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|
*> \brief \b ZTSQR01
*
* =========== DOCUMENTATION ===========
*
* Online html documentation available at
* http://www.netlib.org/lapack/explore-html/
*
* Definition:
* ===========
*
* SUBROUTINE ZTSQR01(TSSW, M,N, MB, NB, RESULT)
*
* .. Scalar Arguments ..
* INTEGER M, N, MB
* .. Return values ..
* DOUBLE PRECISION RESULT(6)
*
*
*> \par Purpose:
* =============
*>
*> \verbatim
*>
*> ZTSQR01 tests ZGEQR , ZGELQ, ZGEMLQ and ZGEMQR.
*> \endverbatim
*
* Arguments:
* ==========
*
*> \param[in] TSSW
*> \verbatim
*> TSSW is CHARACTER
*> 'TS' for testing tall skinny QR
*> and anything else for testing short wide LQ
*> \endverbatim
*> \param[in] M
*> \verbatim
*> M is INTEGER
*> Number of rows in test matrix.
*> \endverbatim
*>
*> \param[in] N
*> \verbatim
*> N is INTEGER
*> Number of columns in test matrix.
*> \endverbatim
*> \param[in] MB
*> \verbatim
*> MB is INTEGER
*> Number of row in row block in test matrix.
*> \endverbatim
*>
*> \param[in] NB
*> \verbatim
*> NB is INTEGER
*> Number of columns in column block test matrix.
*> \endverbatim
*>
*> \param[out] RESULT
*> \verbatim
*> RESULT is DOUBLE PRECISION array, dimension (6)
*> Results of each of the six tests below.
*>
*> RESULT(1) = | A - Q R | or | A - L Q |
*> RESULT(2) = | I - Q^H Q | or | I - Q Q^H |
*> RESULT(3) = | Q C - Q C |
*> RESULT(4) = | Q^H C - Q^H C |
*> RESULT(5) = | C Q - C Q |
*> RESULT(6) = | C Q^H - C Q^H |
*> \endverbatim
*
* Authors:
* ========
*
*> \author Univ. of Tennessee
*> \author Univ. of California Berkeley
*> \author Univ. of Colorado Denver
*> \author NAG Ltd.
*
*> \date April 2012
*
* =====================================================================
SUBROUTINE ZTSQR01(TSSW, M, N, MB, NB, RESULT)
IMPLICIT NONE
*
* -- LAPACK test routine (version 3.4.1) --
* -- LAPACK is a software package provided by Univ. of Tennessee, --
* -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--
* April 2012
*
* .. Scalar Arguments ..
CHARACTER TSSW
INTEGER M, N, MB, NB
* .. Return values ..
DOUBLE PRECISION RESULT(6)
*
* =====================================================================
*
* ..
* .. Local allocatable arrays
COMPLEX*16, ALLOCATABLE :: AF(:,:), Q(:,:),
$ R(:,:), RWORK(:), WORK( : ), T(:),
$ CF(:,:), DF(:,:), A(:,:), C(:,:), D(:,:), LQ(:,:)
*
* .. Parameters ..
DOUBLE PRECISION ZERO
COMPLEX*16 ONE, CZERO
PARAMETER( ZERO = 0.0, ONE = (1.0,0.0), CZERO=(0.0,0.0) )
* ..
* .. Local Scalars ..
LOGICAL TESTZEROS, TS
INTEGER INFO, J, K, L, LWORK, TSIZE, MNB
DOUBLE PRECISION ANORM, EPS, RESID, CNORM, DNORM
* ..
* .. Local Arrays ..
INTEGER ISEED( 4 )
COMPLEX*16 TQUERY( 5 ), WORKQUERY
* ..
* .. External Functions ..
DOUBLE PRECISION DLAMCH, ZLANGE, ZLANSY
LOGICAL LSAME
INTEGER ILAENV
EXTERNAL DLAMCH, ZLANGE, ZLANSY, LSAME, ILAENV
* ..
* .. Intrinsic Functions ..
INTRINSIC MAX, MIN
* .. Scalars in Common ..
CHARACTER*32 srnamt
* ..
* .. Common blocks ..
COMMON / srnamc / srnamt
* ..
* .. Data statements ..
DATA ISEED / 1988, 1989, 1990, 1991 /
*
* TEST TALL SKINNY OR SHORT WIDE
*
TS = LSAME(TSSW, 'TS')
*
* TEST MATRICES WITH HALF OF MATRIX BEING ZEROS
*
TESTZEROS = .FALSE.
