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- /* dtrsyl.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 logical c_false = FALSE_;
- static integer c__2 = 2;
- static doublereal c_b26 = 1.;
- static doublereal c_b30 = 0.;
- static logical c_true = TRUE_;
- /* Subroutine */ int dtrsyl_(char *trana, char *tranb, integer *isgn, integer
- *m, integer *n, doublereal *a, integer *lda, doublereal *b, integer *
- ldb, doublereal *c__, integer *ldc, doublereal *scale, integer *info)
- {
- /* System generated locals */
- integer a_dim1, a_offset, b_dim1, b_offset, c_dim1, c_offset, i__1, i__2,
- i__3, i__4;
- doublereal d__1, d__2;
- /* Local variables */
- integer j, k, l;
- doublereal x[4] /* was [2][2] */;
- integer k1, k2, l1, l2;
- doublereal a11, db, da11, vec[4] /* was [2][2] */, dum[1], eps, sgn;
- extern doublereal ddot_(integer *, doublereal *, integer *, doublereal *,
- integer *);
- integer ierr;
- doublereal smin, suml, sumr;
- extern /* Subroutine */ int dscal_(integer *, doublereal *, doublereal *,
- integer *);
- extern logical lsame_(char *, char *);
- integer knext, lnext;
- doublereal xnorm;
- extern /* Subroutine */ int dlaln2_(logical *, integer *, integer *,
- doublereal *, doublereal *, doublereal *, integer *, doublereal *,
- doublereal *, doublereal *, integer *, doublereal *, doublereal *
- , doublereal *, integer *, doublereal *, doublereal *, integer *),
- dlasy2_(logical *, logical *, integer *, integer *, integer *,
- doublereal *, integer *, doublereal *, integer *, doublereal *,
- integer *, doublereal *, doublereal *, integer *, doublereal *,
- integer *), dlabad_(doublereal *, doublereal *);
- extern doublereal dlamch_(char *), dlange_(char *, integer *,
- integer *, doublereal *, integer *, doublereal *);
- doublereal scaloc;
- extern /* Subroutine */ int xerbla_(char *, integer *);
- doublereal bignum;
- logical notrna, notrnb;
- doublereal smlnum;
- /* -- LAPACK routine (version 3.2) -- */
- /* -- LAPACK is a software package provided by Univ. of Tennessee, -- */
- /* -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..-- */
- /* November 2006 */
- /* .. Scalar Arguments .. */
- /* .. */
- /* .. Array Arguments .. */
- /* .. */
- /* Purpose */
- /* ======= */
- /* DTRSYL solves the real Sylvester matrix equation: */
- /* op(A)*X + X*op(B) = scale*C or */
- /* op(A)*X - X*op(B) = scale*C, */
- /* where op(A) = A or A**T, and A and B are both upper quasi- */
- /* triangular. A is M-by-M and B is N-by-N; the right hand side C and */
- /* the solution X are M-by-N; and scale is an output scale factor, set */
- /* <= 1 to avoid overflow in X. */
- /* A and B must be in Schur canonical form (as returned by DHSEQR), that */
- /* is, block upper triangular with 1-by-1 and 2-by-2 diagonal blocks; */
- /* each 2-by-2 diagonal block has its diagonal elements equal and its */
- /* off-diagonal elements of opposite sign. */
- /* Arguments */
- /* ========= */
- /* TRANA (input) CHARACTER*1 */
- /* Specifies the option op(A): */
- /* = 'N': op(A) = A (No transpose) */
- /* = 'T': op(A) = A**T (Transpose) */
- /* = 'C': op(A) = A**H (Conjugate transpose = Transpose) */
- /* TRANB (input) CHARACTER*1 */
- /* Specifies the option op(B): */
- /* = 'N': op(B) = B (No transpose) */
- /* = 'T': op(B) = B**T (Transpose) */
- /* = 'C': op(B) = B**H (Conjugate transpose = Transpose) */
- /* ISGN (input) INTEGER */
- /* Specifies the sign in the equation: */
- /* = +1: solve op(A)*X + X*op(B) = scale*C */
- /* = -1: solve op(A)*X - X*op(B) = scale*C */
- /* M (input) INTEGER */
- /* The order of the matrix A, and the number of rows in the */
- /* matrices X and C. M >= 0. */
- /* N (input) INTEGER */
- /* The order of the matrix B, and the number of columns in the */
- /* matrices X and C. N >= 0. */
- /* A (input) DOUBLE PRECISION array, dimension (LDA,M) */
- /* The upper quasi-triangular matrix A, in Schur canonical form. */
- /* LDA (input) INTEGER */
- /* The leading dimension of the array A. LDA >= max(1,M). */
- /* B (input) DOUBLE PRECISION array, dimension (LDB,N) */
- /* The upper quasi-triangular matrix B, in Schur canonical form. */
- /* LDB (input) INTEGER */
- /* The leading dimension of the array B. LDB >= max(1,N). */
- /* C (input/output) DOUBLE PRECISION array, dimension (LDC,N) */
- /* On entry, the M-by-N right hand side matrix C. */
- /* On exit, C is overwritten by the solution matrix X. */
- /* LDC (input) INTEGER */
- /* The leading dimension of the array C. LDC >= max(1,M) */
- /* SCALE (output) DOUBLE PRECISION */
- /* The scale factor, scale, set <= 1 to avoid overflow in X. */
- /* INFO (output) INTEGER */
- /* = 0: successful exit */
- /* < 0: if INFO = -i, the i-th argument had an illegal value */
- /* = 1: A and B have common or very close eigenvalues; perturbed */
- /* values were used to solve the equation (but the matrices */
- /* A and B are unchanged). */
- /* ===================================================================== */
- /* .. Parameters .. */
- /* .. */
- /* .. Local Scalars .. */
- /* .. */
- /* .. Local Arrays .. */
- /* .. */
- /* .. External Functions .. */
- /* .. */
- /* .. External Subroutines .. */
- /* .. */
- /* .. Intrinsic Functions .. */
- /* .. */
- /* .. Executable Statements .. */
- /* Decode and Test input parameters */
- /* Parameter adjustments */
- a_dim1 = *lda;
- a_offset = 1 + a_dim1;
- a -= a_offset;
- b_dim1 = *ldb;
- b_offset = 1 + b_dim1;
- b -= b_offset;
- c_dim1 = *ldc;
- c_offset = 1 + c_dim1;
- c__ -= c_offset;
- /* Function Body */
- notrna = lsame_(trana, "N");
- notrnb = lsame_(tranb, "N");
- *info = 0;
- if (! notrna && ! lsame_(trana, "T") && ! lsame_(
- trana, "C")) {
- *info = -1;
- } else if (! notrnb && ! lsame_(tranb, "T") && !
