619 lines
21 KiB
Fortran
619 lines
21 KiB
Fortran
*> \brief \b SERRSYX
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*
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* =========== DOCUMENTATION ===========
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*
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* Online html documentation available at
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* http://www.netlib.org/lapack/explore-html/
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*
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* Definition:
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* ===========
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*
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* SUBROUTINE SERRSY( PATH, NUNIT )
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*
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* .. Scalar Arguments ..
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* CHARACTER*3 PATH
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* INTEGER NUNIT
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* ..
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*
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*
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*> \par Purpose:
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* =============
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*>
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*> \verbatim
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*>
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*> SERRSY tests the error exits for the REAL routines
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*> for symmetric indefinite matrices.
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*>
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*> Note that this file is used only when the XBLAS are available,
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*> otherwise serrsy.f defines this subroutine.
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*> \endverbatim
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*
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* Arguments:
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* ==========
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*
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*> \param[in] PATH
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*> \verbatim
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*> PATH is CHARACTER*3
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*> The LAPACK path name for the routines to be tested.
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*> \endverbatim
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*>
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*> \param[in] NUNIT
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*> \verbatim
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*> NUNIT is INTEGER
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*> The unit number for output.
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*> \endverbatim
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*
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* Authors:
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* ========
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*
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*> \author Univ. of Tennessee
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*> \author Univ. of California Berkeley
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*> \author Univ. of Colorado Denver
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*> \author NAG Ltd.
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*
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*> \date December 2016
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*
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*> \ingroup single_lin
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*
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* =====================================================================
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SUBROUTINE SERRSY( PATH, NUNIT )
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*
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* -- LAPACK test routine (version 3.7.0) --
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* -- LAPACK is a software package provided by Univ. of Tennessee, --
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* -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--
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* December 2016
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*
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* .. Scalar Arguments ..
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CHARACTER*3 PATH
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INTEGER NUNIT
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* ..
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*
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* =====================================================================
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*
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* .. Parameters ..
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INTEGER NMAX
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PARAMETER ( NMAX = 4 )
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* ..
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* .. Local Scalars ..
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CHARACTER EQ
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CHARACTER*2 C2
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INTEGER I, INFO, J, N_ERR_BNDS, NPARAMS
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REAL ANRM, RCOND, BERR
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* ..
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* .. Local Arrays ..
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INTEGER IP( NMAX ), IW( NMAX )
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REAL A( NMAX, NMAX ), AF( NMAX, NMAX ), B( NMAX ),
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$ E( NMAX ), R1( NMAX ), R2( NMAX ), W( 3*NMAX ),
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$ X( NMAX ), S( NMAX ), ERR_BNDS_N( NMAX, 3 ),
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$ ERR_BNDS_C( NMAX, 3 ), PARAMS( 1 )
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* ..
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* .. External Functions ..
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LOGICAL LSAMEN
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EXTERNAL LSAMEN
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* ..
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* .. External Subroutines ..
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EXTERNAL ALAESM, CHKXER, SSPCON, SSPRFS, SSPTRF, SSPTRI,
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$ SSPTRS, SSYCON, SSYCON_3, SSYCON_ROOK, SSYRFS,
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$ SSYTF2, SSYTF2_RK, SSYTF2_ROOK, SSYTRF,
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$ SSYTRF_RK, SSYTRF_ROOK, SSYTRI, SSYTRI_3,
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$ SSYTRI_3X, SSYTRI_ROOK, SSYTRI2, SSYTRI2X,
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$ SSYTRS, SSYTRS_3, SSYTRS_ROOK, SSYRFSX
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* ..
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* .. Scalars in Common ..
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LOGICAL LERR, OK
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CHARACTER*32 SRNAMT
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INTEGER INFOT, NOUT
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* ..
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* .. Common blocks ..
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COMMON / INFOC / INFOT, NOUT, OK, LERR
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COMMON / SRNAMC / SRNAMT
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* ..
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* .. Intrinsic Functions ..
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INTRINSIC REAL
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* ..
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* .. Executable Statements ..
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*
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NOUT = NUNIT
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WRITE( NOUT, FMT = * )
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C2 = PATH( 2: 3 )
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*
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* Set the variables to innocuous values.
