378 SUBROUTINE ztgsja( JOBU, JOBV, JOBQ, M, P, N, K, L, A, LDA, B,
379 $ ldb, tola, tolb, alpha, beta, u, ldu, v, ldv,
380 $ q, ldq, work, ncycle, info )
388 CHARACTER JOBQ, JOBU, JOBV
389 INTEGER INFO, K, L, LDA, LDB, LDQ, LDU, LDV, M, N,
391 DOUBLE PRECISION TOLA, TOLB
394 DOUBLE PRECISION ALPHA( * ), BETA( * )
395 COMPLEX*16 A( lda, * ), B( ldb, * ), Q( ldq, * ),
396 $ u( ldu, * ), v( ldv, * ), work( * )
403 parameter ( maxit = 40 )
404 DOUBLE PRECISION ZERO, ONE
405 parameter ( zero = 0.0d+0, one = 1.0d+0 )
406 COMPLEX*16 CZERO, CONE
407 parameter ( czero = ( 0.0d+0, 0.0d+0 ),
408 $ cone = ( 1.0d+0, 0.0d+0 ) )
412 LOGICAL INITQ, INITU, INITV, UPPER, WANTQ, WANTU, WANTV
414 DOUBLE PRECISION A1, A3, B1, B3, CSQ, CSU, CSV, ERROR, GAMMA,
416 COMPLEX*16 A2, B2, SNQ, SNU, SNV
427 INTRINSIC abs, dble, dconjg, max, min
433 initu = lsame( jobu,
'I' )
434 wantu = initu .OR. lsame( jobu,
'U' )
436 initv = lsame( jobv,
'I' )
437 wantv = initv .OR. lsame( jobv,
'V' )
439 initq = lsame( jobq,
'I' )
440 wantq = initq .OR. lsame( jobq,
'Q' )
443 IF( .NOT.( initu .OR. wantu .OR. lsame( jobu,
'N' ) ) )
THEN
445 ELSE IF( .NOT.( initv .OR. wantv .OR. lsame( jobv,
'N' ) ) )
THEN
447 ELSE IF( .NOT.( initq .OR. wantq .OR. lsame( jobq,
'N' ) ) )
THEN
449 ELSE IF( m.LT.0 )
THEN
451 ELSE IF( p.LT.0 )
THEN
453 ELSE IF( n.LT.0 )
THEN
455 ELSE IF( lda.LT.max( 1, m ) )
THEN
457 ELSE IF( ldb.LT.max( 1, p ) )
THEN
459 ELSE IF( ldu.LT.1 .OR. ( wantu .AND. ldu.LT.m ) )
THEN
461 ELSE IF( ldv.LT.1 .OR. ( wantv .AND. ldv.LT.p ) )
THEN
463 ELSE IF( ldq.LT.1 .OR. ( wantq .AND. ldq.LT.n ) )
THEN
467 CALL xerbla(
'ZTGSJA', -info )
474 $
CALL zlaset(
'Full', m, m, czero, cone, u, ldu )
476 $
CALL zlaset(
'Full', p, p, czero, cone, v, ldv )
478 $
CALL zlaset(
'Full', n, n, czero, cone, q, ldq )
483 DO 40 kcycle = 1, maxit
494 $ a1 = dble( a( k+i, n-l+i ) )
496 $ a3 = dble( a( k+j, n-l+j ) )
498 b1 = dble( b( i, n-l+i ) )
499 b3 = dble( b( j, n-l+j ) )
503 $ a2 = a( k+i, n-l+j )
507 $ a2 = a( k+j, n-l+i )
511 CALL zlags2( upper, a1, a2, a3, b1, b2, b3, csu, snu,
512 $ csv, snv, csq, snq )
517 $
CALL zrot( l, a( k+j, n-l+1 ), lda, a( k+i, n-l+1 ),
518 $ lda, csu, dconjg( snu ) )
522 CALL zrot( l, b( j, n-l+1 ), ldb, b( i, n-l+1 ), ldb,
523 $ csv, dconjg( snv ) )
528 CALL zrot( min( k+l, m ), a( 1, n-l+j ), 1,
529 $ a( 1, n-l+i ), 1, csq, snq )
