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- *> \brief \b ZCKGQR
- *
- * =========== DOCUMENTATION ===========
- *
- * Online html documentation available at
- * http://www.netlib.org/lapack/explore-html/
- *
- * Definition:
- * ===========
- *
- * SUBROUTINE ZCKGQR( NM, MVAL, NP, PVAL, NN, NVAL, NMATS, ISEED,
- * THRESH, NMAX, A, AF, AQ, AR, TAUA, B, BF, BZ,
- * BT, BWK, TAUB, WORK, RWORK, NIN, NOUT, INFO )
- *
- * .. Scalar Arguments ..
- * INTEGER INFO, NIN, NM, NMATS, NMAX, NN, NOUT, NP
- * DOUBLE PRECISION THRESH
- * ..
- * .. Array Arguments ..
- * INTEGER ISEED( 4 ), MVAL( * ), NVAL( * ), PVAL( * )
- * DOUBLE PRECISION RWORK( * )
- * COMPLEX*16 A( * ), AF( * ), AQ( * ), AR( * ), B( * ),
- * $ BF( * ), BT( * ), BWK( * ), BZ( * ), TAUA( * ),
- * $ TAUB( * ), WORK( * )
- * ..
- *
- *
- *> \par Purpose:
- * =============
- *>
- *> \verbatim
- *>
- *> ZCKGQR tests
- *> ZGGQRF: GQR factorization for N-by-M matrix A and N-by-P matrix B,
- *> ZGGRQF: GRQ factorization for M-by-N matrix A and P-by-N matrix B.
- *> \endverbatim
- *
- * Arguments:
- * ==========
- *
- *> \param[in] NM
- *> \verbatim
- *> NM is INTEGER
- *> The number of values of M contained in the vector MVAL.
- *> \endverbatim
- *>
- *> \param[in] MVAL
- *> \verbatim
- *> MVAL is INTEGER array, dimension (NM)
- *> The values of the matrix row(column) dimension M.
- *> \endverbatim
- *>
- *> \param[in] NP
- *> \verbatim
- *> NP is INTEGER
- *> The number of values of P contained in the vector PVAL.
- *> \endverbatim
- *>
- *> \param[in] PVAL
- *> \verbatim
- *> PVAL is INTEGER array, dimension (NP)
- *> The values of the matrix row(column) dimension P.
- *> \endverbatim
- *>
- *> \param[in] NN
- *> \verbatim
- *> NN is INTEGER
- *> The number of values of N contained in the vector NVAL.
- *> \endverbatim
- *>
- *> \param[in] NVAL
- *> \verbatim
- *> NVAL is INTEGER array, dimension (NN)
- *> The values of the matrix column(row) dimension N.
- *> \endverbatim
- *>
- *> \param[in] NMATS
- *> \verbatim
- *> NMATS is INTEGER
- *> The number of matrix types to be tested for each combination
- *> of matrix dimensions. If NMATS >= NTYPES (the maximum
- *> number of matrix types), then all the different types are
- *> generated for testing. If NMATS < NTYPES, another input line
- *> is read to get the numbers of the matrix types to be used.
- *> \endverbatim
- *>
- *> \param[in,out] ISEED
- *> \verbatim
- *> ISEED is INTEGER array, dimension (4)
- *> On entry, the seed of the random number generator. The array
- *> elements should be between 0 and 4095, otherwise they will be
- *> reduced mod 4096, and ISEED(4) must be odd.
- *> On exit, the next seed in the random number sequence after
- *> all the test matrices have been generated.
- *> \endverbatim
- *>
- *> \param[in] THRESH
- *> \verbatim
- *> THRESH is DOUBLE PRECISION
- *> The threshold value for the test ratios. A result is
- *> included in the output file if RESULT >= THRESH. To have
- *> every test ratio printed, use THRESH = 0.
- *> \endverbatim
- *>
- *> \param[in] NMAX
- *> \verbatim
- *> NMAX is INTEGER
- *> The maximum value permitted for M or N, used in dimensioning
- *> the work arrays.
- *> \endverbatim
- *>
- *> \param[out] A
- *> \verbatim
- *> A is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] AF
- *> \verbatim
- *> AF is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] AQ
- *> \verbatim
- *> AQ is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] AR
- *> \verbatim
- *> AR is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] TAUA
- *> \verbatim
- *> TAUA is COMPLEX*16 array, dimension (NMAX)
- *> \endverbatim
- *>
- *> \param[out] B
- *> \verbatim
- *> B is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] BF
- *> \verbatim
- *> BF is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] BZ
- *> \verbatim
- *> BZ is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] BT
- *> \verbatim
- *> BT is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] BWK
- *> \verbatim
- *> BWK is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] TAUB
- *> \verbatim
- *> TAUB is COMPLEX*16 array, dimension (NMAX)
- *> \endverbatim
- *>
- *> \param[out] WORK
- *> \verbatim
- *> WORK is COMPLEX*16 array, dimension (NMAX*NMAX)
- *> \endverbatim
- *>
- *> \param[out] RWORK
- *> \verbatim
- *> RWORK is DOUBLE PRECISION array, dimension (NMAX)
- *> \endverbatim
- *>
- *> \param[in] NIN
- *> \verbatim
- *> NIN is INTEGER
- *> The unit number for input.