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*
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DO 20 J = 1, NMAX
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DO 10 I = 1, NMAX
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A( I, J ) = 1. / REAL( I+J )
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AF( I, J ) = 1. / REAL( I+J )
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10 CONTINUE
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B( J ) = 0.E+0
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E( J ) = 0.E+0
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R1( J ) = 0.E+0
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R2( J ) = 0.E+0
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W( J ) = 0.E+0
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X( J ) = 0.E+0
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IP( J ) = J
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IW( J ) = J
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20 CONTINUE
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ANRM = 1.0
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RCOND = 1.0
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OK = .TRUE.
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*
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IF( LSAMEN( 2, C2, 'SY' ) ) THEN
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*
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* Test error exits of the routines that use factorization
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* of a symmetric indefinite matrix with patrial
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* (Bunch-Kaufman) pivoting.
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*
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* SSYTRF
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*
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SRNAMT = 'SSYTRF'
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INFOT = 1
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CALL SSYTRF( '/', 0, A, 1, IP, W, 1, INFO )
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CALL CHKXER( 'SSYTRF', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTRF( 'U', -1, A, 1, IP, W, 1, INFO )
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CALL CHKXER( 'SSYTRF', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYTRF( 'U', 2, A, 1, IP, W, 4, INFO )
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CALL CHKXER( 'SSYTRF', INFOT, NOUT, LERR, OK )
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INFOT = 7
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CALL SSYTRF( 'U', 0, A, 1, IP, W, 0, INFO )
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CALL CHKXER( 'SSYTRF', INFOT, NOUT, LERR, OK )
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INFOT = 7
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CALL SSYTRF( 'U', 0, A, 1, IP, W, -2, INFO )
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CALL CHKXER( 'SSYTRF', INFOT, NOUT, LERR, OK )
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*
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* SSYTF2
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*
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SRNAMT = 'SSYTF2'
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INFOT = 1
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CALL SSYTF2( '/', 0, A, 1, IP, INFO )
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CALL CHKXER( 'SSYTF2', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTF2( 'U', -1, A, 1, IP, INFO )
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CALL CHKXER( 'SSYTF2', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYTF2( 'U', 2, A, 1, IP, INFO )
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CALL CHKXER( 'SSYTF2', INFOT, NOUT, LERR, OK )
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*
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* SSYTRI
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*
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SRNAMT = 'SSYTRI'
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INFOT = 1
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CALL SSYTRI( '/', 0, A, 1, IP, W, INFO )
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CALL CHKXER( 'SSYTRI', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTRI( 'U', -1, A, 1, IP, W, INFO )
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CALL CHKXER( 'SSYTRI', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYTRI( 'U', 2, A, 1, IP, W, INFO )
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CALL CHKXER( 'SSYTRI', INFOT, NOUT, LERR, OK )
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*
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* SSYTRI2
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*
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SRNAMT = 'SSYTRI2'
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INFOT = 1
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CALL SSYTRI2( '/', 0, A, 1, IP, W, IW, INFO )
