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/* slaeda.f -- translated by f2c (version 20061008).
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You must link the resulting object file with libf2c:
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on Microsoft Windows system, link with libf2c.lib;
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on Linux or Unix systems, link with .../path/to/libf2c.a -lm
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or, if you install libf2c.a in a standard place, with -lf2c -lm
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-- in that order, at the end of the command line, as in
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cc *.o -lf2c -lm
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Source for libf2c is in /netlib/f2c/libf2c.zip, e.g.,
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http://www.netlib.org/f2c/libf2c.zip
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*/
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#include "clapack.h"
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/* Table of constant values */
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static integer c__2 = 2;
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static integer c__1 = 1;
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static real c_b24 = 1.f;
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static real c_b26 = 0.f;
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/* Subroutine */ int slaeda_(integer *n, integer *tlvls, integer *curlvl,
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integer *curpbm, integer *prmptr, integer *perm, integer *givptr,
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integer *givcol, real *givnum, real *q, integer *qptr, real *z__,
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real *ztemp, integer *info)
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{
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/* System generated locals */
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integer i__1, i__2, i__3;
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/* Builtin functions */
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integer pow_ii(integer *, integer *);
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double sqrt(doublereal);
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/* Local variables */
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integer i__, k, mid, ptr, curr;
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extern /* Subroutine */ int srot_(integer *, real *, integer *, real *,
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integer *, real *, real *);
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integer bsiz1, bsiz2, psiz1, psiz2, zptr1;
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extern /* Subroutine */ int sgemv_(char *, integer *, integer *, real *,
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real *, integer *, real *, integer *, real *, real *, integer *), scopy_(integer *, real *, integer *, real *, integer *),
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xerbla_(char *, integer *);
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/* -- LAPACK routine (version 3.2) -- */
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/* Univ. of Tennessee, Univ. of California Berkeley and NAG Ltd.. */
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/* November 2006 */
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/* .. Scalar Arguments .. */
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/* .. */
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/* .. Array Arguments .. */
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/* .. */
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/* Purpose */
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/* ======= */
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/* SLAEDA computes the Z vector corresponding to the merge step in the */
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/* CURLVLth step of the merge process with TLVLS steps for the CURPBMth */
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/* problem. */
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/* Arguments */
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/* ========= */
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/* N (input) INTEGER */
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/* The dimension of the symmetric tridiagonal matrix. N >= 0. */
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/* TLVLS (input) INTEGER */
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/* The total number of merging levels in the overall divide and */
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/* conquer tree. */
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/* CURLVL (input) INTEGER */
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/* The current level in the overall merge routine, */
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/* 0 <= curlvl <= tlvls. */
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/* CURPBM (input) INTEGER */
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/* The current problem in the current level in the overall */
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/* merge routine (counting from upper left to lower right). */
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/* PRMPTR (input) INTEGER array, dimension (N lg N) */
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/* Contains a list of pointers which indicate where in PERM a */
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/* level's permutation is stored. PRMPTR(i+1) - PRMPTR(i) */
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/* indicates the size of the permutation and incidentally the */
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/* size of the full, non-deflated problem. */
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/* PERM (input) INTEGER array, dimension (N lg N) */
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/* Contains the permutations (from deflation and sorting) to be */
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/* applied to each eigenblock. */
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/* GIVPTR (input) INTEGER array, dimension (N lg N) */
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/* Contains a list of pointers which indicate where in GIVCOL a */
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/* level's Givens rotations are stored. GIVPTR(i+1) - GIVPTR(i) */
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/* indicates the number of Givens rotations. */
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/* GIVCOL (input) INTEGER array, dimension (2, N lg N) */
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/* Each pair of numbers indicates a pair of columns to take place */
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/* in a Givens rotation. */
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/* GIVNUM (input) REAL array, dimension (2, N lg N) */
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/* Each number indicates the S value to be used in the */
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/* corresponding Givens rotation. */
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/* Q (input) REAL array, dimension (N**2) */
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/* Contains the square eigenblocks from previous levels, the */
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/* starting positions for blocks are given by QPTR. */
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/* QPTR (input) INTEGER array, dimension (N+2) */
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/* Contains a list of pointers which indicate where in Q an */
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/* eigenblock is stored. SQRT( QPTR(i+1) - QPTR(i) ) indicates */
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/* the size of the block. */
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/* Z (output) REAL array, dimension (N) */
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/* On output this vector contains the updating vector (the last */
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/* row of the first sub-eigenvector matrix and the first row of */
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/* the second sub-eigenvector matrix). */
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/* ZTEMP (workspace) REAL array, dimension (N) */
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/* INFO (output) INTEGER */
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/* = 0: successful exit. */
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/* < 0: if INFO = -i, the i-th argument had an illegal value. */
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/* Further Details */
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/* =============== */
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/* Based on contributions by */
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/* Jeff Rutter, Computer Science Division, University of California */
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/* at Berkeley, USA */
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/* ===================================================================== */
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/* .. Parameters .. */
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/* .. */
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/* .. Local Scalars .. */
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/* .. */
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/* .. External Subroutines .. */
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/* .. */
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/* .. Intrinsic Functions .. */
