subroutine schk5	(	character*6	SNAME,
		real	EPS,
		real	THRESH,
		integer	NOUT,
		integer	NTRA,
		logical	TRACE,
		logical	REWI,
		logical	FATAL,
		integer	NIDIM,
		integer, dimension( nidim )	IDIM,
		integer	NALF,
		real, dimension( nalf )	ALF,
		integer	NBET,
		real, dimension( nbet )	BET,
		integer	NMAX,
		real, dimension( 2*nmax*nmax )	AB,
		real, dimension( nmax*nmax )	AA,
		real, dimension( nmax*nmax )	AS,
		real, dimension( nmax*nmax )	BB,
		real, dimension( nmax*nmax )	BS,
		real, dimension( nmax, nmax )	C,
		real, dimension( nmax*nmax )	CC,
		real, dimension( nmax*nmax )	CS,
		real, dimension( nmax )	CT,
		real, dimension( nmax )	G,
		real, dimension( 2*nmax )	W
	)

Definition at line 1529 of file sblat3.f.

*
*  Tests SSYR2K.
*
*  Auxiliary routine for test program for Level 3 Blas.
*
*  -- Written on 8-February-1989.
*     Jack Dongarra, Argonne National Laboratory.
*     Iain Duff, AERE Harwell.
*     Jeremy Du Croz, Numerical Algorithms Group Ltd.
*     Sven Hammarling, Numerical Algorithms Group Ltd.
*
*     .. Parameters ..
      REAL               zero
      parameter                ( zero = 0.0 )
*     .. Scalar Arguments ..
      REAL               eps, thresh
      INTEGER            nalf, nbet, nidim, nmax, nout, ntra
      LOGICAL            fatal, rewi, trace
      CHARACTER*6        sname
*     .. Array Arguments ..
      REAL               aa( nmax*nmax ), ab( 2*nmax*nmax ),
     $                   alf( nalf ), as( nmax*nmax ), bb( nmax*nmax ),
     $                   bet( nbet ), bs( nmax*nmax ), c( nmax, nmax ),
     $                   cc( nmax*nmax ), cs( nmax*nmax ), ct( nmax ),
     $                   g( nmax ), w( 2*nmax )
      INTEGER            idim( nidim )
*     .. Local Scalars ..
      REAL               alpha, als, beta, bets, err, errmax
      INTEGER            i, ia, ib, ict, icu, ik, in, j, jc, jj, jjab,
     $                   k, ks, laa, lbb, lcc, lda, ldas, ldb, ldbs,
     $                   ldc, ldcs, lj, ma, n, na, nargs, nc, ns
      LOGICAL            null, reset, same, tran, upper
      CHARACTER*1        trans, transs, uplo, uplos
      CHARACTER*2        ichu
      CHARACTER*3        icht
*     .. Local Arrays ..
      LOGICAL            isame( 13 )
*     .. External Functions ..
      LOGICAL            lse, lseres
      EXTERNAL           lse, lseres
*     .. External Subroutines ..
      EXTERNAL           smake, smmch, ssyr2k
*     .. Intrinsic Functions ..
      INTRINSIC          max
*     .. Scalars in Common ..
      INTEGER            infot, noutc
      LOGICAL            lerr, ok
*     .. Common blocks ..
      COMMON             /infoc/infot, noutc, ok, lerr
*     .. Data statements ..
      DATA               icht/'NTC'/, ichu/'UL'/
*     .. Executable Statements ..
*
      nargs = 12
      nc = 0
      reset = .true.
      errmax = zero
*
      DO 130 in = 1, nidim
         n = idim( in )
*        Set LDC to 1 more than minimum value if room.
         ldc = n
         IF( ldc.LT.nmax )
     $      ldc = ldc + 1
*        Skip tests if not enough room.
         IF( ldc.GT.nmax )
     $      GO TO 130
         lcc = ldc*n
         null = n.LE.0
*
         DO 120 ik = 1, nidim
            k = idim( ik )
*
            DO 110 ict = 1, 3
               trans = icht( ict: ict )
               tran = trans.EQ.'T'.OR.trans.EQ.'C'
               IF( tran )THEN
                  ma = k
                  na = n
               ELSE
                  ma = n
                  na = k
               END IF
*              Set LDA to 1 more than minimum value if room.
               lda = ma
               IF( lda.LT.nmax )
     $            lda = lda + 1
*              Skip tests if not enough room.
