469 SUBROUTINE slatmr( M, N, DIST, ISEED, SYM, D, MODE, COND, DMAX,
470 $ rsign, grade, dl, model, condl, dr, moder,
471 $ condr, pivtng, ipivot, kl, ku, sparse, anorm,
472 $ pack, a, lda, iwork, info )
480 CHARACTER DIST, GRADE, PACK, PIVTNG, RSIGN, SYM
481 INTEGER INFO, KL, KU, LDA, M, MODE, MODEL, MODER, N
482 REAL ANORM, COND, CONDL, CONDR, DMAX, SPARSE
485 INTEGER IPIVOT( * ), ISEED( 4 ), IWORK( * )
486 REAL A( lda, * ), D( * ), DL( * ), DR( * )
493 parameter ( zero = 0.0e0 )
495 parameter ( one = 1.0e0 )
498 LOGICAL BADPVT, DZERO, FULBND
499 INTEGER I, IDIST, IGRADE, IISUB, IPACK, IPVTNG, IRSIGN,
500 $ isub, isym, j, jjsub, jsub, k, kll, kuu, mnmin,
501 $ mnsub, mxsub, npvts
502 REAL ALPHA, ONORM, TEMP
509 REAL SLANGB, SLANGE, SLANSB, SLANSP, SLANSY, SLATM2,
511 EXTERNAL lsame, slangb, slange, slansb, slansp, slansy,
518 INTRINSIC abs, max, min, mod
529 IF( m.EQ.0 .OR. n.EQ.0 )
534 IF( lsame( dist,
'U' ) )
THEN
536 ELSE IF( lsame( dist,
'S' ) )
THEN
538 ELSE IF( lsame( dist,
'N' ) )
THEN
546 IF( lsame( sym,
'S' ) )
THEN
548 ELSE IF( lsame( sym,
'N' ) )
THEN
550 ELSE IF( lsame( sym,
'H' ) )
THEN
558 IF( lsame( rsign,
'F' ) )
THEN
560 ELSE IF( lsame( rsign,
'T' ) )
THEN
568 IF( lsame( pivtng,
'N' ) )
THEN
570 ELSE IF( lsame( pivtng,
' ' ) )
THEN
572 ELSE IF( lsame( pivtng,
'L' ) )
THEN
575 ELSE IF( lsame( pivtng,
'R' ) )
THEN
578 ELSE IF( lsame( pivtng,
'B' ) )
THEN
581 ELSE IF( lsame( pivtng,
'F' ) )
THEN
590 IF( lsame( grade,
'N' ) )
THEN
592 ELSE IF( lsame( grade,
'L' ) )
THEN
594 ELSE IF( lsame( grade,
'R' ) )
THEN
596 ELSE IF( lsame( grade,
'B' ) )
THEN
598 ELSE IF( lsame( grade,
'E' ) )
THEN
600 ELSE IF( lsame( grade,
'H' ) .OR. lsame( grade,
'S' ) )
THEN
608 IF( lsame( pack,
'N' ) )
THEN
610 ELSE IF( lsame( pack,
'U' ) )
THEN
612 ELSE IF( lsame( pack,
'L' ) )
THEN
614 ELSE IF( lsame( pack,
'C' ) )
THEN
616 ELSE IF( lsame( pack,
'R' ) )
THEN
618 ELSE IF( lsame( pack,
'B' ) )
THEN
620 ELSE IF( lsame( pack,
'Q' ) )
THEN
622 ELSE IF( lsame( pack,
'Z' ) )
