/* Subroutine */ int strtri_(char *uplo, char *diag, integer *n, real *a,
integer *lda, integer *info)
{
/* -- LAPACK routine (version 2.0) --
Univ. of Tennessee, Univ. of California Berkeley, NAG Ltd.,
Courant Institute, Argonne National Lab, and Rice University
March 31, 1993
Purpose
=======
STRTRI computes the inverse of a real upper or lower triangular
matrix A.
This is the Level 3 BLAS version of the algorithm.
Arguments
=========
UPLO (input) CHARACTER*1
= 'U': A is upper triangular;
= 'L': A is lower triangular.
DIAG (input) CHARACTER*1
= 'N': A is non-unit triangular;
= 'U': A is unit triangular.
N (input) INTEGER
The order of the matrix A. N >= 0.
A (input/output) REAL array, dimension (LDA,N)
On entry, the triangular matrix A. If UPLO = 'U', the
leading N-by-N upper triangular part of the array A contains
the upper triangular matrix, and the strictly lower
triangular part of A is not referenced. If UPLO = 'L', the
leading N-by-N lower triangular part of the array A contains
the lower triangular matrix, and the strictly upper
triangular part of A is not referenced. If DIAG = 'U', the
diagonal elements of A are also not referenced and are
assumed to be 1.
On exit, the (triangular) inverse of the original matrix, in
the same storage format.
LDA (input) INTEGER
The leading dimension of the array A. LDA >= max(1,N).
INFO (output) INTEGER
= 0: successful exit
< 0: if INFO = -i, the i-th argument had an illegal value
> 0: if INFO = i, A(i,i) is exactly zero. The triangular
matrix is singular and its inverse can not be computed.
=====================================================================
Test the input parameters.
Parameter adjustments
Function Body */
/* Table of constant values */
static integer c__1 = 1;
static integer c_n1 = -1;
static integer c__2 = 2;
static real c_b18 = 1.f;
static real c_b22 = -1.f;
/* System generated locals */
address a__1[2];
integer a_dim1, a_offset, i__1, i__2[2], i__3, i__4, i__5;
char ch__1[2];
/* Builtin functions
Subroutine */ int s_cat(char *, char **, integer *, integer *, ftnlen);
/* Local variables */
static integer j;
extern logical lsame_(char *, char *);
static logical upper;
extern /* Subroutine */ int strmm_(char *, char *, char *, char *,
integer *, integer *, real *, real *, integer *, real *, integer *
), strsm_(char *, char *, char *,
char *, integer *, integer *, real *, real *, integer *, real *,
integer *);
static integer jb, nb;
extern /* Subroutine */ int strti2_(char *, char *, integer *, real *,
integer *, integer *);
static integer nn;
extern /* Subroutine */ int xerbla_(char *, integer *);
extern integer ilaenv_(integer *, char *, char *, integer *, integer *,
integer *, integer *, ftnlen, ftnlen);
static logical nounit;
#define A(I,J) a[(I)-1 + ((J)-1)* ( *lda)]
*info = 0;
upper = lsame_(uplo, "U");
nounit = lsame_(diag, "N");
if (! upper && ! lsame_(uplo, "L")) {
*info = -1;
} else if (! nounit && ! lsame_(diag, "U")) {
*info = -2;
} else if (*n < 0) {
*info = -3;
} else if (*lda < max(1,*n)) {
*info = -5;
}
if (*info != 0) {
i__1 = -(*info);
xerbla_("STRTRI", &i__1);
return 0;
}
/* Quick return if possible */
if (*n == 0) {
return 0;
}
/* Check for singularity if non-unit. */
if (nounit) {
i__1 = *n;
for (*info = 1; *info <= i__1; ++(*info)) {
if (A(*info,*info) == 0.f) {
return 0;
}
/* L10: */
}
*info = 0;
}
/* Determine the block size for this environment.