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CALL CHKXER( 'SSYTRI', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTRI2( 'U', -1, A, 1, IP, W, IW, INFO )
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CALL CHKXER( 'SSYTRI', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYTRI2( 'U', 2, A, 1, IP, W, IW, INFO )
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CALL CHKXER( 'SSYTRI', INFOT, NOUT, LERR, OK )
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*
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* SSYTRI2X
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*
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SRNAMT = 'SSYTRI2X'
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INFOT = 1
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CALL SSYTRI2X( '/', 0, A, 1, IP, W, 1, INFO )
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CALL CHKXER( 'SSYTRI2X', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTRI2X( 'U', -1, A, 1, IP, W, 1, INFO )
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CALL CHKXER( 'SSYTRI2X', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYTRI2X( 'U', 2, A, 1, IP, W, 1, INFO )
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CALL CHKXER( 'SSYTRI2X', INFOT, NOUT, LERR, OK )
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*
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* SSYTRS
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*
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SRNAMT = 'SSYTRS'
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INFOT = 1
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CALL SSYTRS( '/', 0, 0, A, 1, IP, B, 1, INFO )
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CALL CHKXER( 'SSYTRS', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTRS( 'U', -1, 0, A, 1, IP, B, 1, INFO )
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CALL CHKXER( 'SSYTRS', INFOT, NOUT, LERR, OK )
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INFOT = 3
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CALL SSYTRS( 'U', 0, -1, A, 1, IP, B, 1, INFO )
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CALL CHKXER( 'SSYTRS', INFOT, NOUT, LERR, OK )
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INFOT = 5
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CALL SSYTRS( 'U', 2, 1, A, 1, IP, B, 2, INFO )
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CALL CHKXER( 'SSYTRS', INFOT, NOUT, LERR, OK )
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INFOT = 8
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CALL SSYTRS( 'U', 2, 1, A, 2, IP, B, 1, INFO )
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CALL CHKXER( 'SSYTRS', INFOT, NOUT, LERR, OK )
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*
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* SSYRFS
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*
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SRNAMT = 'SSYRFS'
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INFOT = 1
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CALL SSYRFS( '/', 0, 0, A, 1, AF, 1, IP, B, 1, X, 1, R1, R2, W,
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$ IW, INFO )
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CALL CHKXER( 'SSYRFS', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYRFS( 'U', -1, 0, A, 1, AF, 1, IP, B, 1, X, 1, R1, R2,
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$ W, IW, INFO )
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CALL CHKXER( 'SSYRFS', INFOT, NOUT, LERR, OK )
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INFOT = 3
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CALL SSYRFS( 'U', 0, -1, A, 1, AF, 1, IP, B, 1, X, 1, R1, R2,
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$ W, IW, INFO )
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CALL CHKXER( 'SSYRFS', INFOT, NOUT, LERR, OK )
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INFOT = 5
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CALL SSYRFS( 'U', 2, 1, A, 1, AF, 2, IP, B, 2, X, 2, R1, R2, W,
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$ IW, INFO )
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CALL CHKXER( 'SSYRFS', INFOT, NOUT, LERR, OK )
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INFOT = 7
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CALL SSYRFS( 'U', 2, 1, A, 2, AF, 1, IP, B, 2, X, 2, R1, R2, W,
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$ IW, INFO )
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CALL CHKXER( 'SSYRFS', INFOT, NOUT, LERR, OK )
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INFOT = 10
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CALL SSYRFS( 'U', 2, 1, A, 2, AF, 2, IP, B, 1, X, 2, R1, R2, W,
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$ IW, INFO )
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CALL CHKXER( 'SSYRFS', INFOT, NOUT, LERR, OK )
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INFOT = 12
