diff options
| author | eugene.chereshnev <echeresh@mandrake.jf.intel.com> | 2016-12-13 01:14:36 -0800 |
|---|---|---|
| committer | eugene.chereshnev <echeresh@mandrake.jf.intel.com> | 2016-12-13 22:29:24 -0800 |
| commit | 8f1c018718d35498508725fd2c669cf523da710e (patch) | |
| tree | 8eb3491188029c952388347260f904e55338c3c7 /TESTING | |
| parent | 5143bb56b2c5e7ef6f63e411714e57c612931bce (diff) | |
| download | lapack-8f1c018718d35498508725fd2c669cf523da710e.tar.gz lapack-8f1c018718d35498508725fd2c669cf523da710e.tar.bz2 lapack-8f1c018718d35498508725fd2c669cf523da710e.zip | |
Fix tests in accordance with interface changes
Diffstat (limited to 'TESTING')
| -rw-r--r-- | TESTING/LIN/cchkaa.f | 3 | ||||
| -rw-r--r-- | TESTING/LIN/cdrvls.f | 144 | ||||
| -rw-r--r-- | TESTING/LIN/ctsqr01.f | 75 | ||||
| -rw-r--r-- | TESTING/LIN/dchkaa.f | 2 | ||||
| -rw-r--r-- | TESTING/LIN/ddrvls.f | 120 | ||||
| -rw-r--r-- | TESTING/LIN/dtsqr01.f | 75 | ||||
| -rw-r--r-- | TESTING/LIN/schkaa.f | 2 | ||||
| -rw-r--r-- | TESTING/LIN/sdrvls.f | 120 | ||||
| -rw-r--r-- | TESTING/LIN/stsqr01.f | 77 | ||||
| -rw-r--r-- | TESTING/LIN/zchkaa.f | 3 | ||||
| -rw-r--r-- | TESTING/LIN/zdrvls.f | 144 | ||||
| -rw-r--r-- | TESTING/LIN/ztsqr01.f | 75 |
12 files changed, 590 insertions, 250 deletions
diff --git a/TESTING/LIN/cchkaa.f b/TESTING/LIN/cchkaa.f index f2ef59f1..5881043f 100644 --- a/TESTING/LIN/cchkaa.f +++ b/TESTING/LIN/cchkaa.f @@ -1047,8 +1047,7 @@ CALL CDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, $ NBVAL, NXVAL, THRESH, TSTERR, A( 1, 1 ), $ A( 1, 2 ), A( 1, 3 ), A( 1, 4 ), A( 1, 5 ), - $ S( 1 ), S( NMAX+1 ), WORK, RWORK, IWORK, - $ NOUT ) + $ S( 1 ), S( NMAX+1 ), NOUT ) ELSE WRITE( NOUT, FMT = 9989 )PATH END IF diff --git a/TESTING/LIN/cdrvls.f b/TESTING/LIN/cdrvls.f index ededde5a..49c99354 100644 --- a/TESTING/LIN/cdrvls.f +++ b/TESTING/LIN/cdrvls.f @@ -10,8 +10,7 @@ * * SUBROUTINE CDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, * NBVAL, NXVAL, THRESH, TSTERR, A, COPYA, B, -* COPYB, C, S, COPYS, WORK, RWORK, IWORK, -* NOUT ) +* COPYB, C, S, COPYS, NOUT ) * * .. Scalar Arguments .. * LOGICAL TSTERR @@ -20,11 +19,10 @@ * .. * .. Array Arguments .. * LOGICAL DOTYPE( * ) -* INTEGER IWORK( * ), MVAL( * ), NBVAL( * ), NSVAL( * ), +* INTEGER MVAL( * ), NBVAL( * ), NSVAL( * ), * $ NVAL( * ), NXVAL( * ) -* REAL COPYS( * ), RWORK( * ), S( * ) -* COMPLEX A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ), -* $ WORK( * ) +* REAL COPYS( * ), S( * ) +* COMPLEX A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ) * .. * * @@ -33,7 +31,7 @@ *> *> \verbatim *> -*> CDRVLS tests the least squares driver routines CGELS, CGELSS, CGELSY +*> CDRVLS tests the least squares driver routines CGELS, CGETSLS, CGELSS, CGELSY *> and CGELSD. *> \endverbatim * @@ -171,22 +169,6 @@ *> (min(MMAX,NMAX)) *> \endverbatim *> -*> \param[out] WORK -*> \verbatim -*> WORK is COMPLEX array, dimension -*> (MMAX*NMAX + 4*NMAX + MMAX). -*> \endverbatim -*> -*> \param[out] RWORK -*> \verbatim -*> RWORK is REAL array, dimension (5*NMAX-1) -*> \endverbatim -*> -*> \param[out] IWORK -*> \verbatim -*> IWORK is INTEGER array, dimension (15*NMAX) -*> \endverbatim -*> *> \param[in] NOUT *> \verbatim *> NOUT is INTEGER @@ -208,8 +190,7 @@ * ===================================================================== SUBROUTINE CDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, $ NBVAL, NXVAL, THRESH, TSTERR, A, COPYA, B, - $ COPYB, C, S, COPYS, WORK, RWORK, IWORK, - $ NOUT ) + $ COPYB, C, S, COPYS, NOUT ) * * -- LAPACK test routine (version 3.6.0) -- * -- LAPACK is a software package provided by Univ. of Tennessee, -- @@ -223,11 +204,10 @@ * .. * .. Array Arguments .. LOGICAL DOTYPE( * ) - INTEGER IWORK( * ), MVAL( * ), NBVAL( * ), NSVAL( * ), + INTEGER MVAL( * ), NBVAL( * ), NSVAL( * ), $ NVAL( * ), NXVAL( * ) - REAL COPYS( * ), RWORK( * ), S( * ) - COMPLEX A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ), - $ WORK( * ) + REAL COPYS( * ), S( * ) + COMPLEX A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ) * .. * * ===================================================================== @@ -249,12 +229,22 @@ INTEGER CRANK, I, IM, IMB, IN, INB, INFO, INS, IRANK, $ ISCALE, ITRAN, ITYPE, J, K, LDA, LDB, LDWORK, $ LWLSY, LWORK, M, MNMIN, N, NB, NCOLS, NERRS, - $ NFAIL, NRHS, NROWS, NRUN, RANK, MB, LWTS + $ NFAIL, NRHS, NROWS, NRUN, RANK, MB, + $ MMAX, NMAX, NSMAX, LIWORK, LRWORK, + $ LWORK_CGELS, LWORK_CGETSLS, LWORK_CGELSS, + $ LWORK_CGELSY, LWORK_CGELSD, + $ LRWORK_CGELSY, LRWORK_CGELSS, LRWORK_CGELSD REAL EPS, NORMA, NORMB, RCOND * .. * .. Local Arrays .. - INTEGER ISEED( 4 ), ISEEDY( 4 ) - REAL RESULT( NTESTS ) + INTEGER ISEED( 4 ), ISEEDY( 4 ), IWORKQUERY + REAL RESULT( NTESTS ), RWORKQUERY + COMPLEX WORKQUERY +* .. +* .. Allocatable Arrays .. + COMPLEX, ALLOCATABLE :: WORK (:) + REAL, ALLOCATABLE :: RWORK (:) + INTEGER, ALLOCATABLE :: IWORK (:) * .. * .. External Functions .. REAL CQRT12, CQRT14, CQRT17, SASUM, SLAMCH @@ -267,7 +257,7 @@ $ SAXPY, XLAENV * .. * .. Intrinsic Functions .. - INTRINSIC MAX, MIN, REAL, SQRT + INTRINSIC MAX, MIN, INT, REAL, SQRT * .. * .. Scalars in Common .. LOGICAL LERR, OK @@ -311,6 +301,77 @@ $ CALL ALAHD( NOUT, PATH ) INFOT = 0 * +* Compute maximal workspace needed for all routines +* + NMAX = 0 + MMAX = 0 + NSMAX = 0 + DO I = 1, NM + IF ( MVAL( I ).GT.MMAX ) THEN + MMAX = MVAL( I ) + END IF + ENDDO + DO I = 1, NN + IF ( NVAL( I ).GT.NMAX ) THEN + NMAX = NVAL( I ) + END IF + ENDDO + DO I = 1, NNS + IF ( NSVAL( I ).GT.NSMAX ) THEN + NSMAX = NSVAL( I ) + END IF + ENDDO + M = MMAX + N = NMAX + NRHS = NSMAX + LDA = MAX( 1, M ) + LDB = MAX( 1, M, N ) + MNMIN = MAX( MIN( M, N ), 1 ) +* +* Compute workspace needed for routines +* CQRT14, CQRT17 (two side cases), CQRT15 and CQRT12 +* + LWORK = MAX( ( M+N )*NRHS, + $ ( N+NRHS )*( M+2 ), ( M+NRHS )*( N+2 ), + $ MAX( M+MNMIN, NRHS*MNMIN,2*N+M ), + $ MAX( M*N+4*MNMIN+MAX(M,N), M*N+2*MNMIN+4*N ) ) +* +* Compute workspace needed for CGELS + CALL CGELS( 'N', M, N, NRHS, A, LDA, B, LDB, + $ WORKQUERY, -1, INFO ) + LWORK_CGELS = INT( WORKQUERY ) +* Compute workspace needed for CGETSLS + CALL CGETSLS( 'N', M, N, NRHS, A, LDA, B, LDB, + $ WORKQUERY, -1, INFO ) + LWORK_CGETSLS = INT( WORKQUERY ) +* Compute workspace needed for CGELSY + CALL CGELSY( M, N, NRHS, A, LDA, B, LDB, IWORKQUERY, + $ RCOND, CRANK, WORKQUERY, -1, RWORK, INFO ) + LWORK_CGELSY = INT( WORKQUERY ) + LRWORK_CGELSY = 2*N +* Compute workspace needed for CGELSS + CALL CGELSS( M, N, NRHS, A, LDA, B, LDB, S, + $ RCOND, CRANK, WORKQUERY, -1, RWORK, INFO ) + LWORK_CGELSS = INT( WORKQUERY ) + LRWORK_CGELSS = 5*MNMIN +* Compute workspace needed for CGELSD + CALL CGELSD( M, N, NRHS, A, LDA, B, LDB, S, RCOND, CRANK, + $ WORKQUERY, -1, RWORKQUERY, IWORKQUERY, INFO ) + LWORK_CGELSD = INT( WORKQUERY ) + LRWORK_CGELSD = INT( RWORKQUERY ) +* Compute LIWORK workspace needed for CGELSY and CGELSD + LIWORK = MAX( 1, N, IWORKQUERY ) +* Compute LRWORK workspace needed for CGELSY, CGELSS and CGELSD + LRWORK = MAX( 1, LRWORK_CGELSY, LRWORK_CGELSS, LRWORK_CGELSD ) +* Compute LWORK workspace needed for all functions + LWORK = MAX( 1, LWORK, LWORK_CGELS, LWORK_CGETSLS, LWORK_CGELSY, + $ LWORK_CGELSS, LWORK_CGELSD ) + LWLSY = LWORK +* + ALLOCATE( WORK( LWORK ) ) + ALLOCATE( IWORK( LIWORK ) ) + ALLOCATE( RWORK( LRWORK ) ) +* DO 140 IM = 1, NM M = MVAL( IM ) LDA = MAX( 1, M ) @@ -320,16 +381,9 @@ MNMIN = MAX(MIN( M, N ),1) LDB = MAX( 1, M, N ) MB = (MNMIN+1) - IF(MNMIN.NE.MB) THEN - LWTS = (((LDB-MB)/(MB-MNMIN))*MNMIN+MNMIN*2)*MB+5 - ELSE - LWTS = 2*MNMIN+5 - END IF * DO 120 INS = 1, NNS NRHS = NSVAL( INS ) - LWORK = MAX( 1, ( M+NRHS )*( N+2 ), ( N+NRHS )*( M+2 ), - $ M*N+4*MNMIN+MAX( M, N ), 2*N+M, LWTS ) * DO 110 IRANK = 1, 2 DO 100 ISCALE = 1, 3 @@ -580,12 +634,6 @@ IWORK( J ) = 0 70 CONTINUE * -* Set LWLSY to the adequate value. -* - LWLSY = MNMIN + MAX( 2*MNMIN, NB*( N+1 ), - $ MNMIN+NB*NRHS ) - LWLSY = MAX( 1, LWLSY ) -* SRNAMT = 'CGELSY' CALL CGELSY( M, N, NRHS, A, LDA, B, LDB, IWORK, $ RCOND, CRANK, WORK, LWLSY, RWORK, @@ -776,6 +824,10 @@ 9997 FORMAT( ' TRANS=''', A1,' M=', I5, ', N=', I5, ', NRHS=', I4, $ ', MB=', I4,', NB=', I4,', type', I2, $ ', test(', I2, ')=', G12.5 ) +* + DEALLOCATE( WORK ) + DEALLOCATE( RWORK ) + DEALLOCATE( IWORK ) RETURN * * End of CDRVLS diff --git a/TESTING/LIN/ctsqr01.f b/TESTING/LIN/ctsqr01.f index a437386b..23046cd7 100644 --- a/TESTING/LIN/ctsqr01.f +++ b/TESTING/LIN/ctsqr01.f @@ -109,11 +109,12 @@ * .. * .. Local Scalars .. LOGICAL TESTZEROS, TS - INTEGER INFO, J, K, L, LWORK, LT ,MNB + INTEGER INFO, J, K, L, LWORK, TSIZE, MNB REAL ANORM, EPS, RESID, CNORM, DNORM * .. * .. Local Arrays .. INTEGER ISEED( 4 ) + COMPLEX TQUERY( 5 ), WORKQUERY * .. * .. External Functions .. REAL SLAMCH, CLANGE, CLANSY @@ -145,17 +146,11 @@ L = MAX(M,N,1) MNB = MAX ( MB, NB) LWORK = MAX(3,L)*MNB - IF((K.GE.MNB).OR.(MNB.GE.L))THEN - LT=MAX(1,L)*MNB+5 - ELSE - LT=MAX(1,(L-K)/(MNB-K)+1)*L*MNB+5 - END IF - * * Dynamically allocate local arrays * ALLOCATE ( A(M,N), AF(M,N), Q(L,L), R(M,L), RWORK(L), - $ WORK(LWORK), T(LT), C(M,N), CF(M,N), + $ C(M,N), CF(M,N), $ D(N,M), DF(N,M), LQ(L,N) ) * * Put random numbers into A and copy to AF @@ -176,14 +171,34 @@ * * Factor the matrix A in the array AF. * + CALL CGEQR( M, N, AF, M, TQUERY, -1, WORKQUERY, -1, INFO ) + TSIZE = INT( TQUERY( 1 ) ) + LWORK = INT( WORKQUERY ) + CALL CGEMQR( 'L', 'N', M, M, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL CGEMQR( 'L', 'N', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) + CALL CGEMQR( 'L', 'C', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL CGEMQR( 'R', 'N', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL CGEMQR( '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 = 'CGEQR' - CALL CGEQR( M, N, AF, M, T, LT, WORK, LWORK, INFO ) + CALL CGEQR( M, N, AF, M, T, TSIZE, WORK, LWORK, INFO ) * * Generate the m-by-m matrix Q * CALL CLASET( 'Full', M, M, CZERO, ONE, Q, M ) srnamt = 'CGEMQR' - CALL CGEMQR( 'L', 'N', M, M, K, AF, M, T, LT, Q, M, + CALL CGEMQR( 'L', 'N', M, M, K, AF, M, T, TSIZE, Q, M, $ WORK, LWORK, INFO ) * * Copy R @@ -220,7 +235,7 @@ * Apply Q to C as Q*C * srnamt = 'CGEMQR' - CALL CGEMQR( 'L', 'N', M, N, K, AF, M, T, LT, CF, M, + CALL CGEMQR( 'L', 'N', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |Q*C - Q*C| / |C| @@ -240,7 +255,7 @@ * Apply Q to C as QT*C * srnamt = 'CGEMQR' - CALL CGEMQR( 'L', 'C', M, N, K, AF, M, T, LT, CF, M, + CALL CGEMQR( 'L', 'C', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |QT*C - QT*C| / |C| @@ -264,7 +279,7 @@ * Apply Q to D as D*Q * srnamt = 'CGEMQR' - CALL CGEMQR( 'R', 'N', N, M, K, AF, M, T, LT, DF, N, + CALL CGEMQR( 'R', 'N', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |D*Q - D*Q| / |D| @@ -283,7 +298,7 @@ * * Apply Q to D as D*QT * - CALL CGEMQR( 'R', 'C', N, M, K, AF, M, T, LT, DF, N, + CALL CGEMQR( 'R', 'C', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |D*QT - D*QT| / |D| @@ -299,15 +314,35 @@ * Short and wide * ELSE + CALL