- lsame_(tranb, "C")) {
- *info = -2;
- } else if (*isgn != 1 && *isgn != -1) {
- *info = -3;
- } else if (*m < 0) {
- *info = -4;
- } else if (*n < 0) {
- *info = -5;
- } else if (*lda < max(1,*m)) {
- *info = -7;
- } else if (*ldb < max(1,*n)) {
- *info = -9;
- } else if (*ldc < max(1,*m)) {
- *info = -11;
- }
- if (*info != 0) {
- i__1 = -(*info);
- xerbla_("DTRSYL", &i__1);
- return 0;
- }
- /* Quick return if possible */
- *scale = 1.;
- if (*m == 0 || *n == 0) {
- return 0;
- }
- /* Set constants to control overflow */
- eps = dlamch_("P");
- smlnum = dlamch_("S");
- bignum = 1. / smlnum;
- dlabad_(&smlnum, &bignum);
- smlnum = smlnum * (doublereal) (*m * *n) / eps;
- bignum = 1. / smlnum;
- /* Computing MAX */
- d__1 = smlnum, d__2 = eps * dlange_("M", m, m, &a[a_offset], lda, dum), d__1 = max(d__1,d__2), d__2 = eps * dlange_("M", n, n,
- &b[b_offset], ldb, dum);
- smin = max(d__1,d__2);
- sgn = (doublereal) (*isgn);
- if (notrna && notrnb) {
- /* Solve A*X + ISGN*X*B = scale*C. */
- /* The (K,L)th block of X is determined starting from */
- /* bottom-left corner column by column by */
- /* A(K,K)*X(K,L) + ISGN*X(K,L)*B(L,L) = C(K,L) - R(K,L) */
- /* Where */
- /* M L-1 */
- /* R(K,L) = SUM [A(K,I)*X(I,L)] + ISGN*SUM [X(K,J)*B(J,L)]. */
- /* I=K+1 J=1 */
- /* Start column loop (index = L) */
- /* L1 (L2) : column index of the first (first) row of X(K,L). */
- lnext = 1;
- i__1 = *n;
- for (l = 1; l <= i__1; ++l) {
- if (l < lnext) {
- goto L60;
- }
- if (l == *n) {
- l1 = l;
- l2 = l;
- } else {
- if (b[l + 1 + l * b_dim1] != 0.) {
- l1 = l;
- l2 = l + 1;
- lnext = l + 2;
- } else {
- l1 = l;
- l2 = l;
- lnext = l + 1;
- }
- }
- /* Start row loop (index = K) */
- /* K1 (K2): row index of the first (last) row of X(K,L). */
- knext = *m;
- for (k = *m; k >= 1; --k) {
- if (k > knext) {
- goto L50;
- }
- if (k == 1) {
- k1 = k;
- k2 = k;
- } else {
- if (a[k + (k - 1) * a_dim1] != 0.) {
- k1 = k - 1;
- k2 = k;
- knext = k - 2;
- } else {
- k1 = k;
- k2 = k;
- knext = k - 1;
- }
- }
- if (l1 == l2 && k1 == k2) {
- i__2 = *m - k1;
- /* Computing MIN */
- i__3 = k1 + 1;
- /* Computing MIN */
- i__4 = k1 + 1;
- suml = ddot_(&i__2, &a[k1 + min(i__3, *m)* a_dim1], lda, &
- c__[min(i__4, *m)+ l1 * c_dim1], &c__1);
- i__2 = l1 - 1;
- sumr = ddot_(&i__2, &c__[k1 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- scaloc = 1.;
- a11 = a[k1 + k1 * a_dim1] + sgn * b[l1 + l1 * b_dim1];
- da11 = abs(a11);
- if (da11 <= smin) {
- a11 = smin;
- da11 = smin;
- *info = 1;
- }
- db = abs(vec[0]);
- if (da11 < 1. && db > 1.) {
- if (db > bignum * da11) {
- scaloc = 1. / db;
- }
- }
- x[0] = vec[0] * scaloc / a11;
- if (scaloc != 1.) {
- i__2 = *n;
- for (j = 1; j <= i__2; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L10: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- } else if (l1 == l2 && k1 != k2) {
- i__2 = *m - k2;
- /* Computing MIN */
- i__3 = k2 + 1;
- /* Computing MIN */
- i__4 = k2 + 1;
- suml = ddot_(&i__2, &a[k1 + min(i__3, *m)* a_dim1], lda, &
- c__[min(i__4, *m)+ l1 * c_dim1], &c__1);
- i__2 = l1 - 1;
- sumr = ddot_(&i__2, &c__[k1 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- i__2 = *m - k2;
- /* Computing MIN */
- i__3 = k2 + 1;
- /* Computing MIN */
- i__4 = k2 + 1;
- suml = ddot_(&i__2, &a[k2 + min(i__3, *m)* a_dim1], lda, &
- c__[min(i__4, *m)+ l1 * c_dim1], &c__1);
- i__2 = l1 - 1;
- sumr = ddot_(&i__2, &c__[k2 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[1] = c__[k2 + l1 * c_dim1] - (suml + sgn * sumr);
- d__1 = -sgn * b[l1 + l1 * b_dim1];
- dlaln2_(&c_false, &c__2, &c__1, &smin, &c_b26, &a[k1 + k1