- *> \endverbatim
- *>
- *> \param[in] NOUT
- *> \verbatim
- *> NOUT is INTEGER
- *> The unit number for output.
- *> \endverbatim
- *>
- *> \param[out] INFO
- *> \verbatim
- *> INFO is INTEGER
- *> = 0 : successful exit
- *> > 0 : If ZLATMS returns an error code, the absolute value
- *> of it is returned.
- *> \endverbatim
- *
- * Authors:
- * ========
- *
- *> \author Univ. of Tennessee
- *> \author Univ. of California Berkeley
- *> \author Univ. of Colorado Denver
- *> \author NAG Ltd.
- *
- *> \ingroup complex16_eig
- *
- * =====================================================================
- SUBROUTINE ZCKGQR( NM, MVAL, NP, PVAL, NN, NVAL, NMATS, ISEED,
- $ THRESH, NMAX, A, AF, AQ, AR, TAUA, B, BF, BZ,
- $ BT, BWK, TAUB, WORK, RWORK, NIN, NOUT, INFO )
- *
- * -- LAPACK test routine --
- * -- LAPACK is a software package provided by Univ. of Tennessee, --
- * -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--
- *
- * .. Scalar Arguments ..
- INTEGER INFO, NIN, NM, NMATS, NMAX, NN, NOUT, NP
- DOUBLE PRECISION THRESH
- * ..
- * .. Array Arguments ..
- INTEGER ISEED( 4 ), MVAL( * ), NVAL( * ), PVAL( * )
- DOUBLE PRECISION RWORK( * )
- COMPLEX*16 A( * ), AF( * ), AQ( * ), AR( * ), B( * ),
- $ BF( * ), BT( * ), BWK( * ), BZ( * ), TAUA( * ),
- $ TAUB( * ), WORK( * )
- * ..
- *
- * =====================================================================
- *
- * .. Parameters ..
- INTEGER NTESTS
- PARAMETER ( NTESTS = 7 )
- INTEGER NTYPES
- PARAMETER ( NTYPES = 8 )
- * ..
- * .. Local Scalars ..
- LOGICAL FIRSTT
- CHARACTER DISTA, DISTB, TYPE
- CHARACTER*3 PATH
- INTEGER I, IINFO, IM, IMAT, IN, IP, KLA, KLB, KUA, KUB,
- $ LDA, LDB, LWORK, M, MODEA, MODEB, N, NFAIL,
- $ NRUN, NT, P
- DOUBLE PRECISION ANORM, BNORM, CNDNMA, CNDNMB
- * ..
- * .. Local Arrays ..
- LOGICAL DOTYPE( NTYPES )
- DOUBLE PRECISION RESULT( NTESTS )
- * ..
- * .. External Subroutines ..
- EXTERNAL ALAHDG, ALAREQ, ALASUM, DLATB9, ZGQRTS, ZGRQTS,
- $ ZLATMS
- * ..
- * .. Intrinsic Functions ..
- INTRINSIC ABS
- * ..
- * .. Executable Statements ..
- *
- * Initialize constants.
- *
- PATH( 1: 3 ) = 'GQR'
- INFO = 0
- NRUN = 0
- NFAIL = 0
- FIRSTT = .TRUE.
- CALL ALAREQ( PATH, NMATS, DOTYPE, NTYPES, NIN, NOUT )
- LDA = NMAX
- LDB = NMAX
- LWORK = NMAX*NMAX
- *
- * Do for each value of M in MVAL.
- *
- DO 60 IM = 1, NM
- M = MVAL( IM )
- *
- * Do for each value of P in PVAL.
- *
- DO 50 IP = 1, NP
- P = PVAL( IP )
- *
- * Do for each value of N in NVAL.
- *
- DO 40 IN = 1, NN
- N = NVAL( IN )
- *
- DO 30 IMAT = 1, NTYPES
- *
- * Do the tests only if DOTYPE( IMAT ) is true.
- *
- IF( .NOT.DOTYPE( IMAT ) )
- $ GO TO 30
- *
- * Test ZGGRQF
- *
- * Set up parameters with DLATB9 and generate test
- * matrices A and B with ZLATMS.