*
EPS = DLAMCH( 'Epsilon' )
K = MIN(M,N)
L = MAX(M,N,1)
MNB = MAX ( MB, NB)
LWORK = MAX(3,L)*MNB
*
* Dynamically allocate local arrays
*
ALLOCATE ( A(M,N), AF(M,N), Q(L,L), R(M,L), RWORK(L),
$ C(M,N), CF(M,N),
$ D(N,M), DF(N,M), LQ(L,N) )
*
* Put random numbers into A and copy to AF
*
DO J=1,N
CALL ZLARNV( 2, ISEED, M, A( 1, J ) )
END DO
IF (TESTZEROS) THEN
IF (M.GE.4) THEN
DO J=1,N
CALL ZLARNV( 2, ISEED, M/2, A( M/4, J ) )
END DO
END IF
END IF
CALL ZLACPY( 'Full', M, N, A, M, AF, M )
*
IF (TS) THEN
*
* Factor the matrix A in the array AF.
*
CALL ZGEQR( M, N, AF, M, TQUERY, -1, WORKQUERY, -1, INFO )
TSIZE = INT( TQUERY( 1 ) )
LWORK = INT( WORKQUERY )
CALL ZGEMQR( 'L', 'N', M, M, K, AF, M, TQUERY, TSIZE, CF, M,
$ WORKQUERY, -1, INFO)
LWORK = MAX( LWORK, INT( WORKQUERY ) )
CALL ZGEMQR( 'L', 'N', M, N, K, AF, M, TQUERY, TSIZE, CF, M,
$ WORKQUERY, -1, INFO)
LWORK = MAX( LWORK, INT( WORKQUERY ) )
CALL ZGEMQR( 'L', 'C', M, N, K, AF, M, TQUERY, TSIZE, CF, M,
$ WORKQUERY, -1, INFO)
LWORK = MAX( LWORK, INT( WORKQUERY ) )
CALL ZGEMQR( 'R', 'N', N, M, K, AF, M, TQUERY, TSIZE, DF, N,
$ WORKQUERY, -1, INFO)
LWORK = MAX( LWORK, INT( WORKQUERY ) )
CALL ZGEMQR( 'R', 'C', N, M, K, AF, M, TQUERY, TSIZE, DF, N,
$ WORKQUERY, -1, INFO)
LWORK = MAX( LWORK, INT( WORKQUERY ) )
ALLOCATE ( T( TSIZE ) )
ALLOCATE ( WORK( LWORK ) )
srnamt = 'ZGEQR'
CALL ZGEQR( M, N, AF, M, T, TSIZE, WORK, LWORK, INFO )
*
* Generate the m-by-m matrix Q
*
CALL ZLASET( 'Full', M, M, CZERO, ONE, Q, M )
srnamt = 'ZGEMQR'
CALL ZGEMQR( 'L', 'N', M, M, K, AF, M, T, TSIZE, Q, M,
$ WORK, LWORK, INFO )
*
* Copy R
*
CALL ZLASET( 'Full', M, N, CZERO, CZERO, R, M )
CALL ZLACPY( 'Upper', M, N, AF, M, R, M )
*
* Compute |R - Q'*A| / |A| and store in RESULT(1)
*
CALL ZGEMM( 'C', 'N', M, N, M, -ONE, Q, M, A, M, ONE, R, M )
ANORM = ZLANGE( '1', M, N, A, M, RWORK )
RESID = ZLANGE( '1', M, N, R, M, RWORK )
IF( ANORM.GT.ZERO ) THEN
RESULT( 1 ) = RESID / (EPS*MAX(1,M)*ANORM)
ELSE
RESULT( 1 ) = ZERO
END IF
*
* Compute |I - Q'*Q| and store in RESULT(2)
*
CALL ZLASET( 'Full', M, M, CZERO, ONE, R, M )
CALL ZHERK( 'U', 'C', M, M, DREAL(-ONE), Q, M, DREAL(ONE), R, M )
RESID = ZLANSY( '1', 'Upper', M, R, M, RWORK )
RESULT( 2 ) = RESID / (EPS*MAX(1,M))
*
* Generate random m-by-n matrix C and a copy CF
*
DO J=1,N
CALL ZLARNV( 2, ISEED, M, C( 1, J ) )
END DO
CNORM = ZLANGE( '1', M, N, C, M, RWORK)
CALL ZLACPY( 'Full', M, N, C, M, CF, M )
*
* Apply Q to C as Q*C
*
srnamt = 'ZGEMQR'
CALL ZGEMQR( 'L', 'N', M, N, K, AF, M, T, TSIZE, CF, M,
$ WORK, LWORK, INFO)
*
* Compute |Q*C - Q*C| / |C|
*
CALL ZGEMM( 'N', 'N', M, N, M, -ONE, Q, M, C, M, ONE, CF, M )
