134 CHARACTER diag, trans, uplo
135 INTEGER imat, info, n
139 REAL a( * ), b( * ), work( * )
146 parameter ( one = 1.0e+0, two = 2.0e+0, zero = 0.0e+0 )
150 CHARACTER dist, packit, type
152 INTEGER i, iy, j, jc, jcnext, jcount, jj, jl, jr, jx,
154 REAL anorm, bignum, bnorm, bscal, c, cndnum, plus1,
155 $ plus2, ra, rb, rexp, s, sfac, smlnum, star1,
156 $ stemp, t, texp, tleft, tscal, ulp, unfl, x, y,
170 INTRINSIC abs, max,
REAL, sign, sqrt
174 path( 1: 1 ) =
'Single precision'
176 unfl =
slamch(
'Safe minimum' )
179 bignum = ( one-ulp ) / smlnum
180 CALL slabad( smlnum, bignum )
181 IF( ( imat.GE.7 .AND. imat.LE.10 ) .OR. imat.EQ.18 )
THEN
195 upper =
lsame( uplo,
'U' )
197 CALL slatb4( path, imat, n, n,
TYPE, kl, ku, anorm, mode,
201 CALL slatb4( path, -imat, n, n,
TYPE, kl, ku, anorm, mode,
209 CALL slatms( n, n, dist, iseed,
TYPE, b, mode, cndnum, anorm,
210 $ kl, ku, packit, a, n, work, info )
217 ELSE IF( imat.EQ.7 )
THEN
244 ELSE IF( imat.LE.10 )
THEN
327 plus2 = star1 / plus1
333 plus1 = star1 / plus2
335 star1 = star1*( sfac**rexp )
336 IF( rexp.LT.zero )
THEN
337 star1 = -sfac**( one-rexp )
339 star1 = sfac**( one+rexp )
344 x = sqrt( cndnum ) - one / sqrt( cndnum )
346 y = sqrt( two /
REAL( N-2 ) )*x
361 $ a( jc+j-1 ) = work( j-2 )
363 $ a( jc+j-2 ) = work( n+j-3 )
382 a( jc+1 ) = work( j-1 )
384 $ a( jc+2 ) = work( n+j-1 )
398 CALL srotg( ra, rb, c, s )
405 stemp = c*a( jx+j ) + s*a( jx+j+1 )
406 a( jx+j+1 ) = -s*a( jx+j ) + c*a( jx+j+1 )
415 $
CALL srot( j-1, a( jcnext ), 1, a( jc ), 1, -c, -s )
419 a( jcnext+j-1 ) = -a( jcnext+j-1 )
425 jcnext = jc + n - j + 1
428 CALL srotg( ra, rb, c, s )
433 $
CALL srot( n-j-1, a( jcnext+1 ), 1, a( jc+2 ), 1, c,
441 stemp = -c*a( jx+j-i ) + s*a( jx+j-i+1 )
442 a( jx+j-i+1 ) = -s*a( jx+j-i ) - c*a( jx+j-i+1 )
450 a( jc+1 ) = -a( jc+1 )
459 ELSE IF( imat.EQ.11 )
THEN
468 CALL slarnv( 2, iseed, j, a( jc ) )
469 a( jc+j-1 ) = sign( two, a( jc+j-1 ) )
475 CALL slarnv( 2, iseed, n-j+1, a( jc ) )
476 a( jc ) = sign( two, a( jc ) )
483 CALL slarnv( 2, iseed, n, b )
485 bnorm = abs( b( iy ) )
486 bscal = bignum / max( one, bnorm )
487 CALL sscal( n, bscal, b, 1 )
489 ELSE IF( imat.EQ.12 )
THEN
495 CALL slarnv( 2, iseed, n, b )
496 tscal = one / max( one,
REAL( N-1 ) )
500 CALL slarnv( 2, iseed, j-1, a( jc ) )
501 CALL sscal( j-1, tscal, a( jc ), 1 )
502 a( jc+j-1 ) = sign( one,
slarnd( 2, iseed ) )
505 a( n*( n+1 ) / 2 ) = smlnum
509 CALL slarnv( 2, iseed, n-j, a( jc+1 ) )
510 CALL sscal( n-j, tscal, a( jc+1 ), 1 )
511 a( jc ) = sign( one,
slarnd( 2, iseed ) )
517 ELSE IF( imat.EQ.13 )
THEN
523 CALL slarnv( 2, iseed, n, b )