- * a_dim1], lda, &c_b26, &c_b26, vec, &c__2, &d__1,
- &c_b30, x, &c__2, &scaloc, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__2 = *n;
- for (j = 1; j <= i__2; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L20: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k2 + l1 * c_dim1] = x[1];
- } else if (l1 != l2 && k1 == k2) {
- i__2 = *m - k1;
- /* Computing MIN */
- i__3 = k1 + 1;
- /* Computing MIN */
- i__4 = k1 + 1;
- suml = ddot_(&i__2, &a[k1 + min(i__3, *m)* a_dim1], lda, &
- c__[min(i__4, *m)+ l1 * c_dim1], &c__1);
- i__2 = l1 - 1;
- sumr = ddot_(&i__2, &c__[k1 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[0] = sgn * (c__[k1 + l1 * c_dim1] - (suml + sgn *
- sumr));
- i__2 = *m - k1;
- /* Computing MIN */
- i__3 = k1 + 1;
- /* Computing MIN */
- i__4 = k1 + 1;
- suml = ddot_(&i__2, &a[k1 + min(i__3, *m)* a_dim1], lda, &
- c__[min(i__4, *m)+ l2 * c_dim1], &c__1);
- i__2 = l1 - 1;
- sumr = ddot_(&i__2, &c__[k1 + c_dim1], ldc, &b[l2 *
- b_dim1 + 1], &c__1);
- vec[1] = sgn * (c__[k1 + l2 * c_dim1] - (suml + sgn *
- sumr));
- d__1 = -sgn * a[k1 + k1 * a_dim1];
- dlaln2_(&c_true, &c__2, &c__1, &smin, &c_b26, &b[l1 + l1 *
- b_dim1], ldb, &c_b26, &c_b26, vec, &c__2, &d__1,
- &c_b30, x, &c__2, &scaloc, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__2 = *n;
- for (j = 1; j <= i__2; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L30: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k1 + l2 * c_dim1] = x[1];
- } else if (l1 != l2 && k1 != k2) {
- i__2 = *m - k2;
- /* Computing MIN */
- i__3 = k2 + 1;
- /* Computing MIN */
- i__4 = k2 + 1;
- suml = ddot_(&i__2, &a[k1 + min(i__3, *m)* a_dim1], lda, &
- c__[min(i__4, *m)+ l1 * c_dim1], &c__1);
- i__2 = l1 - 1;
- sumr = ddot_(&i__2, &c__[k1 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- i__2 = *m - k2;
- /* Computing MIN */
- i__3 = k2 + 1;
- /* Computing MIN */
- i__4 = k2 + 1;
- suml = ddot_(&i__2, &a[k1 + min(i__3, *m)* a_dim1], lda, &
- c__[min(i__4, *m)+ l2 * c_dim1], &c__1);
- i__2 = l1 - 1;
- sumr = ddot_(&i__2, &c__[k1 + c_dim1], ldc, &b[l2 *
- b_dim1 + 1], &c__1);
- vec[2] = c__[k1 + l2 * c_dim1] - (suml + sgn * sumr);
- i__2 = *m - k2;
- /* Computing MIN */
- i__3 = k2 + 1;
- /* Computing MIN */
- i__4 = k2 + 1;
- suml = ddot_(&i__2, &a[k2 + min(i__3, *m)* a_dim1], lda, &
- c__[min(i__4, *m)+ l1 * c_dim1], &c__1);
- i__2 = l1 - 1;
- sumr = ddot_(&i__2, &c__[k2 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[1] = c__[k2 + l1 * c_dim1] - (suml + sgn * sumr);
- i__2 = *m - k2;
- /* Computing MIN */
- i__3 = k2 + 1;
- /* Computing MIN */
- i__4 = k2 + 1;
- suml = ddot_(&i__2, &a[k2 + min(i__3, *m)* a_dim1], lda, &
- c__[min(i__4, *m)+ l2 * c_dim1], &c__1);
- i__2 = l1 - 1;
- sumr = ddot_(&i__2, &c__[k2 + c_dim1], ldc, &b[l2 *
- b_dim1 + 1], &c__1);
- vec[3] = c__[k2 + l2 * c_dim1] - (suml + sgn * sumr);
- dlasy2_(&c_false, &c_false, isgn, &c__2, &c__2, &a[k1 +
- k1 * a_dim1], lda, &b[l1 + l1 * b_dim1], ldb, vec,
- &c__2, &scaloc, x, &c__2, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__2 = *n;
- for (j = 1; j <= i__2; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L40: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k1 + l2 * c_dim1] = x[2];
- c__[k2 + l1 * c_dim1] = x[1];
- c__[k2 + l2 * c_dim1] = x[3];
- }
- L50:
- ;
- }
- L60:
- ;
- }
- } else if (! notrna && notrnb) {
- /* Solve A' *X + ISGN*X*B = scale*C. */
- /* The (K,L)th block of X is determined starting from */
- /* upper-left corner column by column by */
- /* A(K,K)'*X(K,L) + ISGN*X(K,L)*B(L,L) = C(K,L) - R(K,L) */
- /* Where */
- /* K-1 L-1 */
- /* R(K,L) = SUM [A(I,K)'*X(I,L)] +ISGN*SUM [X(K,J)*B(J,L)] */
