278 SUBROUTINE sgeesx( JOBVS, SORT, SELECT, SENSE, N, A, LDA, SDIM,
279 $ WR, WI, VS, LDVS, RCONDE, RCONDV, WORK, LWORK,
280 $ IWORK, LIWORK, BWORK, INFO )
287 CHARACTER JOBVS, SENSE, SORT
288 INTEGER INFO, LDA, LDVS, LIWORK, LWORK, N, SDIM
294 REAL A( lda, * ), VS( ldvs, * ), WI( * ), WORK( * ),
306 parameter( zero = 0.0e0, one = 1.0e0 )
309 LOGICAL CURSL, LASTSL, LQUERY, LST2SL, SCALEA, WANTSB,
310 $ wantse, wantsn, wantst, wantsv, wantvs
311 INTEGER HSWORK, I, I1, I2, IBAL, ICOND, IERR, IEVAL,
312 $ ihi, ilo, inxt, ip, itau, iwrk, lwrk, liwrk,
314 REAL ANRM, BIGNUM, CSCALE, EPS, SMLNUM
327 EXTERNAL lsame, ilaenv, slamch, slange
337 wantvs = lsame( jobvs,
'V' )
338 wantst = lsame( sort,
'S' )
339 wantsn = lsame( sense,
'N' )
340 wantse = lsame( sense,
'E' )
341 wantsv = lsame( sense,
'V' )
342 wantsb = lsame( sense,
'B' )
343 lquery = ( lwork.EQ.-1 .OR. liwork.EQ.-1 )
345 IF( ( .NOT.wantvs ) .AND. ( .NOT.lsame( jobvs,
'N' ) ) )
THEN 347 ELSE IF( ( .NOT.wantst ) .AND. ( .NOT.lsame( sort,
'N' ) ) )
THEN 349 ELSE IF( .NOT.( wantsn .OR. wantse .OR. wantsv .OR. wantsb ) .OR.
350 $ ( .NOT.wantst .AND. .NOT.wantsn ) )
THEN 352 ELSE IF( n.LT.0 )
THEN 354 ELSE IF( lda.LT.max( 1, n ) )
THEN 356 ELSE IF( ldvs.LT.1 .OR. ( wantvs .AND. ldvs.LT.n ) )
THEN 380 maxwrk = 2*n + n*ilaenv( 1,
'SGEHRD',
' ', n, 1, n, 0 )
383 CALL shseqr(
'S', jobvs, n, 1, n, a, lda, wr, wi, vs, ldvs,
385 hswork = int( work( 1 ) )
387 IF( .NOT.wantvs )
THEN 388 maxwrk = max( maxwrk, n + hswork )
390 maxwrk = max( maxwrk, 2*n + ( n - 1 )*ilaenv( 1,
391 $
'SORGHR',
' ', n, 1, n, -1 ) )
392 maxwrk = max( maxwrk, n + hswork )
396 $ lwrk = max( lwrk, n + ( n*n )/2 )
397 IF( wantsv .OR. wantsb )
403 IF( lwork.LT.minwrk .AND. .NOT.lquery )
THEN 405 ELSE IF( liwork.LT.1 .AND. .NOT.lquery )
THEN 411 CALL xerbla(
'SGEESX', -info )
413 ELSE IF( lquery )
THEN 427 smlnum = slamch(
'S' )
428 bignum = one / smlnum
429 CALL slabad( smlnum, bignum )
430 smlnum = sqrt( smlnum ) / eps
431 bignum = one / smlnum
435 anrm = slange(
'M', n, n, a, lda, dum )
437 IF( anrm.GT.zero .AND. anrm.LT.smlnum )
THEN 440 ELSE IF( anrm.GT.bignum )
THEN 445 $
CALL slascl(
'G', 0, 0, anrm, cscale, n, n, a, lda, ierr )
451 CALL sgebal(
'P', n, a, lda, ilo, ihi, work( ibal ), ierr )
458 CALL sgehrd( n, ilo, ihi, a, lda, work( itau ), work( iwrk ),
459 $ lwork-iwrk+1, ierr )
465 CALL slacpy(
'L', n, n, a, lda, vs, ldvs )
470 CALL sorghr( n, ilo, ihi, vs, ldvs, work( itau ), work( iwrk ),
471 $ lwork-iwrk+1, ierr )
480 CALL shseqr(
'S', jobvs, n, ilo, ihi, a, lda, wr, wi, vs, ldvs,
481 $ work( iwrk ), lwork-iwrk+1, ieval )
487 IF( wantst .AND. info.EQ.0 )
THEN 489 CALL slascl(
'G', 0, 0, cscale, anrm, n, 1, wr, n, ierr )
