#include "blas_extended.h" #include "blas_extended_private.h" void BLAS_zsbmv_z_c_x(enum blas_order_type order, enum blas_uplo_type uplo, int n, int k, const void *alpha, const void *a, int lda, const void *x, int incx, const void *beta, void *y, int incy, enum blas_prec_type prec) /* * Purpose * ======= * * This routines computes the matrix product: * * y <- alpha * A * x + beta * y * * where A is a symmetric band matrix. * * Arguments * ========= * * order (input) enum blas_order_type * Storage format of input symmetric matrix A. * * uplo (input) enum blas_uplo_type * Determines which half of matrix A (upper or lower triangle) * is accessed. * * n (input) int * Dimension of A and size of vectors x, y. * * k (input) int * Number of subdiagonals ( = number of superdiagonals) * * alpha (input) const void* * * a (input) void* * Matrix A. * * lda (input) int * Leading dimension of matrix A. * * x (input) void* * Vector x. * * incx (input) int * Stride for vector x. * * beta (input) const void* * * y (input/output) void* * Vector y. * * incy (input) int * Stride for vector y. * * prec (input) enum blas_prec_type * Specifies the internal precision to be used. * = blas_prec_single: single precision. * = blas_prec_double: double precision. * = blas_prec_extra : anything at least 1.5 times as accurate * than double, and wider than 80-bits. * We use double-double in our implementation. * * * Notes on storing a symmetric band matrix: * * Integers in the below arrays represent values of * type complex double. * * if we have a symettric matrix: * * 1 2 3 0 0 * 2 4 5 6 0 * 3 5 7 8 9 * 0 6 8 10 11 * 0 0 9 11 12 * * This matrix has n == 5, and k == 2. It can be stored in the * following ways: * * Notes for the examples: * Each column below represents a contigous vector. * Columns are strided by lda. * An asterisk (*) represents a position in the * matrix that is not used. * Note that the minimum lda (size of column) is 3 (k+1). * lda may be arbitrarily large; an lda > 3 would mean * there would be unused data at the bottom of the below * columns. * * blas_colmajor and blas_upper: * * * 3 6 9 * * 2 5 8 11 * 1 4 7 10 12 * * * blas_colmajor and blas_lower * 1 4 7 10 12 * 2 5 8 11 * * 3 6 9 * * * * * blas_rowmajor and blas_upper * Columns here also represent contigous arrays. * 1 4 7 10 12 * 2 5 8 11 * * 3 6 9 * * * * * blas_rowmajor and blas_lower * Columns here also represent contigous arrays. * * * 3 6 9 * * 2 5 8 11 * 1 4 7 10 12 * */ { static const char routine_name[] = "BLAS_zsbmv_z_c_x"; switch (prec) { case blas_prec_single: case blas_prec_indigenous: case blas_prec_double:{ /* Integer Index Variables */ int i, j; int xi, yi; int aij, astarti, x_starti, y_starti; int incaij, incaij2; int n_i; int maxj_first, maxj_second; /* Input Matrices */ const double *a_i = (double *) a; const float *x_i = (float *) x; /* Output Vector */ double *y_i = (double *) y; /* Input Scalars */ double *alpha_i = (double *) alpha; double *beta_i = (double *) beta; /* Temporary Floating-Point Variables */ double a_elem[2]; float x_elem[2]; double y_elem[2]; double prod[2]; double sum[2]; double tmp1[2]; double tmp2[2]; /* Test for no-op */ if (n <= 0) { return; } if (alpha_i[0] == 0.0 && alpha_i[1] == 0.0 && (beta_i[0] == 1.0 && beta_i[1] == 0.0)) { return; } /* Check for error conditions. */ if (order != blas_colmajor && order != blas_rowmajor) { BLAS_error(routine_name, -1, order, 0); } if (uplo != blas_upper && uplo != blas_lower) { BLAS_error(routine_name, -2, uplo, 0); } if (n < 0) { BLAS_error(routine_name, -3, n, 0); } if (k < 0 || k > n) { BLAS_error(routine_name, -4, k, 0); } if ((lda < k + 1) || (lda < 1)) { BLAS_error(routine_name, -7, lda, 0); } if (incx == 0) { BLAS_error(routine_name, -9, incx, 0); } if (incy == 0) { BLAS_error(routine_name, -12, incy, 0); } /* Set Index Parameters */ n_i = n; if (((uplo == blas_upper) && (order == blas_colmajor)) || ((uplo == blas_lower) && (order == blas_rowmajor))) { incaij = 1; /* increment in first loop */ incaij2 = lda - 1; /* increment in second loop */ astarti = k; /* does not start on zero element */ } else { incaij = lda - 1; incaij2 = 1; astarti = 0; /* start on first