THEN
637 IF( igrade.EQ.4 .AND. model.EQ.0 )
THEN
639 IF( dl( i ).EQ.zero )
647 IF( ipvtng.GT.0 )
THEN
649 IF( ipivot( j ).LE.0 .OR. ipivot( j ).GT.npvts )
658 ELSE IF( m.NE.n .AND. isym.EQ.0 )
THEN
660 ELSE IF( n.LT.0 )
THEN
662 ELSE IF( idist.EQ.-1 )
THEN
664 ELSE IF( isym.EQ.-1 )
THEN
666 ELSE IF( mode.LT.-6 .OR. mode.GT.6 )
THEN
668 ELSE IF( ( mode.NE.-6 .AND. mode.NE.0 .AND. mode.NE.6 ) .AND.
671 ELSE IF( ( mode.NE.-6 .AND. mode.NE.0 .AND. mode.NE.6 ) .AND.
672 $ irsign.EQ.-1 )
THEN
674 ELSE IF( igrade.EQ.-1 .OR. ( igrade.EQ.4 .AND. m.NE.n ) .OR.
675 $ ( ( igrade.GE.1 .AND. igrade.LE.4 ) .AND. isym.EQ.0 ) )
678 ELSE IF( igrade.EQ.4 .AND. dzero )
THEN
680 ELSE IF( ( igrade.EQ.1 .OR. igrade.EQ.3 .OR. igrade.EQ.4 .OR.
681 $ igrade.EQ.5 ) .AND. ( model.LT.-6 .OR. model.GT.6 ) )
684 ELSE IF( ( igrade.EQ.1 .OR. igrade.EQ.3 .OR. igrade.EQ.4 .OR.
685 $ igrade.EQ.5 ) .AND. ( model.NE.-6 .AND. model.NE.0 .AND.
686 $ model.NE.6 ) .AND. condl.LT.one )
THEN
688 ELSE IF( ( igrade.EQ.2 .OR. igrade.EQ.3 ) .AND.
689 $ ( moder.LT.-6 .OR. moder.GT.6 ) )
THEN
691 ELSE IF( ( igrade.EQ.2 .OR. igrade.EQ.3 ) .AND.
692 $ ( moder.NE.-6 .AND. moder.NE.0 .AND. moder.NE.6 ) .AND.
693 $ condr.LT.one )
THEN
695 ELSE IF( ipvtng.EQ.-1 .OR. ( ipvtng.EQ.3 .AND. m.NE.n ) .OR.
696 $ ( ( ipvtng.EQ.1 .OR. ipvtng.EQ.2 ) .AND. isym.EQ.0 ) )
699 ELSE IF( ipvtng.NE.0 .AND. badpvt )
THEN
701 ELSE IF( kl.LT.0 )
THEN
703 ELSE IF( ku.LT.0 .OR. ( isym.EQ.0 .AND. kl.NE.ku ) )
THEN
705 ELSE IF( sparse.LT.zero .OR. sparse.GT.one )
THEN
707 ELSE IF( ipack.EQ.-1 .OR. ( ( ipack.EQ.1 .OR. ipack.EQ.2 .OR.
708 $ ipack.EQ.5 .OR. ipack.EQ.6 ) .AND. isym.EQ.1 ) .OR.
709 $ ( ipack.EQ.3 .AND. isym.EQ.1 .AND. ( kl.NE.0 .OR. m.NE.
710 $ n ) ) .OR. ( ipack.EQ.4 .AND. isym.EQ.1 .AND. ( ku.NE.
711 $ 0 .OR. m.NE.n ) ) )
THEN
713 ELSE IF( ( ( ipack.EQ.0 .OR. ipack.EQ.1 .OR. ipack.EQ.2 ) .AND.
714 $ lda.LT.max( 1, m ) ) .OR. ( ( ipack.EQ.3 .OR. ipack.EQ.
715 $ 4 ) .AND. lda.LT.1 ) .OR. ( ( ipack.EQ.5 .OR. ipack.EQ.
716 $ 6 ) .AND. lda.LT.kuu+1 ) .OR.
