forked from bartvdbraak/blender
4f1c674ee0
http://crd.lbl.gov/~xiaoye/SuperLU/ This is a library to solve sparse matrix systems (type A*x=B). It is able to solve large systems very FAST. Only the necessary parts of the library are included to limit file size and compilation time. This means the example files, fortran interface, test files, matlab interface, cblas library, complex number part and build system have been left out. All (gcc) warnings have been fixed too. This library will be used for LSCM UV unwrapping. With this library, LSCM unwrapping can be calculated in a split second, making the unwrapping proces much more interactive. Added OpenNL (Open Numerical Libary): http://www.loria.fr/~levy/OpenNL/ OpenNL is a library to easily construct and solve sparse linear systems. We use a stripped down version, as an interface to SuperLU. This library was kindly given to use by Bruno Levy.
107 lines
2.9 KiB
C
107 lines
2.9 KiB
C
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/*
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* -- SuperLU routine (version 2.0) --
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* Univ. of California Berkeley, Xerox Palo Alto Research Center,
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* and Lawrence Berkeley National Lab.
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* November 15, 1997
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*
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*/
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/*
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Copyright (c) 1994 by Xerox Corporation. All rights reserved.
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THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY
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EXPRESSED OR IMPLIED. ANY USE IS AT YOUR OWN RISK.
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Permission is hereby granted to use or copy this program for any
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purpose, provided the above notices are retained on all copies.
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Permission to modify the code and to distribute modified code is
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granted, provided the above notices are retained, and a notice that
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the code was modified is included with the above copyright notice.
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*/
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#include "ssp_defs.h"
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#include "util.h"
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int
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ssnode_dfs (
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const int jcol, /* in - start of the supernode */
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const int kcol, /* in - end of the supernode */
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const int *asub, /* in */
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const int *xa_begin, /* in */
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const int *xa_end, /* in */
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int *xprune, /* out */
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int *marker, /* modified */
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GlobalLU_t *Glu /* modified */
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)
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{
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/* Purpose
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* =======
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* ssnode_dfs() - Determine the union of the row structures of those
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* columns within the relaxed snode.
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* Note: The relaxed snodes are leaves of the supernodal etree, therefore,
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* the portion outside the rectangular supernode must be zero.
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*
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* Return value
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* ============
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* 0 success;
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* >0 number of bytes allocated when run out of memory.
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*
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*/
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register int i, k, ifrom, ito, nextl, new_next;
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int nsuper, krow, kmark, mem_error;
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int *xsup, *supno;
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int *lsub, *xlsub;
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int nzlmax;
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xsup = Glu->xsup;
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supno = Glu->supno;
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lsub = Glu->lsub;
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xlsub = Glu->xlsub;
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nzlmax = Glu->nzlmax;
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nsuper = ++supno[jcol]; /* Next available supernode number */
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nextl = xlsub[jcol];
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for (i = jcol; i <= kcol; i++) {
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/* For each nonzero in A[*,i] */
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for (k = xa_begin[i]; k < xa_end[i]; k++) {
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krow = asub[k];
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kmark = marker[krow];
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if ( kmark != kcol ) { /* First time visit krow */
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marker[krow] = kcol;
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lsub[nextl++] = krow;
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if ( nextl >= nzlmax ) {
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if ( (mem_error = sLUMemXpand(jcol, nextl, LSUB, &nzlmax, Glu)) )
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return (mem_error);
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lsub = Glu->lsub;
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}
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}
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}
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supno[i] = nsuper;
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}
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/* Supernode > 1, then make a copy of the subscripts for pruning */
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if ( jcol < kcol ) {
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new_next = nextl + (nextl - xlsub[jcol]);
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while ( new_next > nzlmax ) {
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if ( (mem_error = sLUMemXpand(jcol, nextl, LSUB, &nzlmax, Glu)) )
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return (mem_error);
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lsub = Glu->lsub;
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}
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ito = nextl;
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for (ifrom = xlsub[jcol]; ifrom < nextl; )
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lsub[ito++] = lsub[ifrom++];
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for (i = jcol+1; i <= kcol; i++) xlsub[i] = nextl;
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nextl = ito;
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}
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xsup[nsuper+1] = kcol + 1;
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supno[kcol+1] = nsuper;
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xprune[kcol] = nextl;
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xlsub[kcol+1] = nextl;
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return 0;
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}
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