element of array */ } /* Adjustment to increments (if any) */ incx *= 2; incy *= 2; astarti *= 2; incaij *= 2; incaij2 *= 2; if (incx < 0) { x_starti = (-n_i + 1) * incx; } else { x_starti = 0; } if (incy < 0) { y_starti = (-n_i + 1) * incy; } else { y_starti = 0; } /* alpha = 0. In this case, just return beta * y */ if (alpha_i[0] == 0.0 && alpha_i[1] == 0.0) { for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { y_elem[0] = y_i[yi]; y_elem[1] = y_i[yi + 1]; { tmp1[0] = (double) y_elem[0] * beta_i[0] - (double) y_elem[1] * beta_i[1]; tmp1[1] = (double) y_elem[0] * beta_i[1] + (double) y_elem[1] * beta_i[0]; } y_i[yi] = tmp1[0]; y_i[yi + 1] = tmp1[1]; } } else { /* determine the loop interation counts */ /* number of elements done in first loop (this will increase by one over each column up to a limit) */ maxj_first = 0; /* number of elements done in second loop the first time */ maxj_second = MIN(k + 1, n_i); /* Case alpha == 1. */ if ((alpha_i[0] == 1.0 && alpha_i[1] == 0.0)) { if (beta_i[0] == 0.0 && beta_i[1] == 0.0) { /* Case alpha = 1, beta = 0. We compute y <--- A * x */ for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { sum[0] = sum[1] = 0.0; for (j = 0, aij = astarti, xi = x_starti; j < maxj_first; j++, aij += incaij, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { prod[0] = (double) a_elem[0] * x_elem[0] - (double) a_elem[1] * x_elem[1]; prod[1] = (double) a_elem[0] * x_elem[1] + (double) a_elem[1] * x_elem[0]; } sum[0] = sum[0] + prod[0]; sum[1] = sum[1] + prod[1]; } for (j = 0; j < maxj_second; j++, aij += incaij2, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { prod[0] = (double) a_elem[0] * x_elem[0] - (double) a_elem[1] * x_elem[1]; prod[1] = (double) a_elem[0] * x_elem[1] + (double) a_elem[1] * x_elem[0]; } sum[0] = sum[0] + prod[0]; sum[1] = sum[1] + prod[1]; } y_i[yi] = sum[0]; y_i[yi + 1] = sum[1]; if (i + 1 >= (n_i - k)) maxj_second--; if (i >= k) { astarti += (incaij + incaij2); x_starti += incx; } else { maxj_first++; astarti += incaij2; } } } else { /* Case alpha = 1, but beta != 0. We compute y <--- A * x + beta * y */ for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { sum[0] = sum[1] = 0.0; for (j = 0, aij = astarti, xi = x_starti; j < maxj_first; j++, aij += incaij, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { prod[0] = (double) a_elem[0] * x_elem[0] - (double) a_elem[1] * x_elem[1]; prod[1] = (double) a_elem[0] * x_elem[1] + (double) a_elem[1] * x_elem[0]; } sum[0] = sum[0] + prod[0]; sum[1] = sum[1] + prod[1]; } for (j = 0; j < maxj_second; j++, aij += incaij2, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { prod[0] = (double) a_elem[0] * x_elem[0] - (double) a_elem[1] * x_elem[1]; prod[1] = (double) a_elem[0] * x_elem[1] + (double) a_elem[1] * x_elem[0]; } sum[0] = sum[0] + prod[0]; sum[1] = sum[1] + prod[1]; } y_elem[0] = y_i[yi]; y_elem[1] = y_i[yi + 1]; { tmp2[0] = (double) y_elem[0] * beta_i[0] - (double) y_elem[1] * beta_i[1]; tmp2[1] = (double) y_elem[0] * beta_i[1] + (double) y_elem[1] * beta_i[0]; } tmp1[0] = sum[0]; tmp1[1] = sum[1]; tmp1[0] = tmp2[0] + tmp1[0]; tmp1[1] = tmp2[1] + tmp1[1]; y_i[yi] = tmp1[0]; y_i[yi + 1] = tmp1[1]; if (i + 1 >= (n_i - k)) maxj_second--; if (i >= k) { astarti += (incaij + incaij2); x_starti += incx; } else { maxj_first++; astarti += incaij2; } } } } else { if (beta_i[0] == 0.0 && beta_i[1] == 0.0) { /* Case alpha != 1, but beta == 0. We compute y <--- A * x * a */ for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { sum[0] = sum[1] = 0.0; for (j = 0, aij = astarti, xi = x_starti; j < maxj_first; j++, aij += incaij, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { prod[0] = (double) a_elem[0] * x_elem[0] - (double) a_elem[1] * x_elem[1]; prod[1] = (double) a_elem[0] * x_elem[1] + (double) a_elem[1] * x_elem[0]; } sum[0] = sum[0] + prod[0]; sum[1] = sum[1] + prod[1]; } for (j = 0; j < maxj_second; j++, aij += incaij2, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { prod[0] = (double) a_elem[0] * x_elem[0] - (double) a_elem[1] * x_elem[1]; prod[1] = (double) a_elem[0] * x_elem[1] + (double) a_elem[1] * x_elem[0]; } sum[0] = sum[0] + prod[0]; sum[1] = sum[1] + prod[1]; } y_elem[0] = y_i[yi]; y_elem[1] = y_i[yi + 1]; { tmp1[0] = (double) sum[0] * alpha_i[0] - (double) sum[1] * alpha_i[1]; tmp1[1] = (double) sum[0] * alpha_i[1] + (double) sum[1] * alpha_i[0]; } y_i[yi] = tmp1[0]; y_i[yi + 1] = tmp1[1]; if (i + 1 >= (n_i - k)) maxj_second--; if (i >= k) { astarti += (incaij + incaij2); x_starti += incx; } else { maxj_first++; astarti += incaij2; } } } else { /* The most general form, y <--- alpha * A * x + beta * y */ for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { sum[0] = sum[1] = 0.0; for (j = 0, aij = astarti, xi = x_starti; j < maxj_first; j++, aij += incaij, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { prod[0] = (double) a_elem[0] * x_elem[0] - (double) a_elem[1] * x_elem[1]; prod[1] = (double) a_elem[0] * x_elem[1] + (double) a_elem[1] * x_elem[0]; } sum[0] = sum[0] + prod[0]; sum[1] = sum[1] + prod[1]; } for (j = 0; j < maxj_second; j++, aij += incaij2, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { prod[0] = (double) a_elem[0] * x_elem[0] - (double) a_elem[1] * x_elem[1]; prod[1] = (double) a_elem[0] * x_elem[1] + (double) a_elem[1] * x_elem[0]; } sum[0] = sum[0] + prod[0]; sum[1] = sum[1] + prod[1]; } y_elem[0] = y_i[yi]; y_elem[1] = y_i[yi + 1]; { tmp2[0] = (double) y_elem[0] * beta_i[0] - (double) y_elem[1] * beta_i[1]; tmp2[1] = (double) y_elem[0] * beta_i[1] + (double) y_elem[1] * beta_i[0]; } { tmp1[0] = (double) sum[0] * alpha_i[0] - (double) sum[1] * alpha_i[1]; tmp1[1] = (double) sum[0] * alpha_i[1] + (double) sum[1] * alpha_i[0]; } tmp1[0] = tmp2[0] + tmp1[0]; tmp1[1] = tmp2[1] + tmp1[1]; y_i[yi] = tmp1[0]; y_i[yi + 1] = tmp1[1]; if (i + 1 >= (n_i - k)) maxj_second--; if (i >= k) { astarti += (incaij + incaij2); x_starti += incx; } else { maxj_first++; astarti += incaij2; } } } } } break; } case blas_prec_extra:{ /* Integer Index Variables */ int i, j; int xi, yi; int aij, astarti, x_starti, y_starti; int incaij, incaij2; int n_i; int maxj_first, maxj_second; /* Input Matrices */ const double *a_i = (double *) a; const float *x_i = (float *) x; /* Output Vector */ double *y_i = (double *) y; /* Input Scalars */ double *alpha_i = (double *) alpha; double *beta_i = (double *) beta; /* Temporary Floating-Point Variables */ double a_elem[2]; float x_elem[2]; double y_elem[2]; double head_prod[2], tail_prod[2]; double head_sum[2], tail_sum[2]; double head_tmp1[2], tail_tmp1[2]; double head_tmp2[2], tail_tmp2[2]; FPU_FIX_DECL; /* Test for no-op */ if (n <= 0) { return; } if (alpha_i[0] == 0.0 && alpha_i[1] == 0.0 && (beta_i[0] == 1.0 && beta_i[1] == 0.0)) { return; } /* Check for error conditions. */ if (order != blas_colmajor && order != blas_rowmajor) { BLAS_error(routine_name, -1, order, 0); } if (uplo != blas_upper && uplo != blas_lower) { BLAS_error(routine_name, -2, uplo, 0); } if (n < 0) { BLAS_error(routine_name, -3, n, 0); } if (k < 0 || k > n) { BLAS_error(routine_name, -4, k, 0); } if ((lda < k + 1) || (lda < 1)) { BLAS_error(routine_name, -7, lda, 0); } if (incx == 0) { BLAS_error(routine_name, -9, incx, 0); } if (incy == 0) { BLAS_error(routine_name, -12, incy, 0); } /* Set Index Parameters */ n_i = n; if (((uplo == blas_upper) && (order == blas_colmajor)) || ((uplo == blas_lower) && (order == blas_rowmajor))) { incaij = 1; /* increment in first loop */ incaij2 = lda - 1; /* increment in second loop */ astarti = k; /* does not start on zero element */ } else { incaij = lda - 1; incaij2 = 1; astarti = 0; /* start on first element of array */ } /* Adjustment to increments (if any) */ incx *= 2; incy *= 2; astarti *= 2; incaij *= 2; incaij2 *= 2; if (incx < 0) { x_starti = (-n_i + 1) * incx; } else { x_starti = 0; } if (incy < 0) { y_starti = (-n_i + 1) * incy; } else { y_starti = 0; } FPU_FIX_START; /* alpha = 0. In this case, just return beta * y */ if (alpha_i[0] == 0.0 && alpha_i[1] == 0.0) { for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { y_elem[0] = y_i[yi]; y_elem[1] = y_i[yi + 1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[0] * split; a1 = con - y_elem[0]; a1 = con - a1; a2 = y_elem[0] - a1; con = beta_i[0] * split; b1 = con - beta_i[0]; b1 = con - b1; b2 = beta_i[0] - b1; head_t1 = y_elem[0] * beta_i[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[1] * split; a1 = con - y_elem[1]; a1 = con - a1; a2 = y_elem[1] - a1; con = beta_i[1] * split; b1 = con - beta_i[1]; b1 = con - b1; b2 = beta_i[1] - b1; head_t2 = y_elem[1] * beta_i[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp1[0] = head_t1; tail_tmp1[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[1] * split; a1 = con - y_elem[1]; a1 = con - a1; a2 = y_elem[1] - a1; con = beta_i[0] * split; b1 = con - beta_i[0]; b1 = con - b1; b2 = beta_i[0] - b1; head_t1 = y_elem[1] * beta_i[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[0] * split; a1 = con - y_elem[0]; a1 = con - a1; a2 = y_elem[0] - a1; con = beta_i[1] * split; b1 = con - beta_i[1]; b1 = con - b1; b2 = beta_i[1] - b1; head_t2 = y_elem[0] * beta_i[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp1[1] = head_t1; tail_tmp1[1] = tail_t1; } y_i[yi] = head_tmp1[0]; y_i[yi + 1] = head_tmp1[1]; } } else { /* determine the loop interation counts */ /* number of elements done in first loop (this will increase by one over each column up to a limit) */ maxj_first = 0; /* number of elements done in second loop the first time */ maxj_second = MIN(k + 1, n_i); /* Case alpha == 1. */ if ((alpha_i[0] == 1.0 && alpha_i[1] == 0.0)) { if (beta_i[0] == 0.0 && beta_i[1] == 0.0) { /* Case alpha = 1, beta = 0. We compute y <--- A * x */ for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { head_sum[0] = head_sum[1] = tail_sum[0] = tail_sum[1] = 0.0; for (j = 0, aij = astarti, xi = x_starti; j < maxj_first; j++, aij += incaij, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { double cd[2]; cd[0] = (double) x_elem[0]; cd[1] = (double) x_elem[1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[0] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[1] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[0] = head_t1; tail_prod[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[1] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[0] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[1] = head_t1; tail_prod[1] = tail_t1; } } { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_sum[0]; tail_a = tail_sum[0]; head_b = head_prod[0]; tail_b = tail_prod[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[0] = head_t; tail_sum[0] = tail_t; /* Imaginary part */ head_a = head_sum[1]; tail_a = tail_sum[1]; head_b = head_prod[1]; tail_b = tail_prod[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[1] = head_t; tail_sum[1] = tail_t; } } for (j = 0; j < maxj_second; j++, aij += incaij2, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { double cd[2]; cd[0] = (double) x_elem[0]; cd[1] = (double) x_elem[1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[0] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[1] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[0] = head_t1; tail_prod[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[1] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[0] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[1] = head_t1; tail_prod[1] = tail_t1; } } { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_sum[0]; tail_a = tail_sum[0]; head_b = head_prod[0]; tail_b = tail_prod[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[0] = head_t; tail_sum[0] = tail_t; /* Imaginary part */ head_a = head_sum[1]; tail_a = tail_sum[1]; head_b = head_prod[1]; tail_b = tail_prod[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[1] = head_t; tail_sum[1] = tail_t; } } y_i[yi] = head_sum[0]; y_i[yi + 1] = head_sum[1]; if (i + 1 >= (n_i - k)) maxj_second--; if (i >= k) { astarti += (incaij + incaij2); x_starti += incx; } else { maxj_first++; astarti += incaij2; } } } else { /* Case alpha = 1, but beta != 0. We compute y <--- A * x + beta * y */ for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { head_sum[0] = head_sum[1] = tail_sum[0] = tail_sum[1] = 0.0; for (j = 0, aij = astarti, xi = x_starti; j < maxj_first; j++, aij += incaij, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { double cd[2]; cd[0] = (double) x_elem[0]; cd[1] = (double) x_elem[1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[0] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[1] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[0] = head_t1; tail_prod[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[1] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[0] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[1] = head_t1; tail_prod[1] = tail_t1; } } { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_sum[0]; tail_a = tail_sum[0]; head_b = head_prod[0]; tail_b = tail_prod[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[0] = head_t; tail_sum[0] = tail_t; /* Imaginary part */ head_a = head_sum[1]; tail_a = tail_sum[1]; head_b = head_prod[1]; tail_b = tail_prod[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[1] = head_t; tail_sum[1] = tail_t; } } for (j = 0; j < maxj_second; j++, aij += incaij2, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { double cd[2]; cd[0] = (double) x_elem[0]; cd[1] = (double) x_elem[1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[0] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[1] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[0] = head_t1; tail_prod[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[1] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[0] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[1] = head_t1; tail_prod[1] = tail_t1; } } { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_sum[0]; tail_a = tail_sum[0]; head_b = head_prod[0]; tail_b = tail_prod[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[0] = head_t; tail_sum[0] = tail_t; /* Imaginary part */ head_a = head_sum[1]; tail_a = tail_sum[1]; head_b = head_prod[1]; tail_b = tail_prod[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[1] = head_t; tail_sum[1] = tail_t; } } y_elem[0] = y_i[yi]; y_elem[1] = y_i[yi + 1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[0] * split; a1 = con - y_elem[0]; a1 = con - a1; a2 = y_elem[0] - a1; con = beta_i[0] * split; b1 = con - beta_i[0]; b1 = con - b1; b2 = beta_i[0] - b1; head_t1 = y_elem[0] * beta_i[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[1] * split; a1 = con - y_elem[1]; a1 = con - a1; a2 = y_elem[1] - a1; con = beta_i[1] * split; b1 = con - beta_i[1]; b1 = con - b1; b2 = beta_i[1] - b1; head_t2 = y_elem[1] * beta_i[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp2[0] = head_t1; tail_tmp2[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[1] * split; a1 = con - y_elem[1]; a1 = con - a1; a2 = y_elem[1] - a1; con = beta_i[0] * split; b1 = con - beta_i[0]; b1 = con - b1; b2 = beta_i[0] - b1; head_t1 = y_elem[1] * beta_i[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[0] * split; a1 = con - y_elem[0]; a1 = con - a1; a2 = y_elem[0] - a1; con = beta_i[1] * split; b1 = con - beta_i[1]; b1 = con - b1; b2 = beta_i[1] - b1; head_t2 = y_elem[0] * beta_i[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp2[1] = head_t1; tail_tmp2[1] = tail_t1; } head_tmp1[0] = head_sum[0]; tail_tmp1[0] = tail_sum[0]; head_tmp1[1] = head_sum[1]; tail_tmp1[1] = tail_sum[1]; { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_tmp2[0]; tail_a = tail_tmp2[0]; head_b = head_tmp1[0]; tail_b = tail_tmp1[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_tmp1[0] = head_t; tail_tmp1[0] = tail_t; /* Imaginary part */ head_a = head_tmp2[1]; tail_a = tail_tmp2[1]; head_b = head_tmp1[1]; tail_b = tail_tmp1[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_tmp1[1] = head_t; tail_tmp1[1] = tail_t; } y_i[yi] = head_tmp1[0]; y_i[yi + 1] = head_tmp1[1]; if (i + 1 >= (n_i - k)) maxj_second--; if (i >= k) { astarti += (incaij + incaij2); x_starti += incx; } else { maxj_first++; astarti += incaij2; } } } } else { if (beta_i[0] == 0.0 && beta_i[1] == 0.0) { /* Case alpha != 1, but beta == 0. We compute y <--- A * x * a */ for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { head_sum[0] = head_sum[1] = tail_sum[0] = tail_sum[1] = 0.0; for (j = 0, aij = astarti, xi = x_starti; j < maxj_first; j++, aij += incaij, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { double cd[2]; cd[0] = (double) x_elem[0]; cd[1] = (double) x_elem[1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[0] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[1] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[0] = head_t1; tail_prod[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[1] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[0] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[1] = head_t1; tail_prod[1] = tail_t1; } } { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_sum[0]; tail_a = tail_sum[0]; head_b = head_prod[0]; tail_b = tail_prod[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[0] = head_t; tail_sum[0] = tail_t; /* Imaginary part */ head_a = head_sum[1]; tail_a = tail_sum[1]; head_b = head_prod[1]; tail_b = tail_prod[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[1] = head_t; tail_sum[1] = tail_t; } } for (j = 0; j < maxj_second; j++, aij += incaij2, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { double cd[2]; cd[0] = (double) x_elem[0]; cd[1] = (double) x_elem[1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[0] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[1] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[0] = head_t1; tail_prod[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[1] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[0] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[1] = head_t1; tail_prod[1] = tail_t1; } } { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_sum[0]; tail_a = tail_sum[0]; head_b = head_prod[0]; tail_b = tail_prod[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[0] = head_t; tail_sum[0] = tail_t; /* Imaginary part */ head_a = head_sum[1]; tail_a = tail_sum[1]; head_b = head_prod[1]; tail_b = tail_prod[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[1] = head_t; tail_sum[1] = tail_t; } } y_elem[0] = y_i[yi]; y_elem[1] = y_i[yi + 1]; { /* Compute complex-extra = complex-extra * complex-double. */ double head_a0, tail_a0; double head_a1, tail_a1; double head_t1, tail_t1; double head_t2, tail_t2; head_a0 = head_sum[0]; tail_a0 = tail_sum[0]; head_a1 = head_sum[1]; tail_a1 = tail_sum[1]; /* real part */ { /* Compute double-double = double-double * double. */ double a11, a21, b1, b2, c11, c21, c2, con, t1, t2; con = head_a0 * split; a11 = con - head_a0; a11 = con - a11; a21 = head_a0 - a11; con = alpha_i[0] * split; b1 = con - alpha_i[0]; b1 = con - b1; b2 = alpha_i[0] - b1; c11 = head_a0 * alpha_i[0]; c21 = (((a11 * b1 - c11) + a11 * b2) + a21 * b1) + a21 * b2; c2 = tail_a0 * alpha_i[0]; t1 = c11 + c2; t2 = (c2 - (t1 - c11)) + c21; head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } { /* Compute double-double = double-double * double. */ double a11, a21, b1, b2, c11, c21, c2, con, t1, t2; con = head_a1 * split; a11 = con - head_a1; a11 = con - a11; a21 = head_a1 - a11; con = alpha_i[1] * split; b1 = con - alpha_i[1]; b1 = con - b1; b2 = alpha_i[1] - b1; c11 = head_a1 * alpha_i[1]; c21 = (((a11 * b1 - c11) + a11 * b2) + a21 * b1) + a21 * b2; c2 = tail_a1 * alpha_i[1]; t1 = c11 + c2; t2 = (c2 - (t1 - c11)) + c21; head_t2 = t1 + t2; tail_t2 = t2 - (head_t2 - t1); } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp1[0] = head_t1; tail_tmp1[0] = tail_t1; /* imaginary part */ { /* Compute double-double = double-double * double. */ double a11, a21, b1, b2, c11, c21, c2, con, t1, t2; con = head_a1 * split; a11 = con - head_a1; a11 = con - a11; a21 = head_a1 - a11; con = alpha_i[0] * split; b1 = con - alpha_i[0]; b1 = con - b1; b2 = alpha_i[0] - b1; c11 = head_a1 * alpha_i[0]; c21 = (((a11 * b1 - c11) + a11 * b2) + a21 * b1) + a21 * b2; c2 = tail_a1 * alpha_i[0]; t1 = c11 + c2; t2 = (c2 - (t1 - c11)) + c21; head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } { /* Compute double-double = double-double * double. */ double a11, a21, b1, b2, c11, c21, c2, con, t1, t2; con = head_a0 * split; a11 = con - head_a0; a11 = con - a11; a21 = head_a0 - a11; con = alpha_i[1] * split; b1 = con - alpha_i[1]; b1 = con - b1; b2 = alpha_i[1] - b1; c11 = head_a0 * alpha_i[1]; c21 = (((a11 * b1 - c11) + a11 * b2) + a21 * b1) + a21 * b2; c2 = tail_a0 * alpha_i[1]; t1 = c11 + c2; t2 = (c2 - (t1 - c11)) + c21; head_t2 = t1 + t2; tail_t2 = t2 - (head_t2 - t1); } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp1[1] = head_t1; tail_tmp1[1] = tail_t1; } y_i[yi] = head_tmp1[0]; y_i[yi + 1] = head_tmp1[1]; if (i + 1 >= (n_i - k)) maxj_second--; if (i >= k) { astarti += (incaij + incaij2); x_starti += incx; } else { maxj_first++; astarti += incaij2; } } } else { /* The most general form, y <--- alpha * A * x + beta * y */ for (i = 0, yi = y_starti; i < n_i; i++, yi += incy) { head_sum[0] = head_sum[1] = tail_sum[0] = tail_sum[1] = 0.0; for (j = 0, aij = astarti, xi = x_starti; j < maxj_first; j++, aij += incaij, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { double cd[2]; cd[0] = (double) x_elem[0]; cd[1] = (double) x_elem[1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[0] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[1] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[0] = head_t1; tail_prod[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[1] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[0] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[1] = head_t1; tail_prod[1] = tail_t1; } } { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_sum[0]; tail_a = tail_sum[0]; head_b = head_prod[0]; tail_b = tail_prod[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[0] = head_t; tail_sum[0] = tail_t; /* Imaginary part */ head_a = head_sum[1]; tail_a = tail_sum[1]; head_b = head_prod[1]; tail_b = tail_prod[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[1] = head_t; tail_sum[1] = tail_t; } } for (j = 0; j < maxj_second; j++, aij += incaij2, xi += incx) { a_elem[0] = a_i[aij]; a_elem[1] = a_i[aij + 1]; x_elem[0] = x_i[xi]; x_elem[1] = x_i[xi + 1]; { double cd[2]; cd[0] = (double) x_elem[0]; cd[1] = (double) x_elem[1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[0] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[1] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[0] = head_t1; tail_prod[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[1] * split; a1 = con - a_elem[1]; a1 = con - a1; a2 = a_elem[1] - a1; con = cd[0] * split; b1 = con - cd[0]; b1 = con - b1; b2 = cd[0] - b1; head_t1 = a_elem[1] * cd[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = a_elem[0] * split; a1 = con - a_elem[0]; a1 = con - a1; a2 = a_elem[0] - a1; con = cd[1] * split; b1 = con - cd[1]; b1 = con - b1; b2 = cd[1] - b1; head_t2 = a_elem[0] * cd[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_prod[1] = head_t1; tail_prod[1] = tail_t1; } } { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_sum[0]; tail_a = tail_sum[0]; head_b = head_prod[0]; tail_b = tail_prod[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[0] = head_t; tail_sum[0] = tail_t; /* Imaginary part */ head_a = head_sum[1]; tail_a = tail_sum[1]; head_b = head_prod[1]; tail_b = tail_prod[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_sum[1] = head_t; tail_sum[1] = tail_t; } } y_elem[0] = y_i[yi]; y_elem[1] = y_i[yi + 1]; { /* Compute complex-extra = complex-double * complex-double. */ double head_t1, tail_t1; double head_t2, tail_t2; /* Real part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[0] * split; a1 = con - y_elem[0]; a1 = con - a1; a2 = y_elem[0] - a1; con = beta_i[0] * split; b1 = con - beta_i[0]; b1 = con - b1; b2 = beta_i[0] - b1; head_t1 = y_elem[0] * beta_i[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[1] * split; a1 = con - y_elem[1]; a1 = con - a1; a2 = y_elem[1] - a1; con = beta_i[1] * split; b1 = con - beta_i[1]; b1 = con - b1; b2 = beta_i[1] - b1; head_t2 = y_elem[1] * beta_i[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp2[0] = head_t1; tail_tmp2[0] = tail_t1; /* Imaginary part */ { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[1] * split; a1 = con - y_elem[1]; a1 = con - a1; a2 = y_elem[1] - a1; con = beta_i[0] * split; b1 = con - beta_i[0]; b1 = con - b1; b2 = beta_i[0] - b1; head_t1 = y_elem[1] * beta_i[0]; tail_t1 = (((a1 * b1 - head_t1) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double_double = double * double. */ double a1, a2, b1, b2, con; con = y_elem[0] * split; a1 = con - y_elem[0]; a1 = con - a1; a2 = y_elem[0] - a1; con = beta_i[1] * split; b1 = con - beta_i[1]; b1 = con - b1; b2 = beta_i[1] - b1; head_t2 = y_elem[0] * beta_i[1]; tail_t2 = (((a1 * b1 - head_t2) + a1 * b2) + a2 * b1) + a2 * b2; } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp2[1] = head_t1; tail_tmp2[1] = tail_t1; } { /* Compute complex-extra = complex-extra * complex-double. */ double head_a0, tail_a0; double head_a1, tail_a1; double head_t1, tail_t1; double head_t2, tail_t2; head_a0 = head_sum[0]; tail_a0 = tail_sum[0]; head_a1 = head_sum[1]; tail_a1 = tail_sum[1]; /* real part */ { /* Compute double-double = double-double * double. */ double a11, a21, b1, b2, c11, c21, c2, con, t1, t2; con = head_a0 * split; a11 = con - head_a0; a11 = con - a11; a21 = head_a0 - a11; con = alpha_i[0] * split; b1 = con - alpha_i[0]; b1 = con - b1; b2 = alpha_i[0] - b1; c11 = head_a0 * alpha_i[0]; c21 = (((a11 * b1 - c11) + a11 * b2) + a21 * b1) + a21 * b2; c2 = tail_a0 * alpha_i[0]; t1 = c11 + c2; t2 = (c2 - (t1 - c11)) + c21; head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } { /* Compute double-double = double-double * double. */ double a11, a21, b1, b2, c11, c21, c2, con, t1, t2; con = head_a1 * split; a11 = con - head_a1; a11 = con - a11; a21 = head_a1 - a11; con = alpha_i[1] * split; b1 = con - alpha_i[1]; b1 = con - b1; b2 = alpha_i[1] - b1; c11 = head_a1 * alpha_i[1]; c21 = (((a11 * b1 - c11) + a11 * b2) + a21 * b1) + a21 * b2; c2 = tail_a1 * alpha_i[1]; t1 = c11 + c2; t2 = (c2 - (t1 - c11)) + c21; head_t2 = t1 + t2; tail_t2 = t2 - (head_t2 - t1); } head_t2 = -head_t2; tail_t2 = -tail_t2; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp1[0] = head_t1; tail_tmp1[0] = tail_t1; /* imaginary part */ { /* Compute double-double = double-double * double. */ double a11, a21, b1, b2, c11, c21, c2, con, t1, t2; con = head_a1 * split; a11 = con - head_a1; a11 = con - a11; a21 = head_a1 - a11; con = alpha_i[0] * split; b1 = con - alpha_i[0]; b1 = con - b1; b2 = alpha_i[0] - b1; c11 = head_a1 * alpha_i[0]; c21 = (((a11 * b1 - c11) + a11 * b2) + a21 * b1) + a21 * b2; c2 = tail_a1 * alpha_i[0]; t1 = c11 + c2; t2 = (c2 - (t1 - c11)) + c21; head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } { /* Compute double-double = double-double * double. */ double a11, a21, b1, b2, c11, c21, c2, con, t1, t2; con = head_a0 * split; a11 = con - head_a0; a11 = con - a11; a21 = head_a0 - a11; con = alpha_i[1] * split; b1 = con - alpha_i[1]; b1 = con - b1; b2 = alpha_i[1] - b1; c11 = head_a0 * alpha_i[1]; c21 = (((a11 * b1 - c11) + a11 * b2) + a21 * b1) + a21 * b2; c2 = tail_a0 * alpha_i[1]; t1 = c11 + c2; t2 = (c2 - (t1 - c11)) + c21; head_t2 = t1 + t2; tail_t2 = t2 - (head_t2 - t1); } { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_t1 + head_t2; bv = s1 - head_t1; s2 = ((head_t2 - bv) + (head_t1 - (s1 - bv))); /* Add two lo words. */ t1 = tail_t1 + tail_t2; bv = t1 - tail_t1; t2 = ((tail_t2 - bv) + (tail_t1 - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t1 = t1 + t2; tail_t1 = t2 - (head_t1 - t1); } head_tmp1[1] = head_t1; tail_tmp1[1] = tail_t1; } { double head_t, tail_t; double head_a, tail_a; double head_b, tail_b; /* Real part */ head_a = head_tmp2[0]; tail_a = tail_tmp2[0]; head_b = head_tmp1[0]; tail_b = tail_tmp1[0]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_tmp1[0] = head_t; tail_tmp1[0] = tail_t; /* Imaginary part */ head_a = head_tmp2[1]; tail_a = tail_tmp2[1]; head_b = head_tmp1[1]; tail_b = tail_tmp1[1]; { /* Compute double-double = double-double + double-double. */ double bv; double s1, s2, t1, t2; /* Add two hi words. */ s1 = head_a + head_b; bv = s1 - head_a; s2 = ((head_b - bv) + (head_a - (s1 - bv))); /* Add two lo words. */ t1 = tail_a + tail_b; bv = t1 - tail_a; t2 = ((tail_b - bv) + (tail_a - (t1 - bv))); s2 += t1; /* Renormalize (s1, s2) to (t1, s2) */ t1 = s1 + s2; s2 = s2 - (t1 - s1); t2 += s2; /* Renormalize (t1, t2) */ head_t = t1 + t2; tail_t = t2 - (head_t - t1); } head_tmp1[1] = head_t; tail_tmp1[1] = tail_t; } y_i[yi] = head_tmp1[0]; y_i[yi + 1] = head_tmp1[1]; if (i + 1 >= (n_i - k)) maxj_second--; if (i >= k) { astarti += (incaij + incaij2); x_starti += incx; } else { maxj_first++; astarti += incaij2; } } } } } FPU_FIX_STOP; break; } default: BLAS_error(routine_name, -13, prec, 0); break; } } /* end BLAS_zsbmv_z_c */