 0) { goto L1400; } if (marker[node] >= *tag) { goto L1200; } /* ----------------------------------- -- */ /* CASE WHEN NODE IS NOT YET CONSIDERED . */ /* ----------------------------------- -- */ marker[node] = *tag; deg += qsize[node]; goto L1400; L1200: /* ---------------------------------------- */ /* CASE WHEN NODE IS INDISTINGUISHABLE FROM */ /* ENODE. MERGE THEM INTO A NEW SUPERNODE. */ /* ---------------------------------------- */ if (dbakw[node] != 0) { goto L1400; } if (dforw[node] != 2) { goto L1300; } qsize[enode] += qsize[node]; qsize[node] = 0; marker[node] = *maxint; dforw[node] = -enode; dbakw[node] = -(*maxint); goto L1400; L1300: /* -------------------------------------- */ /* CASE WHEN NODE IS OUTMATCHED BY ENODE. */ /* -------------------------------------- */ if (dbakw[node] == 0) { dbakw[node] = -(*maxint); } L1400: ; } goto L2100; L1500: /* ------------------------------------------------ */ /* FOR EACH ENODE IN THE QX LIST, DO THE FOLLOWING. */ /* ------------------------------------------------ */ enode = qxhead; iq2 = 0; L1600: if (enode <= 0) { goto L2300; } if (dbakw[enode] != 0) { goto L2200; } ++(*tag); deg = deg0; /* --------------------------------- */ /* FOR EACH UNMARKED NABOR OF ENODE, */ /* DO THE FOLLOWING. */ /* --------------------------------- */ istrt = xadj[enode]; istop = xadj[enode + 1] - 1; i__1 = istop; for (i = istrt; i <= i__1; ++i) { nabor = adjncy[i]; if (nabor == 0) { goto L2100; } if (marker[nabor] >= *tag) { goto L2000; } marker[nabor] = *tag; link = nabor; /* ------------------------------ */ /* IF UNELIMINATED, INCLUDE IT IN */ /* DEG COUNT. */ /* ------------------------------ */ if (dforw[nabor] < 0) { goto L1700; } deg += qsize[nabor]; goto L2000; L1700: /* ------------------------------- */ /* IF ELIMINATED, INCLUDE UNMARKED */ /* NODES IN THIS ELEMENT INTO THE */ /* DEGREE COUNT. */ /* ------------------------------- */ jstrt = xadj[link]; jstop = xadj[link + 1] - 1; i__2 = jstop; for (j = jstrt; j <= i__2; ++j) { node = adjncy[j]; link = -node; if (node < 0) { goto L1700; } else if (node == 0) { goto L2000; } else { goto L1800; } L1800: if (marker[node] >= *tag) { goto L1900; } marker[node] = *tag; deg += qsize[node]; L1900: ; } L2000: ; } L2100: /* ------------------------------------------- */ /* UPDATE EXTERNAL DEGREE OF ENODE IN DEGREE */ /* STRUCTURE, AND MDEG (MIN DEG) IF NECESSARY. */ /* ------------------------------------------- */ deg = deg - qsize[enode] + 1; fnode = dhead[deg]; dforw[enode] = fnode; dbakw[enode] = -deg; if (fnode > 0) { dbakw[fnode] = enode; } dhead[deg] = enode; if (deg < *mdeg) { *mdeg = deg; } L2200: /* ---------------------------------- */ /* GET NEXT ENODE IN CURRENT ELEMENT. */ /* ---------------------------------- */ enode = llist[enode]; if (iq2 == 1) { goto L900; } goto L1600; L2300: /* ----------------------------- */ /* GET NEXT ELEMENT IN THE LIST. */ /* ----------------------------- */ *tag = mtag; elmnt = llist[elmnt]; goto L100; } /* slu_mmdupd_ */ /* *************************************************************** */ /* *************************************************************** */ /* ***** MMDNUM ..... MULTI MINIMUM DEGREE NUMBERING ***** */ /* *************************************************************** */ /* *************************************************************** */ /* AUTHOR - JOSEPH W.H. LIU */ /* DEPT OF COMPUTER SCIENCE, YORK UNIVERSITY. */ /* PURPOSE - THIS ROUTINE PERFORMS THE FINAL STEP IN */ /* PRODUCING THE PERMUTATION AND INVERSE PERMUTATION */ /* VECTORS IN THE MULTIPLE ELIMINATION VERSION OF THE */ /* MINIMUM DEGREE ORDERING ALGORITHM. */ /* INPUT PARAMETERS - */ /* NEQNS - NUMBER OF EQUATIONS. */ /* QSIZE - SIZE OF SUPERNODES AT ELIMINATION. */ /* UPDATED PARAMETERS - */ /* INVP - INVERSE PERMUTATION VECTOR. ON INPUT, */ /* IF QSIZE(NODE)=0, THEN NODE HAS BEEN MERGED */ /* INTO THE NODE -INVP(NODE); OTHERWISE, */ /* -INVP(NODE) IS ITS INVERSE LABELLING. */ /* OUTPUT PARAMETERS - */ /* PERM - THE PERMUTATION VECTOR. */ /* *************************************************************** */ /* Subroutine */ int slu_mmdnum_(int *neqns, shortint *perm, shortint *invp, shortint *qsize) { /* System generated locals */ int i__1; /* Local variables */ int node, root, nextf, father, nqsize, num; /* *************************************************************** */ /* *************************************************************** */ /* Parameter adjustments */ --qsize; --invp; --perm; /* Function Body */ i__1 = *neqns; for (node = 1; node <= i__1; ++node) { nqsize = qsize[node]; if (nqsize <= 0) { perm[node] = invp[node]; } if (nqsize > 0) { perm[node] = -invp[node]; } /* L100: */ } /* ------------------------------------------------------ */ /* FOR EACH NODE WHICH HAS BEEN MERGED, DO THE FOLLOWING. */ /* ------------------------------------------------------ */ i__1 = *neqns; for (node = 1; node <= i__1; ++node) { if (perm[node] > 0) { goto L500; } /* ----------------------------------------- */ /* TRACE THE MERGED TREE UNTIL ONE WHICH HAS */ /* NOT BEEN MERGED, CALL IT ROOT. */ /* ----------------------------------------- */ father = node; L200: if (perm[father] > 0) { goto L300; } father = -perm[father]; goto L200; L300: /* ----------------------- */ /* NUMBER NODE AFTER ROOT. */ /* ----------------------- */ root = father; num = perm[root] + 1; invp[node] = -num; perm[root] = num; /* ------------------------ */ /* SHORTEN THE MERGED TREE. */ /* ------------------------ */ father = node; L400: nextf = -perm[father]; if (nextf <= 0) { goto L500; } perm[father] = -root; father = nextf; goto L400; L500: ; } /* ---------------------- */ /* READY TO COMPUTE PERM. */ /* ---------------------- */ i__1 = *neqns; for (node = 1; node <= i__1; ++node) { num = -invp[node]; invp[node] = num; perm[num] = node; /* L600: */ } return 0; } /* slu_mmdnum_ */