/* blas/source_tbsv_c.h * * Copyright (C) 1996, 1997, 1998, 1999, 2000 Gerard Jungman * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or (at * your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ { const int conj = (TransA == CblasConjTrans) ? -1 : 1; const int Trans = (TransA != CblasConjTrans) ? TransA : CblasTrans; const int nonunit = (Diag == CblasNonUnit); INDEX i, j; CHECK_ARGS10(TBSV,order,Uplo,TransA,Diag,N,K,A,lda,X,incX); if (N == 0) return; /* form x := inv( A )*x */ if ((order == CblasRowMajor && Trans == CblasNoTrans && Uplo == CblasUpper) || (order == CblasColMajor && Trans == CblasTrans && Uplo == CblasLower)) { INDEX ix = OFFSET(N, incX) + incX * (N - 1); for (i = N; i > 0 && i--;) { BASE tmp_real = REAL(X, ix); BASE tmp_imag = IMAG(X, ix); const INDEX j_min = i + 1; const INDEX j_max = GSL_MIN(N, i + K + 1); INDEX jx = OFFSET(N, incX) + j_min * incX; for (j = j_min; j < j_max; j++) { const BASE Aij_real = CONST_REAL(A, lda * i + (j - i)); const BASE Aij_imag = conj * CONST_IMAG(A, lda * i + (j - i)); const BASE x_real = REAL(X, jx); const BASE x_imag = IMAG(X, jx); tmp_real -= Aij_real * x_real - Aij_imag * x_imag; tmp_imag -= Aij_real * x_imag + Aij_imag * x_real; jx += incX; } if (nonunit) { const BASE a_real = CONST_REAL(A, lda * i + 0); const BASE a_imag = conj * CONST_IMAG(A, lda * i + 0); const BASE s = xhypot(a_real, a_imag); const BASE b_real = a_real / s; const BASE b_imag = a_imag / s; REAL(X, ix) = (tmp_real * b_real + tmp_imag * b_imag) / s; IMAG(X, ix) = (tmp_imag * b_real - tmp_real * b_imag) / s; } else { REAL(X, ix) = tmp_real; IMAG(X, ix) = tmp_imag; } ix -= incX; } } else if ((order == CblasRowMajor && Trans == CblasNoTrans && Uplo == CblasLower) || (order == CblasColMajor && Trans == CblasTrans && Uplo == CblasUpper)) { /* forward substitution */ INDEX ix = OFFSET(N, incX); for (i = 0; i < N; i++) { BASE tmp_real = REAL(X, ix); BASE tmp_imag = IMAG(X, ix); const INDEX j_min = (K > i ? 0 : i - K); const INDEX j_max = i; INDEX jx = OFFSET(N, incX) + j_min * incX; for (j = j_min; j < j_max; j++) { const BASE Aij_real = CONST_REAL(A, lda * i + (K + j - i)); const BASE Aij_imag = conj * CONST_IMAG(A, lda * i + (K + j - i)); const BASE x_real = REAL(X, jx); const BASE x_imag = IMAG(X, jx); tmp_real -= Aij_real * x_real - Aij_imag * x_imag; tmp_imag -= Aij_real * x_imag + Aij_imag * x_real; jx += incX; } if (nonunit) { const BASE a_real = CONST_REAL(A, lda * i + K); const BASE a_imag = conj * CONST_IMAG(A, lda * i + K); const BASE s = xhypot(a_real, a_imag); const BASE b_real = a_real / s; const BASE b_imag = a_imag / s; REAL(X, ix) = (tmp_real * b_real + tmp_imag * b_imag) / s; IMAG(X, ix) = (tmp_imag * b_real - tmp_real * b_imag) / s; } else { REAL(X, ix) = tmp_real; IMAG(X, ix) = tmp_imag; } ix += incX; } } else if ((order == CblasRowMajor && Trans == CblasTrans && Uplo == CblasUpper) || (order == CblasColMajor && Trans == CblasNoTrans && Uplo == CblasLower)) { /* form x := inv( A' )*x */ /* forward substitution */ INDEX ix = OFFSET(N, incX); for (i = 0; i < N; i++) { BASE tmp_real = REAL(X, ix); BASE tmp_imag = IMAG(X, ix); const INDEX j_min = (K > i ? 0 : i - K); const INDEX j_max = i; INDEX jx = OFFSET(N, incX) + j_min * incX; for (j = j_min; j < j_max; j++) { const BASE Aij_real = CONST_REAL(A, (i - j) + lda * j); const BASE Aij_imag = conj * CONST_IMAG(A, (i - j) + lda * j); const BASE x_real = REAL(X, jx); const BASE x_imag = IMAG(X, jx); tmp_real -= Aij_real * x_real - Aij_imag * x_imag; tmp_imag -= Aij_real * x_imag + Aij_imag * x_real; jx += incX; } if (nonunit) { const BASE a_real = CONST_REAL(A, 0 + lda * i); const BASE a_imag = conj * CONST_IMAG(A, 0 + lda * i); const BASE s = xhypot(a_real, a_imag); const BASE b_real = a_real / s; const BASE b_imag = a_imag / s; REAL(X, ix) = (tmp_real * b_real + tmp_imag * b_imag) / s; IMAG(X, ix) = (tmp_imag * b_real - tmp_real * b_imag) / s; } else { REAL(X, ix) = tmp_real; IMAG(X, ix) = tmp_imag; } ix += incX; } } else if ((order == CblasRowMajor && Trans == CblasTrans && Uplo == CblasLower) || (order == CblasColMajor && Trans == CblasNoTrans && Uplo == CblasUpper)) { /* backsubstitution */ INDEX ix = OFFSET(N, incX) + incX * (N - 1); for (i = N; i > 0 && i--;) { BASE tmp_real = REAL(X, ix); BASE tmp_imag = IMAG(X, ix); const INDEX j_min = i + 1; const INDEX j_max = GSL_MIN(N, i + K + 1); INDEX jx = OFFSET(N, incX) + j_min * incX; for (j = j_min; j < j_max; j++) { const BASE Aij_real = CONST_REAL(A, (K + i - j) + lda * j); const BASE Aij_imag = conj * CONST_IMAG(A, (K + i - j) + lda * j); const BASE x_real = REAL(X, jx); const BASE x_imag = IMAG(X, jx); tmp_real -= Aij_real * x_real - Aij_imag * x_imag; tmp_imag -= Aij_real * x_imag + Aij_imag * x_real; jx += incX; } if (nonunit) { const BASE a_real = CONST_REAL(A, K + lda * i); const BASE a_imag = conj * CONST_IMAG(A, K + lda * i); const BASE s = xhypot(a_real, a_imag); const BASE b_real = a_real / s; const BASE b_imag = a_imag / s; REAL(X, ix) = (tmp_real * b_real + tmp_imag * b_imag) / s; IMAG(X, ix) = (tmp_imag * b_real - tmp_real * b_imag) / s; } else { REAL(X, ix) = tmp_real; IMAG(X, ix) = tmp_imag; } ix -= incX; } } else { BLAS_ERROR("unrecognized operation"); } }