               IF( lda.GT.nmax )
     $            GO TO 110
               laa = lda*na
*
*              Generate the matrix A.
*
               IF( tran )THEN
                  CALL smake( 'GE', ' ', ' ', ma, na, ab, 2*nmax, aa,
     $                        lda, reset, zero )
               ELSE
                  CALL smake( 'GE', ' ', ' ', ma, na, ab, nmax, aa, lda,
     $                        reset, zero )
               END IF
*
*              Generate the matrix B.
*
               ldb = lda
               lbb = laa
               IF( tran )THEN
                  CALL smake( 'GE', ' ', ' ', ma, na, ab( k + 1 ),
     $                        2*nmax, bb, ldb, reset, zero )
               ELSE
                  CALL smake( 'GE', ' ', ' ', ma, na, ab( k*nmax + 1 ),
     $                        nmax, bb, ldb, reset, zero )
               END IF
*
               DO 100 icu = 1, 2
                  uplo = ichu( icu: icu )
                  upper = uplo.EQ.'U'
*
                  DO 90 ia = 1, nalf
                     alpha = alf( ia )
*
                     DO 80 ib = 1, nbet
                        beta = bet( ib )
*
*                       Generate the matrix C.
*
                        CALL smake( 'SY', uplo, ' ', n, n, c, nmax, cc,
     $                              ldc, reset, zero )
*
                        nc = nc + 1
*
*                       Save every datum before calling the subroutine.
*
                        uplos = uplo
                        transs = trans
                        ns = n
                        ks = k
                        als = alpha
                        DO 10 i = 1, laa
                           as( i ) = aa( i )
   10                   CONTINUE
                        ldas = lda
                        DO 20 i = 1, lbb
                           bs( i ) = bb( i )
   20                   CONTINUE
                        ldbs = ldb
                        bets = beta
                        DO 30 i = 1, lcc
                           cs( i ) = cc( i )
   30                   CONTINUE
                        ldcs = ldc
*
*                       Call the subroutine.
*
                        IF( trace )
     $                     WRITE( ntra, fmt = 9994 )nc, sname, uplo,
     $                     trans, n, k, alpha, lda, ldb, beta, ldc
                        IF( rewi )
     $                     rewind ntra
                        CALL ssyr2k( uplo, trans, n, k, alpha, aa, lda,
     $                               bb, ldb, beta, cc, ldc )
*
*                       Check if error-exit was taken incorrectly.
*
                        IF( .NOT.ok )THEN
                           WRITE( nout, fmt = 9993 )
                           fatal = .true.
                           GO TO 150
                        END IF
*
*                       See what data changed inside subroutines.
*
                        isame( 1 ) = uplos.EQ.uplo
                        isame( 2 ) = transs.EQ.trans
                        isame( 3 ) = ns.EQ.n
                        isame( 4 ) = ks.EQ.k
                        isame( 5 ) = als.EQ.alpha
                        isame( 6 ) = lse( as, aa, laa )
                        isame( 7 ) = ldas.EQ.lda
                        isame( 8 ) = lse( bs, bb, lbb )
                        isame( 9 ) = ldbs.EQ.ldb
                        isame( 10 ) = bets.EQ.beta
                        IF( null )THEN
                           isame( 11 ) = lse( cs, cc, lcc )
                        ELSE
                           isame( 11 ) = lseres( 'SY', uplo, n, n, cs,
     $                                   cc, ldc )
                        END IF
                        isame( 12 ) = ldcs.EQ.ldc
*
*                       If data was incorrectly changed, report and
*                       return.
*
                        same = .true.
                        DO 40 i = 1, nargs
                           same = same.AND.isame( i )
                           IF( .NOT.isame( i ) )
     $                        WRITE( nout, fmt = 9998 )i
   40                   CONTINUE
                        IF( .NOT.same )THEN
                           fatal = .true.