CGELQ( M, N, AF, M, TQUERY, -1, WORKQUERY, -1, INFO ) + TSIZE = INT( TQUERY( 1 ) ) + LWORK = INT( WORKQUERY ) + CALL CGEMLQ( 'R', 'N', N, N, K, AF, M, TQUERY, TSIZE, Q, N, + $ WORKQUERY, -1, INFO ) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL CGEMLQ( 'L', 'N', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL CGEMLQ( 'L', 'C', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL CGEMLQ( 'R', 'N', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL CGEMLQ( '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 = 'CGELQ' - CALL CGELQ( M, N, AF, M, T, LT, WORK, LWORK, INFO ) + CALL CGELQ( M, N, AF, M, T, TSIZE, WORK, LWORK, INFO ) * * * Generate the n-by-n matrix Q * CALL CLASET( 'Full', N, N, CZERO, ONE, Q, N ) srnamt = 'CGEMLQ' - CALL CGEMLQ( 'R', 'N', N, N, K, AF, M, T, LT, Q, N, + CALL CGEMLQ( 'R', 'N', N, N, K, AF, M, T, TSIZE, Q, N, $ WORK, LWORK, INFO ) * * Copy R @@ -343,7 +378,7 @@ * * Apply Q to C as Q*C * - CALL CGEMLQ( 'L', 'N', N, M, K, AF, M, T, LT, DF, N, + CALL CGEMLQ( 'L', 'N', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |Q*D - Q*D| / |D| @@ -362,7 +397,7 @@ * * Apply Q to D as QT*D * - CALL CGEMLQ( 'L', 'C', N, M, K, AF, M, T, LT, DF, N, + CALL CGEMLQ( 'L', 'C', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |QT*D - QT*D| / |D| @@ -385,7 +420,7 @@ * * Apply Q to C as C*Q * - CALL CGEMLQ( 'R', 'N', M, N, K, AF, M, T, LT, CF, M, + CALL CGEMLQ( 'R', 'N', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |C*Q - C*Q| / |C| @@ -404,7 +439,7 @@ * * Apply Q to D as D*QT * - CALL CGEMLQ( 'R', 'C', M, N, K, AF, M, T, LT, CF, M, + CALL CGEMLQ( 'R', 'C', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |C*QT - C*QT| / |C| diff --git a/TESTING/LIN/dchkaa.f b/TESTING/LIN/dchkaa.f index 5d122d38..707517d2 100644 --- a/TESTING/LIN/dchkaa.f +++ b/TESTING/LIN/dchkaa.f @@ -907,7 +907,7 @@ CALL DDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, $ NBVAL, NXVAL, THRESH, TSTERR, A( 1, 1 ), $ A( 1, 2 ), B( 1, 1 ), B( 1, 2 ), B( 1, 3 ), - $ RWORK, RWORK( NMAX+1 ), WORK, IWORK, NOUT ) + $ RWORK, RWORK( NMAX+1 ), NOUT ) ELSE WRITE( NOUT, FMT = 9988 )PATH END IF diff --git a/TESTING/LIN/ddrvls.f b/TESTING/LIN/ddrvls.f index d11f910e..74b0c336 100644 --- a/TESTING/LIN/ddrvls.f +++ b/TESTING/LIN/ddrvls.f @@ -10,7 +10,7 @@ * * SUBROUTINE DDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, * NBVAL, NXVAL, THRESH, TSTERR, A, COPYA, B, -* COPYB, C, S, COPYS, WORK, IWORK, NOUT ) +* COPYB, C, S, COPYS, NOUT ) * * .. Scalar Arguments .. * LOGICAL TSTERR @@ -19,10 +19,10 @@ * .. * .. Array Arguments .. * LOGICAL DOTYPE( * ) -* INTEGER IWORK( * ), MVAL( * ), NBVAL( * ), NSVAL( * ), +* INTEGER MVAL( * ), NBVAL( * ), NSVAL( * ), * $ NVAL( * ), NXVAL( * ) * DOUBLE PRECISION A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ), -* $ COPYS( * ), S( * ), WORK( * ) +* $ COPYS( * ), S( * ) * .. * * @@ -169,17 +169,6 @@ *> (min(MMAX,NMAX)) *> \endverbatim *> -*> \param[out] WORK -*> \verbatim -*> WORK is DOUBLE PRECISION array, -*> dimension (MMAX*NMAX + 4*NMAX + MMAX). -*> \endverbatim -*> -*> \param[out] IWORK -*> \verbatim -*> IWORK is INTEGER array, dimension (15*NMAX) -*> \endverbatim -*> *> \param[in] NOUT *> \verbatim *> NOUT is INTEGER @@ -201,7 +190,7 @@ * ===================================================================== SUBROUTINE DDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, $ NBVAL, NXVAL, THRESH, TSTERR, A, COPYA, B, - $ COPYB, C, S, COPYS, WORK, IWORK, NOUT ) + $ COPYB, C, S, COPYS, NOUT ) * * -- LAPACK test routine (version 3.6.0) -- * -- LAPACK is a software package provided by Univ. of Tennessee, -- @@ -215,10 +204,10 @@ * .. * .. Array Arguments .. LOGICAL DOTYPE( * ) - INTEGER IWORK( * ), MVAL( * ), NBVAL( * ), NSVAL( * ), + INTEGER MVAL( * ), NBVAL( * ), NSVAL( * ), $ NVAL( * ), NXVAL( * ) DOUBLE PRECISION A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ), - $ COPYS( * ), S( * ), WORK( * ) + $ COPYS( * ), S( * ) * .. * * ===================================================================== @@ -237,12 +226,19 @@ INTEGER CRANK, I, IM, IMB, IN, INB, INFO, INS, IRANK, $ ISCALE, ITRAN, ITYPE, J, K, LDA, LDB, LDWORK, $ LWLSY, LWORK, M, MNMIN, N, NB, NCOLS, NERRS, - $ NFAIL, NLVL, NRHS, NROWS, NRUN, RANK, MB, LWTS + $ NFAIL, NRHS, NROWS, NRUN, RANK, MB, + $ MMAX, NMAX, NSMAX, LIWORK, + $ LWORK_DGELS, LWORK_DGETSLS, LWORK_DGELSS, + $ LWORK_DGELSY, LWORK_DGELSD DOUBLE PRECISION EPS, NORMA, NORMB, RCOND * .. * .. Local Arrays .. - INTEGER ISEED( 4 ), ISEEDY( 4 ) - DOUBLE PRECISION RESULT( NTESTS ) + INTEGER ISEED( 4 ), ISEEDY( 4 ), IWORKQUERY + DOUBLE PRECISION RESULT( NTESTS ), WORKQUERY +* .. +* .. Allocatable Arrays .. + DOUBLE PRECISION, ALLOCATABLE :: WORK (:) + INTEGER, ALLOCATABLE :: IWORK (:) * .. * .. External Functions .. DOUBLE PRECISION DASUM, DLAMCH, DQRT12, DQRT14, DQRT17 @@ -302,6 +298,71 @@ CALL XLAENV( 2, 2 ) CALL XLAENV( 9, SMLSIZ ) * +* Compute maximal workspace needed for all routines +* + NMAX = 0 + MMAX = 0 + NSMAX = 0 + DO I = 1, NM + IF ( MVAL( I ).GT.MMAX ) THEN + MMAX = MVAL( I ) + END IF + ENDDO + DO I = 1, NN + IF ( NVAL( I ).GT.NMAX ) THEN + NMAX = NVAL( I ) + END IF + ENDDO + DO I = 1, NNS + IF ( NSVAL( I ).GT.NSMAX ) THEN + NSMAX = NSVAL( I ) + END IF + ENDDO + M = MMAX + N = NMAX + NRHS = NSMAX + LDA = MAX( 1, M ) + LDB = MAX( 1, M, N ) + MNMIN = MAX( MIN( M, N ), 1 ) +* +* Compute workspace needed for routines +* DQRT14, DQRT17 (two side cases), DQRT15 and DQRT12 +* + LWORK = MAX( ( M+N )*NRHS, + $ ( N+NRHS )*( M+2 ), ( M+NRHS )*( N+2 ), + $ MAX( M+MNMIN, NRHS*MNMIN,2*N+M ), + $ MAX( M*N+4*MNMIN+MAX(M,N), M*N+2*MNMIN+4*N ) ) +* +* Compute workspace needed for DGELS + CALL DGELS( 'N', M, N, NRHS, A, LDA, B, LDB, + $ WORKQUERY, -1, INFO ) + LWORK_DGELS = INT ( WORKQUERY ) +* Compute workspace needed for DGETSLS + CALL DGETSLS( 'N', M, N, NRHS, A, LDA, B, LDB, + $ WORKQUERY, -1, INFO ) + LWORK_DGETSLS = INT( WORKQUERY ) +* Compute workspace needed for DGELSY + CALL DGELSY( M, N, NRHS, A, LDA, B, LDB, IWORKQUERY, + $ RCOND, CRANK, WORKQUERY, -1, INFO ) + LWORK_DGELSY = INT( WORKQUERY ) +* Compute workspace needed for DGELSS + CALL DGELSS( M, N, NRHS, A, LDA, B, LDB, S, + $ RCOND, CRANK, WORKQUERY, -1 , INFO ) + LWORK_DGELSS = INT( WORKQUERY ) +* Compute workspace needed for DGELSD + CALL DGELSD( M, N, NRHS, A, LDA, B, LDB, S, + $ RCOND, CRANK, WORKQUERY, -1, IWORKQUERY, INFO ) + LWORK_DGELSD = INT( WORKQUERY ) +* Compute LIWORK workspace needed for DGELSY and DGELSD + LIWORK = MAX( 1, N, IWORKQUERY ) +* Compute LWORK workspace needed for all functions + LWORK = MAX( 1, LWORK, LWORK_DGELS, LWORK_DGETSLS, LWORK_DGELSY, + $ LWORK_DGELSS, LWORK_DGELSD ) + LWLSY = LWORK +* + ALLOCATE( WORK( LWORK ) ) + ALLOCATE( IWORK( LIWORK ) ) +* DO 150 IM = 1, NM M = MVAL( IM ) LDA = MAX( 1, M ) @@ -311,20 +372,9 @@ MNMIN = MAX(MIN( M, N ),1) LDB = MAX( 1, M, N ) MB = (MNMIN+1) - IF(MNMIN.NE.MB) THEN - LWTS = (((LDB-MB)/(MB-MNMIN))*MNMIN+MNMIN*2)*MB+5 - ELSE - LWTS = 2*MNMIN+5 - END IF * DO 130 INS = 1, NNS NRHS = NSVAL( INS ) - NLVL = MAX( INT( LOG( MAX( ONE, DBLE( MNMIN ) ) / - $ DBLE( SMLSIZ+1 ) ) / LOG( TWO ) ) + 1, 0 ) - LWORK = MAX( 1, ( M+NRHS )*( N+2 ), ( N+NRHS )*( M+2 ), - $ M*N+4*MNMIN+MAX( M, N ), 12*MNMIN+2*MNMIN*SMLSIZ+ - $ 8*MNMIN*NLVL+MNMIN*NRHS+(SMLSIZ+1)**2,LWTS) - $ * DO 120 IRANK = 1, 2 DO 110 ISCALE = 1, 3 @@ -570,11 +620,6 @@ IWORK( J ) = 0 70 CONTINUE * -* Set LWLSY to the adequate value. -* - LWLSY = MAX( 1, MNMIN+2*N+NB*( N+1 ), - $ 2*MNMIN+NB*NRHS ) -* CALL DLACPY( 'Full', M, N, COPYA, LDA, A, LDA ) CALL DLACPY( 'Full', M, NRHS, COPYB, LDB, B, $ LDB ) @@ -768,6 +813,9 @@ 9997 FORMAT( ' TRANS=''', A1,' M=', I5, ', N=', I5, ', NRHS=', I4, $ ', MB=', I4,', NB=', I4,', type', I2, $ ', test(', I2, ')=', G12.5 ) +* + DEALLOCATE( WORK ) + DEALLOCATE( IWORK ) RETURN * * End of DDRVLS diff --git a/TESTING/LIN/dtsqr01.f b/TESTING/LIN/dtsqr01.f index a9ac1635..d8f34cba 100644 --- a/TESTING/LIN/dtsqr01.f +++ b/TESTING/LIN/dtsqr01.f @@ -110,11 +110,12 @@ * .. * .. Local Scalars .. LOGICAL TESTZEROS, TS - INTEGER INFO, J, K, L, LWORK, LT ,MNB + INTEGER INFO, J, K, L, LWORK, TSIZE, MNB DOUBLE PRECISION ANORM, EPS, RESID, CNORM, DNORM * .. * .. Local Arrays .. INTEGER ISEED( 4 ) + DOUBLE PRECISION TQUERY( 5 ), WORKQUERY * .. * .. External Functions .. DOUBLE PRECISION DLAMCH, DLANGE, DLANSY @@ -146,17 +147,11 @@ L = MAX(M,N,1) MNB = MAX ( MB, NB) LWORK = MAX(3,L)*MNB - IF((K.GE.MNB).OR.(MNB.GE.L))THEN - LT=MAX(1,L)*MNB+5 - ELSE - LT=MAX(1,(L-K)/(MNB-K)+1)*L*MNB+5 - END IF - * * Dynamically allocate local arrays * ALLOCATE ( A(M,N), AF(M,N), Q(L,L), R(M,L), RWORK(L), - $ WORK(LWORK), T(LT), C(M,N), CF(M,N), + $ C(M,N), CF(M,N), $ D(N,M), DF(N,M), LQ(L,N) ) * * Put random numbers into A and copy to AF @@ -177,14 +172,34 @@ * * Factor the matrix A in the array AF. * + CALL DGEQR( M, N, AF, M, TQUERY, -1, WORKQUERY, -1, INFO ) + TSIZE = INT( TQUERY( 1 ) ) + LWORK = INT( WORKQUERY ) + CALL DGEMQR( 'L', 'N', M, M, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL DGEMQR( 'L', 'N', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL DGEMQR( 'L', 'T', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL DGEMQR( 'R', 'N', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL DGEMQR( 'R', 'T', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + ALLOCATE ( T( TSIZE ) ) + ALLOCATE ( WORK( LWORK ) ) srnamt = 'DGEQR' - CALL DGEQR( M, N, AF, M, T, LT, WORK, LWORK, INFO ) + CALL DGEQR( M, N, AF, M, T, TSIZE, WORK, LWORK, INFO ) * * Generate the m-by-m matrix Q * CALL DLASET( 'Full', M, M, ZERO, ONE, Q, M ) srnamt = 'DGEMQR' - CALL DGEMQR( 'L', 'N', M, M, K, AF, M, T, LT, Q, M, + CALL DGEMQR( 'L', 'N', M, M, K, AF, M, T, TSIZE, Q, M, $ WORK, LWORK, INFO ) * * Copy R @@ -221,7 +236,7 @@ * Apply Q to C as Q*C * srnamt = 'DGEMQR' - CALL DGEMQR( 'L', 'N', M, N, K, AF, M, T, LT, CF, M, + CALL DGEMQR( 'L', 'N', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |Q*C - Q*C| / |C| @@ -241,7 +256,7 @@ * Apply Q to C as QT*C * srnamt = 'DGEMQR' - CALL DGEMQR( 'L', 'T', M, N, K, AF, M, T, LT, CF, M, + CALL DGEMQR( 'L', 'T', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |QT*C - QT*C| / |C| @@ -265,7 +280,7 @@ * Apply Q to D as D*Q * srnamt = 'DGEMQR' - CALL DGEMQR( 'R', 'N', N, M, K, AF, M, T, LT, DF, N, + CALL DGEMQR( 'R', 'N', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |D*Q - D*Q| / |D| @@ -284,7 +299,7 @@ * * Apply Q to D as D*QT * - CALL DGEMQR( 'R', 'T', N, M, K, AF, M, T, LT, DF, N, + CALL DGEMQR( 'R', 'T', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |D*QT - D*QT| / |D| @@ -300,15 +315,35 @@ * Short and wide * ELSE + CALL DGELQ( M, N, AF, M, TQUERY, -1, WORKQUERY, -1, INFO ) + TSIZE = INT( TQUERY( 1 ) ) + LWORK = INT( WORKQUERY ) + CALL DGEMLQ( 'R', 'N', N, N, K, AF, M, TQUERY, TSIZE, Q, N, + $ WORKQUERY, -1, INFO ) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL DGEMLQ( 'L', 'N', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL DGEMLQ( 'L', 'T', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL DGEMLQ( 'R', 'N', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL DGEMLQ( 'R', 'T', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + ALLOCATE ( T( TSIZE ) ) + ALLOCATE ( WORK( LWORK ) ) srnamt = 'DGELQ' - CALL DGELQ( M, N, AF, M, T, LT, WORK, LWORK, INFO ) + CALL DGELQ( M, N, AF, M, T, TSIZE, WORK, LWORK, INFO ) * * * Generate the n-by-n matrix Q * CALL DLASET( 'Full', N, N, ZERO, ONE, Q, N ) srnamt = 'DGEMLQ' - CALL DGEMLQ( 'R', 'N', N, N, K, AF, M, T, LT, Q, N, + CALL DGEMLQ( 'R', 'N', N, N, K, AF, M, T, TSIZE, Q, N, $ WORK, LWORK, INFO ) * * Copy R @@ -344,7 +379,7 @@ * * Apply Q to C as Q*C * - CALL DGEMLQ( 'L', 'N', N, M, K, AF, M, T, LT, DF, N, + CALL DGEMLQ( 'L', 'N', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |Q*D - Q*D| / |D| @@ -363,7 +398,7 @@ * * Apply Q to D as QT*D * - CALL DGEMLQ( 'L', 'T', N, M, K, AF, M, T, LT, DF, N, + CALL DGEMLQ( 'L', 'T', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |QT*D - QT*D| / |D| @@ -386,7 +421,7 @@ * * Apply Q to C as C*Q * - CALL DGEMLQ( 'R', 'N', M, N, K, AF, M, T, LT, CF, M, + CALL DGEMLQ( 'R', 'N', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |C*Q - C*Q| / |C| @@ -405,7 +440,7 @@ * * Apply Q to D as D*QT * - CALL DGEMLQ( 'R', 'T', M, N, K, AF, M, T, LT, CF, M, + CALL DGEMLQ( 'R', 'T', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |C*QT - C*QT| / |C| diff --git a/TESTING/LIN/schkaa.f b/TESTING/LIN/schkaa.f index 675e32f1..410379b3 100644 --- a/TESTING/LIN/schkaa.f +++ b/TESTING/LIN/schkaa.f @@ -904,7 +904,7 @@ CALL SDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, $ NBVAL, NXVAL, THRESH, TSTERR, A( 1, 1 ), $ A( 1, 2 ), B( 1, 1 ), B( 1, 2 ), B( 1, 3 ), - $ RWORK, RWORK( NMAX+1 ), WORK, IWORK, NOUT ) + $ RWORK, RWORK( NMAX+1 ), NOUT ) ELSE WRITE( NOUT, FMT = 9988 )PATH END IF diff --git a/TESTING/LIN/sdrvls.f b/TESTING/LIN/sdrvls.f index 03598937..d6a55708 100644 --- a/TESTING/LIN/sdrvls.f +++ b/TESTING/LIN/sdrvls.f @@ -10,7 +10,7 @@ * * SUBROUTINE SDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, * NBVAL, NXVAL, THRESH, TSTERR, A, COPYA, B, -* COPYB, C, S, COPYS, WORK, IWORK, NOUT ) +* COPYB, C, S, COPYS, NOUT ) * * .. Scalar Arguments .. * LOGICAL TSTERR @@ -19,10 +19,10 @@ * .. * .. Array Arguments .. * LOGICAL DOTYPE( * ) -* INTEGER IWORK( * ), MVAL( * ), NBVAL( * ), NSVAL( * ), +* INTEGER MVAL( * ), NBVAL( * ), NSVAL( * ), * $ NVAL( * ), NXVAL( * ) * REAL A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ), -* $ COPYS( * ), S( * ), WORK( * ) +* $ COPYS( * ), S( * ) * .. * * @@ -169,17 +169,6 @@ *> (min(MMAX,NMAX)) *> \endverbatim *> -*> \param[out] WORK -*> \verbatim -*> WORK is REAL array, -*> dimension (MMAX*NMAX + 4*NMAX + MMAX). -*> \endverbatim -*> -*> \param[out] IWORK -*> \verbatim -*> IWORK is INTEGER array, dimension (15*NMAX) -*> \endverbatim -*> *> \param[in] NOUT *> \verbatim *> NOUT is INTEGER @@ -201,7 +190,7 @@ * ===================================================================== SUBROUTINE SDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, $ NBVAL, NXVAL, THRESH, TSTERR, A, COPYA, B, - $ COPYB, C, S, COPYS, WORK, IWORK, NOUT ) + $ COPYB, C, S, COPYS, NOUT ) * * -- LAPACK test routine (version 3.6.0) -- * -- LAPACK is a software package provided by Univ. of Tennessee, -- @@ -215,10 +204,10 @@ * .. * .. Array Arguments .. LOGICAL DOTYPE( * ) - INTEGER IWORK( * ), MVAL( * ), NBVAL( * ), NSVAL( * ), + INTEGER MVAL( * ), NBVAL( * ), NSVAL( * ), $ NVAL( * ), NXVAL( * ) REAL A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ), - $ COPYS( * ), S( * ), WORK( * ) + $ COPYS( * ), S( * ) * .. * * ===================================================================== @@ -237,12 +226,19 @@ INTEGER CRANK, I, IM, IMB, IN, INB, INFO, INS, IRANK, $ ISCALE, ITRAN, ITYPE, J, K, LDA, LDB, LDWORK, $ LWLSY, LWORK, M, MNMIN, N, NB, NCOLS, NERRS, - $ NFAIL, NLVL, NRHS, NROWS, NRUN, RANK, MB, LWTS + $ NFAIL, NRHS, NROWS, NRUN, RANK, MB, + $ MMAX, NMAX, NSMAX, LIWORK, + $ LWORK_SGELS, LWORK_SGETSLS, LWORK_SGELSS, + $ LWORK_SGELSY, LWORK_SGELSD REAL EPS, NORMA, NORMB, RCOND * .. * .. Local Arrays .. - INTEGER ISEED( 4 ), ISEEDY( 4 ) - REAL RESULT( NTESTS ) + INTEGER ISEED( 4 ), ISEEDY( 4 ), IWORKQUERY + REAL RESULT( NTESTS ), WORKQUERY +* .. +* .. Allocatable Arrays .. + REAL, ALLOCATABLE :: WORK (:) + INTEGER, ALLOCATABLE :: IWORK (:) * .. * .. External Functions .. REAL SASUM, SLAMCH, SQRT12, SQRT14, SQRT17 @@ -302,6 +298,71 @@ CALL XLAENV( 2, 2 ) CALL XLAENV( 9, SMLSIZ ) * +* Compute maximal workspace needed for all routines +* + NMAX = 0 + MMAX = 0 + NSMAX = 0 + DO I = 1, NM + IF ( MVAL( I ).GT.MMAX ) THEN + MMAX = MVAL( I ) + END IF + ENDDO + DO I = 1, NN + IF ( NVAL( I ).GT.NMAX ) THEN + NMAX = NVAL( I ) + END IF + ENDDO + DO I = 1, NNS + IF ( NSVAL( I ).GT.NSMAX ) THEN + NSMAX = NSVAL( I ) + END IF + ENDDO + M = MMAX + N = NMAX + NRHS = NSMAX + LDA = MAX( 1, M ) + LDB = MAX( 1, M, N ) + MNMIN = MAX( MIN( M, N ), 1 ) +* +* Compute workspace needed for routines +* SQRT14, SQRT17 (two side cases), SQRT15 and SQRT12 +* + LWORK = MAX( ( M+N )*NRHS, + $ ( N+NRHS )*( M+2 ), ( M+NRHS )*( N+2 ), + $ MAX( M+MNMIN, NRHS*MNMIN,2*N+M ), + $ MAX( M*N+4*MNMIN+MAX(M,N), M*N+2*MNMIN+4*N ) ) +* +* Compute workspace needed for SGELS + CALL SGELS( 'N', M, N, NRHS, A, LDA, B, LDB, + $ WORKQUERY, -1, INFO ) + LWORK_SGELS = INT ( WORKQUERY ) +* Compute workspace needed for SGETSLS + CALL SGETSLS( 'N', M, N, NRHS, A, LDA, B, LDB, + $ WORKQUERY, -1, INFO ) + LWORK_SGETSLS = INT( WORKQUERY ) +* Compute workspace needed for SGELSY + CALL SGELSY( M, N, NRHS, A, LDA, B, LDB, IWORKQUERY, + $ RCOND, CRANK, WORKQUERY, -1, INFO ) + LWORK_SGELSY = INT( WORKQUERY ) +* Compute workspace needed for SGELSS + CALL SGELSS( M, N, NRHS, A, LDA, B, LDB, S, + $ RCOND, CRANK, WORKQUERY, -1 , INFO ) + LWORK_SGELSS = INT( WORKQUERY ) +* Compute workspace needed for SGELSD + CALL SGELSD( M, N, NRHS, A, LDA, B, LDB, S, + $ RCOND, CRANK, WORKQUERY, -1, IWORKQUERY, INFO ) + LWORK_SGELSD = INT( WORKQUERY ) +* Compute LIWORK workspace needed for SGELSY and SGELSD + LIWORK = MAX( 1, N, IWORKQUERY ) +* Compute LWORK workspace needed for all functions + LWORK = MAX( 1, LWORK, LWORK_SGELS, LWORK_SGETSLS, LWORK_SGELSY, + $ LWORK_SGELSS, LWORK_SGELSD ) + LWLSY = LWORK +* + ALLOCATE( WORK( LWORK ) ) + ALLOCATE( IWORK( LIWORK ) ) +* DO 150 IM = 1, NM M = MVAL( IM ) LDA = MAX( 1, M ) @@ -311,20 +372,9 @@ MNMIN = MAX(MIN( M, N ),1) LDB = MAX( 1, M, N ) MB = (MNMIN+1) - IF(MNMIN.NE.MB) THEN - LWTS = (((LDB-MB)/(MB-MNMIN))*MNMIN+MNMIN*2)*MB+5 - ELSE - LWTS = 2*MNMIN+5 - END IF * DO 130 INS = 1, NNS NRHS = NSVAL( INS ) - NLVL = MAX( INT( LOG( MAX( ONE, REAL( MNMIN ) ) / - $ REAL( SMLSIZ+1 ) ) / LOG( TWO ) ) + 1, 0 ) - LWORK = MAX( 1, ( M+NRHS )*( N+2 ), ( N+NRHS )*( M+2 ), - $ M*N+4*MNMIN+MAX( M, N ), 12*MNMIN+2*MNMIN*SMLSIZ+ - $ 8*MNMIN*NLVL+MNMIN*NRHS+(SMLSIZ+1)**2,LWTS) - $ * DO 120 IRANK = 1, 2 DO 110 ISCALE = 1, 3 @@ -570,11 +620,6 @@ IWORK( J ) = 0 70 CONTINUE * -* Set LWLSY to the adequate value. -* - LWLSY = MAX( 1, MNMIN+2*N+NB*( N+1 ), - $ 2*MNMIN+NB*NRHS ) -* CALL SLACPY( 'Full', M, N, COPYA, LDA, A, LDA ) CALL SLACPY( 'Full', M, NRHS, COPYB, LDB, B, $ LDB ) @@ -768,6 +813,9 @@ 9997 FORMAT( ' TRANS=''', A1,' M=', I5, ', N=', I5, ', NRHS=', I4, $ ', MB=', I4,', NB=', I4,', type', I2, $ ', test(', I2, ')=', G12.5 ) +* + DEALLOCATE( WORK ) + DEALLOCATE( IWORK ) RETURN * * End of SDRVLS diff --git a/TESTING/LIN/stsqr01.f b/TESTING/LIN/stsqr01.f index 4cebfc88..3e4e3d09 100644 --- a/TESTING/LIN/stsqr01.f +++ b/TESTING/LIN/stsqr01.f @@ -110,11 +110,12 @@ * .. * .. Local Scalars .. LOGICAL TESTZEROS, TS - INTEGER INFO, J, K, L, LWORK, LT ,MNB + INTEGER INFO, J, K, L, LWORK, TSIZE, MNB REAL ANORM, EPS, RESID, CNORM, DNORM * .. * .. Local Arrays .. INTEGER ISEED( 4 ) + REAL TQUERY( 5 ), WORKQUERY * .. * .. External Functions .. REAL SLAMCH, SLANGE, SLANSY @@ -146,17 +147,11 @@ L = MAX(M,N,1) MNB = MAX ( MB, NB) LWORK = MAX(3,L)*MNB - IF((K.GE.MNB).OR.(MNB.GE.L))THEN - LT=MAX(1,L)*MNB+5 - ELSE - LT=MAX(1,(L-K)/(MNB-K)+1)*L*MNB+5 - END IF - * * Dynamically allocate local arrays * ALLOCATE ( A(M,N), AF(M,N), Q(L,L), R(M,L), RWORK(L), - $ WORK(LWORK), T(LT), C(M,N), CF(M,N), + $ C(M,N), CF(M,N), $ D(N,M), DF(N,M), LQ(L,N) ) * * Put random numbers into A and copy to AF @@ -177,14 +172,34 @@ * * Factor the matrix A in the array AF. * + CALL SGEQR( M, N, AF, M, TQUERY, -1, WORKQUERY, -1, INFO ) + TSIZE = INT( TQUERY( 1 ) ) + LWORK = INT( WORKQUERY ) + CALL SGEMQR( 'L', 'N', M, M, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL SGEMQR( 'L', 'N', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL SGEMQR( 'L', 'T', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL SGEMQR( 'R', 'N', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL SGEMQR( 'R', 'T', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + ALLOCATE ( T( TSIZE ) ) + ALLOCATE ( WORK( LWORK ) ) srnamt = 'SGEQR' - CALL SGEQR( M, N, AF, M, T, LT, WORK, LWORK, INFO ) + CALL SGEQR( M, N, AF, M, T, TSIZE, WORK, LWORK, INFO ) * * Generate the m-by-m matrix Q * CALL SLASET( 'Full', M, M, ZERO, ONE, Q, M ) srnamt = 'SGEMQR' - CALL SGEMQR( 'L', 'N', M, M, K, AF, M, T, LT, Q, M, + CALL SGEMQR( 'L', 'N', M, M, K, AF, M, T, TSIZE, Q, M, $ WORK, LWORK, INFO ) * * Copy R @@ -221,7 +236,7 @@ * Apply Q to C as Q*C * srnamt = 'DGEQR' - CALL SGEMQR( 'L', 'N', M, N, K, AF, M, T, LT, CF, M, + CALL SGEMQR( 'L', 'N', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |Q*C - Q*C| / |C| @@ -241,7 +256,7 @@ * Apply Q to C as QT*C * srnamt = 'DGEQR' - CALL SGEMQR( 'L', 'T', M, N, K, AF, M, T, LT, CF, M, + CALL SGEMQR( 'L', 'T', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |QT*C - QT*C| / |C| @@ -265,7 +280,7 @@ * Apply Q to D as D*Q * srnamt = 'DGEQR' - CALL SGEMQR( 'R', 'N', N, M, K, AF, M, T, LT, DF, N, + CALL SGEMQR( 'R', 'N', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |D*Q - D*Q| / |D| @@ -284,7 +299,7 @@ * * Apply Q to D as D*QT * - CALL SGEMQR( 'R', 'T', N, M, K, AF, M, T, LT, DF, N, + CALL SGEMQR( 'R', 'T', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |D*QT - D*QT| / |D| @@ -300,15 +315,35 @@ * Short and wide * ELSE + CALL SGELQ( M, N, AF, M, TQUERY, -1, WORKQUERY, -1, INFO ) + TSIZE = INT( TQUERY( 1 ) ) + LWORK = INT( WORKQUERY ) + CALL SGEMLQ( 'R', 'N', N, N, K, AF, M, TQUERY, TSIZE, Q, N, + $ WORKQUERY, -1, INFO ) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL SGEMLQ( 'L', 'N', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL SGEMLQ( 'L', 'T', N, M, K, AF, M, TQUERY, TSIZE, DF, N, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL SGEMLQ( 'R', 'N', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + CALL SGEMLQ( 'R', 'T', M, N, K, AF, M, TQUERY, TSIZE, CF, M, + $ WORKQUERY, -1, INFO) + LWORK = MAX( LWORK, INT( WORKQUERY ) ) + ALLOCATE ( T( TSIZE ) ) + ALLOCATE ( WORK( LWORK ) ) srnamt = 'SGELQ' - CALL SGELQ( M, N, AF, M, T, LT, WORK, LWORK, INFO ) + CALL SGELQ( M, N, AF, M, T, TSIZE, WORK, LWORK, INFO ) * * * Generate the n-by-n matrix Q * CALL SLASET( 'Full', N, N, ZERO, ONE, Q, N ) - srnamt = 'SGEMQR' - CALL