527 CALL slarnv( 2, iseed, j-1, a( jc ) )
528 a( jc+j-1 ) = sign( one,
slarnd( 2, iseed ) )
531 a( n*( n+1 ) / 2 ) = smlnum
535 CALL slarnv( 2, iseed, n-j, a( jc+1 ) )
536 a( jc ) = sign( one,
slarnd( 2, iseed ) )
542 ELSE IF( imat.EQ.14 )
THEN
550 jc = ( n-1 )*n / 2 + 1
555 IF( jcount.LE.2 )
THEN
572 IF( jcount.LE.2 )
THEN
594 DO 290 i = 1, n - 1, 2
600 ELSE IF( imat.EQ.15 )
THEN
606 texp = one / max( one,
REAL( N-1 ) )
608 CALL slarnv( 2, iseed, n, b )
635 ELSE IF( imat.EQ.16 )
THEN
643 CALL slarnv( 2, iseed, j, a( jc ) )
645 a( jc+j-1 ) = sign( two, a( jc+j-1 ) )
654 CALL slarnv( 2, iseed, n-j+1, a( jc ) )
656 a( jc ) = sign( two, a( jc ) )
663 CALL slarnv( 2, iseed, n, b )
664 CALL sscal( n, two, b, 1 )
666 ELSE IF( imat.EQ.17 )
THEN
674 tscal = ( one-ulp ) / tscal
675 DO 360 j = 1, n*( n+1 ) / 2
680 jc = ( n-1 )*n / 2 + 1
682 a( jc ) = -tscal /
REAL( n+1 )
684 b( j ) = texp*( one-ulp )
686 a( jc ) = -( tscal /
REAL( N+1 ) ) /
REAL( n+2 )
688 b( j-1 ) = texp*
REAL( n*n+n-1 )
692 b( 1 ) = (
REAL( N+1 ) /
REAL( N+2 ) )*tscal
695 DO 380 j = 1, n - 1, 2
696 a( jc+n-j ) = -tscal /
REAL( n+1 )
698 b( j ) = texp*( one-ulp )
700 a( jc+n-j-1 ) = -( tscal /
REAL( N+1 ) ) /
REAL( n+2 )
702 b( j+1 ) = texp*
REAL( n*n+n-1 )
706 b( n ) = (
REAL( N+1 ) /
REAL( N+2 ) )*tscal
709 ELSE IF( imat.EQ.18 )
THEN
718 CALL slarnv( 2, iseed, j-1, a( jc ) )
726 $
CALL slarnv( 2, iseed, n-j, a( jc+1 ) )
734 CALL slarnv( 2, iseed, n, b )
736 bnorm = abs( b( iy ) )
737 bscal = bignum / max( one, bnorm )
738 CALL sscal( n, bscal, b, 1 )
740 ELSE IF( imat.EQ.19 )
THEN
746 tleft = bignum / max( one,
REAL( N-1 ) )
747 tscal = bignum*(
REAL( N-1 ) / max( one,
REAL( N ) ) )
751 CALL slarnv( 2, iseed, j, a( jc ) )
753 a( jc+i-1 ) = sign( tleft, a( jc+i-1 ) ) +
761 CALL slarnv( 2, iseed, n-j+1, a( jc ) )
763 a( jc+i-j ) = sign( tleft, a( jc+i-j ) ) +
769 CALL slarnv( 2, iseed, n, b )
770 CALL sscal( n, two, b, 1 )
776 IF( .NOT.
lsame( trans,
'N' ) )
THEN
784 a( jr-i+j ) = a( jl )
798 a( jl+i-j ) = a( jr )
subroutine slatb4(PATH, IMAT, M, N, TYPE, KL, KU, ANORM, MODE, CNDNUM, DIST)
SLATB4
integer function isamax(N, SX, INCX)
ISAMAX
subroutine slabad(SMALL, LARGE)
SLABAD
subroutine slarnv(IDIST, ISEED, N, X)
SLARNV returns a vector of random numbers from a uniform or normal distribution.
subroutine srotg(SA, SB, C, S)
SROTG
subroutine srot(N, SX, INCX, SY, INCY, C, S)
SROT
subroutine slatms(M, N, DIST, ISEED, SYM, D, MODE, COND, DMAX, KL, KU, PACK, A, LDA, WORK, INFO)
SLATMS
real function slarnd(IDIST, ISEED)
SLARND
subroutine sscal(N, SA, SX, INCX)
SSCAL
real function slamch(CMACH)
SLAMCH
logical function lsame(CA, CB)
LSAME