Writing concatenation */
i__2[0] = 1, a__1[0] = uplo;
i__2[1] = 1, a__1[1] = diag;
s_cat(ch__1, a__1, i__2, &c__2, 2L);
nb = ilaenv_(&c__1, "STRTRI", ch__1, n, &c_n1, &c_n1, &c_n1, 6L, 2L);
if (nb <= 1 || nb >= *n) {
/* Use unblocked code */
strti2_(uplo, diag, n, &A(1,1), lda, info);
} else {
/* Use blocked code */
if (upper) {
/* Compute inverse of upper triangular matrix */
i__1 = *n;
i__3 = nb;
for (j = 1; nb < 0 ? j >= *n : j <= *n; j += nb) {
/* Computing MIN */
i__4 = nb, i__5 = *n - j + 1;
jb = min(i__4,i__5);
/* Compute rows 1:j-1 of current block column */
i__4 = j - 1;
strmm_("Left", "Upper", "No transpose", diag, &i__4, &jb, &
c_b18, &A(1,1), lda, &A(1,j), lda);
i__4 = j - 1;
strsm_("Right", "Upper", "No transpose", diag, &i__4, &jb, &
c_b22, &A(j,j), lda, &A(1,j),
lda);
/* Compute inverse of current diagonal block */
strti2_("Upper", diag, &jb, &A(j,j), lda, info);
/* L20: */
}
} else {
/* Compute inverse of lower triangular matrix */
nn = (*n - 1) / nb * nb + 1;
i__3 = -nb;
for (j = nn; -nb < 0 ? j >= 1 : j <= 1; j += -nb) {
/* Computing MIN */
i__1 = nb, i__4 = *n - j + 1;
jb = min(i__1,i__4);
if (j + jb <= *n) {
/* Compute rows j+jb:n of current block co
lumn */
i__1 = *n - j - jb + 1;
strmm_("Left", "Lower", "No transpose", diag, &i__1, &jb,
&c_b18, &A(j+jb,j+jb), lda, &A(j+jb,j), lda);
i__1 = *n - j - jb + 1;
strsm_("Right", "Lower", "No transpose", diag, &i__1, &jb,
&c_b22, &A(j,j), lda, &A(j+jb,j), lda);
}
/* Compute inverse of current diagonal block */
strti2_("Lower", diag, &jb, &A(j,j), lda, info);
/* L30: */
}
}
}
return 0;
/* End of STRTRI */
} /* strtri_ */
/* Subroutine */ int strtri_(char *uplo, char *diag, integer *n, real *a,
integer *lda, integer *info, ftnlen uplo_len, ftnlen diag_len)
{
/* System generated locals */
address a__1[2];
integer a_dim1, a_offset, i__1, i__2[2], i__3, i__4, i__5;
char ch__1[2];
/* Builtin functions */
/* Subroutine */ int s_cat(char *, char **, integer *, integer *, ftnlen);
/* Local variables */
static integer j, jb, nb, nn;
extern logical lsame_(char *, char *, ftnlen, ftnlen);
static logical upper;
extern /* Subroutine */ int strmm_(char *, char *, char *, char *,
integer *, integer *, real *, real *, integer *, real *, integer *
, ftnlen, ftnlen, ftnlen, ftnlen), strsm_(char *, char *, char *,
char *, integer *, integer *, real *, real *, integer *, real *,
integer *, ftnlen, ftnlen, ftnlen, ftnlen), strti2_(char *, char *
, integer *, real *, integer *, integer *, ftnlen, ftnlen),
xerbla_(char *, integer *, ftnlen);
extern integer ilaenv_(integer *, char *, char *, integer *, integer *,
integer *, integer *, ftnlen, ftnlen);
static logical nounit;
/* -- LAPACK routine (version 3.0) -- */
/* Univ. of Tennessee, Univ. of California Berkeley, NAG Ltd., */
/* Courant Institute, Argonne National Lab, and Rice University */
/* March 31, 1993 */
/* .. Scalar Arguments .. */
/* .. */
/* .. Array Arguments .. */
/* .. */
/* Purpose */
/* ======= */
/* STRTRI computes the inverse of a real upper or lower triangular */
/* matrix A. */
/* This is the Level 3 BLAS version of the algorithm. */
/* Arguments */
/* ========= */
/* UPLO (input) CHARACTER*1 */
/* = 'U': A is upper triangular; */
/* = 'L': A is lower triangular. */
/* DIAG (input) CHARACTER*1 */
/* = 'N': A is non-unit triangular; */
/* = 'U': A is unit triangular. */
/* N (input) INTEGER */
/* The order of the matrix A. N >= 0. */
/* A (input/output) REAL array, dimension (LDA,N) */
/* On entry, the triangular matrix A. If UPLO = 'U', the */
/* leading N-by-N upper triangular part of the array A contains */
