/*! \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. */ /*! @file ilu_ccopy_to_ucol.c * \brief Copy a computed column of U to the compressed data structure * and drop some small entries * *
* -- SuperLU routine (version 4.1) -- * Lawrence Berkeley National Laboratory * November, 2010 **/ #include "slu_cdefs.h" #ifdef DEBUG int num_drop_U; #endif extern void ccopy_(int *, complex [], int *, complex [], int *); #if 0 static complex *A; /* used in _compare_ only */ static int _compare_(const void *a, const void *b) { register int *x = (int *)a, *y = (int *)b; register float xx = c_abs1(&A[*x]), yy = c_abs1(&A[*y]); if (xx > yy) return -1; else if (xx < yy) return 1; else return 0; } #endif int ilu_ccopy_to_ucol( int jcol, /* in */ int nseg, /* in */ int *segrep, /* in */ int *repfnz, /* in */ int *perm_r, /* in */ complex *dense, /* modified - reset to zero on return */ int drop_rule,/* in */ milu_t milu, /* in */ double drop_tol, /* in */ int quota, /* maximum nonzero entries allowed */ complex *sum, /* out - the sum of dropped entries */ int *nnzUj, /* in - out */ GlobalLU_t *Glu, /* modified */ float *work /* working space with minimum size n, * used by the second dropping rule */ ) { /* * Gather from SPA dense[*] to global ucol[*]. */ int ksub, krep, ksupno; int i, k, kfnz, segsze; int fsupc, isub, irow; int jsupno, nextu; int new_next, mem_error; int *xsup, *supno; int *lsub, *xlsub; complex *ucol; int *usub, *xusub; int nzumax; int m; /* number of entries in the nonzero U-segments */ register float d_max = 0.0, d_min = 1.0 / smach("Safe minimum"); register double tmp; complex zero = {0.0, 0.0}; int i_1 = 1; xsup = Glu->xsup; supno = Glu->supno; lsub = Glu->lsub; xlsub = Glu->xlsub; ucol = (complex *) Glu->ucol; usub = Glu->usub; xusub = Glu->xusub; nzumax = Glu->nzumax; *sum = zero; if (drop_rule == NODROP) { drop_tol = -1.0, quota = Glu->n; } jsupno = supno[jcol]; nextu = xusub[jcol]; k = nseg - 1; for (ksub = 0; ksub < nseg; ksub++) { krep = segrep[k--]; ksupno = supno[krep]; if ( ksupno != jsupno ) { /* Should go into ucol[] */ kfnz = repfnz[krep]; if ( kfnz != EMPTY ) { /* Nonzero U-segment */ fsupc = xsup[ksupno]; isub = xlsub[fsupc] + kfnz - fsupc; segsze = krep - kfnz + 1; new_next = nextu + segsze; while ( new_next > nzumax ) { if ((mem_error = cLUMemXpand(jcol, nextu, UCOL, &nzumax, Glu)) != 0) return (mem_error); ucol = Glu->ucol; if ((mem_error = cLUMemXpand(jcol, nextu, USUB, &nzumax, Glu)) != 0) return (mem_error); usub = Glu->usub; lsub = Glu->lsub; } for (i = 0; i < segsze; i++) { irow = lsub[isub++]; tmp = c_abs1(&dense[irow]); /* first dropping rule */ if (quota > 0 && tmp >= drop_tol) { if (tmp > d_max) d_max = tmp; if (tmp < d_min) d_min = tmp; usub[nextu] = perm_r[irow]; ucol[nextu] = dense[irow]; nextu++; } else { switch (milu) { case SMILU_1: case SMILU_2: c_add(sum, sum, &dense[irow]); break; case SMILU_3: /* *sum += fabs(dense[irow]);*/ sum->r += tmp; break; case SILU: default: break; } #ifdef DEBUG num_drop_U++; #endif } dense[irow] = zero; } } } } /* for each segment... */ xusub[jcol + 1] = nextu; /* Close U[*,jcol] */ m = xusub[jcol + 1] - xusub[jcol]; /* second dropping rule */ if (drop_rule & DROP_SECONDARY && m > quota) { register double tol = d_max; register int m0 = xusub[jcol] + m - 1; if (quota > 0) { if (drop_rule & DROP_INTERP) { d_max = 1.0 / d_max; d_min = 1.0 / d_min; tol = 1.0 / (d_max + (d_min - d_max) * quota / m); } else { i_1 = xusub[jcol]; for (i = 0; i < m; ++i, ++i_1) work[i] = c_abs1(&ucol[i_1]); tol = sqselect(m, work, quota); #if 0 A = &ucol[xusub[jcol]]; for (i = 0; i < m; i++) work[i] = i; qsort(work, m, sizeof(int), _compare_); tol = fabs(usub[xusub[jcol] + work[quota]]); #endif } } for (i = xusub[jcol]; i <= m0; ) { if (c_abs1(&ucol[i]) <= tol) { switch (milu) { case SMILU_1: case SMILU_2: c_add(sum, sum, &ucol[i]); break; case SMILU_3: sum->r += tmp; break; case SILU: default: break; } ucol[i] = ucol[m0]; usub[i] = usub[m0]; m0--; m--; #ifdef DEBUG num_drop_U++; #endif xusub[jcol + 1]--; continue; } i++; } } if (milu == SMILU_2) { sum->r = c_abs1(sum); sum->i = 0.0; } if (milu == SMILU_3) sum->i = 0.0; *nnzUj += m; return 0; }