RESID = ZLANGE( '1', M, N, CF, M, RWORK )
IF( CNORM.GT.ZERO ) THEN
RESULT( 3 ) = RESID / (EPS*MAX(1,M)*CNORM)
ELSE
RESULT( 3 ) = ZERO
END IF
*
* Copy C into CF again
*
CALL ZLACPY( 'Full', M, N, C, M, CF, M )
*
* Apply Q to C as QT*C
*
srnamt = 'ZGEMQR'
CALL ZGEMQR( 'L', 'C', M, N, K, AF, M, T, TSIZE, CF, M,
$ WORK, LWORK, INFO)
*
* Compute |QT*C - QT*C| / |C|
*
CALL ZGEMM( 'C', 'N', M, N, M, -ONE, Q, M, C, M, ONE, CF, M )
RESID = ZLANGE( '1', M, N, CF, M, RWORK )
IF( CNORM.GT.ZERO ) THEN
RESULT( 4 ) = RESID / (EPS*MAX(1,M)*CNORM)
ELSE
RESULT( 4 ) = ZERO
END IF
*
* Generate random n-by-m matrix D and a copy DF
*
DO J=1,M
CALL ZLARNV( 2, ISEED, N, D( 1, J ) )
END DO
DNORM = ZLANGE( '1', N, M, D, N, RWORK)
CALL ZLACPY( 'Full', N, M, D, N, DF, N )
*
* Apply Q to D as D*Q
*
srnamt = 'ZGEMQR'
CALL ZGEMQR( 'R', 'N', N, M, K, AF, M, T, TSIZE, DF, N,
$ WORK, LWORK, INFO)
*
* Compute |D*Q - D*Q| / |D|
*
CALL ZGEMM( 'N', 'N', N, M, M, -ONE, D, N, Q, M, ONE, DF, N )
RESID = ZLANGE( '1', N, M, DF, N, RWORK )
IF( DNORM.GT.ZERO ) THEN
RESULT( 5 ) = RESID / (EPS*MAX(1,M)*DNORM)
ELSE
RESULT( 5 ) = ZERO
END IF
*
* Copy D into DF again
*
CALL ZLACPY( 'Full', N, M, D, N, DF, N )
*
* Apply Q to D as D*QT
*
CALL ZGEMQR( 'R', 'C', N, M, K, AF, M, T, TSIZE, DF, N,
$ WORK, LWORK, INFO)
*
* Compute |D*QT - D*QT| / |D|
*
CALL ZGEMM( 'N', 'C', N, M, M, -ONE, D, N, Q, M, ONE, DF, N )
RESID = ZLANGE( '1', N, M, DF, N, RWORK )
IF( CNORM.GT.ZERO ) THEN
RESULT( 6 ) = RESID / (EPS*MAX(1,M)*DNORM)
ELSE
RESULT( 6 ) = ZERO
END IF
*
* Short and wide
*
ELSE
CALL ZGELQ( M, N, AF, M, TQUERY, -1, WORKQUERY, -1, INFO )
TSIZE = INT( TQUERY( 1 ) )
LWORK = INT( WORKQUERY )
CALL ZGEMLQ( 'R', 'N', N, N, K, AF, M, TQUERY, TSIZE, Q, N,
$ WORKQUERY, -1, INFO )
LWORK = MAX( LWORK, INT( WORKQUERY ) )
CALL ZGEMLQ( 'L', 'N', N, M, K, AF, M, TQUERY, TSIZE, DF, N,
$ WORKQUERY, -1, INFO)
LWORK = MAX( LWORK, INT( WORKQUERY ) )
CALL ZGEMLQ( 'L', 'C', N, M, K, AF, M, TQUERY, TSIZE, DF, N,
$ WORKQUERY, -1, INFO)
LWORK = MAX( LWORK, INT( WORKQUERY ) )
CALL ZGEMLQ( 'R', 'N', M, N, K, AF, M, TQUERY, TSIZE, CF, M,
$ WORKQUERY, -1, INFO)
LWORK = MAX( LWORK, INT( WORKQUERY ) )
CALL ZGEMLQ( 'R', 'C', M, N, K, AF, M, TQUERY, TSIZE, CF, M,
$ WORKQUERY, -1, INFO)
LWORK = MAX( LWORK, INT( WORKQUERY ) )
ALLOCATE ( T( TSIZE ) )
ALLOCATE ( WORK( LWORK ) )
srnamt = 'ZGELQ'
CALL ZGELQ( M, N, AF, M, T, TSIZE, WORK, LWORK, INFO )
*
*
* Generate the n-by-n matrix Q
*
CALL ZLASET( 'Full', N, N, CZERO, ONE, Q, N )
srnamt = 'ZGEMLQ'
CALL ZGEMLQ( 'R', 'N', N, N, K, AF, M, T, TSIZE, Q, N,
$ WORK, LWORK, INFO )
*
* Copy R
*