/* the upper triangular matrix, and the strictly lower */
/* triangular part of A is not referenced. If UPLO = 'L', the */
/* leading N-by-N lower triangular part of the array A contains */
/* the lower triangular matrix, and the strictly upper */
/* triangular part of A is not referenced. If DIAG = 'U', the */
/* diagonal elements of A are also not referenced and are */
/* assumed to be 1. */
/* On exit, the (triangular) inverse of the original matrix, in */
/* the same storage format. */
/* LDA (input) INTEGER */
/* The leading dimension of the array A. LDA >= max(1,N). */
/* INFO (output) INTEGER */
/* = 0: successful exit */
/* < 0: if INFO = -i, the i-th argument had an illegal value */
/* > 0: if INFO = i, A(i,i) is exactly zero. The triangular */
/* matrix is singular and its inverse can not be computed. */
/* ===================================================================== */
/* .. Parameters .. */
/* .. */
/* .. Local Scalars .. */
/* .. */
/* .. External Functions .. */
/* .. */
/* .. External Subroutines .. */
/* .. */
/* .. Intrinsic Functions .. */
/* .. */
/* .. Executable Statements .. */
/* Test the input parameters. */
/* Parameter adjustments */
a_dim1 = *lda;
a_offset = 1 + a_dim1;
a -= a_offset;
/* Function Body */
*info = 0;
upper = lsame_(uplo, "U", (ftnlen)1, (ftnlen)1);
nounit = lsame_(diag, "N", (ftnlen)1, (ftnlen)1);
if (! upper && ! lsame_(uplo, "L", (ftnlen)1, (ftnlen)1)) {
*info = -1;
} else if (! nounit && ! lsame_(diag, "U", (ftnlen)1, (ftnlen)1)) {
*info = -2;
} else if (*n < 0) {
*info = -3;
} else if (*lda < max(1,*n)) {
*info = -5;
}
if (*info != 0) {
i__1 = -(*info);
xerbla_("STRTRI", &i__1, (ftnlen)6);
return 0;
}
/* Quick return if possible */
if (*n == 0) {
return 0;
}
/* Check for singularity if non-unit. */
if (nounit) {
i__1 = *n;
for (*info = 1; *info <= i__1; ++(*info)) {
if (a[*info + *info * a_dim1] == 0.f) {
return 0;
}
/* L10: */
}
*info = 0;
}
/* Determine the block size for this environment. */
/* Writing concatenation */
i__2[0] = 1, a__1[0] = uplo;
i__2[1] = 1, a__1[1] = diag;
s_cat(ch__1, a__1, i__2, &c__2, (ftnlen)2);
nb = ilaenv_(&c__1, "STRTRI", ch__1, n, &c_n1, &c_n1, &c_n1, (ftnlen)6, (
ftnlen)2);
if (nb <= 1 || nb >= *n) {
/* Use unblocked code */
strti2_(uplo, diag, n, &a[a_offset], lda, info, (ftnlen)1, (ftnlen)1);
} else {
/* Use blocked code */
if (upper) {
/* Compute inverse of upper triangular matrix */
i__1 = *n;
i__3 = nb;
for (j = 1; i__3 < 0 ? j >= i__1 : j <= i__1; j += i__3) {
/* Computing MIN */
i__4 = nb, i__5 = *n - j + 1;
jb = min(i__4,i__5);
/* Compute rows 1:j-1 of current block column */
i__4 = j - 1;
strmm_("Left", "Upper", "No transpose", diag, &i__4, &jb, &
c_b18, &a[a_offset], lda, &a[j * a_dim1 + 1], lda, (
ftnlen)4, (ftnlen)5, (ftnlen)12, (ftnlen)1);
i__4 = j - 1;
strsm_("Right", "Upper", "No transpose", diag, &i__4, &jb, &
c_b22, &a[j + j * a_dim1], lda, &a[j * a_dim1 + 1],
lda, (ftnlen)5, (ftnlen)5, (ftnlen)12, (ftnlen)1);
/* Compute inverse of current diagonal block */
strti2_("Upper", diag, &jb, &a[j + j * a_dim1], lda, info, (
ftnlen)5, (ftnlen)1);
/* L20: */
}
} else {
/* Compute inverse of lower triangular matrix */
nn = (*n - 1) / nb * nb + 1;
i__3 = -nb;
for (j = nn; i__3 < 0 ? j >= 1 : j <= 1; j += i__3) {
/* Computing MIN */
i__1 = nb, i__4 = *n - j + 1;
jb = min(i__1,i__4);
if (j + jb <= *n) {
/* Compute rows j+jb:n of current block column */
i__1 = *n - j - jb + 1;
strmm_("Left", "Lower", "No transpose", diag, &i__1, &jb,
&c_b18, &a[j + jb + (j + jb) * a_dim1], lda, &a[j
+ jb + j * a_dim1], lda, (ftnlen)4, (ftnlen)5, (