- /* I=1 J=1 */
- /* Start column loop (index = L) */
- /* L1 (L2): column index of the first (last) row of X(K,L) */
- lnext = 1;
- i__1 = *n;
- for (l = 1; l <= i__1; ++l) {
- if (l < lnext) {
- goto L120;
- }
- if (l == *n) {
- l1 = l;
- l2 = l;
- } else {
- if (b[l + 1 + l * b_dim1] != 0.) {
- l1 = l;
- l2 = l + 1;
- lnext = l + 2;
- } else {
- l1 = l;
- l2 = l;
- lnext = l + 1;
- }
- }
- /* Start row loop (index = K) */
- /* K1 (K2): row index of the first (last) row of X(K,L) */
- knext = 1;
- i__2 = *m;
- for (k = 1; k <= i__2; ++k) {
- if (k < knext) {
- goto L110;
- }
- if (k == *m) {
- k1 = k;
- k2 = k;
- } else {
- if (a[k + 1 + k * a_dim1] != 0.) {
- k1 = k;
- k2 = k + 1;
- knext = k + 2;
- } else {
- k1 = k;
- k2 = k;
- knext = k + 1;
- }
- }
- if (l1 == l2 && k1 == k2) {
- i__3 = k1 - 1;
- suml = ddot_(&i__3, &a[k1 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__3 = l1 - 1;
- sumr = ddot_(&i__3, &c__[k1 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- scaloc = 1.;
- a11 = a[k1 + k1 * a_dim1] + sgn * b[l1 + l1 * b_dim1];
- da11 = abs(a11);
- if (da11 <= smin) {
- a11 = smin;
- da11 = smin;
- *info = 1;
- }
- db = abs(vec[0]);
- if (da11 < 1. && db > 1.) {
- if (db > bignum * da11) {
- scaloc = 1. / db;
- }
- }
- x[0] = vec[0] * scaloc / a11;
- if (scaloc != 1.) {
- i__3 = *n;
- for (j = 1; j <= i__3; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L70: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- } else if (l1 == l2 && k1 != k2) {
- i__3 = k1 - 1;
- suml = ddot_(&i__3, &a[k1 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__3 = l1 - 1;
- sumr = ddot_(&i__3, &c__[k1 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- i__3 = k1 - 1;
- suml = ddot_(&i__3, &a[k2 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__3 = l1 - 1;
- sumr = ddot_(&i__3, &c__[k2 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[1] = c__[k2 + l1 * c_dim1] - (suml + sgn * sumr);
- d__1 = -sgn * b[l1 + l1 * b_dim1];
- dlaln2_(&c_true, &c__2, &c__1, &smin, &c_b26, &a[k1 + k1 *
- a_dim1], lda, &c_b26, &c_b26, vec, &c__2, &d__1,
- &c_b30, x, &c__2, &scaloc, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__3 = *n;
- for (j = 1; j <= i__3; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L80: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k2 + l1 * c_dim1] = x[1];
- } else if (l1 != l2 && k1 == k2) {
- i__3 = k1 - 1;
- suml = ddot_(&i__3, &a[k1 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__3 = l1 - 1;
- sumr = ddot_(&i__3, &c__[k1 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[0] = sgn * (c__[k1 + l1 * c_dim1] - (suml + sgn *
- sumr));
- i__3 = k1 - 1;
- suml = ddot_(&i__3, &a[k1 * a_dim1 + 1], &c__1, &c__[l2 *
- c_dim1 + 1], &c__1);
- i__3 = l1 - 1;
- sumr = ddot_(&i__3, &c__[k1 + c_dim1], ldc, &b[l2 *
- b_dim1 + 1], &c__1);
- vec[1] = sgn * (c__[k1 + l2 * c_dim1] - (suml + sgn *
- sumr));
- d__1 = -sgn * a[k1 + k1 * a_dim1];
- dlaln2_(&c_true, &c__2, &c__1, &smin, &c_b26, &b[l1 + l1 *
- b_dim1], ldb, &c_b26, &c_b26, vec, &c__2, &d__1,
- &c_b30, x, &c__2, &scaloc, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__3 = *n;
- for (j = 1; j <= i__3; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L90: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k1 + l2 * c_dim1] = x[1];
- } else if (l1 != l2 && k1 != k2) {
- i__3 = k1 - 1;
- suml = ddot_(&i__3, &a[k1 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__3 = l1 - 1;
- sumr = ddot_(&i__3, &c__[k1 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- i__3 = k1 - 1;
- suml = ddot_(&i__3, &a[k1 * a_dim1 + 1], &c__1, &c__[l2 *
