version 1.4, 2011/11/21 20:43:23
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version 1.10, 2014/01/27 09:28:45
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*> \author Univ. of Colorado Denver |
*> \author Univ. of Colorado Denver |
*> \author NAG Ltd. |
*> \author NAG Ltd. |
* |
* |
*> \date November 2011 |
*> \date November 2013 |
* |
* |
*> \ingroup complex16OTHERcomputational |
*> \ingroup complex16OTHERcomputational |
* |
* |
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$ LDV2T, WORK, LWORK, RWORK, LRWORK, |
$ LDV2T, WORK, LWORK, RWORK, LRWORK, |
$ IWORK, INFO ) |
$ IWORK, INFO ) |
* |
* |
* -- LAPACK computational routine (version 3.4.0) -- |
* -- LAPACK computational routine (version 3.5.0) -- |
* -- LAPACK is a software package provided by Univ. of Tennessee, -- |
* -- LAPACK is a software package provided by Univ. of Tennessee, -- |
* -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..-- |
* -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..-- |
* November 2011 |
* November 2013 |
* |
* |
* .. Scalar Arguments .. |
* .. Scalar Arguments .. |
CHARACTER JOBU1, JOBU2, JOBV1T, JOBV2T, SIGNS, TRANS |
CHARACTER JOBU1, JOBU2, JOBV1T, JOBV2T, SIGNS, TRANS |
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* =================================================================== |
* =================================================================== |
* |
* |
* .. Parameters .. |
* .. Parameters .. |
DOUBLE PRECISION REALONE |
COMPLEX*16 ONE, ZERO |
PARAMETER ( REALONE = 1.0D0 ) |
PARAMETER ( ONE = (1.0D0,0.0D0), |
COMPLEX*16 NEGONE, ONE, PIOVER2, ZERO |
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PARAMETER ( NEGONE = (-1.0D0,0.0D0), ONE = (1.0D0,0.0D0), |
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$ PIOVER2 = 1.57079632679489662D0, |
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$ ZERO = (0.0D0,0.0D0) ) |
$ ZERO = (0.0D0,0.0D0) ) |
* .. |
* .. |
* .. Local Scalars .. |
* .. Local Scalars .. |
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$ LBBCSDWORKOPT, LORBDBWORK, LORBDBWORKMIN, |
$ LBBCSDWORKOPT, LORBDBWORK, LORBDBWORKMIN, |
$ LORBDBWORKOPT, LORGLQWORK, LORGLQWORKMIN, |
$ LORBDBWORKOPT, LORGLQWORK, LORGLQWORKMIN, |
$ LORGLQWORKOPT, LORGQRWORK, LORGQRWORKMIN, |
$ LORGLQWORKOPT, LORGQRWORK, LORGQRWORKMIN, |
$ LORGQRWORKOPT, LWORKMIN, LWORKOPT |
$ LORGQRWORKOPT, LWORKMIN, LWORKOPT, P1, Q1 |
LOGICAL COLMAJOR, DEFAULTSIGNS, LQUERY, WANTU1, WANTU2, |
LOGICAL COLMAJOR, DEFAULTSIGNS, LQUERY, WANTU1, WANTU2, |
$ WANTV1T, WANTV2T |
$ WANTV1T, WANTV2T |
INTEGER LRWORKMIN, LRWORKOPT |
INTEGER LRWORKMIN, LRWORKOPT |
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EXTERNAL LSAME |
EXTERNAL LSAME |
* .. |
* .. |
* .. Intrinsic Functions |
* .. Intrinsic Functions |
INTRINSIC COS, INT, MAX, MIN, SIN |
INTRINSIC INT, MAX, MIN |
* .. |
* .. |
* .. Executable Statements .. |
* .. Executable Statements .. |
* |
* |
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INFO = -8 |
INFO = -8 |
ELSE IF( Q .LT. 0 .OR. Q .GT. M ) THEN |