ftnlen)12, (ftnlen)1);
i__1 = *n - j - jb + 1;
strsm_("Right", "Lower", "No transpose", diag, &i__1, &jb,
&c_b22, &a[j + j * a_dim1], lda, &a[j + jb + j *
a_dim1], lda, (ftnlen)5, (ftnlen)5, (ftnlen)12, (
ftnlen)1);
}
/* Compute inverse of current diagonal block */
strti2_("Lower", diag, &jb, &a[j + j * a_dim1], lda, info, (
ftnlen)5, (ftnlen)1);
/* L30: */
}
}
}
return 0;
/* End of STRTRI */
} /* strtri_ */
/* Subroutine */ int serrtr_(char *path, integer *nunit)
{
/* Builtin functions */
integer s_wsle(cilist *), e_wsle(void);
/* Subroutine */ int s_copy(char *, char *, ftnlen, ftnlen);
/* Local variables */
real a[4] /* was [2][2] */, b[2], w[2], x[2];
char c2[2];
real r1[2], r2[2];
integer iw[2], info;
real scale, rcond;
extern /* Subroutine */ int strti2_(char *, char *, integer *, real *,
integer *, integer *), alaesm_(char *, logical *,
integer *);
extern logical lsamen_(integer *, char *, char *);
extern /* Subroutine */ int chkxer_(char *, integer *, integer *, logical
*, logical *), slatbs_(char *, char *, char *, char *,
integer *, integer *, real *, integer *, real *, real *, real *,
integer *), stbcon_(char *, char *
, char *, integer *, integer *, real *, integer *, real *, real *,
integer *, integer *), stbrfs_(char *,
char *, char *, integer *, integer *, integer *, real *, integer *
, real *, integer *, real *, integer *, real *, real *, real *,
integer *, integer *), slatps_(char *,
char *, char *, char *, integer *, real *, real *, real *, real *,
integer *), stpcon_(char *, char
*, char *, integer *, real *, real *, real *, integer *, integer *
), slatrs_(char *, char *, char *, char *,
integer *, real *, integer *, real *, real *, real *, integer *), strcon_(char *, char *, char *,
integer *, real *, integer *, real *, real *, integer *, integer *
), stbtrs_(char *, char *, char *,
integer *, integer *, integer *, real *, integer *, real *,
integer *, integer *), stprfs_(char *,
char *, char *, integer *, integer *, real *, real *, integer *,
real *, integer *, real *, real *, real *, integer *, integer *), strrfs_(char *, char *, char *, integer *
, integer *, real *, integer *, real *, integer *, real *,
integer *, real *, real *, real *, integer *, integer *), stptri_(char *, char *, integer *, real *,
integer *), strtri_(char *, char *, integer *,
real *, integer *, integer *), stptrs_(char *,
char *, char *, integer *, integer *, real *, real *, integer *,
integer *), strtrs_(char *, char *, char *
, integer *, integer *, real *, integer *, real *, integer *,
integer *);
/* Fortran I/O blocks */
static cilist io___1 = { 0, 0, 0, 0, 0 };
/* -- LAPACK test routine (version 3.1) -- */
/* Univ. of Tennessee, Univ. of California Berkeley and NAG Ltd.. */
/* November 2006 */
/* .. Scalar Arguments .. */
/* .. */
/* Purpose */
/* ======= */
/* SERRTR tests the error exits for the REAL triangular */
/* routines. */
/* Arguments */
/* ========= */
/* PATH (input) CHARACTER*3 */
/* The LAPACK path name for the routines to be tested. */
/* NUNIT (input) INTEGER */
/* The unit number for output. */
/* ===================================================================== */
/* .. Parameters .. */
/* .. */
/* .. Local Scalars .. */
/* .. */
/* .. Local Arrays .. */
/* .. */
/* .. External Functions .. */
/* .. */
/* .. External Subroutines .. */
/* .. */
/* .. Scalars in Common .. */
/* .. */
/* .. Common blocks .. */
/* .. */
/* .. Executable Statements .. */
infoc_1.nout = *nunit;
io___1.ciunit = infoc_1.nout;
s_wsle(&io___1);
e_wsle();
s_copy(c2, path + 1, (ftnlen)2, (ftnlen)2);