- c_dim1 + 1], &c__1);
- i__3 = l1 - 1;
- sumr = ddot_(&i__3, &c__[k1 + c_dim1], ldc, &b[l2 *
- b_dim1 + 1], &c__1);
- vec[2] = c__[k1 + l2 * c_dim1] - (suml + sgn * sumr);
- i__3 = k1 - 1;
- suml = ddot_(&i__3, &a[k2 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__3 = l1 - 1;
- sumr = ddot_(&i__3, &c__[k2 + c_dim1], ldc, &b[l1 *
- b_dim1 + 1], &c__1);
- vec[1] = c__[k2 + l1 * c_dim1] - (suml + sgn * sumr);
- i__3 = k1 - 1;
- suml = ddot_(&i__3, &a[k2 * a_dim1 + 1], &c__1, &c__[l2 *
- c_dim1 + 1], &c__1);
- i__3 = l1 - 1;
- sumr = ddot_(&i__3, &c__[k2 + c_dim1], ldc, &b[l2 *
- b_dim1 + 1], &c__1);
- vec[3] = c__[k2 + l2 * c_dim1] - (suml + sgn * sumr);
- dlasy2_(&c_true, &c_false, isgn, &c__2, &c__2, &a[k1 + k1
- * a_dim1], lda, &b[l1 + l1 * b_dim1], ldb, vec, &
- c__2, &scaloc, x, &c__2, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__3 = *n;
- for (j = 1; j <= i__3; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L100: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k1 + l2 * c_dim1] = x[2];
- c__[k2 + l1 * c_dim1] = x[1];
- c__[k2 + l2 * c_dim1] = x[3];
- }
- L110:
- ;
- }
- L120:
- ;
- }
- } else if (! notrna && ! notrnb) {
- /* Solve A'*X + ISGN*X*B' = scale*C. */
- /* The (K,L)th block of X is determined starting from */
- /* top-right corner column by column by */
- /* A(K,K)'*X(K,L) + ISGN*X(K,L)*B(L,L)' = C(K,L) - R(K,L) */
- /* Where */
- /* K-1 N */
- /* R(K,L) = SUM [A(I,K)'*X(I,L)] + ISGN*SUM [X(K,J)*B(L,J)']. */
- /* I=1 J=L+1 */
- /* Start column loop (index = L) */
- /* L1 (L2): column index of the first (last) row of X(K,L) */
- lnext = *n;
- for (l = *n; l >= 1; --l) {
- if (l > lnext) {
- goto L180;
- }
- if (l == 1) {
- l1 = l;
- l2 = l;
- } else {
- if (b[l + (l - 1) * b_dim1] != 0.) {
- l1 = l - 1;
- l2 = l;
- lnext = l - 2;
- } else {
- l1 = l;
- l2 = l;
- lnext = l - 1;
- }
- }
- /* Start row loop (index = K) */
- /* K1 (K2): row index of the first (last) row of X(K,L) */
- knext = 1;
- i__1 = *m;
- for (k = 1; k <= i__1; ++k) {
- if (k < knext) {
- goto L170;
- }
- if (k == *m) {
- k1 = k;
- k2 = k;
- } else {
- if (a[k + 1 + k * a_dim1] != 0.) {
- k1 = k;
- k2 = k + 1;
- knext = k + 2;
- } else {
- k1 = k;
- k2 = k;
- knext = k + 1;
- }
- }
- if (l1 == l2 && k1 == k2) {
- i__2 = k1 - 1;
- suml = ddot_(&i__2, &a[k1 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__2 = *n - l1;
- /* Computing MIN */
- i__3 = l1 + 1;
- /* Computing MIN */
- i__4 = l1 + 1;
- sumr = ddot_(&i__2, &c__[k1 + min(i__3, *n)* c_dim1], ldc,
- &b[l1 + min(i__4, *n)* b_dim1], ldb);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- scaloc = 1.;
- a11 = a[k1 + k1 * a_dim1] + sgn * b[l1 + l1 * b_dim1];
- da11 = abs(a11);
- if (da11 <= smin) {
- a11 = smin;
- da11 = smin;
- *info = 1;
- }
- db = abs(vec[0]);
- if (da11 < 1. && db > 1.) {
- if (db > bignum * da11) {
- scaloc = 1. / db;
- }
- }
- x[0] = vec[0] * scaloc / a11;
- if (scaloc != 1.) {
- i__2 = *n;
- for (j = 1; j <= i__2; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L130: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- } else if (l1 == l2 && k1 != k2) {
- i__2 = k1 - 1;
- suml = ddot_(&i__2, &a[k1 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__2 = *n - l2;
- /* Computing MIN */
- i__3 = l2 + 1;
- /* Computing MIN */
- i__4 = l2 + 1;
- sumr = ddot_(&i__2, &c__[k1 + min(i__3, *n)* c_dim1], ldc,
- &b[l1 + min(i__4, *n)* b_dim1], ldb);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- i__2 = k1 - 1;
- suml = ddot_(&i__2, &a[k2 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__2 = *n - l2;
- /* Computing MIN */
- i__3 = l2 + 1;
- /* Computing MIN */
