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I'm trying to implement Runge-Kutta for example problems dy/dt = y - t^2 + 1 and dy/dt = t * y + t^3 in C# and I cannot seem to get the output I'm expecting. I have split my program into several classes to try and look at the work individually. I think that my main error is coming from trying to pass a method through the Runge-Kutta process as a variable using a delegate.

Equation Class:

namespace RK4
{
    public class Eqn
    {
        double t;
        double y;
        double dt;
        double b;
        public Eqn(double t, double y, double dt, double b)
        {
            this.t = t;
            this.y = y;
            this.dt = dt;
            this.b = b;
        }
        public void Run1()
        {
            double temp;
            int step = 1;
            RK4 n = new RK4();
            while (t < b)
                    {
                        temp = n.Runge(t, y, dt, FN1);
                        y = temp;
                        Console.WriteLine("At step number {0}, t: {1}, y: {2}", step, t, y);
                        t = t + dt;
                        step++;
                    }
        }
        public void Run2()
        {
            int step = 1;
            RK4 m = new RK4();
            while (t < b)
            {
                y = m.Runge(t, y, dt, FN2);
                Console.WriteLine("At step number {0}, t: {1}, y: {2}", step, t, y);
                t = t + dt;
                step++;
            }
        }
        public static double FN1(double t, double y)
        {
            double x = y - Math.Pow(t, 2) + 1;
            return x;
        }
        public static double FN2(double t, double y)
        {
            double x = t * y + Math.Pow(t, 3);
            return x;
        }
    }
}

Then Runge-Kutta 4 Class:

    namespace RK4
    {
        class RK4
        {
            public delegate double Calc(double t, double y);
            public double Runge(double t, double y, double dt, Calc yp)
            {
                double k1 = dt * yp(t, y);
                double k2 = dt * yp(t + 0.5 * dt, y + k1 * 0.5 * dt);
                double k3 = dt * yp(t + 0.5 * dt, y + k2 * 0.5 * dt);
                double k4 = dt * yp(t + dt, y + k3 * dt);
                return (y + (1 / 6) * (k1 + 2 * k2 + 2 * k3 + k4));
            }
        }
    }

And my Program Class:

namespace RK4
{
    class Program
    {
            static void Main(string[] args)
        {
            RunProgram();
        }
        public static void RunProgram()
        {
            Console.WriteLine("*******************************************************************************");
            Console.WriteLine("************************** Fourth Order Runge-Kutta ***************************");
            Console.WriteLine("*******************************************************************************");
            Console.WriteLine("\nWould you like to implement the fourth-order Runge-Kutta on:");
            string Fn1 = "y' = y - t^2 + 1";
            string Fn2 = "y' = t * y + t^3";
            Console.WriteLine("1) {0}", Fn1);
            Console.WriteLine("2) {0}", Fn2);
            Console.WriteLine("Please enter 1 or 2");
            switch (Int32.Parse(Console.ReadLine()))
            {
                case 1:
                    Console.WriteLine("\nPlease enter beginning of the interval (a):");
                    double a = Double.Parse(Console.ReadLine());
                    Console.WriteLine("Please enter end of the interval (b):");
                    double b = Double.Parse(Console.ReadLine());
                    Console.WriteLine("Please enter the step size (h) to be used:");
                    double h = Double.Parse(Console.ReadLine());
                    Console.WriteLine("Please enter the inital conditions to satisfy y({0}) = d",a);
                    Console.WriteLine("d = ");
                    double d = Double.Parse(Console.ReadLine());
                    Console.Clear();
                    Console.WriteLine("Using the interval [{0},{1}] and step size of {2} and the inital condition of y({3}) = {4}:", a, b, h, a, d);
                    Console.WriteLine("With equation: {0}", Fn1);
                    Eqn One = new Eqn(a, d, h, b);
                    One.Run1();
                    Console.WriteLine("Press enter to exit.");
                    Console.ReadLine();
                    Environment.Exit(1);
                    break;
                case 2:
                    Console.WriteLine("\nPlease enter beginning of the interval (a):");
                    a = Double.Parse(Console.ReadLine());
                    Console.WriteLine("Please enter end of the interval (b):");
                    b = Double.Parse(Console.ReadLine());
                    Console.WriteLine("Please enter the step size (h) to be used:");
                    h = Double.Parse(Console.ReadLine());
                    Console.WriteLine("Please enter the inital conditions to satisfy y({0}) = d",a);
                    Console.WriteLine("d = ");
                    d = Double.Parse(Console.ReadLine());
                    Console.Clear();
                    Console.WriteLine("Using the interval [{0},{1}] and step size of {2} and the inital condition of y({3}) = {4}:", a, b, h, a, d);
                    Console.WriteLine("With equation: {0}", Fn1);
                    Eqn Two = new Eqn(a, d, h, b);
                    Two.Run2();
                    Console.WriteLine("Press enter to exit.");
                    Console.ReadLine();
                    Environment.Exit(1);
                    break;
                default:
                    Console.WriteLine("Improper input, please press enter to exit.");
                    Console.ReadLine();
                    Environment.Exit(1);
                    break;
            }
        }
    }
}

This is not elegant programming by any means but I don't have the working knowledge to know what I'm doing wrong at this point. From what I was reading I thought that the delegate within the RK4 class would be able to pass through my hard coded diff eq.

  • 1
    Which output you get? Be specific. Try to narrow problem to a line at which you get wrong value. – Sinatr Dec 8 '15 at 15:42
  • 3
    Using the interval [0,1] and step size of 0.02 and the inital condition of y(0) = 2: With equation: y' = y - t^2 + 1 At step number 1, t: 0, y: 2 At step number 2, t: 0.02, y: 2 At step number 3, t: 0.04, y: 2 etc. At Step number 2 the y should update meaning that my error is within my while loop in the Eqn class. I want to have my y be changed every pass through the while loop. – Wesley Lethem Dec 8 '15 at 15:56
  • 1
    Do step-by-step debugging, put breakpoint at while, keep pressing F11 and see for yourself in Locals window what is wrong. I am unable to spot a problem in your code. Delegate part should work. Probably a mistake in formula. – Sinatr Dec 8 '15 at 16:11
  • 3
    Thank you I figured it out, you were very helpful to a coding newbie like me. It ended up being a mistake in how my loop was structured. I put in a temporary variable that would hold the output of the RK4 class and add it to the y value for each loop. – Wesley Lethem Dec 8 '15 at 20:14
1

You are doing a classical error in the RK4 implementation: Having two variants to position the multiplication with dt to choose from, you are using both.

It is either

k2 = dt*f(t+0.5*dt, y+0.5*k1)

or

k2 = f(t+0.5*dt, y+0.5*dt*k1)

and analogously in the other lines of the algorithm.

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