* D02AGF Example Program Text * Mark 14 Revised. NAG Copyright 1989. * .. Parameters .. INTEGER NOUT PARAMETER (NOUT=6) * .. External Subroutines .. EXTERNAL EX1, EX2 * .. Executable Statements .. WRITE (NOUT,*) 'D02AGF Example Program Results' CALL EX1 CALL EX2 END * SUBROUTINE EX1 * .. Parameters .. INTEGER N, M1 PARAMETER (N=2,M1=6) INTEGER NOUT PARAMETER (NOUT=6) * .. Scalars in Common .. INTEGER IPRINT * .. Local Scalars .. DOUBLE PRECISION DUM, H, R, X, X1 INTEGER I, IFAIL, J, N1 * .. Local Arrays .. DOUBLE PRECISION C(M1,N), DUMMY(1,1), E(N), MAT(N,N), PARAM(N), + PARERR(N), WSPAC1(N), WSPAC2(N), WSPACE(N,9) * .. External Subroutines .. EXTERNAL AUX1, BCAUX1, D02AGF, PRSOL, RNAUX1 * .. Intrinsic Functions .. INTRINSIC DBLE * .. Common blocks .. COMMON /BLOCK1/IPRINT * .. Executable Statements .. WRITE (NOUT,*) WRITE (NOUT,*) WRITE (NOUT,*) 'Case 1' WRITE (NOUT,*) * * Set IPRINT to 1 to obtain output from PRSOL at each iteration * IPRINT = 0 PARAM(1) = 0.2D0 PARAM(2) = 0.0D0 N1 = 2 H = 0.1D0 PARERR(1) = 1.0D-5 PARERR(2) = 1.0D-3 E(1) = 1.0D-4 E(2) = 1.0D-4 IFAIL = 1 * CALL D02AGF(H,E,PARERR,PARAM,C,N,N1,M1,AUX1,BCAUX1,RNAUX1,PRSOL, + MAT,DUMMY,WSPACE,WSPAC1,WSPAC2,IFAIL) * IF (IFAIL.LT.0) THEN WRITE (NOUT,*) WRITE (NOUT,99999) ' ** D02AGF returned with IFAIL = ', IFAIL ELSE IF (IFAIL.EQ.0) THEN WRITE (NOUT,*) 'Final parameters' WRITE (NOUT,99998) (PARAM(I),I=1,N1) WRITE (NOUT,*) WRITE (NOUT,*) 'Final solution' WRITE (NOUT,*) 'X-value Components of solution' CALL RNAUX1(X,X1,R,PARAM) H = (X1-X)/5.0D0 DO 20 I = 1, 6 DUM = X + DBLE(I-1)*H WRITE (NOUT,99997) DUM, (C(I,J),J=1,N) 20 CONTINUE ELSE WRITE (NOUT,99999) 'IFAIL = ', IFAIL END IF END IF RETURN * 99999 FORMAT (1X,A,I5) 99998 FORMAT (1X,3E16.6) 99997 FORMAT (1X,F7.2,3E13.4) END * SUBROUTINE AUX1(F,Y,X,PARAM) * .. Scalar Arguments .. DOUBLE PRECISION X * .. Array Arguments .. DOUBLE PRECISION F(2), PARAM(2), Y(2) * .. Executable Statements .. F(1) = Y(2) F(2) = (Y(1)**3-Y(2))/(2.0D0*X) RETURN END * SUBROUTINE RNAUX1(X,X1,R,PARAM) * .. Scalar Arguments .. DOUBLE PRECISION R, X, X1 * .. Array Arguments .. DOUBLE PRECISION PARAM(2) * .. Executable Statements .. X = 0.1D0 X1 = 16.0D0 R = 16.0D0 RETURN END * SUBROUTINE BCAUX1(G,G1,PARAM) * .. Array Arguments .. DOUBLE PRECISION G(2), G1(2), PARAM(2) * .. Local Scalars .. DOUBLE PRECISION Z * .. Intrinsic Functions .. INTRINSIC SQRT * .. Executable Statements .. Z = 0.1D0 G(1) = 0.1D0 + PARAM(1)*SQRT(Z)*0.1D0 + 0.01D0*Z G(2) = PARAM(1)*0.05D0/SQRT(Z) + 0.01D0 G1(1) = 1.0D0/6.0D0 G1(2) = PARAM(2) RETURN END * SUBROUTINE EX2 * .. Parameters .. INTEGER N, M1 PARAMETER (N=3,M1=6) INTEGER NOUT PARAMETER (NOUT=6) * .. Scalars in Common .. INTEGER IPRINT * .. Local Scalars .. DOUBLE PRECISION DUM, H, R, X, X1 INTEGER I, IFAIL, J * .. Local