                           GO TO 150
                        END IF
*
                        IF( .NOT.null )THEN
*
*                          Check the result column by column.
*
                           jjab = 1
                           jc = 1
                           DO 70 j = 1, n
                              IF( upper )THEN
                                 jj = 1
                                 lj = j
                              ELSE
                                 jj = j
                                 lj = n - j + 1
                              END IF
                              IF( tran )THEN
                                 DO 50 i = 1, k
                                    w( i ) = ab( ( j - 1 )*2*nmax + k +
     $                                       i )
                                    w( k + i ) = ab( ( j - 1 )*2*nmax +
     $                                           i )
   50                            CONTINUE
                                 CALL smmch( 'T', 'N', lj, 1, 2*k,
     $                                       alpha, ab( jjab ), 2*nmax,
     $                                       w, 2*nmax, beta,
     $                                       c( jj, j ), nmax, ct, g,
     $                                       cc( jc ), ldc, eps, err,
     $                                       fatal, nout, .true. )
                              ELSE
                                 DO 60 i = 1, k
                                    w( i ) = ab( ( k + i - 1 )*nmax +
     $                                       j )
                                    w( k + i ) = ab( ( i - 1 )*nmax +
     $                                           j )
   60                            CONTINUE
                                 CALL smmch( 'N', 'N', lj, 1, 2*k,
     $                                       alpha, ab( jj ), nmax, w,
     $                                       2*nmax, beta, c( jj, j ),
     $                                       nmax, ct, g, cc( jc ), ldc,
     $                                       eps, err, fatal, nout,
     $                                       .true. )
                              END IF
                              IF( upper )THEN
                                 jc = jc + ldc
                              ELSE
                                 jc = jc + ldc + 1
                                 IF( tran )
     $                              jjab = jjab + 2*nmax
                              END IF
                              errmax = max( errmax, err )
*                             If got really bad answer, report and
*                             return.
                              IF( fatal )
     $                           GO TO 140
   70                      CONTINUE
                        END IF
*
   80                CONTINUE
*
   90             CONTINUE
*
  100          CONTINUE
*
  110       CONTINUE
*
  120    CONTINUE
*
  130 CONTINUE
*
*     Report result.
*
      IF( errmax.LT.thresh )THEN
         WRITE( nout, fmt = 9999 )sname, nc
      ELSE
         WRITE( nout, fmt = 9997 )sname, nc, errmax
      END IF
      GO TO 160
*
  140 CONTINUE
      IF( n.GT.1 )
     $   WRITE( nout, fmt = 9995 )j
*
  150 CONTINUE
      WRITE( nout, fmt = 9996 )sname
      WRITE( nout, fmt = 9994 )nc, sname, uplo, trans, n, k, alpha,
     $   lda, ldb, beta, ldc
*
  160 CONTINUE
      RETURN
*
 9999 FORMAT( ' ', a6, ' PASSED THE COMPUTATIONAL TESTS (', i6, ' CALL',
     $      'S)' )
 9998 FORMAT( ' ******* FATAL ERROR - PARAMETER NUMBER ', i2, ' WAS CH',
     $      'ANGED INCORRECTLY *******' )
 9997 FORMAT( ' ', a6, ' COMPLETED THE COMPUTATIONAL TESTS (', i6, ' C',
     $      'ALLS)', /' ******* BUT WITH MAXIMUM TEST RATIO', f8.2,
     $      ' - SUSPECT *******' )
 9996 FORMAT( ' ******* ', a6, ' FAILED ON CALL NUMBER:' )
 9995 FORMAT( '      THESE ARE THE RESULTS FOR COLUMN ', i3 )
 9994 FORMAT( 1x, i6, ': ', a6, '(', 2( '''', a1, ''',' ), 2( i3, ',' ),
     $      f4.1, ', A,', i3, ', B,', i3, ',', f4.1, ', C,', i3, ')   ',
     $      ' .' )
 9993 FORMAT( ' ******* FATAL ERROR - ERROR-EXIT TAKEN ON VALID CALL *',
     $      '******' )
*
*     End of SCHK5.
*

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