a[0] = 1.f;
a[2] = 2.f;
a[3] = 3.f;
a[1] = 4.f;
infoc_1.ok = TRUE_;
if (lsamen_(&c__2, c2, "TR")) {
/* Test error exits for the general triangular routines. */
/* STRTRI */
s_copy(srnamc_1.srnamt, "STRTRI", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
strtri_("/", "N", &c__0, a, &c__1, &info);
chkxer_("STRTRI", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
strtri_("U", "/", &c__0, a, &c__1, &info);
chkxer_("STRTRI", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
strtri_("U", "N", &c_n1, a, &c__1, &info);
chkxer_("STRTRI", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
strtri_("U", "N", &c__2, a, &c__1, &info);
chkxer_("STRTRI", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* STRTI2 */
s_copy(srnamc_1.srnamt, "STRTI2", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
strti2_("/", "N", &c__0, a, &c__1, &info);
chkxer_("STRTI2", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
strti2_("U", "/", &c__0, a, &c__1, &info);
chkxer_("STRTI2", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
strti2_("U", "N", &c_n1, a, &c__1, &info);
chkxer_("STRTI2", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
strti2_("U", "N", &c__2, a, &c__1, &info);
chkxer_("STRTI2", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* STRTRS */
s_copy(srnamc_1.srnamt, "STRTRS", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
strtrs_("/", "N", "N", &c__0, &c__0, a, &c__1, x, &c__1, &info);
chkxer_("STRTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
strtrs_("U", "/", "N", &c__0, &c__0, a, &c__1, x, &c__1, &info);
chkxer_("STRTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
strtrs_("U", "N", "/", &c__0, &c__0, a, &c__1, x, &c__1, &info);
chkxer_("STRTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
strtrs_("U", "N", "N", &c_n1, &c__0, a, &c__1, x, &c__1, &info);
chkxer_("STRTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
strtrs_("U", "N", "N", &c__0, &c_n1, a, &c__1, x, &c__1, &info);
chkxer_("STRTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 7;
strtrs_("U", "N", "N", &c__2, &c__1, a, &c__1, x, &c__2, &info);
chkxer_("STRTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 9;
strtrs_("U", "N", "N", &c__2, &c__1, a, &c__2, x, &c__1, &info);
chkxer_("STRTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* STRRFS */
s_copy(srnamc_1.srnamt, "STRRFS", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
strrfs_("/", "N", "N", &c__0, &c__0, a, &c__1, b, &c__1, x, &c__1, r1,
r2, w, iw, &info);
chkxer_("STRRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
strrfs_("U", "/", "N", &c__0, &c__0, a, &c__1, b, &c__1, x, &c__1, r1,
r2, w, iw, &info);
chkxer_("STRRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
strrfs_("U", "N", "/", &c__0, &c__0, a, &c__1, b, &c__1, x, &c__1, r1,
r2, w, iw, &info);
chkxer_("STRRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
strrfs_("U", "N", "N", &c_n1, &c__0, a, &c__1, b, &c__1, x, &c__1, r1,
r2, w, iw, &info);
chkxer_("STRRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
strrfs_("U", "N", "N", &c__0, &c_n1, a, &c__1, b, &c__1, x, &c__1, r1,
r2, w, iw, &info);
chkxer_("STRRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 7;
strrfs_("U", "N", "N", &c__2, &c__1, a, &c__1, b, &c__2, x, &c__2, r1,
r2, w, iw, &info);
chkxer_("STRRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 9;
strrfs_("U", "N", "N", &c__2, &c__1, a, &c__2, b, &c__1, x, &c__2, r1,
r2, w, iw, &info);
chkxer_("STRRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 11;
strrfs_("U", "N", "N", &c__2, &c__1, a, &c__2, b, &c__2, x, &c__1, r1,