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CALL SSYRFS( 'U', 2, 1, A, 2, AF, 2, IP, B, 2, X, 1, R1, R2, W,
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$ IW, INFO )
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CALL CHKXER( 'SSYRFS', INFOT, NOUT, LERR, OK )
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*
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* SSYRFSX
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*
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N_ERR_BNDS = 3
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NPARAMS = 0
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SRNAMT = 'SSYRFSX'
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INFOT = 1
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CALL SSYRFSX( '/', EQ, 0, 0, A, 1, AF, 1, IP, S, B, 1, X, 1,
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$ RCOND, BERR, N_ERR_BNDS, ERR_BNDS_N, ERR_BNDS_C, NPARAMS,
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$ PARAMS, W, IW, INFO )
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CALL CHKXER( 'SSYRFSX', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYRFSX( 'U', EQ, -1, 0, A, 1, AF, 1, IP, S, B, 1, X, 1,
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$ RCOND, BERR, N_ERR_BNDS, ERR_BNDS_N, ERR_BNDS_C, NPARAMS,
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$ PARAMS, W, IW, INFO )
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CALL CHKXER( 'SSYRFSX', INFOT, NOUT, LERR, OK )
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EQ = 'N'
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INFOT = 3
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CALL SSYRFSX( 'U', EQ, -1, 0, A, 1, AF, 1, IP, S, B, 1, X, 1,
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$ RCOND, BERR, N_ERR_BNDS, ERR_BNDS_N, ERR_BNDS_C, NPARAMS,
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$ PARAMS, W, IW, INFO )
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CALL CHKXER( 'SSYRFSX', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYRFSX( 'U', EQ, 0, -1, A, 1, AF, 1, IP, S, B, 1, X, 1,
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$ RCOND, BERR, N_ERR_BNDS, ERR_BNDS_N, ERR_BNDS_C, NPARAMS,
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$ PARAMS, W, IW, INFO )
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CALL CHKXER( 'SSYRFSX', INFOT, NOUT, LERR, OK )
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INFOT = 6
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CALL SSYRFSX( 'U', EQ, 2, 1, A, 1, AF, 2, IP, S, B, 2, X, 2,
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$ RCOND, BERR, N_ERR_BNDS, ERR_BNDS_N, ERR_BNDS_C, NPARAMS,
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$ PARAMS, W, IW, INFO )
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CALL CHKXER( 'SSYRFSX', INFOT, NOUT, LERR, OK )
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INFOT = 8
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CALL SSYRFSX( 'U', EQ, 2, 1, A, 2, AF, 1, IP, S, B, 2, X, 2,
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$ RCOND, BERR, N_ERR_BNDS, ERR_BNDS_N, ERR_BNDS_C, NPARAMS,
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$ PARAMS, W, IW, INFO )
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CALL CHKXER( 'SSYRFSX', INFOT, NOUT, LERR, OK )
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INFOT = 12
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CALL SSYRFSX( 'U', EQ, 2, 1, A, 2, AF, 2, IP, S, B, 1, X, 2,
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$ RCOND, BERR, N_ERR_BNDS, ERR_BNDS_N, ERR_BNDS_C, NPARAMS,
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$ PARAMS, W, IW, INFO )
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CALL CHKXER( 'SSYRFSX', INFOT, NOUT, LERR, OK )
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INFOT = 14
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CALL SSYRFSX( 'U', EQ, 2, 1, A, 2, AF, 2, IP, S, B, 2, X, 1,
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$ RCOND, BERR, N_ERR_BNDS, ERR_BNDS_N, ERR_BNDS_C, NPARAMS,
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$ PARAMS, W, IW, INFO )
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CALL CHKXER( 'SSYRFSX', INFOT, NOUT, LERR, OK )
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*
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* SSYCON
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*
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SRNAMT = 'SSYCON'
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INFOT = 1
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CALL SSYCON( '/', 0, A, 1, IP, ANRM, RCOND, W, IW, INFO )
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CALL CHKXER( 'SSYCON', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYCON( 'U', -1, A, 1, IP, ANRM, RCOND, W, IW, INFO )
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CALL CHKXER( 'SSYCON', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYCON( 'U', 2, A, 1, IP, ANRM, RCOND, W, IW, INFO )
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CALL CHKXER( 'SSYCON', INFOT, NOUT, LERR, OK )
