I am learning to use GSL to solve ODE. I wanted to solve double pendulum problem using GSL ODE functions. I decided to use this equations:
(source: http://www.physics.usyd.edu.au/~wheat/dpend_html/)
My code:
#include <iostream>
#include <cmath>
#include "gsl/gsl_errno.h"
#include "gsl/gsl_matrix.h"
#include "gsl/gsl_odeiv2.h"
#include "constants.h"
double L1;
double L2;
double M1;
double M2;
double T_START;
double T_END;
double S1_ANGLE;
double S2_ANGLE;
double V1_INIT;
double V2_INIT;
int func(double t, const double y[], double f[], void *params) {
/*
* y[0] = theta_2
* y[1] = omega_1
* y[2] = theta_1
* y[3] = omega_2
*/
f[0] = y[1];
double del = y[2] - y[1];
double den1 = (M1 + M2) * L1 - M2 * L1 * cos(del) * cos(del);
f[1] = (M2 * L1 * y[1] * y[1] * sin(del) * cos(del)
+ M2 * G * sin(y[2]) * cos(del) + M2 * L2 * y[3] * y[3] * sin(del)
- (M1 + M2) * G * sin(y[0])) / den1;
f[2] = y[3];
double den2 = (L2 / L1) * den1;
f[3] = (-M2 * L2 * y[3] * y[3] * sin(del) * cos(del)
+ (M1 + M2) * G * sin(y[0]) * cos(del)
- (M1 + M2) * L1 * y[1] * y[1] * sin(del)
- (M1 + M2) * G * sin(y[2])) / den2;
return GSL_SUCCESS;
}
int main(int argc, char *argv[]) {
/*
* Arguments list:
* 1 - length of pendulum 1
* 2 - length of pendulum 2
* 3 - mass of pendulum 1
* 4 - mass of pendulum 2
* 5 - start time (seconds)
* 6 - end time (seconds)
* 7 - initial angle of 1 pendulum (degrees)
* 8 - initial angle od 2 pendulum
* 9 - initial angular velocity of 1 pendulum (deegres per second)
* 10 - initial angular velocity of 2 pendulum
*/
if (argc != 11) {
printf("Wrong number of arguments...
");
exit(1);
}
//Attribution of arguments
L1 = atof(argv[1]);
L2 = atof(argv[2]);
M1 = atof(argv[3]);
M2 = atof(argv[4]);
T_START = atof(argv[5]);
T_END = atof(argv[6]);
S1_ANGLE = atof(argv[7]);
S2_ANGLE = atof(argv[8]);
V1_INIT = atof(argv[9]);
V2_INIT = atof(argv[10]);
//converting to radians
S1_ANGLE=S1_ANGLE*PI/180.0;
S2_ANGLE=S2_ANGLE*PI/180.0;
V1_INIT=V1_INIT*PI/180.0;
V2_INIT=V2_INIT*PI/180.0;
printf("L1:%f
L2: %f
M1 :%f
M2:%f
T_START:%f
T_END:%f
S1_ANGLE: %f
S2_ANGLE: %f
V1_INIT: %f
V2_INIT: %f
",
L1,L2,M1,M2,T_START,T_END,S1_ANGLE,S2_ANGLE,V1_INIT,V2_INIT);
gsl_odeiv2_system sys = {func, NULL, 4, NULL};
gsl_odeiv2_driver *d =
gsl_odeiv2_driver_alloc_y_new(&sys, gsl_odeiv2_step_rk4, 1e-6, 1e-6, 0.0);
double y[4] = {S2_ANGLE,V1_INIT,S1_ANGLE,V2_INIT};
double t = T_START;
for (int i = 1; i <= 100; i++) {
double ti = i * (T_END - T_START) / 100.0;
int status = gsl_odeiv2_driver_apply(d, &t, ti, y);
printf("%.5e %.5e %.5e %.5e %.5e
", t, y[0], y[1],y[2],y[3]);
}
return 0;
}
It really does not matter what parameters I input, I always get an error:
gsl: driver.c:354: ERROR: integration limits and/or step direction not
consistent Default GSL error handler invoked.
I does not understand what causes my error.
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