* F11DCF Example Program Text * Mark 19 Revised. NAG Copyright 1999. * .. Parameters .. INTEGER NIN, NOUT PARAMETER (NIN=5,NOUT=6) INTEGER NMAX, LA, LIWORK, LWORK PARAMETER (NMAX=1000,LA=10000,LIWORK=7*NMAX+2,LWORK=10000) * .. Local Scalars .. DOUBLE PRECISION DTOL, RNORM, TOL INTEGER I, IFAIL, ITN, LFILL, LWREQ, M, MAXITN, N, NNZ, + NNZC, NPIVM CHARACTER MILU, PSTRAT CHARACTER*8 METHOD * .. Local Arrays .. DOUBLE PRECISION A(LA), B(NMAX), WORK(LWORK), X(NMAX) INTEGER ICOL(LA), IDIAG(NMAX), IPIVP(NMAX), IPIVQ(NMAX), + IROW(LA), ISTR(NMAX+1), IWORK(LIWORK) * .. External Subroutines .. EXTERNAL F11DAF, F11DCF * .. Intrinsic Functions .. INTRINSIC MAX * .. Executable Statements .. WRITE (NOUT,*) 'F11DCF Example Program Results' WRITE (NOUT,*) * Skip heading in data file READ (NIN,*) * * Read algorithmic parameters * READ (NIN,*) N IF (N.LE.NMAX) THEN READ (NIN,*) NNZ READ (NIN,*) METHOD READ (NIN,*) LFILL, DTOL READ (NIN,*) PSTRAT READ (NIN,*) MILU READ (NIN,*) M, TOL, MAXITN * * Check size of workspace * LWREQ = MAX(4*N+M*(M+N+5)+101,8*N+100,2*N*(M+3)+M*(M+2)+100, + 11*N+100) IF (LWORK.LT.LWREQ) THEN WRITE (NOUT,'(A,I4)') 'LWORK must be at least', LWREQ STOP END IF * * Read the matrix A * DO 20 I = 1, NNZ READ (NIN,*) A(I), IROW(I), ICOL(I) 20 CONTINUE * * Read right-hand side vector b and initial approximate solution x * READ (NIN,*) (B(I),I=1,N) READ (NIN,*) (X(I),I=1,N) * * Calculate incomplete LU factorization * IFAIL = 0 CALL F11DAF(N,NNZ,A,LA,IROW,ICOL,LFILL,DTOL,PSTRAT,MILU,IPIVP, + IPIVQ,ISTR,IDIAG,NNZC,NPIVM,IWORK,LIWORK,IFAIL) * * Solve Ax = b using F11DCF * CALL F11DCF(METHOD,N,NNZ,A,LA,IROW,ICOL,IPIVP,IPIVQ,ISTR,IDIAG, + B,M,TOL,MAXITN,X,RNORM,ITN,WORK,LWORK,IFAIL) * WRITE (NOUT,'(A,I10,A)') ' Converged in', ITN, + ' iterations' WRITE (NOUT,'(A,1P,D16.3)') ' Final residual norm =', RNORM WRITE (NOUT,*) * * Output x * WRITE (NOUT,*) ' X' DO 40 I = 1, N WRITE (NOUT,'(1X,1P,D16.4)') X(I) 40 CONTINUE END IF * STOP END