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INFOT = 6
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CALL SSYCON( 'U', 1, A, 1, IP, -1.0, RCOND, W, IW, INFO )
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CALL CHKXER( 'SSYCON', INFOT, NOUT, LERR, OK )
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*
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ELSE IF( LSAMEN( 2, C2, 'SR' ) ) THEN
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*
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* Test error exits of the routines that use factorization
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* of a symmetric indefinite matrix with rook
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* (bounded Bunch-Kaufman) pivoting.
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*
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* SSYTRF_ROOK
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*
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SRNAMT = 'SSYTRF_ROOK'
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INFOT = 1
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CALL SSYTRF_ROOK( '/', 0, A, 1, IP, W, 1, INFO )
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CALL CHKXER( 'SSYTRF_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTRF_ROOK( 'U', -1, A, 1, IP, W, 1, INFO )
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CALL CHKXER( 'SSYTRF_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYTRF_ROOK( 'U', 2, A, 1, IP, W, 4, INFO )
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CALL CHKXER( 'SSYTRF_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 7
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CALL SSYTRF_ROOK( 'U', 0, A, 1, IP, W, 0, INFO )
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CALL CHKXER( 'SSYTRF_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 7
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CALL SSYTRF_ROOK( 'U', 0, A, 1, IP, W, -2, INFO )
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CALL CHKXER( 'SSYTRF_ROOK', INFOT, NOUT, LERR, OK )
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*
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* SSYTF2_ROOK
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*
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SRNAMT = 'SSYTF2_ROOK'
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INFOT = 1
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CALL SSYTF2_ROOK( '/', 0, A, 1, IP, INFO )
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CALL CHKXER( 'SSYTF2_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTF2_ROOK( 'U', -1, A, 1, IP, INFO )
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CALL CHKXER( 'SSYTF2_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYTF2_ROOK( 'U', 2, A, 1, IP, INFO )
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CALL CHKXER( 'SSYTF2_ROOK', INFOT, NOUT, LERR, OK )
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*
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* SSYTRI_ROOK
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*
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SRNAMT = 'SSYTRI_ROOK'
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INFOT = 1
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CALL SSYTRI_ROOK( '/', 0, A, 1, IP, W, INFO )
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CALL CHKXER( 'SSYTRI_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTRI_ROOK( 'U', -1, A, 1, IP, W, INFO )
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CALL CHKXER( 'SSYTRI_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 4
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CALL SSYTRI_ROOK( 'U', 2, A, 1, IP, W, INFO )
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CALL CHKXER( 'SSYTRI_ROOK', INFOT, NOUT, LERR, OK )
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*
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* SSYTRS_ROOK
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*
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SRNAMT = 'SSYTRS_ROOK'
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INFOT = 1
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CALL SSYTRS_ROOK( '/', 0, 0, A, 1, IP, B, 1, INFO )
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CALL CHKXER( 'SSYTRS_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 2
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CALL SSYTRS_ROOK( 'U', -1, 0, A, 1, IP, B, 1, INFO )
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CALL CHKXER( 'SSYTRS_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 3
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CALL SSYTRS_ROOK( 'U', 0, -1, A, 1, IP, B, 1, INFO )
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CALL CHKXER( 'SSYTRS_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 5
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CALL SSYTRS_ROOK( 'U', 2, 1, A, 1, IP, B, 2, INFO )
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CALL CHKXER( 'SSYTRS_ROOK', INFOT, NOUT, LERR, OK )