- *
- CALL DLATB9( 'GRQ', IMAT, M, P, N, TYPE, KLA, KUA,
- $ KLB, KUB, ANORM, BNORM, MODEA, MODEB,
- $ CNDNMA, CNDNMB, DISTA, DISTB )
- *
- CALL ZLATMS( M, N, DISTA, ISEED, TYPE, RWORK, MODEA,
- $ CNDNMA, ANORM, KLA, KUA, 'No packing', A,
- $ LDA, WORK, IINFO )
- IF( IINFO.NE.0 ) THEN
- WRITE( NOUT, FMT = 9999 )IINFO
- INFO = ABS( IINFO )
- GO TO 30
- END IF
- *
- CALL ZLATMS( P, N, DISTB, ISEED, TYPE, RWORK, MODEB,
- $ CNDNMB, BNORM, KLB, KUB, 'No packing', B,
- $ LDB, WORK, IINFO )
- IF( IINFO.NE.0 ) THEN
- WRITE( NOUT, FMT = 9999 )IINFO
- INFO = ABS( IINFO )
- GO TO 30
- END IF
- *
- NT = 4
- *
- CALL ZGRQTS( M, P, N, A, AF, AQ, AR, LDA, TAUA, B, BF,
- $ BZ, BT, BWK, LDB, TAUB, WORK, LWORK,
- $ RWORK, RESULT )
- *
- * Print information about the tests that did not
- * pass the threshold.
- *
- DO 10 I = 1, NT
- IF( RESULT( I ).GE.THRESH ) THEN
- IF( NFAIL.EQ.0 .AND. FIRSTT ) THEN
- FIRSTT = .FALSE.
- CALL ALAHDG( NOUT, 'GRQ' )
- END IF
- WRITE( NOUT, FMT = 9998 )M, P, N, IMAT, I,
- $ RESULT( I )
- NFAIL = NFAIL + 1
- END IF
- 10 CONTINUE
- NRUN = NRUN + NT
- *
- * Test ZGGQRF
- *
- * Set up parameters with DLATB9 and generate test
- * matrices A and B with ZLATMS.
- *
- CALL DLATB9( 'GQR', IMAT, M, P, N, TYPE, KLA, KUA,
- $ KLB, KUB, ANORM, BNORM, MODEA, MODEB,
- $ CNDNMA, CNDNMB, DISTA, DISTB )
- *
- CALL ZLATMS( N, M, DISTA, ISEED, TYPE, RWORK, MODEA,
- $ CNDNMA, ANORM, KLA, KUA, 'No packing', A,
- $ LDA, WORK, IINFO )
- IF( IINFO.NE.0 ) THEN
- WRITE( NOUT, FMT = 9999 )IINFO
- INFO = ABS( IINFO )
- GO TO 30
- END IF
- *
- CALL ZLATMS( N, P, DISTB, ISEED, TYPE, RWORK, MODEA,
- $ CNDNMA, BNORM, KLB, KUB, 'No packing', B,
- $ LDB, WORK, IINFO )
- IF( IINFO.NE.0 ) THEN
- WRITE( NOUT, FMT = 9999 )IINFO
- INFO = ABS( IINFO )
- GO TO 30
- END IF
- *
- NT = 4
- *
- CALL ZGQRTS( N, M, P, A, AF, AQ, AR, LDA, TAUA, B, BF,
- $ BZ, BT, BWK, LDB, TAUB, WORK, LWORK,
- $ RWORK, RESULT )
- *
- * Print information about the tests that did not
- * pass the threshold.
- *
- DO 20 I = 1, NT
- IF( RESULT( I ).GE.THRESH ) THEN
- IF( NFAIL.EQ.0 .AND. FIRSTT ) THEN
- FIRSTT = .FALSE.
- CALL ALAHDG( NOUT, PATH )
- END IF
- WRITE( NOUT, FMT = 9997 )N, M, P, IMAT, I,
- $ RESULT( I )
- NFAIL = NFAIL + 1
- END IF
- 20 CONTINUE
- NRUN = NRUN + NT
- *
- 30 CONTINUE
- 40 CONTINUE
- 50 CONTINUE
- 60 CONTINUE
- *
- * Print a summary of the results.
- *
- CALL ALASUM( PATH, NOUT, NFAIL, NRUN, 0 )
- *
- 9999 FORMAT( ' ZLATMS in ZCKGQR: INFO = ', I5 )
- 9998 FORMAT( ' M=', I4, ' P=', I4, ', N=', I4, ', type ', I2,
- $ ', test ', I2, ', ratio=', G13.6 )
- 9997 FORMAT( ' N=', I4, ' M=', I4, ', P=', I4, ', type ', I2,
- $ ', test ', I2, ', ratio=', G13.6 )
- RETURN
- *
- * End of ZCKGQR
- *
- END
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