/* nag_pde_dim1_parab_keller (d03pec) Example Program.
*
* Copyright 2020 Numerical Algorithms Group.
*
* Mark 27.1, 2020.
*/
#include <math.h>
#include <nag.h>
#include <stdio.h>
#ifdef __cplusplus
extern "C" {
#endif
static void NAG_CALL pdedef(Integer, double, double, const double[],
const double[], const double[], double[], Integer *,
Nag_Comm *);
static void NAG_CALL bndary(Integer, double, Integer, Integer, const double[],
const double[], double[], Integer *, Nag_Comm *);
static void NAG_CALL exact(double, Integer, Integer, double *, double *);
static void NAG_CALL uinit(Integer, Integer, double *, double *);
#ifdef __cplusplus
}
#endif
#define U(I, J) u[npde * ((J)-1) + (I)-1]
#define EU(I, J) eu[npde * ((J)-1) + (I)-1]
int main(void) {
const Integer npde = 2, npts = 41, nleft = 1, neqn = npde * npts;
const Integer lisave = neqn + 24,
nwkres = npde * (npts + 21 + 3 * npde) + 7 * npts + 4;
const Integer lrsave =
11 * neqn + (4 * npde + nleft + 2) * neqn + 50 + nwkres;
static double ruser[2] = {-1.0, -1.0};
Integer exit_status = 0, i, ind, it, itask, itrace;
double acc, tout, ts;
double *eu = 0, *rsave = 0, *u = 0, *x = 0;
Integer *isave = 0;
NagError fail;
Nag_Comm comm;
Nag_D03_Save saved;
INIT_FAIL(fail);
printf("nag_pde_dim1_parab_keller (d03pec) Example Program Results\n\n");
/* For communication with user-supplied functions: */
comm.user = ruser;
/* Allocate memory */
if (!(eu = NAG_ALLOC(npde * npts, double)) ||
!(rsave = NAG_ALLOC(lrsave, double)) ||
!(u = NAG_ALLOC(npde * npts, double)) || !(x = NAG_ALLOC(npts, double)) ||
!(isave = NAG_ALLOC(lisave, Integer))) {
printf("Allocation failure\n");
exit_status = 1;
goto END;
}
itrace = 0;
acc = 1e-6;
printf(" Accuracy requirement =%12.3e", acc);
printf(" Number of points = %3" NAG_IFMT "\n\n", npts);
/* Set spatial-mesh points */
for (i = 0; i < npts; ++i)
x[i] = i / (npts - 1.0);
printf(" x ");
printf("%10.4f%10.4f%10.4f%10.4f%10.4f\n\n", x[4], x[12], x[20], x[28],
x[36]);
ind = 0;
itask = 1;
uinit(npde, npts, x, u);
/* Loop over output value of t */
ts = 0.0;
for (it = 0; it < 5; ++it) {
tout = 0.2 * (it + 1);
/* nag_pde_dim1_parab_keller (d03pec).
* General system of first-order PDEs, method of lines,
* Keller box discretization, one space variable
*/
nag_pde_dim1_parab_keller(npde, &ts, tout, pdedef, bndary, u, npts, x,
nleft, acc, rsave, lrsave, isave, lisave, itask,
itrace, 0, &ind, &comm, &saved, &fail);
if (fail.code != NE_NOERROR) {
printf("Error from nag_pde_dim1_parab_keller (d03pec).\n%s\n",
fail.message);
exit_status = 1;
goto END;
}
/* Check against the exact solution */
exact(tout, npde, npts, x, eu);
printf(" t = %5.2f\n", ts);
printf(" Approx u1");
printf("%10.4f%10.4f%10.4f%10.4f%10.4f\n", U(1, 5), U(1, 13), U(1, 21),
U(1, 29), U(1, 37));
printf(" Exact u1");
printf("%10.4f%10.4f%10.4f%10.4f%10.4f\n", EU(1, 5), EU(1, 13), EU(1, 21),
EU(1, 29), EU(1, 37));
printf(" Approx u2");
printf("%10.4f%10.4f%10.4f%10.4f%10.4f\n", U(2, 5), U(2, 13), U(2, 21),
U(2, 29), U(2, 37));
printf(" Exact u2");
printf("%10.4f%10.4f%10.4f%10.4f%10.4f\n\n", EU(2, 5), EU(2, 13), EU(2, 21),
EU(2, 29), EU(2, 37));
}
printf(" Number of integration steps in time = %6" NAG_IFMT "\n", isave[0]);
printf(" Number of function evaluations = %6" NAG_IFMT "\n", isave[1]);
printf(" Number of Jacobian evaluations =%6" NAG_IFMT "\n", isave[2]);
printf(" Number of iterations = %6" NAG_IFMT "\n\n", isave[4]);
END:
NAG_FREE(eu);
NAG_FREE(rsave);
NAG_FREE(u);
NAG_FREE(x);
NAG_FREE(isave);
return exit_status;
}
static void NAG_CALL pdedef(Integer npde, double t, double x, const double u[],
const double udot[], const double dudx[],
double res[], Integer *ires, Nag_Comm *comm) {
if (comm->user[0] == -1.0) {
printf("(User-supplied callback pdedef, first invocation.)\n");
comm->user[0] = 0.0;
}
if (*ires == -1) {
res[0] = udot[0];
res[1] = udot[1];
} else {
res[0] = udot[0] + dudx[0] + dudx[1];
res[1] = udot[1] + 4.0 * dudx[0] + dudx[1];
}
return;
}
static void NAG_CALL bndary(Integer npde, double t, Integer ibnd, Integer nobc,
const double u[], const double udot[], double res[],
Integer *ires, Nag_Comm *comm) {
if (comm->user[1] == -1.0) {
printf("(User-supplied callback bndary, first invocation.)\n");
comm->user[1] = 0.0;
}
if (ibnd == 0) {
if (*ires == -1) {
res[0] = 0.0;
} else {
res[0] = u[0] - 0.5 * (exp(t) + exp(-3.0 * t)) -
0.25 * (sin(-3.0 * t) - sin(t));
}
} else {
if (*ires == -1) {
res[0] = 0.0;
} else {
res[0] = u[1] - exp(1.0 - 3.0 * t) + exp(t + 1.0) -
0.5 * (sin(1.0 - 3.0 * t) + sin(t + 1.0));
}
}
return;
}
static void NAG_CALL uinit(Integer npde, Integer npts, double *x, double *u) {
/* Routine for PDE initial values */
Integer i;
for (i = 1; i <= npts; ++i) {
U(1, i) = exp(x[i - 1]);
U(2, i) = sin(x[i - 1]);
}
return;
}
static void NAG_CALL exact(double t, Integer npde, Integer npts, double *x,
double *u) {
/* Exact solution (for comparison purposes) */
Integer i;
for (i = 1; i <= npts; ++i) {
U(1, i) = 0.5 * (exp(x[i - 1] + t) + exp(x[i - 1] - 3.0 * t)) +
0.25 * (sin(x[i - 1] - 3.0 * t) - sin(x[i - 1] + t));
U(2, i) = exp(x[i - 1] - 3.0 * t) - exp(x[i - 1] + t) +
0.5 * (sin(x[i - 1] - 3.0 * t) + sin(x[i - 1] + t));
}
return;
}