* C06FBF Example Program Text * Mark 14 Revised. NAG Copyright 1989. * .. Parameters .. INTEGER NMAX PARAMETER (NMAX=20) INTEGER NIN, NOUT PARAMETER (NIN=5,NOUT=6) * .. Local Scalars .. INTEGER IFAIL, J, N, N2, NJ * .. Local Arrays .. DOUBLE PRECISION U(0:NMAX-1), V(0:NMAX-1), WORK(NMAX), + X(0:NMAX-1), XX(0:NMAX-1) * .. External Subroutines .. EXTERNAL C06FAF, C06FBF, C06GBF * .. Intrinsic Functions .. INTRINSIC MOD * .. Executable Statements .. WRITE (NOUT,*) 'C06FBF Example Program Results' * Skip heading in data file READ (NIN,*) 20 READ (NIN,*,END=140) N IF (N.GT.1 .AND. N.LE.NMAX) THEN DO 40 J = 0, N - 1 READ (NIN,*) X(J) XX(J) = X(J) 40 CONTINUE U(0) = X(0) V(0) = 0.0D0 N2 = (N-1)/2 DO 60 J = 1, N2 NJ = N - J U(J) = X(J) U(NJ) = X(J) V(J) = X(NJ) V(NJ) = -X(NJ) 60 CONTINUE IF (MOD(N,2).EQ.0) THEN U(N2+1) = X(N2+1) V(N2+1) = 0.0D0 END IF IFAIL = 1 * CALL C06FBF(X,N,WORK,IFAIL) * IF (IFAIL.EQ.0) THEN WRITE (NOUT,*) WRITE (NOUT,*) + 'Original sequence and corresponding complex sequence' WRITE (NOUT,*) WRITE (NOUT,*) ' Data Real Imag' WRITE (NOUT,*) DO 80 J = 0, N - 1 WRITE (NOUT,99999) J, XX(J), ' ', U(J), V(J) 80 CONTINUE WRITE (NOUT,*) WRITE (NOUT,*) 'Components of discrete Fourier transform' WRITE (NOUT,*) DO 100 J = 0, N - 1 WRITE (NOUT,99999) J, X(J) 100 CONTINUE * CALL C06FAF(X,N,WORK,IFAIL) CALL C06GBF(X,N,IFAIL) * WRITE (NOUT,*) WRITE (NOUT,*) + 'Original sequence as restored by inverse transform' WRITE (NOUT,*) WRITE (NOUT,*) ' Original Restored' WRITE (NOUT,*) DO 120 J = 0, N - 1 WRITE (NOUT,99998) J, XX(J), X(J) 120 CONTINUE GO TO 20 ELSE WRITE (NOUT,*) WRITE (NOUT,99997) ' ** C06FBF returned with IFAIL = ', + IFAIL END IF ELSE WRITE (NOUT,*) 'Invalid value of N' END IF 140 CONTINUE * 99999 FORMAT (1X,I5,F10.5,A,2F10.5) 99998 FORMAT (1X,I5,2F10.5) 99997 FORMAT (1X,A,I5) END