Arrays .. DOUBLE PRECISION C(M1,N), DUMMY(1,1), E(N), MAT(N,N), PARAM(N), + PARERR(N), WSPAC1(N), WSPAC2(N), WSPACE(N,9) * .. External Subroutines .. EXTERNAL AUX2, BCAUX2, D02AGF, PRSOL, RNAUX2 * .. Intrinsic Functions .. INTRINSIC DBLE * .. Common blocks .. COMMON /BLOCK1/IPRINT * .. Executable Statements .. WRITE (NOUT,*) WRITE (NOUT,*) WRITE (NOUT,*) 'Case 2' WRITE (NOUT,*) * * Set IPRINT to 1 to obtain output from PRSOL at each iteration * IPRINT = 0 H = 10.0D0 PARAM(1) = 32.0D0 PARAM(2) = 6000.0D0 PARAM(3) = 0.54D0 PARERR(1) = 1.0D-5 PARERR(2) = 1.0D-4 PARERR(3) = 1.0D-4 E(1) = 1.0D-2 E(2) = 1.0D-2 E(3) = 1.0D-2 IFAIL = 1 * CALL D02AGF(H,E,PARERR,PARAM,C,N,N,M1,AUX2,BCAUX2,RNAUX2,PRSOL, + MAT,DUMMY,WSPACE,WSPAC1,WSPAC2,IFAIL) * IF (IFAIL.LT.0) THEN WRITE (NOUT,*) WRITE (NOUT,99999) ' ** D02AGF returned with IFAIL = ', IFAIL ELSE IF (IFAIL.EQ.0) THEN WRITE (NOUT,*) 'Final parameters' WRITE (NOUT,99998) (PARAM(I),I=1,N) WRITE (NOUT,*) WRITE (NOUT,*) 'Final solution' WRITE (NOUT,*) 'X-value Components of solution' CALL RNAUX2(X,X1,R,PARAM) H = (X1-X)/5.0D0 DO 20 I = 1, 6 DUM = X + DBLE(I-1)*H WRITE (NOUT,99997) DUM, (C(I,J),J=1,N) 20 CONTINUE ELSE WRITE (NOUT,99999) 'IFAIL = ', IFAIL END IF END IF RETURN * 99999 FORMAT (1X,A,I5) 99998 FORMAT (1X,3E16.6) 99997 FORMAT (1X,F7.0,3E13.4) END * SUBROUTINE AUX2(F,Y,X,PARAM) * .. Scalar Arguments .. DOUBLE PRECISION X * .. Array Arguments .. DOUBLE PRECISION F(3), PARAM(3), Y(3) * .. Local Scalars .. DOUBLE PRECISION C, S * .. Intrinsic Functions .. INTRINSIC COS, SIN * .. Executable Statements .. C = COS(Y(3)) S = SIN(Y(3)) F(1) = S/C F(2) = -(PARAM(1)*S+0.00002D0*Y(2)*Y(2))/(Y(2)*C) F(3) = -PARAM(1)/(Y(2)*Y(2)) RETURN END * SUBROUTINE RNAUX2(X,X1,R,PARAM) * .. Scalar Arguments .. DOUBLE PRECISION R, X, X1 * .. Array Arguments .. DOUBLE PRECISION PARAM(3) * .. Executable Statements .. X = 0.0D0 X1 = PARAM(2) R = PARAM(2) RETURN END * SUBROUTINE BCAUX2(G,G1,PARAM) * .. Array Arguments .. DOUBLE PRECISION G(3), G1(3), PARAM(3) * .. Executable Statements .. G(1) = 0.0D0 G(2) = 500.0D0 G(3) = 0.5D0 G1(1) = 0.0D0 G1(2) = 450.0D0 G1(3) = PARAM(3) RETURN END * SUBROUTINE PRSOL(PARAM,RESID,N1,ERR) * .. Parameters .. INTEGER NOUT PARAMETER (NOUT=6) * .. Scalar Arguments .. DOUBLE PRECISION RESID INTEGER N1 * .. Array Arguments .. DOUBLE PRECISION ERR(N1), PARAM(N1) * .. Scalars in Common .. INTEGER IPRINT * .. Local Scalars .. INTEGER I * .. Common blocks .. COMMON /BLOCK1/IPRINT * .. Executable Statements .. IF (IPRINT.NE.0) THEN WRITE (NOUT,99999) 'Current parameters ', (PARAM(I),I=1,N1) WRITE (NOUT,99998) 'Residuals ', (ERR(I),I=1,N1) WRITE (NOUT,99998) 'Sum of residuals squared ', RESID WRITE (NOUT,*) END IF RETURN * 99999 FORMAT (1X,A,6(E14.6,2X)) 99998 FORMAT (1X,A,6(E12.4,1X)) END