- i__4 = l2 + 1;
- sumr = ddot_(&i__2, &c__[k2 + min(i__3, *n)* c_dim1], ldc,
- &b[l1 + min(i__4, *n)* b_dim1], ldb);
- vec[1] = c__[k2 + l1 * c_dim1] - (suml + sgn * sumr);
- d__1 = -sgn * b[l1 + l1 * b_dim1];
- dlaln2_(&c_true, &c__2, &c__1, &smin, &c_b26, &a[k1 + k1 *
- a_dim1], lda, &c_b26, &c_b26, vec, &c__2, &d__1,
- &c_b30, x, &c__2, &scaloc, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__2 = *n;
- for (j = 1; j <= i__2; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L140: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k2 + l1 * c_dim1] = x[1];
- } else if (l1 != l2 && k1 == k2) {
- i__2 = k1 - 1;
- suml = ddot_(&i__2, &a[k1 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__2 = *n - l2;
- /* Computing MIN */
- i__3 = l2 + 1;
- /* Computing MIN */
- i__4 = l2 + 1;
- sumr = ddot_(&i__2, &c__[k1 + min(i__3, *n)* c_dim1], ldc,
- &b[l1 + min(i__4, *n)* b_dim1], ldb);
- vec[0] = sgn * (c__[k1 + l1 * c_dim1] - (suml + sgn *
- sumr));
- i__2 = k1 - 1;
- suml = ddot_(&i__2, &a[k1 * a_dim1 + 1], &c__1, &c__[l2 *
- c_dim1 + 1], &c__1);
- i__2 = *n - l2;
- /* Computing MIN */
- i__3 = l2 + 1;
- /* Computing MIN */
- i__4 = l2 + 1;
- sumr = ddot_(&i__2, &c__[k1 + min(i__3, *n)* c_dim1], ldc,
- &b[l2 + min(i__4, *n)* b_dim1], ldb);
- vec[1] = sgn * (c__[k1 + l2 * c_dim1] - (suml + sgn *
- sumr));
- d__1 = -sgn * a[k1 + k1 * a_dim1];
- dlaln2_(&c_false, &c__2, &c__1, &smin, &c_b26, &b[l1 + l1
- * b_dim1], ldb, &c_b26, &c_b26, vec, &c__2, &d__1,
- &c_b30, x, &c__2, &scaloc, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__2 = *n;
- for (j = 1; j <= i__2; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L150: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k1 + l2 * c_dim1] = x[1];
- } else if (l1 != l2 && k1 != k2) {
- i__2 = k1 - 1;
- suml = ddot_(&i__2, &a[k1 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__2 = *n - l2;
- /* Computing MIN */
- i__3 = l2 + 1;
- /* Computing MIN */
- i__4 = l2 + 1;
- sumr = ddot_(&i__2, &c__[k1 + min(i__3, *n)* c_dim1], ldc,
- &b[l1 + min(i__4, *n)* b_dim1], ldb);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- i__2 = k1 - 1;
- suml = ddot_(&i__2, &a[k1 * a_dim1 + 1], &c__1, &c__[l2 *
- c_dim1 + 1], &c__1);
- i__2 = *n - l2;
- /* Computing MIN */
- i__3 = l2 + 1;
- /* Computing MIN */
- i__4 = l2 + 1;
- sumr = ddot_(&i__2, &c__[k1 + min(i__3, *n)* c_dim1], ldc,
- &b[l2 + min(i__4, *n)* b_dim1], ldb);
- vec[2] = c__[k1 + l2 * c_dim1] - (suml + sgn * sumr);
- i__2 = k1 - 1;
- suml = ddot_(&i__2, &a[k2 * a_dim1 + 1], &c__1, &c__[l1 *
- c_dim1 + 1], &c__1);
- i__2 = *n - l2;
- /* Computing MIN */
- i__3 = l2 + 1;
- /* Computing MIN */
- i__4 = l2 + 1;
- sumr = ddot_(&i__2, &c__[k2 + min(i__3, *n)* c_dim1], ldc,
- &b[l1 + min(i__4, *n)* b_dim1], ldb);
- vec[1] = c__[k2 + l1 * c_dim1] - (suml + sgn * sumr);
- i__2 = k1 - 1;
- suml = ddot_(&i__2, &a[k2 * a_dim1 + 1], &c__1, &c__[l2 *
- c_dim1 + 1], &c__1);
- i__2 = *n - l2;
- /* Computing MIN */
- i__3 = l2 + 1;
- /* Computing MIN */
- i__4 = l2 + 1;
- sumr = ddot_(&i__2, &c__[k2 + min(i__3, *n)* c_dim1], ldc,
- &b[l2 + min(i__4, *n)* b_dim1], ldb);
- vec[3] = c__[k2 + l2 * c_dim1] - (suml + sgn * sumr);
- dlasy2_(&c_true, &c_true, isgn, &c__2, &c__2, &a[k1 + k1 *
- a_dim1], lda, &b[l1 + l1 * b_dim1], ldb, vec, &
- c__2, &scaloc, x, &c__2, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__2 = *n;
- for (j = 1; j <= i__2; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L160: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k1 + l2 * c_dim1] = x[2];
- c__[k2 + l1 * c_dim1] = x[1];
- c__[k2 + l2 * c_dim1] = x[3];
- }
- L170:
- ;
- }
- L180:
- ;
- }
- } else if (notrna && ! notrnb) {
- /* Solve A*X + ISGN*X*B' = scale*C. */
- /* The (K,L)th block of X is determined starting from */
- /* bottom-right corner column by column by */
- /* A(K,K)*X(K,L) + ISGN*X(K,L)*B(L,L)' = C(K,L) - R(K,L) */
- /* Where */
- /* M N */
- /* R(K,L) = SUM [A(K,I)*X(I,L)] + ISGN*SUM [X(K,J)*B(L,J)']. */
- /* I=K+1 J=L+1 */
- /* Start column loop (index = L) */
- /* L1 (L2): column index of the first (last) row of X(K,L) */
- lnext = *n;
- for (l = *n; l >= 1; --l) {
- if (l > lnext) {
- goto L240;
- }
- if (l == 1) {
- l1 = l;
- l2 = l;
- } else {
- if (b[l + (l - 1) * b_dim1] != 0.) {
- l1 = l - 1;
- l2 = l;
- lnext = l - 2;
- } else {
- l1 = l;
- l2 = l;
- lnext = l - 1;
- }
- }
- /* Start row loop (index = K) */
- /* K1 (K2): row index of the first (last) row of X(K,L) */
- knext = *m;
- for (k = *m; k >= 1; --k) {
- if (k > knext) {
- goto L230;
- }
- if (k == 1) {
- k1 = k;
- k2 = k;
- } else {
- if (a[k + (k - 1) * a_dim1] != 0.) {
- k1 = k - 1;
- k2 = k;
- knext = k - 2;
- } else {
- k1 = k;
- k2 = k;
- knext = k - 1;
- }
- }
- if (l1 == l2 && k1 == k2) {
- i__1 = *m - k1;
- /* Computing MIN */
- i__2 = k1 + 1;
- /* Computing MIN */
- i__3 = k1 + 1;
- suml = ddot_(&i__1, &a[k1 + min(i__2, *m)* a_dim1], lda, &
- c__[min(i__3, *m)+ l1 * c_dim1], &c__1);
- i__1 = *n - l1;
- /* Computing MIN */
- i__2 = l1 + 1;
- /* Computing MIN */
- i__3 = l1 + 1;
- sumr = ddot_(&i__1, &c__[k1 + min(i__2, *n)* c_dim1], ldc,
- &b[l1 + min(i__3, *n)* b_dim1], ldb);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- scaloc = 1.;
- a11 = a[k1 + k1 * a_dim1] + sgn * b[l1 + l1 * b_dim1];
- da11 = abs(a11);
- if (da11 <= smin) {
- a11 = smin;
- da11 = smin;
- *info = 1;
- }
- db = abs(vec[0]);
- if (da11 < 1. && db > 1.) {
- if (db > bignum * da11) {
- scaloc = 1. / db;
- }
- }
- x[0] = vec[0] * scaloc / a11;
- if (scaloc != 1.) {
- i__1 = *n;
- for (j = 1; j <= i__1; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L190: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- } else if (l1 == l2 && k1 != k2) {
- i__1 = *m - k2;
- /* Computing MIN */
- i__2 = k2 + 1;
- /* Computing MIN */
- i__3 = k2 + 1;
- suml = ddot_(&i__1, &a[k1 + min(i__2, *m)* a_dim1], lda, &
- c__[min(i__3, *m)+ l1 * c_dim1], &c__1);
- i__1 = *n - l2;
- /* Computing MIN */
- i__2 = l2 + 1;
- /* Computing MIN */
- i__3 = l2 + 1;
- sumr = ddot_(&i__1, &c__[k1 + min(i__2, *n)* c_dim1], ldc,
- &b[l1 + min(i__3, *n)* b_dim1], ldb);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- i__1 = *m - k2;
- /* Computing MIN */
- i__2 = k2 + 1;
- /* Computing MIN */
- i__3 = k2 + 1;
- suml = ddot_(&i__1, &a[k2 + min(i__2, *m)* a_dim1], lda, &
- c__[min(i__3, *m)+ l1 * c_dim1], &c__1);
- i__1 = *n - l2;
- /* Computing MIN */
- i__2 = l2 + 1;
- /* Computing MIN */
- i__3 = l2 + 1;
- sumr = ddot_(&i__1, &c__[k2 + min(i__2, *n)* c_dim1], ldc,
- &b[l1 + min(i__3, *n)* b_dim1], ldb);
- vec[1] = c__[k2 + l1 * c_dim1] - (suml + sgn * sumr);
- d__1 = -sgn * b[l1 + l1 * b_dim1];
- dlaln2_(&c_false, &c__2, &c__1, &smin, &c_b26, &a[k1 + k1
- * a_dim1], lda, &c_b26, &c_b26, vec, &c__2, &d__1,
- &c_b30, x, &c__2, &scaloc, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__1 = *n;
- for (j = 1; j <= i__1; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L200: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k2 + l1 * c_dim1] = x[1];
- } else if (l1 != l2 && k1 == k2) {
- i__1 = *m - k1;
- /* Computing MIN */
- i__2 = k1 + 1;
- /* Computing MIN */
- i__3 = k1 + 1;
- suml = ddot_(&i__1, &a[k1 + min(i__2, *m)* a_dim1], lda, &
- c__[min(i__3, *m)+ l1 * c_dim1], &c__1);
