/*! @file zmyblas2.c * \brief Level 2 Blas operations * *

 * -- SuperLU routine (version 2.0) --
 * Univ. of California Berkeley, Xerox Palo Alto Research Center,
 * and Lawrence Berkeley National Lab.
 * November 15, 1997
 *

* Purpose: * Level 2 BLAS operations: solves and matvec, written in C. * Note: * This is only used when the system lacks an efficient BLAS library. * */ /* * File name: zmyblas2.c */ #include "slu_dcomplex.h" /*! \brief Solves a dense UNIT lower triangular system * * The unit lower * triangular matrix is stored in a 2D array M(1:nrow,1:ncol). * The solution will be returned in the rhs vector. */ void zlsolve ( int ldm, int ncol, doublecomplex *M, doublecomplex *rhs ) { int k; doublecomplex x0, x1, x2, x3, temp; doublecomplex *M0; doublecomplex *Mki0, *Mki1, *Mki2, *Mki3; register int firstcol = 0; M0 = &M[0]; while ( firstcol < ncol - 3 ) { /* Do 4 columns */ Mki0 = M0 + 1; Mki1 = Mki0 + ldm + 1; Mki2 = Mki1 + ldm + 1; Mki3 = Mki2 + ldm + 1; x0 = rhs[firstcol]; zz_mult(&temp, &x0, Mki0); Mki0++; z_sub(&x1, &rhs[firstcol+1], &temp); zz_mult(&temp, &x0, Mki0); Mki0++; z_sub(&x2, &rhs[firstcol+2], &temp); zz_mult(&temp, &x1, Mki1); Mki1++; z_sub(&x2, &x2, &temp); zz_mult(&temp, &x0, Mki0); Mki0++; z_sub(&x3, &rhs[firstcol+3], &temp); zz_mult(&temp, &x1, Mki1); Mki1++; z_sub(&x3, &x3, &temp); zz_mult(&temp, &x2, Mki2); Mki2++; z_sub(&x3, &x3, &temp); rhs[++firstcol] = x1; rhs[++firstcol] = x2; rhs[++firstcol] = x3; ++firstcol; for (k = firstcol; k < ncol; k++) { zz_mult(&temp, &x0, Mki0); Mki0++; z_sub(&rhs[k], &rhs[k], &temp); zz_mult(&temp, &x1, Mki1); Mki1++; z_sub(&rhs[k], &rhs[k], &temp); zz_mult(&temp, &x2, Mki2); Mki2++; z_sub(&rhs[k], &rhs[k], &temp); zz_mult(&temp, &x3, Mki3); Mki3++; z_sub(&rhs[k], &rhs[k], &temp); } M0 += 4 * ldm + 4; } if ( firstcol < ncol - 1 ) { /* Do 2 columns */ Mki0 = M0 + 1; Mki1 = Mki0 + ldm + 1; x0 = rhs[firstcol]; zz_mult(&temp, &x0, Mki0); Mki0++; z_sub(&x1, &rhs[firstcol+1], &temp); rhs[++firstcol] = x1; ++firstcol; for (k = firstcol; k < ncol; k++) { zz_mult(&temp, &x0, Mki0); Mki0++; z_sub(&rhs[k], &rhs[k], &temp); zz_mult(&temp, &x1, Mki1); Mki1++; z_sub(&rhs[k], &rhs[k], &temp); } } } /*! \brief Solves a dense upper triangular system. * * The upper triangular matrix is * stored in a 2-dim array M(1:ldm,1:ncol). The solution will be returned * in the rhs vector. */ void zusolve ( ldm, ncol, M, rhs ) int ldm; /* in */ int ncol; /* in */ doublecomplex *M; /* in */ doublecomplex *rhs; /* modified */ { doublecomplex xj, temp; int jcol, j, irow; jcol = ncol - 1; for (j = 0; j < ncol; j++) { z_div(&xj, &rhs[jcol], &M[jcol + jcol*ldm]); /* M(jcol, jcol) */ rhs[jcol] = xj; for (irow = 0; irow < jcol; irow++) { zz_mult(&temp, &xj, &M[irow+jcol*ldm]); /* M(irow, jcol) */ z_sub(&rhs[irow], &rhs[irow], &temp); } jcol--; } } /*! \brief Performs a dense matrix-vector multiply: Mxvec = Mxvec + M * vec. * * The input matrix is M(1:nrow,1:ncol); The product is returned in Mxvec[]. */ void zmatvec ( ldm, nrow, ncol, M, vec, Mxvec ) int ldm; /* in -- leading dimension of M */ int nrow; /* in */ int ncol; /* in */ doublecomplex *M; /* in */ doublecomplex *vec; /* in */ doublecomplex *Mxvec; /* in/out */ { doublecomplex vi0, vi1, vi2, vi3; doublecomplex *M0, temp; doublecomplex *Mki0, *Mki1, *Mki2, *Mki3; register int firstcol = 0; int k; M0 = &M[0]; while ( firstcol < ncol - 3 ) { /* Do 4 columns */ Mki0 = M0; Mki1 = Mki0 + ldm; Mki2 = Mki1 + ldm; Mki3 = Mki2 + ldm; vi0 = vec[firstcol++]; vi1 = vec[firstcol++]; vi2 = vec[firstcol++]; vi3 = vec[firstcol++]; for (k = 0; k < nrow; k++) { zz_mult(&temp, &vi0, Mki0); Mki0++; z_add(&Mxvec[k], &Mxvec[k], &temp); zz_mult(&temp, &vi1, Mki1); Mki1++; z_add(&Mxvec[k], &Mxvec[k], &temp); zz_mult(&temp, &vi2, Mki2); Mki2++; z_add(&Mxvec[k], &Mxvec[k], &temp); zz_mult(&temp, &vi3, Mki3); Mki3++; z_add(&Mxvec[k], &Mxvec[k], &temp); } M0 += 4 * ldm; } while ( firstcol < ncol ) { /* Do 1 column */ Mki0 = M0; vi0 = vec[firstcol++]; for (k = 0; k < nrow; k++) { zz_mult(&temp, &vi0, Mki0); Mki0++; z_add(&Mxvec[k], &Mxvec[k], &temp); } M0 += ldm; } }