SGEMLQ( 'R', 'N', N, N, K, AF, M, T, LT, Q, N, + srnamt = 'SGEMLQ' + CALL SGEMLQ( 'R', 'N', N, N, K, AF, M, T, TSIZE, Q, N, $ WORK, LWORK, INFO ) * * Copy R @@ -344,7 +379,7 @@ * * Apply Q to C as Q*C * - CALL SGEMLQ( 'L', 'N', N, M, K, AF, M, T, LT, DF, N, + CALL SGEMLQ( 'L', 'N', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |Q*D - Q*D| / |D| @@ -363,7 +398,7 @@ * * Apply Q to D as QT*D * - CALL SGEMLQ( 'L', 'T', N, M, K, AF, M, T, LT, DF, N, + CALL SGEMLQ( 'L', 'T', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |QT*D - QT*D| / |D| @@ -386,7 +421,7 @@ * * Apply Q to C as C*Q * - CALL SGEMLQ( 'R', 'N', M, N, K, AF, M, T, LT, CF, M, + CALL SGEMLQ( 'R', 'N', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |C*Q - C*Q| / |C| @@ -405,7 +440,7 @@ * * Apply Q to D as D*QT * - CALL SGEMLQ( 'R', 'T', M, N, K, AF, M, T, LT, CF, M, + CALL SGEMLQ( 'R', 'T', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |C*QT - C*QT| / |C| diff --git a/TESTING/LIN/zchkaa.f b/TESTING/LIN/zchkaa.f index 818f1e63..5a41ab32 100644 --- a/TESTING/LIN/zchkaa.f +++ b/TESTING/LIN/zchkaa.f @@ -1049,8 +1049,7 @@ CALL ZDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, $ NBVAL, NXVAL, THRESH, TSTERR, A( 1, 1 ), $ A( 1, 2 ), A( 1, 3 ), A( 1, 4 ), A( 1, 5 ), - $ S( 1 ), S( NMAX+1 ), WORK, RWORK, IWORK, - $ NOUT ) + $ S( 1 ), S( NMAX+1 ), NOUT ) ELSE WRITE( NOUT, FMT = 9989 )PATH END IF diff --git a/TESTING/LIN/zdrvls.f b/TESTING/LIN/zdrvls.f index fe63b540..13a9263e 100644 --- a/TESTING/LIN/zdrvls.f +++ b/TESTING/LIN/zdrvls.f @@ -10,7 +10,7 @@ * * SUBROUTINE ZDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, * NBVAL, NXVAL, THRESH, TSTERR, A, COPYA, B, -* COPYB, C, S, COPYS, WORK, RWORK, IWORK, NOUT ) +* COPYB, C, S, COPYS, NOUT ) * * .. Scalar Arguments .. * LOGICAL TSTERR @@ -19,11 +19,10 @@ * .. * .. Array Arguments .. * LOGICAL DOTYPE( * ) -* INTEGER IWORK( * ), MVAL( * ), NBVAL( * ), NSVAL( * ), +* INTEGER MVAL( * ), NBVAL( * ), NSVAL( * ), * $ NVAL( * ), NXVAL( * ) -* DOUBLE PRECISION COPYS( * ), RWORK( * ), S( * ) -* COMPLEX*16 A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ), -* $ WORK( * ) +* DOUBLE PRECISION COPYS( * ), S( * ) +* COMPLEX*16 A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ) * .. * * @@ -32,8 +31,8 @@ *> *> \verbatim *> -*> ZDRVLS tests the least squares driver routines ZGELS, CGELSS, ZGELSY -*> and CGELSD. +*> ZDRVLS tests the least squares driver routines ZGELS, ZGETSLS, ZGELSS, ZGELSY +*> and ZGELSD. *> \endverbatim * * Arguments: @@ -170,22 +169,6 @@ *> (min(MMAX,NMAX)) *> \endverbatim *> -*> \param[out] WORK -*> \verbatim -*> WORK is COMPLEX*16 array, dimension -*> (MMAX*NMAX + 4*NMAX + MMAX). -*> \endverbatim -*> -*> \param[out] RWORK -*> \verbatim -*> RWORK is DOUBLE PRECISION array, dimension (5*NMAX-1) -*> \endverbatim -*> -*> \param[out] IWORK -*> \verbatim -*> IWORK is INTEGER array, dimension (15*NMAX) -*> \endverbatim -*> *> \param[in] NOUT *> \verbatim *> NOUT is INTEGER @@ -207,7 +190,7 @@ * ===================================================================== SUBROUTINE ZDRVLS( DOTYPE, NM, MVAL, NN, NVAL, NNS, NSVAL, NNB, $ NBVAL, NXVAL, THRESH, TSTERR, A, COPYA, B, - $ COPYB, C, S, COPYS, WORK, RWORK, IWORK, NOUT ) + $ COPYB, C, S, COPYS, NOUT ) * * -- LAPACK test routine (version 3.6.0) -- * -- LAPACK is a software package provided by Univ. of Tennessee, -- @@ -221,11 +204,10 @@ * .. * .. Array Arguments .. LOGICAL DOTYPE( * ) - INTEGER IWORK( * ), MVAL( * ), NBVAL( * ), NSVAL( * ), + INTEGER MVAL( * ), NBVAL( * ), NSVAL( * ), $ NVAL( * ), NXVAL( * ) - DOUBLE PRECISION COPYS( * ), RWORK( * ), S( * ) - COMPLEX*16 A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ), - $ WORK( * ) + DOUBLE PRECISION COPYS( * ), S( * ) + COMPLEX*16 A( * ), B( * ), C( * ), COPYA( * ), COPYB( * ) * .. * * ===================================================================== @@ -247,12 +229,22 @@ INTEGER CRANK, I, IM, IMB, IN, INB, INFO, INS, IRANK, $ ISCALE, ITRAN, ITYPE, J, K, LDA, LDB, LDWORK, $ LWLSY, LWORK, M, MNMIN, N, NB, NCOLS, NERRS, - $ NFAIL, NRHS, NROWS, NRUN, RANK, MB, LWTS + $ NFAIL, NRHS, NROWS, NRUN, RANK, MB, + $ MMAX, NMAX, NSMAX, LIWORK, LRWORK, + $ LWORK_ZGELS, LWORK_ZGETSLS, LWORK_ZGELSS, + $ LWORK_ZGELSY, LWORK_ZGELSD, + $ LRWORK_ZGELSY, LRWORK_ZGELSS, LRWORK_ZGELSD DOUBLE PRECISION EPS, NORMA, NORMB, RCOND * .. * .. Local Arrays .. - INTEGER ISEED( 4 ), ISEEDY( 4 ) - DOUBLE PRECISION RESULT( NTESTS ) + INTEGER ISEED( 4 ), ISEEDY( 4 ), IWORKQUERY + DOUBLE PRECISION RESULT( NTESTS ), RWORKQUERY + COMPLEX*16 WORKQUERY +* .. +* .. Allocatable Arrays .. + COMPLEX*16, ALLOCATABLE :: WORK (:) + DOUBLE PRECISION, ALLOCATABLE :: RWORK (:) + INTEGER, ALLOCATABLE :: IWORK (:) * .. * .. External Functions .. DOUBLE PRECISION DASUM, DLAMCH, ZQRT12, ZQRT14, ZQRT17 @@ -265,7 +257,7 @@ $ ZQRT16, ZGETSLS * .. * .. Intrinsic Functions .. - INTRINSIC DBLE, MAX, MIN, SQRT + INTRINSIC DBLE, MAX, MIN, INT, SQRT * .. * .. Scalars in Common .. LOGICAL LERR, OK @@ -309,6 +301,77 @@ $ CALL ALAHD( NOUT, PATH ) INFOT = 0 * +* Compute maximal workspace needed for all routines +* + NMAX = 0 + MMAX = 0 + NSMAX = 0 + DO I = 1, NM + IF ( MVAL( I ).GT.MMAX ) THEN + MMAX = MVAL( I ) + END IF + ENDDO + DO I = 1, NN + IF ( NVAL( I ).GT.NMAX ) THEN + NMAX = NVAL( I ) + END IF + ENDDO + DO I = 1, NNS + IF ( NSVAL( I ).GT.NSMAX ) THEN + NSMAX = NSVAL( I ) + END IF + ENDDO + M = MMAX + N = NMAX + NRHS = NSMAX + LDA = MAX( 1, M ) + LDB = MAX( 1, M, N ) + MNMIN = MAX( MIN( M, N ), 1 ) +* +* Compute