717 $ ( ipack.EQ.7 .AND. lda.LT.kll+kuu+1 ) )
THEN
722 CALL xerbla(
'SLATMR', -info )
729 IF( kuu.EQ.n-1 .AND. kll.EQ.m-1 )
735 iseed( i ) = mod( abs( iseed( i ) ), 4096 )
738 iseed( 4 ) = 2*( iseed( 4 ) / 2 ) + 1
744 CALL slatm1( mode, cond, irsign, idist, iseed, d, mnmin, info )
749 IF( mode.NE.0 .AND. mode.NE.-6 .AND. mode.NE.6 )
THEN
755 temp = max( temp, abs( d( i ) ) )
757 IF( temp.EQ.zero .AND. dmax.NE.zero )
THEN
761 IF( temp.NE.zero )
THEN
767 d( i ) = alpha*d( i )
774 IF( igrade.EQ.1 .OR. igrade.EQ.3 .OR. igrade.EQ.4 .OR. igrade.EQ.
776 CALL slatm1( model, condl, 0, idist, iseed, dl, m, info )
785 IF( igrade.EQ.2 .OR. igrade.EQ.3 )
THEN
786 CALL slatm1( moder, condr, 0, idist, iseed, dr, n, info )
795 IF( ipvtng.GT.0 )
THEN
803 iwork( i ) = iwork( k )
807 DO 80 i = npvts, 1, -1
810 iwork( i ) = iwork( k )
826 IF( ipack.EQ.0 )
THEN
830 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku,
831 $ idist, iseed, d, igrade, dl, dr, ipvtng,
833 a( isub, jsub ) = temp
834 a( jsub, isub ) = temp
837 ELSE IF( isym.EQ.1 )
THEN
840 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku,
841 $ idist, iseed, d, igrade, dl, dr, ipvtng,
843 a( isub, jsub ) = temp
848 ELSE IF( ipack.EQ.1 )
THEN
852 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku, idist,
853 $ iseed, d, igrade, dl, dr, ipvtng, iwork,
855 mnsub = min( isub, jsub )
856 mxsub = max( isub, jsub )
857 a( mnsub, mxsub ) = temp
859 $ a( mxsub, mnsub ) = zero
863 ELSE IF( ipack.EQ.2 )
THEN
867 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku, idist,
868 $ iseed, d, igrade, dl, dr, ipvtng, iwork,
870 mnsub = min( isub, jsub )
871 mxsub = max( isub, jsub )
872 a( mxsub, mnsub ) = temp
874 $ a( mnsub, mxsub ) = zero
878 ELSE IF( ipack.EQ.3 )
THEN
882 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku, idist,
883 $ iseed, d, igrade, dl, dr, ipvtng, iwork,
889 mnsub = min( isub, jsub )
890 mxsub = max( isub, jsub )
891 k = mxsub*( mxsub-1 ) / 2 + mnsub
895 jjsub = ( k-1 ) / lda + 1
896 iisub = k - lda*( jjsub-1 )
898 a( iisub, jjsub ) = temp
902 ELSE IF( ipack.EQ.4 )
THEN
906 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku, idist,
907 $ iseed, d, igrade, dl, dr, ipvtng, iwork,
912 mnsub = min( isub, jsub )
913 mxsub = max( isub, jsub )
914 IF( mnsub.EQ.1 )
THEN
917 k = n*( n+1 ) / 2 - ( n-mnsub+1 )*( n-mnsub+2 ) /
918 $ 2 + mxsub - mnsub + 1
923 jjsub = ( k-1 ) / lda + 1
924 iisub = k - lda*( jjsub-1 )
926 a( iisub, jjsub ) = temp
930 ELSE IF( ipack.EQ.5 )
THEN
933 DO 210 i = j - kuu, j
