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/* dlacn2.f -- translated by f2c (version 20061008).
You must link the resulting object file with libf2c:
on Microsoft Windows system, link with libf2c.lib;
on Linux or Unix systems, link with .../path/to/libf2c.a -lm
or, if you install libf2c.a in a standard place, with -lf2c -lm
-- in that order, at the end of the command line, as in
cc *.o -lf2c -lm
Source for libf2c is in /netlib/f2c/libf2c.zip, e.g.,
http://www.netlib.org/f2c/libf2c.zip
*/
#include "f2c.h"
#include "blaswrap.h"
/* Table of constant values */
static integer c__1 = 1;
static doublereal c_b11 = 1.;
/* Subroutine */ int dlacn2_(integer *n, doublereal *v, doublereal *x,
integer *isgn, doublereal *est, integer *kase, integer *isave)
{
/* System generated locals */
integer i__1;
doublereal d__1;
/* Builtin functions */
double d_sign(doublereal *, doublereal *);
integer i_dnnt(doublereal *);
/* Local variables */
integer i__;
doublereal temp;
extern doublereal dasum_(integer *, doublereal *, integer *);
integer jlast;
extern /* Subroutine */ int dcopy_(integer *, doublereal *, integer *,
doublereal *, integer *);
extern integer idamax_(integer *, doublereal *, integer *);
doublereal altsgn, estold;
/* -- LAPACK auxiliary routine (version 3.2) -- */
/* Univ. of Tennessee, Univ. of California Berkeley and NAG Ltd.. */
/* November 2006 */
/* .. Scalar Arguments .. */
/* .. */
/* .. Array Arguments .. */
/* .. */
/* Purpose */
/* ======= */
/* DLACN2 estimates the 1-norm of a square, real matrix A. */
/* Reverse communication is used for evaluating matrix-vector products. */
/* Arguments */
/* ========= */
/* N (input) INTEGER */
/* The order of the matrix. N >= 1. */
/* V (workspace) DOUBLE PRECISION array, dimension (N) */
/* On the final return, V = A*W, where EST = norm(V)/norm(W) */
/* (W is not returned). */
/* X (input/output) DOUBLE PRECISION array, dimension (N) */
/* On an intermediate return, X should be overwritten by */
/* A * X, if KASE=1, */
/* A' * X, if KASE=2, */
/* and DLACN2 must be re-called with all the other parameters */
/* unchanged. */
/* ISGN (workspace) INTEGER array, dimension (N) */
/* EST (input/output) DOUBLE PRECISION */
/* On entry with KASE = 1 or 2 and ISAVE(1) = 3, EST should be */
/* unchanged from the previous call to DLACN2. */
/* On exit, EST is an estimate (a lower bound) for norm(A). */
/* KASE (input/output) INTEGER */
/* On the initial call to DLACN2, KASE should be 0. */
/* On an intermediate return, KASE will be 1 or 2, indicating */
/* whether X should be overwritten by A * X or A' * X. */
/* On the final return from DLACN2, KASE will again be 0. */
/* ISAVE (input/output) INTEGER array, dimension (3) */
/* ISAVE is used to save variables between calls to DLACN2 */
/* Further Details */
/* ======= ======= */
/* Contributed by Nick Higham, University of Manchester. */
/* Originally named SONEST, dated March 16, 1988. */
/* Reference: N.J. Higham, "FORTRAN codes for estimating the one-norm of */
/* a real or complex matrix, with applications to condition estimation", */