r2, w, iw, &info);
chkxer_("STRRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* STRCON */
s_copy(srnamc_1.srnamt, "STRCON", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
strcon_("/", "U", "N", &c__0, a, &c__1, &rcond, w, iw, &info);
chkxer_("STRCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
strcon_("1", "/", "N", &c__0, a, &c__1, &rcond, w, iw, &info);
chkxer_("STRCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
strcon_("1", "U", "/", &c__0, a, &c__1, &rcond, w, iw, &info);
chkxer_("STRCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
strcon_("1", "U", "N", &c_n1, a, &c__1, &rcond, w, iw, &info);
chkxer_("STRCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 6;
strcon_("1", "U", "N", &c__2, a, &c__1, &rcond, w, iw, &info);
chkxer_("STRCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* SLATRS */
s_copy(srnamc_1.srnamt, "SLATRS", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
slatrs_("/", "N", "N", "N", &c__0, a, &c__1, x, &scale, w, &info);
chkxer_("SLATRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
slatrs_("U", "/", "N", "N", &c__0, a, &c__1, x, &scale, w, &info);
chkxer_("SLATRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
slatrs_("U", "N", "/", "N", &c__0, a, &c__1, x, &scale, w, &info);
chkxer_("SLATRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
slatrs_("U", "N", "N", "/", &c__0, a, &c__1, x, &scale, w, &info);
chkxer_("SLATRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
slatrs_("U", "N", "N", "N", &c_n1, a, &c__1, x, &scale, w, &info);
chkxer_("SLATRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 7;
slatrs_("U", "N", "N", "N", &c__2, a, &c__1, x, &scale, w, &info);
chkxer_("SLATRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
} else if (lsamen_(&c__2, c2, "TP")) {
/* Test error exits for the packed triangular routines. */
/* STPTRI */
s_copy(srnamc_1.srnamt, "STPTRI", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
stptri_("/", "N", &c__0, a, &info);
chkxer_("STPTRI", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
stptri_("U", "/", &c__0, a, &info);
chkxer_("STPTRI", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
stptri_("U", "N", &c_n1, a, &info);
chkxer_("STPTRI", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* STPTRS */
s_copy(srnamc_1.srnamt, "STPTRS", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
stptrs_("/", "N", "N", &c__0, &c__0, a, x, &c__1, &info);
chkxer_("STPTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
stptrs_("U", "/", "N", &c__0, &c__0, a, x, &c__1, &info);
chkxer_("STPTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
stptrs_("U", "N", "/", &c__0, &c__0, a, x, &c__1, &info);
chkxer_("STPTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
stptrs_("U", "N", "N", &c_n1, &c__0, a, x, &c__1, &info);
chkxer_("STPTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
stptrs_("U", "N", "N", &c__0, &c_n1, a, x, &c__1, &info);
chkxer_("STPTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 8;
stptrs_("U", "N", "N", &c__2, &c__1, a, x, &c__1, &info);
chkxer_("STPTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* STPRFS */
s_copy(srnamc_1.srnamt, "STPRFS", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
stprfs_("/", "N", "N", &c__0, &c__0, a, b, &c__1, x, &c__1, r1, r2, w,
iw, &info);
chkxer_("STPRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
stprfs_("U", "/", "N", &c__0, &c__0, a, b, &c__1, x, &c__1, r1, r2, w,
iw, &info);
chkxer_("STPRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
stprfs_("U", "N", "/", &c__0, &c__0, a, b, &c__1, x, &c__1, r1, r2, w,