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INFOT = 8
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CALL SSYTRS_ROOK( 'U', 2, 1, A, 2, IP, B, 1, INFO )
|
|
CALL CHKXER( 'SSYTRS_ROOK', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSYCON_ROOK
|
|
*
|
|
SRNAMT = 'SSYCON_ROOK'
|
|
INFOT = 1
|
|
CALL SSYCON_ROOK( '/', 0, A, 1, IP, ANRM, RCOND, W, IW, INFO )
|
|
CALL CHKXER( 'SSYCON_ROOK', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSYCON_ROOK( 'U', -1, A, 1, IP, ANRM, RCOND, W, IW, INFO )
|
|
CALL CHKXER( 'SSYCON_ROOK', INFOT, NOUT, LERR, OK )
|
|
INFOT = 4
|
|
CALL SSYCON_ROOK( 'U', 2, A, 1, IP, ANRM, RCOND, W, IW, INFO )
|
|
CALL CHKXER( 'SSYCON_ROOK', INFOT, NOUT, LERR, OK )
|
|
INFOT = 6
|
|
CALL SSYCON_ROOK( 'U', 1, A, 1, IP, -1.0, RCOND, W, IW, INFO )
|
|
CALL CHKXER( 'SSYCON_ROOK', INFOT, NOUT, LERR, OK )
|
|
*
|
|
ELSE IF( LSAMEN( 2, C2, 'SK' ) ) THEN
|
|
*
|
|
* Test error exits of the routines that use factorization
|
|
* of a symmetric indefinite matrix with rook
|
|
* (bounded Bunch-Kaufman) pivoting with the new storage
|
|
* format for factors L ( or U) and D.
|
|
*
|
|
* L (or U) is stored in A, diagonal of D is stored on the
|
|
* diagonal of A, subdiagonal of D is stored in a separate array E.
|
|
*
|
|
* SSYTRF_RK
|
|
*
|
|
SRNAMT = 'SSYTRF_RK'
|
|
INFOT = 1
|
|
CALL SSYTRF_RK( '/', 0, A, 1, E, IP, W, 1, INFO )
|
|
CALL CHKXER( 'SSYTRF_RK', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSYTRF_RK( 'U', -1, A, 1, E, IP, W, 1, INFO )
|
|
CALL CHKXER( 'SSYTRF_RK', INFOT, NOUT, LERR, OK )
|
|
INFOT = 4
|
|
CALL SSYTRF_RK( 'U', 2, A, 1, E, IP, W, 4, INFO )
|
|
CALL CHKXER( 'SSYTRF_RK', INFOT, NOUT, LERR, OK )
|
|
INFOT = 8
|
|
CALL SSYTRF_RK( 'U', 0, A, 1, E, IP, W, 0, INFO )
|
|
CALL CHKXER( 'SSYTRF_RK', INFOT, NOUT, LERR, OK )
|
|
INFOT = 8
|
|
CALL SSYTRF_RK( 'U', 0, A, 1, E, IP, W, -2, INFO )
|
|
CALL CHKXER( 'SSYTRF_RK', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSYTF2_RK
|
|
*
|
|
SRNAMT = 'SSYTF2_RK'
|
|
INFOT = 1
|
|
CALL SSYTF2_RK( '/', 0, A, 1, E, IP, INFO )
|
|
CALL CHKXER( 'SSYTF2_RK', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSYTF2_RK( 'U', -1, A, 1, E, IP, INFO )
|
|
CALL CHKXER( 'SSYTF2_RK', INFOT, NOUT, LERR, OK )
|
|
INFOT = 4
|
|
CALL SSYTF2_RK( 'U', 2, A, 1, E, IP, INFO )
|
|
CALL CHKXER( 'SSYTF2_RK', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSYTRI_3
|
|
*
|
|
SRNAMT = 'SSYTRI_3'
|
|
INFOT = 1
|
|
CALL SSYTRI_3( '/', 0, A, 1, E, IP, W, 1, INFO )
|
|
CALL CHKXER( 'SSYTRI_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSYTRI_3( 'U', -1, A, 1, E, IP, W, 1, INFO )
|
|
CALL CHKXER( 'SSYTRI_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 4
|
|
CALL SSYTRI_3( 'U', 2, A, 1, E, IP, W, 1, INFO )
|
|
CALL CHKXER( 'SSYTRI_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 8
|
|
CALL SSYTRI_3( 'U', 0, A, 1, E, IP, W, 0, INFO )
|
|
CALL CHKXER( 'SSYTRI_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 8
|
|
CALL SSYTRI_3( 'U', 0, A, 1, E, IP, W, -2, INFO )
|
|
CALL CHKXER( 'SSYTRI_3', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSYTRI_3X
|
|
*
|
|
SRNAMT = 'SSYTRI_3X'
|
|
INFOT = 1
|
|
CALL SSYTRI_3X( '/', 0, A, 1, E, IP, W, 1, INFO )
|
|
CALL CHKXER( 'SSYTRI_3X', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSYTRI_3X( 'U', -1, A, 1, E, IP, W, 1, INFO )
|
|
CALL CHKXER( 'SSYTRI_3X', INFOT, NOUT, LERR, OK )
|
|
INFOT = 4
|
|
CALL SSYTRI_3X( 'U', 2, A, 1, E, IP, W, 1, INFO )
|
|
CALL CHKXER( 'SSYTRI_3X', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSYTRS_3
|
|
*
|
|
SRNAMT = 'SSYTRS_3'
|
|
INFOT = 1
|
|
CALL SSYTRS_3( '/', 0, 0, A, 1, E, IP, B, 1, INFO )
|
|
CALL CHKXER( 'SSYTRS_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSYTRS_3( 'U', -1, 0, A, 1, E, IP, B, 1, INFO )
|
|
CALL CHKXER( 'SSYTRS_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 3
|
|
CALL SSYTRS_3( 'U', 0, -1, A, 1, E, IP, B, 1, INFO )
|
|
CALL CHKXER( 'SSYTRS_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 5
|
|
CALL SSYTRS_3( 'U', 2, 1, A, 1, E, IP, B, 2, INFO )
|
|
CALL CHKXER( 'SSYTRS_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 9
|
|
CALL SSYTRS_3( 'U', 2, 1, A, 2, E, IP, B, 1, INFO )
|
|
CALL CHKXER( 'SSYTRS_3', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSYCON_3
|
|
*
|
|
SRNAMT = 'SSYCON_3'
|
|
INFOT = 1
|
|
CALL SSYCON_3( '/', 0, A, 1, E, IP, ANRM, RCOND, W, IW,
|
|
$ INFO )
|
|
CALL CHKXER( 'SSYCON_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSYCON_3( 'U', -1, A, 1, E, IP, ANRM, RCOND, W, IW,
|
|
$ INFO )
|
|
CALL CHKXER( 'SSYCON_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 4
|
|
CALL SSYCON_3( 'U', 2, A, 1, E, IP, ANRM, RCOND, W, IW,
|
|
$ INFO )
|
|
CALL CHKXER( 'SSYCON_3', INFOT, NOUT, LERR, OK )
|
|
INFOT = 7
|
|
CALL SSYCON_3( 'U', 1, A, 1, E, IP, -1.0E0, RCOND, W, IW,
|
|
$ INFO)
|
|
CALL CHKXER( 'SSYCON_3', INFOT, NOUT, LERR, OK )
|
|
*
|
|
ELSE IF( LSAMEN( 2, C2, 'SP' ) ) THEN
|
|
*
|
|
* Test error exits of the routines that use factorization
|
|
* of a symmetric indefinite packed matrix with patrial
|
|
* (Bunch-Kaufman) pivoting.