/* ACM Trans. Math. Soft., vol. 14, no. 4, pp. 381-396, December 1988. */
/* This is a thread safe version of DLACON, which uses the array ISAVE */
/* in place of a SAVE statement, as follows: */
/* DLACON DLACN2 */
/* JUMP ISAVE(1) */
/* J ISAVE(2) */
/* ITER ISAVE(3) */
/* ===================================================================== */
/* .. Parameters .. */
/* .. */
/* .. Local Scalars .. */
/* .. */
/* .. External Functions .. */
/* .. */
/* .. External Subroutines .. */
/* .. */
/* .. Intrinsic Functions .. */
/* .. */
/* .. Executable Statements .. */
/* Parameter adjustments */
--isave;
--isgn;
--x;
--v;
/* Function Body */
if (*kase == 0) {
i__1 = *n;
for (i__ = 1; i__ <= i__1; ++i__) {
x[i__] = 1. / (doublereal) (*n);
/* L10: */
}
*kase = 1;
isave[1] = 1;
return 0;
}
switch (isave[1]) {
case 1: goto L20;
case 2: goto L40;
case 3: goto L70;
case 4: goto L110;
case 5: goto L140;
}
/* ................ ENTRY (ISAVE( 1 ) = 1) */
/* FIRST ITERATION. X HAS BEEN OVERWRITTEN BY A*X. */
L20:
if (*n == 1) {
v[1] = x[1];
*est = abs(v[1]);
/* ... QUIT */
goto L150;
}
*est = dasum_(n, &x[1], &c__1);
i__1 = *n;
for (i__ = 1; i__ <= i__1; ++i__) {
x[i__] = d_sign(&c_b11, &x[i__]);
isgn[i__] = i_dnnt(&x[i__]);
/* L30: */
}
*kase = 2;
isave[1] = 2;
return 0;
/* ................ ENTRY (ISAVE( 1 ) = 2) */
/* FIRST ITERATION. X HAS BEEN OVERWRITTEN BY TRANSPOSE(A)*X. */
L40:
isave[2] = idamax_(n, &x[1], &c__1);
isave[3] = 2;
/* MAIN LOOP - ITERATIONS 2,3,...,ITMAX. */
L50:
i__1 = *n;
for (i__ = 1; i__ <= i__1; ++i__) {
x[i__] = 0.;
/* L60: */
}
x[isave[2]] = 1.;
*kase = 1;
isave[1] = 3;
return 0;
/* ................ ENTRY (ISAVE( 1 ) = 3) */
/* X HAS BEEN OVERWRITTEN BY A*X. */
L70:
dcopy_(n, &x[1], &c__1, &v[1], &c__1);
estold = *est;
*est = dasum_(n, &v[1], &c__1);
i__1 = *n;
for (i__ = 1; i__ <= i__1; ++i__) {
d__1 = d_sign(&c_b11, &x[i__]);
if (i_dnnt(&d__1) != isgn[i__]) {
goto L90;
}
/* L80: */
}
/* REPEATED SIGN VECTOR DETECTED, HENCE ALGORITHM HAS CONVERGED. */
goto L120;
L90:
/* TEST FOR CYCLING. */
if (*est <= estold) {
goto L120;
}
i__1 = *n;
for (i__ = 1; i__ <= i__1; ++i__) {
x[i__] = d_sign(&c_b11, &x[i__]);
isgn[i__] = i_dnnt(&x[i__]);
/* L100: */
}
*kase = 2;
isave[1] = 4;
return 0;
/* ................ ENTRY (ISAVE( 1 ) = 4) */
/* X HAS BEEN OVERWRITTEN BY TRANSPOSE(A)*X. */
L110:
jlast = isave[2];
isave[2] = idamax_(n, &x[1], &c__1);
if (x[jlast] != (d__1 = x[isave[2]], abs(d__1)) && isave[3] < 5) {
++isave[3];
goto L50;
}
/* ITERATION COMPLETE. FINAL STAGE. */
L120:
altsgn = 1.;
i__1 = *n;
for (i__ = 1; i__ <= i__1; ++i__) {
x[i__] = altsgn * ((doublereal) (i__ - 1) / (doublereal) (*n - 1) +
1.);
altsgn = -altsgn;
/* L130: */
}
*kase = 1;
isave[1] = 5;
return 0;
/* ................ ENTRY (ISAVE( 1 ) = 5) */
/* X HAS BEEN OVERWRITTEN BY A*X. */
L140:
temp = dasum_(n, &x[1], &c__1) / (doublereal) (*n * 3) * 2.;
if (temp > *est) {
dcopy_(n, &x[1], &c__1, &v[1], &c__1);
*est = temp;
}
L150:
*kase = 0;
return 0;
/* End of DLACN2 */
} /* dlacn2_ */
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