ELSE IF( Q .LT. 0 .OR. Q .GT. M ) THEN |
INFO = -9 |
INFO = -9 |
ELSE IF( ( COLMAJOR .AND. LDX11 .LT. MAX(1,P) ) .OR. |
ELSE IF ( COLMAJOR .AND. LDX11 .LT. MAX( 1, P ) ) THEN |
$ ( .NOT.COLMAJOR .AND. LDX11 .LT. MAX(1,Q) ) ) THEN |
INFO = -11 |
INFO = -11 |
ELSE IF (.NOT. COLMAJOR .AND. LDX11 .LT. MAX( 1, Q ) ) THEN |
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INFO = -11 |
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ELSE IF (COLMAJOR .AND. LDX12 .LT. MAX( 1, P ) ) THEN |
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INFO = -13 |
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ELSE IF (.NOT. COLMAJOR .AND. LDX12 .LT. MAX( 1, M-Q ) ) THEN |
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INFO = -13 |
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ELSE IF (COLMAJOR .AND. LDX21 .LT. MAX( 1, M-P ) ) THEN |
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INFO = -15 |
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ELSE IF (.NOT. COLMAJOR .AND. LDX21 .LT. MAX( 1, Q ) ) THEN |
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INFO = -15 |
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ELSE IF (COLMAJOR .AND. LDX22 .LT. MAX( 1, M-P ) ) THEN |
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INFO = -17 |
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ELSE IF (.NOT. COLMAJOR .AND. LDX22 .LT. MAX( 1, M-Q ) ) THEN |
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INFO = -17 |
ELSE IF( WANTU1 .AND. LDU1 .LT. P ) THEN |
ELSE IF( WANTU1 .AND. LDU1 .LT. P ) THEN |
INFO = -20 |
INFO = -20 |
ELSE IF( WANTU2 .AND. LDU2 .LT. M-P ) THEN |
ELSE IF( WANTU2 .AND. LDU2 .LT. M-P ) THEN |
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IB22D = IB21E + MAX( 1, Q - 1 ) |
IB22D = IB21E + MAX( 1, Q - 1 ) |
IB22E = IB22D + MAX( 1, Q ) |
IB22E = IB22D + MAX( 1, Q ) |
IBBCSD = IB22E + MAX( 1, Q - 1 ) |
IBBCSD = IB22E + MAX( 1, Q - 1 ) |
CALL ZBBCSD( JOBU1, JOBU2, JOBV1T, JOBV2T, TRANS, M, P, Q, 0, |
CALL ZBBCSD( JOBU1, JOBU2, JOBV1T, JOBV2T, TRANS, M, P, Q, |
$ 0, U1, LDU1, U2, LDU2, V1T, LDV1T, V2T, LDV2T, 0, |
$ THETA, THETA, U1, LDU1, U2, LDU2, V1T, LDV1T, |
$ 0, 0, 0, 0, 0, 0, 0, RWORK, -1, CHILDINFO ) |
$ V2T, LDV2T, THETA, THETA, THETA, THETA, THETA, |
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$ THETA, THETA, THETA, RWORK, -1, CHILDINFO ) |
LBBCSDWORKOPT = INT( RWORK(1) ) |
LBBCSDWORKOPT = INT( RWORK(1) ) |
LBBCSDWORKMIN = LBBCSDWORKOPT |
LBBCSDWORKMIN = LBBCSDWORKOPT |
LRWORKOPT = IBBCSD + LBBCSDWORKOPT - 1 |
LRWORKOPT = IBBCSD + LBBCSDWORKOPT - 1 |
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ITAUQ1 = ITAUP2 + MAX( 1, M - P ) |
ITAUQ1 = ITAUP2 + MAX( 1, M - P ) |
ITAUQ2 = ITAUQ1 + MAX( 1, Q ) |
ITAUQ2 = ITAUQ1 + MAX( 1, Q ) |
IORGQR = ITAUQ2 + MAX( 1, M - Q ) |
IORGQR = ITAUQ2 + MAX( 1, M - Q ) |
CALL ZUNGQR( M-Q, M-Q, M-Q, 0, MAX(1,M-Q), 0, WORK, -1, |
CALL ZUNGQR( M-Q, M-Q, M-Q, U1, MAX(1,M-Q), U1, WORK, -1, |
$ CHILDINFO ) |
$ CHILDINFO ) |
LORGQRWORKOPT = INT( WORK(1) ) |