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/* .. */
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/* .. Executable Statements .. */
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/* Test the input parameters. */
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/* Parameter adjustments */
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--ztemp;
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--z__;
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--qptr;
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--q;
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givnum -= 3;
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givcol -= 3;
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--givptr;
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--perm;
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--prmptr;
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/* Function Body */
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*info = 0;
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if (*n < 0) {
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*info = -1;
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}
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if (*info != 0) {
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i__1 = -(*info);
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xerbla_("SLAEDA", &i__1);
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return 0;
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}
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/* Quick return if possible */
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if (*n == 0) {
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return 0;
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}
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/* Determine location of first number in second half. */
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mid = *n / 2 + 1;
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/* Gather last/first rows of appropriate eigenblocks into center of Z */
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ptr = 1;
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/* Determine location of lowest level subproblem in the full storage */
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/* scheme */
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i__1 = *curlvl - 1;
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curr = ptr + *curpbm * pow_ii(&c__2, curlvl) + pow_ii(&c__2, &i__1) - 1;
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/* Determine size of these matrices. We add HALF to the value of */
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/* the SQRT in case the machine underestimates one of these square */
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/* roots. */
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bsiz1 = (integer) (sqrt((real) (qptr[curr + 1] - qptr[curr])) + .5f);
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bsiz2 = (integer) (sqrt((real) (qptr[curr + 2] - qptr[curr + 1])) + .5f);
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i__1 = mid - bsiz1 - 1;
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for (k = 1; k <= i__1; ++k) {
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z__[k] = 0.f;
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/* L10: */
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}
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scopy_(&bsiz1, &q[qptr[curr] + bsiz1 - 1], &bsiz1, &z__[mid - bsiz1], &
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c__1);
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scopy_(&bsiz2, &q[qptr[curr + 1]], &bsiz2, &z__[mid], &c__1);
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i__1 = *n;
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for (k = mid + bsiz2; k <= i__1; ++k) {
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z__[k] = 0.f;
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/* L20: */
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}
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/* Loop thru remaining levels 1 -> CURLVL applying the Givens */
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/* rotations and permutation and then multiplying the center matrices */
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/* against the current Z. */
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ptr = pow_ii(&c__2, tlvls) + 1;
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i__1 = *curlvl - 1;
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for (k = 1; k <= i__1; ++k) {
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i__2 = *curlvl - k;
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i__3 = *curlvl - k - 1;
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curr = ptr + *curpbm * pow_ii(&c__2, &i__2) + pow_ii(&c__2, &i__3) -
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1;
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psiz1 = prmptr[curr + 1] - prmptr[curr];
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psiz2 = prmptr[curr + 2] - prmptr[curr + 1];
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zptr1 = mid - psiz1;
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/* Apply Givens at CURR and CURR+1 */
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i__2 = givptr[curr + 1] - 1;
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for (i__ = givptr[curr]; i__ <= i__2; ++i__) {
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srot_(&c__1, &z__[zptr1 + givcol[(i__ << 1) + 1] - 1], &c__1, &
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z__[zptr1 + givcol[(i__ << 1) + 2] - 1], &c__1, &givnum[(
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i__ << 1) + 1], &givnum[(i__ << 1) + 2]);
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/* L30: */
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}
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i__2 = givptr[curr + 2] - 1;
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for (i__ = givptr[curr + 1]; i__ <= i__2; ++i__) {
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srot_(&c__1, &z__[mid - 1 + givcol[(i__ << 1) + 1]], &c__1, &z__[
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mid - 1 + givcol[(i__ << 1) + 2]], &c__1, &givnum[(i__ <<
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1) + 1], &givnum[(i__ << 1) + 2]);
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/* L40: */
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}
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psiz1 = prmptr[curr + 1] - prmptr[curr];
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psiz2 = prmptr[curr + 2] - prmptr[curr + 1];
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i__2 = psiz1 - 1;
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for (i__ = 0; i__ <= i__2; ++i__) {
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ztemp[i__ + 1] = z__[zptr1 + perm[prmptr[curr] + i__] - 1];
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/* L50: */
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}
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i__2 = psiz2 - 1;
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for (i__ = 0; i__ <= i__2; ++i__) {
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ztemp[psiz1 + i__ + 1] = z__[mid + perm[prmptr[curr + 1] + i__] -
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1];
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/* L60: */
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}
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/* Multiply Blocks at CURR and CURR+1 */
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/* Determine size of these matrices. We add HALF to the value of */
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/* the SQRT in case the machine underestimates one of these */
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/* square roots. */
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bsiz1 = (integer) (sqrt((real) (qptr[curr + 1] - qptr[curr])) + .5f);
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bsiz2 = (integer) (sqrt((real) (qptr[curr + 2] - qptr[curr + 1])) +
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.5f);
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if (bsiz1 > 0) {
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sgemv_("T", &bsiz1, &bsiz1, &c_b24, &q[qptr[curr]], &bsiz1, &
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ztemp[1], &c__1, &c_b26, &z__[zptr1], &c__1);
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}
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i__2 = psiz1 - bsiz1;
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scopy_(&i__2, &ztemp[bsiz1 + 1], &c__1, &z__[zptr1 + bsiz1], &c__1);
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if (bsiz2 > 0) {
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sgemv_("T", &bsiz2, &bsiz2, &c_b24, &q[qptr[curr + 1]], &bsiz2, &
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ztemp[psiz1 + 1], &c__1, &c_b26, &z__[mid], &c__1);
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}
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i__2 = psiz2 - bsiz2;
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scopy_(&i__2, &ztemp[psiz1 + bsiz2 + 1], &c__1, &z__[mid + bsiz2], &
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c__1);
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i__2 = *tlvls - k;
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ptr += pow_ii(&c__2, &i__2);
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/* L70: */
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}
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return 0;
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/* End of SLAEDA */
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} /* slaeda_ */
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