490 CALL slascl(
'G', 0, 0, cscale, anrm, n, 1, wi, n, ierr )
493 bwork( i ) =
SELECT( wr( i ), wi( i ) )
503 CALL strsen( sense, jobvs, bwork, n, a, lda, vs, ldvs, wr, wi,
504 $ sdim, rconde, rcondv, work( iwrk ), lwork-iwrk+1,
505 $ iwork, liwork, icond )
507 $ maxwrk = max( maxwrk, n+2*sdim*( n-sdim ) )
508 IF( icond.EQ.-15 )
THEN 513 ELSE IF( icond.EQ.-17 )
THEN 518 ELSE IF( icond.GT.0 )
THEN 531 CALL sgebak(
'P',
'R', n, ilo, ihi, work( ibal ), n, vs, ldvs,
539 CALL slascl(
'H', 0, 0, cscale, anrm, n, n, a, lda, ierr )
540 CALL scopy( n, a, lda+1, wr, 1 )
541 IF( ( wantsv .OR. wantsb ) .AND. info.EQ.0 )
THEN 543 CALL slascl(
'G', 0, 0, cscale, anrm, 1, 1, dum, 1, ierr )
546 IF( cscale.EQ.smlnum )
THEN 552 IF( ieval.GT.0 )
THEN 555 CALL slascl(
'G', 0, 0, cscale, anrm, ilo-1, 1, wi, n,
557 ELSE IF( wantst )
THEN 568 IF( wi( i ).EQ.zero )
THEN 571 IF( a( i+1, i ).EQ.zero )
THEN 574 ELSE IF( a( i+1, i ).NE.zero .AND. a( i, i+1 ).EQ.
579 $
CALL sswap( i-1, a( 1, i ), 1, a( 1, i+1 ), 1 )
581 $
CALL sswap( n-i-1, a( i, i+2 ), lda,
582 $ a( i+1, i+2 ), lda )
584 CALL sswap( n, vs( 1, i ), 1, vs( 1, i+1 ), 1 )
586 a( i, i+1 ) = a( i+1, i )
593 CALL slascl(
'G', 0, 0, cscale, anrm, n-ieval, 1,
594 $ wi( ieval+1 ), max( n-ieval, 1 ), ierr )
597 IF( wantst .AND. info.EQ.0 )
THEN 606 cursl =
SELECT( wr( i ), wi( i ) )
607 IF( wi( i ).EQ.zero )
THEN 611 IF( cursl .AND. .NOT.lastsl )
618 cursl = cursl .OR. lastsl
623 IF( cursl .AND. .NOT.lst2sl )
638 IF( wantsv .OR. wantsb )
THEN 639 iwork( 1 ) = sdim*(n-sdim)
subroutine sgebak(JOB, SIDE, N, ILO, IHI, SCALE, M, V, LDV, INFO)
SGEBAK
subroutine sgehrd(N, ILO, IHI, A, LDA, TAU, WORK, LWORK, INFO)
SGEHRD
subroutine xerbla(SRNAME, INFO)
XERBLA
subroutine sgeesx(JOBVS, SORT, SELECT, SENSE, N, A, LDA, SDIM, WR, WI, VS, LDVS, RCONDE, RCONDV, WORK, LWORK, IWORK, LIWORK, BWORK, INFO)
SGEESX computes the eigenvalues, the Schur form, and, optionally, the matrix of Schur vectors for GE...
subroutine sgebal(JOB, N, A, LDA, ILO, IHI, SCALE, INFO)
SGEBAL
subroutine sorghr(N, ILO, IHI, A, LDA, TAU, WORK, LWORK, INFO)
SORGHR
subroutine sswap(N, SX, INCX, SY, INCY)
SSWAP
subroutine slascl(TYPE, KL, KU, CFROM, CTO, M, N, A, LDA, INFO)
SLASCL multiplies a general rectangular matrix by a real scalar defined as cto/cfrom.
subroutine slabad(SMALL, LARGE)
SLABAD
subroutine scopy(N, SX, INCX, SY, INCY)
SCOPY
subroutine shseqr(JOB, COMPZ, N, ILO, IHI, H, LDH, WR, WI, Z, LDZ, WORK, LWORK, INFO)
SHSEQR
subroutine strsen(JOB, COMPQ, SELECT, N, T, LDT, Q, LDQ, WR, WI, M, S, SEP, WORK, LWORK, IWORK, LIWORK, INFO)
STRSEN
subroutine slacpy(UPLO, M, N, A, LDA, B, LDB)
SLACPY copies all or part of one two-dimensional array to another.