Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I have a program that is supposed to calculate the trajectory of a pendulum with the fourth order runge kutta method and the euler cromer method, unfortunately... I have a segfault.

I have no idea how to fix this, as you can see I have a few std::cout 's to attempt debugging, but they don't even output. This leads me to believe that the function never makes it to executing main();

My current intuition says that it errors out during the function declarations, but if I am wrong I would like to know. If at all possible, can you describe the techniques you used to debug?

#include <iostream>
#include <cmath>
#include <string>
#include <vector>
#include <stdlib.h>
#include <fstream>

#define N 1

// Pendulum Variables
double d_pendLength = 1.0, d_pendMass = 1.0; // Pendulum Properties
double d_viscParam = 1.0, d_gravity = 1.0; //9.80665; // Enviromental Factors
double d_dAmp = 0.0, d_dFreq = 0.0; // Driving Force

double d_initTheta = 0.0, d_initAVel = 0.0; //Initial Conditions

void v_rungekutta(double d_time, std::vector<double> d_pendulum, double d_step);
void v_eulercromer(double d_time, std::vector<double> d_pendulum, double d_step);
double d_derivative(double d_time, std::vector<double> d_pendulum, int i_de);

int main(void)
{
    // Numerical Variables
    double d_step = 0.01, d_mTime = -1, d_mPeriod  = 300;

    // Global Variables
    double d_time = 0.0, d_period = 0.0, d_limit;

    // Function Vectors
    std::vector<double> d_pendulum (2);

    // Settings
    std::string plot = "theta", algo = "rk4";


    std::cout << "START!";
    std::ofstream file_output;
    std::cout << "HAIDATA!";
    file_output.open("pendulum.data");

    std::cout << "HAI!";
    d_pendulum.at(0)= d_initTheta;  //Initial Theta
    d_pendulum.at(1)= d_initAVel;   //Initial Omega
    std::cout <<"BAI!";

    if (d_mPeriod > 0)
    {
        d_limit = d_mPeriod;
    }
    else if (d_mTime > 0)
    {
        d_limit = d_mTime;
    }
    else
    {
        std::cout << "No Limit Specified";
        exit(1);
    }

    for (int i_currentStep=1; i_currentStep*d_step<=d_limit;i_currentStep++)       
    {
        d_time = i_currentStep*d_step;

        if (algo == "rk4")
        {
            v_rungekutta(d_time, d_pendulum, d_step);
        }
        else if (algo == "ec")
        {
            v_eulercromer(d_time, d_pendulum, d_step);
        }
        file_output << d_time << d_pendulum.at(0) << d_pendulum.at(1) << std::endl;
    }


    file_output.close();
    d_pendulum.clear();

    return 0;
}


void v_rungekutta(double d_time, std::vector<double> d_pendulum, double d_step)
{
    double h=d_step/2.0;  
    std::vector<double> t1, t2, t3, k1, k2, k3, k4;
    int i;

    for (i=N;i>0;i--) t1[i]=d_pendulum.at(i)+0.5*(k1[i]=d_step*d_derivative(d_time, d_pendulum, i));
    for (i=N;i>0;i--) t2[i]=d_pendulum.at(i)+0.5*(k2[i]=d_step*d_derivative(d_time+h, t1, i));
    for (i=N;i>0;i--) t3[i]=d_pendulum.at(i)+ (k3[i]=d_step*d_derivative(d_time+h, t2, i));
    for (i=N;i>0;i--) k4[i]=d_step*d_derivative(d_time+d_step, t3, i);

    for (i=N;i>0;i--) d_pendulum.at(i) += (k1[i]+2*k2[i]+2*k3[i]+k4[i])/6.0;
}

void v_eulercromer(double d_time, std::vector<double> d_pendulum, double d_step)
{
    int i;
    for (i=N;i>0;i--) d_pendulum.at(i) += d_derivative(d_time, d_pendulum, i)*d_step;
}

double d_derivative(double d_time, std::vector<double> d_pendulum, int i_de)
 {
    double dtheta = d_pendulum.at(1);
  if (i_de==0) return dtheta;
  double domega = d_pendulum.at(1)+((-d_gravity/d_pendLength)*sin(d_pendulum.at(0)))+(-d_viscParam*(d_pendulum.at(1)))+(d_dAmp*sin(d_dFreq*d_time));
  if (i_de==1) return domega; 
  if (i_de < 0) return 0; // 0 is a possible value, exit with exit func.
}

SOLUTION

My problem was that I had not been properly accessing the vectors in rungekutta and I had not given them a starting size.

Before

    void v_rungekutta(double d_time, std::vector<double> d_pendulum, double d_step)
    {
        double h=d_step/2.0;  
        std::vector<double> t1, t2, t3, k1, k2, k3, k4;
        int i;

        for (i=N;i>0;i--) t1[i]=d_pendulum.at(i)+0.5*(k1[i]=d_step*d_derivative(d_time, d_pendulum, i));
        for (i=N;i>0;i--) t2[i]=d_pendulum.at(i)+0.5*(k2[i]=d_step*d_derivative(d_time+h, t1, i));
        for (i=N;i>0;i--) t3[i]=d_pendulum.at(i)+ (k3[i]=d_step*d_derivative(d_time+h, t2, i));
        for (i=N;i>0;i--) k4[i]=d_step*d_derivative(d_time+d_step, t3, i);

        for (i=N;i>0;i--) d_pendulum.at(i) += (k1[i]+2*k2[i]+2*k3[i]+k4[i])/6.0;
    }

After:

    void v_rungekutta(double d_time, std::vector<double> d_pendulum, double d_step)
    {
        double h=d_step/2.0;  
        std::vector<double> t1 (2), t2 (2), t3 (2), k1 (2), k2 (2), k3 (2), k4 (2);
        int i;

        for (i=N;i>0;i--) t1.at(i)=d_pendulum.at(i)+0.5*(k1.at(i)=d_step*d_derivative(d_time, d_pendulum, i));
        for (i=N;i>0;i--) t2.at(i)=d_pendulum.at(i)+0.5*(k2.at(i)=d_step*d_derivative(d_time+h, t1, i));
        for (i=N;i>0;i--) t3.at(i)=d_pendulum.at(i)+ (k3.at(i)=d_step*d_derivative(d_time+h, t2, i));
        for (i=N;i>0;i--) k4.at(i)=d_step*d_derivative(d_time+d_step, t3, i);

        for (i=N;i>0;i--) d_pendulum.at(i) += (k1[i]+2*k2[i]+2*k3[i]+k4[i])/6.0;
    }
share|improve this question
1  
Try with a debugger like gdb, lldb, or the one in Visual Studio. Time invested in learning them is well spent. – Frank Osterfeld Oct 27 '13 at 6:45
    
By the way, function declarations are not executed. The compiler will produce an executable that starts at the beginning of your main() function (possibly with some static initialization before-hand). – user1118321 Oct 27 '13 at 6:56
    
I'm running a Linux distro, so I used gdb. I found out that I wasen't using .at(i) on some arrays, and that I had not given some a size either. Thank you very much! – NictraSavios Oct 27 '13 at 6:56
up vote 1 down vote accepted

What I can see at first glance is that you are trying to access elements in empty vectors. Try to replace [] operators with at() method. The difference is that the former doesn't check bounds with a possibility of producing segfault, whereas the latter does, throwing an exception if index is out of bounds.

share|improve this answer
1  
How would I catch such an exception? – NictraSavios Nov 8 '13 at 9:27
    
without a response to @NictraSavios's question, this is but half an answer. – dbliss Oct 18 '15 at 7:03

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.