LORGQRWORKOPT = INT( WORK(1) ) |
LORGQRWORKMIN = MAX( 1, M - Q ) |
LORGQRWORKMIN = MAX( 1, M - Q ) |
IORGLQ = ITAUQ2 + MAX( 1, M - Q ) |
IORGLQ = ITAUQ2 + MAX( 1, M - Q ) |
CALL ZUNGLQ( M-Q, M-Q, M-Q, 0, MAX(1,M-Q), 0, WORK, -1, |
CALL ZUNGLQ( M-Q, M-Q, M-Q, U1, MAX(1,M-Q), U1, WORK, -1, |
$ CHILDINFO ) |
$ CHILDINFO ) |
LORGLQWORKOPT = INT( WORK(1) ) |
LORGLQWORKOPT = INT( WORK(1) ) |
LORGLQWORKMIN = MAX( 1, M - Q ) |
LORGLQWORKMIN = MAX( 1, M - Q ) |
IORBDB = ITAUQ2 + MAX( 1, M - Q ) |
IORBDB = ITAUQ2 + MAX( 1, M - Q ) |
CALL ZUNBDB( TRANS, SIGNS, M, P, Q, X11, LDX11, X12, LDX12, |
CALL ZUNBDB( TRANS, SIGNS, M, P, Q, X11, LDX11, X12, LDX12, |
$ X21, LDX21, X22, LDX22, 0, 0, 0, 0, 0, 0, WORK, |
$ X21, LDX21, X22, LDX22, THETA, THETA, U1, U2, |
$ -1, CHILDINFO ) |
$ V1T, V2T, WORK, -1, CHILDINFO ) |
LORBDBWORKOPT = INT( WORK(1) ) |
LORBDBWORKOPT = INT( WORK(1) ) |
LORBDBWORKMIN = LORBDBWORKOPT |
LORBDBWORKMIN = LORBDBWORKOPT |
LWORKOPT = MAX( IORGQR + LORGQRWORKOPT, IORGLQ + LORGLQWORKOPT, |
LWORKOPT = MAX( IORGQR + LORGQRWORKOPT, IORGLQ + LORGLQWORKOPT, |
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END IF |
END IF |
IF( WANTV2T .AND. M-Q .GT. 0 ) THEN |
IF( WANTV2T .AND. M-Q .GT. 0 ) THEN |
CALL ZLACPY( 'U', P, M-Q, X12, LDX12, V2T, LDV2T ) |
CALL ZLACPY( 'U', P, M-Q, X12, LDX12, V2T, LDV2T ) |
CALL ZLACPY( 'U', M-P-Q, M-P-Q, X22(Q+1,P+1), LDX22, |
IF( M-P .GT. Q) THEN |
$ V2T(P+1,P+1), LDV2T ) |
CALL ZLACPY( 'U', M-P-Q, M-P-Q, X22(Q+1,P+1), LDX22, |
CALL ZUNGLQ( M-Q, M-Q, M-Q, V2T, LDV2T, WORK(ITAUQ2), |
$ V2T(P+1,P+1), LDV2T ) |
$ WORK(IORGLQ), LORGLQWORK, INFO ) |
END IF |
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IF( M .GT. Q ) THEN |
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CALL ZUNGLQ( M-Q, M-Q, M-Q, V2T, LDV2T, WORK(ITAUQ2), |
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$ WORK(IORGLQ), LORGLQWORK, INFO ) |
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END IF |
END IF |
END IF |
ELSE |
ELSE |
IF( WANTU1 .AND. P .GT. 0 ) THEN |
IF( WANTU1 .AND. P .GT. 0 ) THEN |
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$ WORK(IORGQR), LORGQRWORK, INFO ) |
$ WORK(IORGQR), LORGQRWORK, INFO ) |
END IF |
END IF |
IF( WANTV2T .AND. M-Q .GT. 0 ) THEN |
IF( WANTV2T .AND. M-Q .GT. 0 ) THEN |
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P1 = MIN( P+1, M ) |
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Q1 = MIN( Q+1, M ) |
CALL ZLACPY( 'L', M-Q, P, X12, LDX12, V2T, LDV2T ) |
CALL ZLACPY( 'L', M-Q, P, X12, LDX12, V2T, LDV2T ) |
CALL ZLACPY( 'L', M-P-Q, M-P-Q, X22(P+1,Q+1), LDX22, |
IF( M .GT. P+Q ) THEN |
$ V2T(P+1,P+1), LDV2T ) |
CALL ZLACPY( 'L', M-P-Q, M-P-Q, X22(P1,Q1), LDX22, |
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$ V2T(P+1,P+1), LDV2T ) |
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END IF |
CALL ZUNGQR( M-Q, M-Q, M-Q, V2T, LDV2T, WORK(ITAUQ2), |
CALL ZUNGQR( M-Q, M-Q, M-Q, V2T, LDV2T, WORK(ITAUQ2), |
$ WORK(IORGQR), LORGQRWORK, INFO ) |
$ WORK(IORGQR), LORGQRWORK, INFO ) |
END IF |
END IF |