935 a( j-i+1, i+n ) = zero
937 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku,
938 $ idist, iseed, d, igrade, dl, dr, ipvtng,
940 mnsub = min( isub, jsub )
941 mxsub = max( isub, jsub )
942 a( mxsub-mnsub+1, mnsub ) = temp
947 ELSE IF( ipack.EQ.6 )
THEN
950 DO 230 i = j - kuu, j
951 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku, idist,
952 $ iseed, d, igrade, dl, dr, ipvtng, iwork,
954 mnsub = min( isub, jsub )
955 mxsub = max( isub, jsub )
956 a( mnsub-mxsub+kuu+1, mxsub ) = temp
960 ELSE IF( ipack.EQ.7 )
THEN
964 DO 250 i = j - kuu, j
965 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku,
966 $ idist, iseed, d, igrade, dl, dr, ipvtng,
968 mnsub = min( isub, jsub )
969 mxsub = max( isub, jsub )
970 a( mnsub-mxsub+kuu+1, mxsub ) = temp
972 $ a( j-i+1+kuu, i+n ) = zero
973 IF( i.GE.1 .AND. mnsub.NE.mxsub )
974 $ a( mxsub-mnsub+1+kuu, mnsub ) = temp
977 ELSE IF( isym.EQ.1 )
THEN
979 DO 270 i = j - kuu, j + kll
980 temp =
slatm3( m, n, i, j, isub, jsub, kl, ku,
981 $ idist, iseed, d, igrade, dl, dr, ipvtng,
983 a( isub-jsub+kuu+1, jsub ) = temp
994 IF( ipack.EQ.0 )
THEN
998 a( i, j ) = slatm2( m, n, i, j, kl, ku, idist,
999 $ iseed, d, igrade, dl, dr, ipvtng,
1001 a( j, i ) = a( i, j )
1004 ELSE IF( isym.EQ.1 )
THEN
1007 a( i, j ) = slatm2( m, n, i, j, kl, ku, idist,
1008 $ iseed, d, igrade, dl, dr, ipvtng,
1014 ELSE IF( ipack.EQ.1 )
THEN
1018 a( i, j ) = slatm2( m, n, i, j, kl, ku, idist, iseed,
1019 $ d, igrade, dl, dr, ipvtng, iwork, sparse )
1025 ELSE IF( ipack.EQ.2 )
THEN
1029 a( j, i ) = slatm2( m, n, i, j, kl, ku, idist, iseed,
1030 $ d, igrade, dl, dr, ipvtng, iwork, sparse )
1036 ELSE IF( ipack.EQ.3 )
THEN
1043 IF( isub.GT.lda )
THEN
1047 a( isub, jsub ) = slatm2( m, n, i, j, kl, ku, idist,
1048 $ iseed, d, igrade, dl, dr, ipvtng,
1053 ELSE IF( ipack.EQ.4 )
THEN
1055 IF( isym.EQ.0 )
THEN
1064 k = n*( n+1 ) / 2 - ( n-i+1 )*( n-i+2 ) / 2 +
1070 jsub = ( k-1 ) / lda + 1
1071 isub = k - lda*( jsub-1 )
1073 a( isub, jsub ) = slatm2( m, n, i, j, kl, ku,
1074 $ idist, iseed, d, igrade, dl, dr,
1075 $ ipvtng, iwork, sparse )
1084 IF( isub.GT.lda )
THEN
1088 a( isub, jsub ) = slatm2( m, n, i, j, kl, ku,
1089 $ idist, iseed, d, igrade, dl, dr,
1090 $ ipvtng, iwork, sparse )
1095 ELSE IF( ipack.EQ.5 )
THEN
1098 DO 430 i = j - kuu, j
1100 a( j-i+1, i+n ) = zero
1102 a( j-i+1, i ) = slatm2( m, n, i, j, kl, ku, idist,
1103 $ iseed, d, igrade, dl, dr, ipvtng,
1109 ELSE IF( ipack.EQ.6 )
THEN
1112 DO 450 i = j - kuu, j
1113 a( i-j+kuu+1, j ) = slatm2( m, n, i, j, kl, ku, idist,