iw, &info);
chkxer_("STPRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
stprfs_("U", "N", "N", &c_n1, &c__0, a, b, &c__1, x, &c__1, r1, r2, w,
iw, &info);
chkxer_("STPRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
stprfs_("U", "N", "N", &c__0, &c_n1, a, b, &c__1, x, &c__1, r1, r2, w,
iw, &info);
chkxer_("STPRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 8;
stprfs_("U", "N", "N", &c__2, &c__1, a, b, &c__1, x, &c__2, r1, r2, w,
iw, &info);
chkxer_("STPRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 10;
stprfs_("U", "N", "N", &c__2, &c__1, a, b, &c__2, x, &c__1, r1, r2, w,
iw, &info);
chkxer_("STPRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* STPCON */
s_copy(srnamc_1.srnamt, "STPCON", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
stpcon_("/", "U", "N", &c__0, a, &rcond, w, iw, &info);
chkxer_("STPCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
stpcon_("1", "/", "N", &c__0, a, &rcond, w, iw, &info);
chkxer_("STPCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
stpcon_("1", "U", "/", &c__0, a, &rcond, w, iw, &info);
chkxer_("STPCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
stpcon_("1", "U", "N", &c_n1, a, &rcond, w, iw, &info);
chkxer_("STPCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* SLATPS */
s_copy(srnamc_1.srnamt, "SLATPS", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
slatps_("/", "N", "N", "N", &c__0, a, x, &scale, w, &info);
chkxer_("SLATPS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
slatps_("U", "/", "N", "N", &c__0, a, x, &scale, w, &info);
chkxer_("SLATPS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
slatps_("U", "N", "/", "N", &c__0, a, x, &scale, w, &info);
chkxer_("SLATPS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
slatps_("U", "N", "N", "/", &c__0, a, x, &scale, w, &info);
chkxer_("SLATPS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
slatps_("U", "N", "N", "N", &c_n1, a, x, &scale, w, &info);
chkxer_("SLATPS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
} else if (lsamen_(&c__2, c2, "TB")) {
/* Test error exits for the banded triangular routines. */
/* STBTRS */
s_copy(srnamc_1.srnamt, "STBTRS", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
stbtrs_("/", "N", "N", &c__0, &c__0, &c__0, a, &c__1, x, &c__1, &info);
chkxer_("STBTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
stbtrs_("U", "/", "N", &c__0, &c__0, &c__0, a, &c__1, x, &c__1, &info);
chkxer_("STBTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
stbtrs_("U", "N", "/", &c__0, &c__0, &c__0, a, &c__1, x, &c__1, &info);
chkxer_("STBTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
stbtrs_("U", "N", "N", &c_n1, &c__0, &c__0, a, &c__1, x, &c__1, &info);
chkxer_("STBTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
stbtrs_("U", "N", "N", &c__0, &c_n1, &c__0, a, &c__1, x, &c__1, &info);
chkxer_("STBTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 6;
stbtrs_("U", "N", "N", &c__0, &c__0, &c_n1, a, &c__1, x, &c__1, &info);
chkxer_("STBTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 8;
stbtrs_("U", "N", "N", &c__2, &c__1, &c__1, a, &c__1, x, &c__2, &info);
chkxer_("STBTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 10;
stbtrs_("U", "N", "N", &c__2, &c__0, &c__1, a, &c__1, x, &c__1, &info);
chkxer_("STBTRS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* STBRFS */
s_copy(srnamc_1.srnamt, "STBRFS", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
stbrfs_("/", "N", "N", &c__0, &c__0, &c__0, a, &c__1, b, &c__1, x, &
c__1, r1, r2, w, iw, &info);