CALL ZLASET( 'Full', M, N, CZERO, CZERO, LQ, L )
CALL ZLACPY( 'Lower', M, N, AF, M, LQ, L )
*
* Compute |L - A*Q'| / |A| and store in RESULT(1)
*
CALL ZGEMM( 'N', 'C', M, N, N, -ONE, A, M, Q, N, ONE, LQ, L )
ANORM = ZLANGE( '1', M, N, A, M, RWORK )
RESID = ZLANGE( '1', M, N, LQ, L, RWORK )
IF( ANORM.GT.ZERO ) THEN
RESULT( 1 ) = RESID / (EPS*MAX(1,N)*ANORM)
ELSE
RESULT( 1 ) = ZERO
END IF
*
* Compute |I - Q'*Q| and store in RESULT(2)
*
CALL ZLASET( 'Full', N, N, CZERO, ONE, LQ, L )
CALL ZHERK( 'U', 'C', N, N, DREAL(-ONE), Q, N, DREAL(ONE), LQ, L)
RESID = ZLANSY( '1', 'Upper', N, LQ, L, RWORK )
RESULT( 2 ) = RESID / (EPS*MAX(1,N))
*
* Generate random m-by-n matrix C and a copy CF
*
DO J=1,M
CALL ZLARNV( 2, ISEED, N, D( 1, J ) )
END DO
DNORM = ZLANGE( '1', N, M, D, N, RWORK)
CALL ZLACPY( 'Full', N, M, D, N, DF, N )
*
* Apply Q to C as Q*C
*
CALL ZGEMLQ( 'L', 'N', N, M, K, AF, M, T, TSIZE, DF, N,
$ WORK, LWORK, INFO)
*
* Compute |Q*D - Q*D| / |D|
*
CALL ZGEMM( 'N', 'N', N, M, N, -ONE, Q, N, D, N, ONE, DF, N )
RESID = ZLANGE( '1', N, M, DF, N, RWORK )
IF( DNORM.GT.ZERO ) THEN
RESULT( 3 ) = RESID / (EPS*MAX(1,N)*DNORM)
ELSE
RESULT( 3 ) = ZERO
END IF
*
* Copy D into DF again
*
CALL ZLACPY( 'Full', N, M, D, N, DF, N )
*
* Apply Q to D as QT*D
*
CALL ZGEMLQ( 'L', 'C', N, M, K, AF, M, T, TSIZE, DF, N,
$ WORK, LWORK, INFO)
*
* Compute |QT*D - QT*D| / |D|
*
CALL ZGEMM( 'C', 'N', N, M, N, -ONE, Q, N, D, N, ONE, DF, N )
RESID = ZLANGE( '1', N, M, DF, N, RWORK )
IF( DNORM.GT.ZERO ) THEN
RESULT( 4 ) = RESID / (EPS*MAX(1,N)*DNORM)
ELSE
RESULT( 4 ) = ZERO
END IF
*
* Generate random n-by-m matrix D and a copy DF
*
DO J=1,N
CALL ZLARNV( 2, ISEED, M, C( 1, J ) )
END DO
CNORM = ZLANGE( '1', M, N, C, M, RWORK)
CALL ZLACPY( 'Full', M, N, C, M, CF, M )
*
* Apply Q to C as C*Q
*
CALL ZGEMLQ( 'R', 'N', M, N, K, AF, M, T, TSIZE, CF, M,
$ WORK, LWORK, INFO)
*
* Compute |C*Q - C*Q| / |C|
*
CALL ZGEMM( 'N', 'N', M, N, N, -ONE, C, M, Q, N, ONE, CF, M )
RESID = ZLANGE( '1', N, M, DF, N, RWORK )
IF( CNORM.GT.ZERO ) THEN
RESULT( 5 ) = RESID / (EPS*MAX(1,N)*CNORM)
ELSE
RESULT( 5 ) = ZERO
END IF
*
* Copy C into CF again
*
CALL ZLACPY( 'Full', M, N, C, M, CF, M )
*
* Apply Q to D as D*QT
*
CALL ZGEMLQ( 'R', 'C', M, N, K, AF, M, T, TSIZE, CF, M,
$ WORK, LWORK, INFO)
*
* Compute |C*QT - C*QT| / |C|
*
CALL ZGEMM( 'N', 'C', M, N, N, -ONE, C, M, Q, N, ONE, CF, M )
RESID = ZLANGE( '1', M, N, CF, M, RWORK )
IF( CNORM.GT.ZERO ) THEN
RESULT( 6 ) = RESID / (EPS*MAX(1,N)*CNORM)
ELSE
RESULT( 6 ) = ZERO
END IF
*
END IF
*
* Deallocate all arrays
*
DEALLOCATE ( A, AF, Q, R, RWORK, WORK, T, C, D, CF, DF)
*
RETURN
END
|