531 CALL zrot( l, b( 1, n-l+j ), 1, b( 1, n-l+i ), 1, csq,
536 $ a( k+i, n-l+j ) = czero
537 b( i, n-l+j ) = czero
540 $ a( k+j, n-l+i ) = czero
541 b( j, n-l+i ) = czero
547 $ a( k+i, n-l+i ) = dble( a( k+i, n-l+i ) )
549 $ a( k+j, n-l+j ) = dble( a( k+j, n-l+j ) )
550 b( i, n-l+i ) = dble( b( i, n-l+i ) )
551 b( j, n-l+j ) = dble( b( j, n-l+j ) )
555 IF( wantu .AND. k+j.LE.m )
556 $
CALL zrot( m, u( 1, k+j ), 1, u( 1, k+i ), 1, csu,
560 $
CALL zrot( p, v( 1, j ), 1, v( 1, i ), 1, csv, snv )
563 $
CALL zrot( n, q( 1, n-l+j ), 1, q( 1, n-l+i ), 1, csq,
569 IF( .NOT.upper )
THEN
578 DO 30 i = 1, min( l, m-k )
579 CALL zcopy( l-i+1, a( k+i, n-l+i ), lda, work, 1 )
580 CALL zcopy( l-i+1, b( i, n-l+i ), ldb, work( l+1 ), 1 )
581 CALL zlapll( l-i+1, work, 1, work( l+1 ), 1, ssmin )
582 error = max( error, ssmin )
585 IF( abs( error ).LE.min( tola, tolb ) )
609 DO 70 i = 1, min( l, m-k )
611 a1 = dble( a( k+i, n-l+i ) )
612 b1 = dble( b( i, n-l+i ) )
614 IF( a1.NE.zero )
THEN
617 IF( gamma.LT.zero )
THEN
618 CALL zdscal( l-i+1, -one, b( i, n-l+i ), ldb )
620 $
CALL zdscal( p, -one, v( 1, i ), 1 )
623 CALL dlartg( abs( gamma ), one, beta( k+i ), alpha( k+i ),
626 IF( alpha( k+i ).GE.beta( k+i ) )
THEN
627 CALL zdscal( l-i+1, one / alpha( k+i ), a( k+i, n-l+i ),
630 CALL zdscal( l-i+1, one / beta( k+i ), b( i, n-l+i ),
632 CALL zcopy( l-i+1, b( i, n-l+i ), ldb, a( k+i, n-l+i ),
640 CALL zcopy( l-i+1, b( i, n-l+i ), ldb, a( k+i, n-l+i ),
647 DO 80 i = m + 1, k + l
653 DO 90 i = k + l + 1, n
subroutine zcopy(N, ZX, INCX, ZY, INCY)
ZCOPY
subroutine zlaset(UPLO, M, N, ALPHA, BETA, A, LDA)
ZLASET initializes the off-diagonal elements and the diagonal elements of a matrix to given values...
subroutine xerbla(SRNAME, INFO)
XERBLA
subroutine ztgsja(JOBU, JOBV, JOBQ, M, P, N, K, L, A, LDA, B, LDB, TOLA, TOLB, ALPHA, BETA, U, LDU, V, LDV, Q, LDQ, WORK, NCYCLE, INFO)
ZTGSJA
subroutine zlags2(UPPER, A1, A2, A3, B1, B2, B3, CSU, SNU, CSV, SNV, CSQ, SNQ)
ZLAGS2
subroutine zdscal(N, DA, ZX, INCX)
ZDSCAL
subroutine zrot(N, CX, INCX, CY, INCY, C, S)
ZROT applies a plane rotation with real cosine and complex sine to a pair of complex vectors...
subroutine dlartg(F, G, CS, SN, R)
DLARTG generates a plane rotation with real cosine and real sine.
subroutine zlapll(N, X, INCX, Y, INCY, SSMIN)
ZLAPLL measures the linear dependence of two vectors.