chkxer_("STBRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
stbrfs_("U", "/", "N", &c__0, &c__0, &c__0, a, &c__1, b, &c__1, x, &
c__1, r1, r2, w, iw, &info);
chkxer_("STBRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
stbrfs_("U", "N", "/", &c__0, &c__0, &c__0, a, &c__1, b, &c__1, x, &
c__1, r1, r2, w, iw, &info);
chkxer_("STBRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
stbrfs_("U", "N", "N", &c_n1, &c__0, &c__0, a, &c__1, b, &c__1, x, &
c__1, r1, r2, w, iw, &info);
chkxer_("STBRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
stbrfs_("U", "N", "N", &c__0, &c_n1, &c__0, a, &c__1, b, &c__1, x, &
c__1, r1, r2, w, iw, &info);
chkxer_("STBRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 6;
stbrfs_("U", "N", "N", &c__0, &c__0, &c_n1, a, &c__1, b, &c__1, x, &
c__1, r1, r2, w, iw, &info);
chkxer_("STBRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 8;
stbrfs_("U", "N", "N", &c__2, &c__1, &c__1, a, &c__1, b, &c__2, x, &
c__2, r1, r2, w, iw, &info);
chkxer_("STBRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 10;
stbrfs_("U", "N", "N", &c__2, &c__1, &c__1, a, &c__2, b, &c__1, x, &
c__2, r1, r2, w, iw, &info);
chkxer_("STBRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 12;
stbrfs_("U", "N", "N", &c__2, &c__1, &c__1, a, &c__2, b, &c__2, x, &
c__1, r1, r2, w, iw, &info);
chkxer_("STBRFS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* STBCON */
s_copy(srnamc_1.srnamt, "STBCON", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
stbcon_("/", "U", "N", &c__0, &c__0, a, &c__1, &rcond, w, iw, &info);
chkxer_("STBCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
stbcon_("1", "/", "N", &c__0, &c__0, a, &c__1, &rcond, w, iw, &info);
chkxer_("STBCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
stbcon_("1", "U", "/", &c__0, &c__0, a, &c__1, &rcond, w, iw, &info);
chkxer_("STBCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
stbcon_("1", "U", "N", &c_n1, &c__0, a, &c__1, &rcond, w, iw, &info);
chkxer_("STBCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
stbcon_("1", "U", "N", &c__0, &c_n1, a, &c__1, &rcond, w, iw, &info);
chkxer_("STBCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 7;
stbcon_("1", "U", "N", &c__2, &c__1, a, &c__1, &rcond, w, iw, &info);
chkxer_("STBCON", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
/* SLATBS */
s_copy(srnamc_1.srnamt, "SLATBS", (ftnlen)6, (ftnlen)6);
infoc_1.infot = 1;
slatbs_("/", "N", "N", "N", &c__0, &c__0, a, &c__1, x, &scale, w, &
info);
chkxer_("SLATBS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 2;
slatbs_("U", "/", "N", "N", &c__0, &c__0, a, &c__1, x, &scale, w, &
info);
chkxer_("SLATBS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 3;
slatbs_("U", "N", "/", "N", &c__0, &c__0, a, &c__1, x, &scale, w, &
info);
chkxer_("SLATBS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 4;
slatbs_("U", "N", "N", "/", &c__0, &c__0, a, &c__1, x, &scale, w, &
info);
chkxer_("SLATBS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 5;
slatbs_("U", "N", "N", "N", &c_n1, &c__0, a, &c__1, x, &scale, w, &
info);
chkxer_("SLATBS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 6;
slatbs_("U", "N", "N", "N", &c__1, &c_n1, a, &c__1, x, &scale, w, &
info);
chkxer_("SLATBS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
infoc_1.infot = 8;
slatbs_("U", "N", "N", "N", &c__2, &c__1, a, &c__1, x, &scale, w, &
info);
chkxer_("SLATBS", &infoc_1.infot, &infoc_1.nout, &infoc_1.lerr, &
infoc_1.ok);
}
/* Print a summary line. */
alaesm_(path, &infoc_1.ok, &infoc_1.nout);
return 0;
/* End of SERRTR */
} /* serrtr_ */