workspace needed for routines +* ZQRT14, ZQRT17 (two side cases), ZQRT15 and ZQRT12 +* + LWORK = MAX( ( M+N )*NRHS, + $ ( N+NRHS )*( M+2 ), ( M+NRHS )*( N+2 ), + $ MAX( M+MNMIN, NRHS*MNMIN,2*N+M ), + $ MAX( M*N+4*MNMIN+MAX(M,N), M*N+2*MNMIN+4*N ) ) +* +* Compute workspace needed for ZGELS + CALL ZGELS( 'N', M, N, NRHS, A, LDA, B, LDB, + $ WORKQUERY, -1, INFO ) + LWORK_ZGELS = INT ( WORKQUERY ) +* Compute workspace needed for ZGETSLS + CALL ZGETSLS( 'N', M, N, NRHS, A, LDA, B, LDB, + $ WORKQUERY, -1, INFO ) + LWORK_ZGETSLS = INT( WORKQUERY ) +* Compute workspace needed for ZGELSY + CALL ZGELSY( M, N, NRHS, A, LDA, B, LDB, IWORKQUERY, + $ RCOND, CRANK, WORKQUERY, -1, RWORK, INFO ) + LWORK_ZGELSY = INT( WORKQUERY ) + LRWORK_ZGELSY = 2*N +* Compute workspace needed for ZGELSS + CALL ZGELSS( M, N, NRHS, A, LDA, B, LDB, S, + $ RCOND, CRANK, WORKQUERY, -1 , RWORK, INFO ) + LWORK_ZGELSS = INT( WORKQUERY ) + LRWORK_ZGELSS = 5*MNMIN +* Compute workspace needed for ZGELSD + CALL ZGELSD( M, N, NRHS, A, LDA, B, LDB, S, RCOND, CRANK, + $ WORKQUERY, -1, RWORKQUERY, IWORKQUERY, INFO ) + LWORK_ZGELSD = INT( WORKQUERY ) + LRWORK_ZGELSD = INT( RWORKQUERY ) +* Compute LIWORK workspace needed for ZGELSY and ZGELSD + LIWORK = MAX( 1, N, IWORKQUERY ) +* Compute LRWORK workspace needed for ZGELSY, ZGELSS and ZGELSD + LRWORK = MAX( 1, LRWORK_ZGELSY, LRWORK_ZGELSS, LRWORK_ZGELSD ) +* Compute LWORK workspace needed for all functions + LWORK = MAX( 1, LWORK, LWORK_ZGELS, LWORK_ZGETSLS, LWORK_ZGELSY, + $ LWORK_ZGELSS, LWORK_ZGELSD ) + LWLSY = LWORK +* + ALLOCATE( WORK( LWORK ) ) + ALLOCATE( IWORK( LIWORK ) ) + ALLOCATE( RWORK( LRWORK ) ) +* DO 140 IM = 1, NM M = MVAL( IM ) LDA = MAX( 1, M ) @@ -318,16 +381,9 @@ MNMIN = MAX(MIN( M, N ),1) LDB = MAX( 1, M, N ) MB = (MNMIN+1) - IF(MNMIN.NE.MB) THEN - LWTS = (((LDB-MB)/(MB-MNMIN))*MNMIN+LDB*2)*MB+5 - ELSE - LWTS = 2*MNMIN+5 - END IF * DO 120 INS = 1, NNS NRHS = NSVAL( INS ) - LWORK = MAX( 1, ( M+NRHS )*( N+2 ), ( N+NRHS )*( M+2 ), - $ M*N+4*MNMIN+MAX( M, N ), 2*N+M, LWTS ) * DO 110 IRANK = 1, 2 DO 100 ISCALE = 1, 3 @@ -578,12 +634,6 @@ IWORK( J ) = 0 70 CONTINUE * -* Set LWLSY to the adequate value. -* - LWLSY = MNMIN + MAX( 2*MNMIN, NB*( N+1 ), - $ MNMIN+NB*NRHS ) - LWLSY = MAX( 1, LWLSY ) -* SRNAMT = 'ZGELSY' CALL ZGELSY( M, N, NRHS, A, LDA, B, LDB, IWORK, $ RCOND, CRANK, WORK, LWLSY, RWORK, @@ -774,6 +824,10 @@ 9997 FORMAT( ' TRANS=''', A1,' M=', I5, ', N=', I5, ', NRHS=', I4, $ ', MB=', I4,', NB=', I4,', type', I2, $ ', test(', I2, ')=', G12.5 ) +* + DEALLOCATE( WORK ) + DEALLOCATE( IWORK ) + DEALLOCATE( RWORK ) RETURN * * End of ZDRVLS diff --git a/TESTING/LIN/ztsqr01.f b/TESTING/LIN/ztsqr01.f index 38ace9c8..acc027e0 100644 --- a/TESTING/LIN/ztsqr01.f +++ b/TESTING/LIN/ztsqr01.f @@ -109,11 +109,12 @@ * .. * .. Local Scalars .. LOGICAL TESTZEROS, TS - INTEGER INFO, J, K, L, LWORK, LT ,MNB + 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 @@ -145,17 +146,11 @@ L = MAX(M,N,1) MNB = MAX ( MB, NB) LWORK = MAX(3,L)*MNB - IF((K.GE.MNB).OR.(MNB.GE.L))THEN - LT=MAX(1,L)*MNB+5 - ELSE - LT=MAX(1,(L-K)/(MNB-K)+1)*L*MNB+5 - END IF - * * Dynamically allocate local arrays * ALLOCATE ( A(M,N), AF(M,N), Q(L,L), R(M,L), RWORK(L), - $ WORK(LWORK), T(LT), C(M,N), CF(M,N), + $ C(M,N), CF(M,N), $ D(N,M), DF(N,M), LQ(L,N) ) * * Put random numbers into A and copy to AF @@ -176,14 +171,34 @@ * * 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, LT, WORK, LWORK, INFO ) + 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, LT, Q, M, + CALL ZGEMQR( 'L', 'N', M, M, K, AF, M, T, TSIZE, Q, M, $ WORK, LWORK, INFO ) * * Copy R @@ -220,7 +235,7 @@ * Apply Q to C as Q*C * srnamt = 'ZGEMQR' - CALL ZGEMQR( 'L', 'N', M, N, K, AF, M, T, LT, CF, M, + CALL ZGEMQR( 'L', 'N', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |Q*C - Q*C| / |C| @@ -240,7 +255,7 @@ * Apply Q to C as QT*C * srnamt = 'ZGEMQR' - CALL ZGEMQR( 'L', 'C', M, N, K, AF, M, T, LT, CF, M, + CALL ZGEMQR( 'L', 'C', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |QT*C - QT*C| / |C| @@ -264,7 +279,7 @@ * Apply Q to D as D*Q * srnamt = 'ZGEMQR' - CALL ZGEMQR( 'R', 'N', N, M, K, AF, M, T, LT, DF, N, + CALL ZGEMQR( 'R', 'N', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |D*Q - D*Q| / |D| @@ -283,7 +298,7 @@ * * Apply Q to D as D*QT * - CALL ZGEMQR( 'R', 'C', N, M, K, AF, M, T, LT, DF, N, + CALL ZGEMQR( 'R', 'C', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |D*QT - D*QT| / |D| @@ -299,15 +314,35 @@ * 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, LT, WORK, LWORK, INFO ) + 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, LT, Q, N, + CALL ZGEMLQ( 'R', 'N', N, N, K, AF, M, T, TSIZE, Q, N, $ WORK, LWORK, INFO ) * * Copy R @@ -343,7 +378,7 @@ * * Apply Q to C as Q*C * - CALL ZGEMLQ( 'L', 'N', N, M, K, AF, M, T, LT, DF, N, + CALL ZGEMLQ( 'L', 'N', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |Q*D - Q*D| / |D| @@ -362,7 +397,7 @@ * * Apply Q to D as QT*D * - CALL ZGEMLQ( 'L', 'C', N, M, K, AF, M, T, LT, DF, N, + CALL ZGEMLQ( 'L', 'C', N, M, K, AF, M, T, TSIZE, DF, N, $ WORK, LWORK, INFO) * * Compute |QT*D - QT*D| / |D| @@ -385,7 +420,7 @@ * * Apply Q to C as C*Q * - CALL ZGEMLQ( 'R', 'N', M, N, K, AF, M, T, LT, CF, M, + CALL ZGEMLQ( 'R', 'N', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |C*Q - C*Q| / |C| @@ -404,7 +439,7 @@ * * Apply Q to D as D*QT * - CALL ZGEMLQ( 'R', 'C', M, N, K, AF, M, T, LT, CF, M, + CALL ZGEMLQ( 'R', 'C', M, N, K, AF, M, T, TSIZE, CF, M, $ WORK, LWORK, INFO) * * Compute |C*QT - C*QT| / |C| |