|
|
*
|
|
* SSPTRF
|
|
*
|
|
SRNAMT = 'SSPTRF'
|
|
INFOT = 1
|
|
CALL SSPTRF( '/', 0, A, IP, INFO )
|
|
CALL CHKXER( 'SSPTRF', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSPTRF( 'U', -1, A, IP, INFO )
|
|
CALL CHKXER( 'SSPTRF', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSPTRI
|
|
*
|
|
SRNAMT = 'SSPTRI'
|
|
INFOT = 1
|
|
CALL SSPTRI( '/', 0, A, IP, W, INFO )
|
|
CALL CHKXER( 'SSPTRI', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSPTRI( 'U', -1, A, IP, W, INFO )
|
|
CALL CHKXER( 'SSPTRI', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSPTRS
|
|
*
|
|
SRNAMT = 'SSPTRS'
|
|
INFOT = 1
|
|
CALL SSPTRS( '/', 0, 0, A, IP, B, 1, INFO )
|
|
CALL CHKXER( 'SSPTRS', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSPTRS( 'U', -1, 0, A, IP, B, 1, INFO )
|
|
CALL CHKXER( 'SSPTRS', INFOT, NOUT, LERR, OK )
|
|
INFOT = 3
|
|
CALL SSPTRS( 'U', 0, -1, A, IP, B, 1, INFO )
|
|
CALL CHKXER( 'SSPTRS', INFOT, NOUT, LERR, OK )
|
|
INFOT = 7
|
|
CALL SSPTRS( 'U', 2, 1, A, IP, B, 1, INFO )
|
|
CALL CHKXER( 'SSPTRS', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSPRFS
|
|
*
|
|
SRNAMT = 'SSPRFS'
|
|
INFOT = 1
|
|
CALL SSPRFS( '/', 0, 0, A, AF, IP, B, 1, X, 1, R1, R2, W, IW,
|
|
$ INFO )
|
|
CALL CHKXER( 'SSPRFS', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSPRFS( 'U', -1, 0, A, AF, IP, B, 1, X, 1, R1, R2, W, IW,
|
|
$ INFO )
|
|
CALL CHKXER( 'SSPRFS', INFOT, NOUT, LERR, OK )
|
|
INFOT = 3
|
|
CALL SSPRFS( 'U', 0, -1, A, AF, IP, B, 1, X, 1, R1, R2, W, IW,
|
|
$ INFO )
|
|
CALL CHKXER( 'SSPRFS', INFOT, NOUT, LERR, OK )
|
|
INFOT = 8
|
|
CALL SSPRFS( 'U', 2, 1, A, AF, IP, B, 1, X, 2, R1, R2, W, IW,
|
|
$ INFO )
|
|
CALL CHKXER( 'SSPRFS', INFOT, NOUT, LERR, OK )
|
|
INFOT = 10
|
|
CALL SSPRFS( 'U', 2, 1, A, AF, IP, B, 2, X, 1, R1, R2, W, IW,
|
|
$ INFO )
|
|
CALL CHKXER( 'SSPRFS', INFOT, NOUT, LERR, OK )
|
|
*
|
|
* SSPCON
|
|
*
|
|
SRNAMT = 'SSPCON'
|
|
INFOT = 1
|
|
CALL SSPCON( '/', 0, A, IP, ANRM, RCOND, W, IW, INFO )
|
|
CALL CHKXER( 'SSPCON', INFOT, NOUT, LERR, OK )
|
|
INFOT = 2
|
|
CALL SSPCON( 'U', -1, A, IP, ANRM, RCOND, W, IW, INFO )
|
|
CALL CHKXER( 'SSPCON', INFOT, NOUT, LERR, OK )
|
|
INFOT = 5
|
|
CALL SSPCON( 'U', 1, A, IP, -1.0, RCOND, W, IW, INFO )
|
|
CALL CHKXER( 'SSPCON', INFOT, NOUT, LERR, OK )
|
|
END IF
|
|
*
|
|
* Print a summary line.
|
|
*
|
|
CALL ALAESM( PATH, OK, NOUT )
|
|
*
|
|
RETURN
|
|
*
|
|
* End of SERRSY
|
|
*
|
|
END
|