1114 $ iseed, d, igrade, dl, dr, ipvtng,
1119 ELSE IF( ipack.EQ.7 )
THEN
1121 IF( isym.EQ.0 )
THEN
1123 DO 470 i = j - kuu, j
1124 a( i-j+kuu+1, j ) = slatm2( m, n, i, j, kl, ku,
1125 $ idist, iseed, d, igrade, dl,
1126 $ dr, ipvtng, iwork, sparse )
1128 $ a( j-i+1+kuu, i+n ) = zero
1129 IF( i.GE.1 .AND. i.NE.j )
1130 $ a( j-i+1+kuu, i ) = a( i-j+kuu+1, j )
1133 ELSE IF( isym.EQ.1 )
THEN
1135 DO 490 i = j - kuu, j + kll
1136 a( i-j+kuu+1, j ) = slatm2( m, n, i, j, kl, ku,
1137 $ idist, iseed, d, igrade, dl,
1138 $ dr, ipvtng, iwork, sparse )
1149 IF( ipack.EQ.0 )
THEN
1150 onorm = slange(
'M', m, n, a, lda, tempa )
1151 ELSE IF( ipack.EQ.1 )
THEN
1152 onorm = slansy(
'M',
'U', n, a, lda, tempa )
1153 ELSE IF( ipack.EQ.2 )
THEN
1154 onorm = slansy(
'M',
'L', n, a, lda, tempa )
1155 ELSE IF( ipack.EQ.3 )
THEN
1156 onorm = slansp(
'M',
'U', n, a, tempa )
1157 ELSE IF( ipack.EQ.4 )
THEN
1158 onorm = slansp(
'M',
'L', n, a, tempa )
1159 ELSE IF( ipack.EQ.5 )
THEN
1160 onorm = slansb(
'M',
'L', n, kll, a, lda, tempa )
1161 ELSE IF( ipack.EQ.6 )
THEN
1162 onorm = slansb(
'M',
'U', n, kuu, a, lda, tempa )
1163 ELSE IF( ipack.EQ.7 )
THEN
1164 onorm = slangb(
'M', n, kll, kuu, a, lda, tempa )
1167 IF( anorm.GE.zero )
THEN
1169 IF( anorm.GT.zero .AND. onorm.EQ.zero )
THEN
1176 ELSE IF( ( anorm.GT.one .AND. onorm.LT.one ) .OR.
1177 $ ( anorm.LT.one .AND. onorm.GT.one ) )
THEN
1181 IF( ipack.LE.2 )
THEN
1183 CALL sscal( m, one / onorm, a( 1, j ), 1 )
1184 CALL sscal( m, anorm, a( 1, j ), 1 )
1187 ELSE IF( ipack.EQ.3 .OR. ipack.EQ.4 )
THEN
1189 CALL sscal( n*( n+1 ) / 2, one / onorm, a, 1 )
1190 CALL sscal( n*( n+1 ) / 2, anorm, a, 1 )
1192 ELSE IF( ipack.GE.5 )
THEN
1195 CALL sscal( kll+kuu+1, one / onorm, a( 1, j ), 1 )
1196 CALL sscal( kll+kuu+1, anorm, a( 1, j ), 1 )
1205 IF( ipack.LE.2 )
THEN
1207 CALL sscal( m, anorm / onorm, a( 1, j ), 1 )
1210 ELSE IF( ipack.EQ.3 .OR. ipack.EQ.4 )
THEN
1212 CALL sscal( n*( n+1 ) / 2, anorm / onorm, a, 1 )
1214 ELSE IF( ipack.GE.5 )
THEN
1217 CALL sscal( kll+kuu+1, anorm / onorm, a( 1, j ), 1 )
subroutine slatmr(M, N, DIST, ISEED, SYM, D, MODE, COND, DMAX, RSIGN, GRADE, DL, MODEL, CONDL, DR, MODER, CONDR, PIVTNG, IPIVOT, KL, KU, SPARSE, ANORM, PACK, A, LDA, IWORK, INFO)
SLATMR
real function slatm3(M, N, I, J, ISUB, JSUB, KL, KU, IDIST, ISEED, D, IGRADE, DL, DR, IPVTNG, IWORK, SPARSE)
SLATM3
subroutine xerbla(SRNAME, INFO)
XERBLA
subroutine sscal(N, SA, SX, INCX)
SSCAL
subroutine slatm1(MODE, COND, IRSIGN, IDIST, ISEED, D, N, INFO)
SLATM1