- i__1 = *n - l2;
- /* Computing MIN */
- i__2 = l2 + 1;
- /* Computing MIN */
- i__3 = l2 + 1;
- sumr = ddot_(&i__1, &c__[k1 + min(i__2, *n)* c_dim1], ldc,
- &b[l1 + min(i__3, *n)* b_dim1], ldb);
- vec[0] = sgn * (c__[k1 + l1 * c_dim1] - (suml + sgn *
- sumr));
- i__1 = *m - k1;
- /* Computing MIN */
- i__2 = k1 + 1;
- /* Computing MIN */
- i__3 = k1 + 1;
- suml = ddot_(&i__1, &a[k1 + min(i__2, *m)* a_dim1], lda, &
- c__[min(i__3, *m)+ l2 * c_dim1], &c__1);
- i__1 = *n - l2;
- /* Computing MIN */
- i__2 = l2 + 1;
- /* Computing MIN */
- i__3 = l2 + 1;
- sumr = ddot_(&i__1, &c__[k1 + min(i__2, *n)* c_dim1], ldc,
- &b[l2 + min(i__3, *n)* b_dim1], ldb);
- vec[1] = sgn * (c__[k1 + l2 * c_dim1] - (suml + sgn *
- sumr));
- d__1 = -sgn * a[k1 + k1 * a_dim1];
- dlaln2_(&c_false, &c__2, &c__1, &smin, &c_b26, &b[l1 + l1
- * b_dim1], ldb, &c_b26, &c_b26, vec, &c__2, &d__1,
- &c_b30, x, &c__2, &scaloc, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__1 = *n;
- for (j = 1; j <= i__1; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L210: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k1 + l2 * c_dim1] = x[1];
- } else if (l1 != l2 && k1 != k2) {
- i__1 = *m - k2;
- /* Computing MIN */
- i__2 = k2 + 1;
- /* Computing MIN */
- i__3 = k2 + 1;
- suml = ddot_(&i__1, &a[k1 + min(i__2, *m)* a_dim1], lda, &
- c__[min(i__3, *m)+ l1 * c_dim1], &c__1);
- i__1 = *n - l2;
- /* Computing MIN */
- i__2 = l2 + 1;
- /* Computing MIN */
- i__3 = l2 + 1;
- sumr = ddot_(&i__1, &c__[k1 + min(i__2, *n)* c_dim1], ldc,
- &b[l1 + min(i__3, *n)* b_dim1], ldb);
- vec[0] = c__[k1 + l1 * c_dim1] - (suml + sgn * sumr);
- i__1 = *m - k2;
- /* Computing MIN */
- i__2 = k2 + 1;
- /* Computing MIN */
- i__3 = k2 + 1;
- suml = ddot_(&i__1, &a[k1 + min(i__2, *m)* a_dim1], lda, &
- c__[min(i__3, *m)+ l2 * c_dim1], &c__1);
- i__1 = *n - l2;
- /* Computing MIN */
- i__2 = l2 + 1;
- /* Computing MIN */
- i__3 = l2 + 1;
- sumr = ddot_(&i__1, &c__[k1 + min(i__2, *n)* c_dim1], ldc,
- &b[l2 + min(i__3, *n)* b_dim1], ldb);
- vec[2] = c__[k1 + l2 * c_dim1] - (suml + sgn * sumr);
- i__1 = *m - k2;
- /* Computing MIN */
- i__2 = k2 + 1;
- /* Computing MIN */
- i__3 = k2 + 1;
- suml = ddot_(&i__1, &a[k2 + min(i__2, *m)* a_dim1], lda, &
- c__[min(i__3, *m)+ l1 * c_dim1], &c__1);
- i__1 = *n - l2;
- /* Computing MIN */
- i__2 = l2 + 1;
- /* Computing MIN */
- i__3 = l2 + 1;
- sumr = ddot_(&i__1, &c__[k2 + min(i__2, *n)* c_dim1], ldc,
- &b[l1 + min(i__3, *n)* b_dim1], ldb);
- vec[1] = c__[k2 + l1 * c_dim1] - (suml + sgn * sumr);
- i__1 = *m - k2;
- /* Computing MIN */
- i__2 = k2 + 1;
- /* Computing MIN */
- i__3 = k2 + 1;
- suml = ddot_(&i__1, &a[k2 + min(i__2, *m)* a_dim1], lda, &
- c__[min(i__3, *m)+ l2 * c_dim1], &c__1);
- i__1 = *n - l2;
- /* Computing MIN */
- i__2 = l2 + 1;
- /* Computing MIN */
- i__3 = l2 + 1;
- sumr = ddot_(&i__1, &c__[k2 + min(i__2, *n)* c_dim1], ldc,
- &b[l2 + min(i__3, *n)* b_dim1], ldb);
- vec[3] = c__[k2 + l2 * c_dim1] - (suml + sgn * sumr);
- dlasy2_(&c_false, &c_true, isgn, &c__2, &c__2, &a[k1 + k1
- * a_dim1], lda, &b[l1 + l1 * b_dim1], ldb, vec, &
- c__2, &scaloc, x, &c__2, &xnorm, &ierr);
- if (ierr != 0) {
- *info = 1;
- }
- if (scaloc != 1.) {
- i__1 = *n;
- for (j = 1; j <= i__1; ++j) {
- dscal_(m, &scaloc, &c__[j * c_dim1 + 1], &c__1);
- /* L220: */
- }
- *scale *= scaloc;
- }
- c__[k1 + l1 * c_dim1] = x[0];
- c__[k1 + l2 * c_dim1] = x[2];
- c__[k2 + l1 * c_dim1] = x[1];
- c__[k2 + l2 * c_dim1] = x[3];
- }
- L230:
- ;
- }
- L240:
- ;
- }
- }
- return 0;
- /* End of DTRSYL */
- } /* dtrsyl_ */
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