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I am trying to tackle the Nbody example in my java class (this is my first semester in java).

The Details of the program are as follows:

Write a program Nbody.java that reads in the universe from standard input using Scanner, simulates its dynamics using the leapfrog scheme described above, and animates it using our StdDraw. Maintain several arrays to store the data. To make the computer simulation, write an infinite loop that repeatedly updates the position and velocity of the particles. When plotting, consider using StdDraw.setXscale(-R, +R) and StdDraw.setYscale(-R, +R) to scale the physics coordinates to the screen coordinates.

I've written the following code which compiles & loads the background image, the song, & the planets with correct placement. However, I cannot get the plantes to rotate as they should.

Here is my code:

import java.util.Scanner;

public class Nbody {

// method dist calculates distance between two points
// it accepts four double values (x1, y1, x2, y2)
// it returns a double value
private static double dist(double x1, double y1, double x2, double y2)

{

     double r;
     r = Math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2));
     return r;
} 


public static void main(String[] args) {

    final double G = 6.67e-11; // constant value G

    final double deltaT = 25000.0; // constant value delta T, which determines animation interval

    // ax and ay are accerlations on x axis and y axis
    double ax;
    double ay;


    Scanner scan = new Scanner (System.in); // define a keyboard object: scan

    int bodyNum = scan.nextInt(); // read in the first integer, which specify how many particles
    double radius = scan.nextDouble(); // read in radius of universe


    // define arrays to save x values and y values of each particle
    double[] x = new double[bodyNum];
    double[] y = new double[bodyNum];

    // define arrays to save velocity of each particle
    double[] vx = new double[bodyNum];
    double[] vy = new double[bodyNum];

    double[] m = new double[bodyNum];  // array stores mass of each particle
    String[] name = new String[bodyNum]; // array stores file name of each particles
    double[] Fx = new double[bodyNum]; // force on X axis
    double[] Fy = new double[bodyNum]; // force on Y axis

    StdDraw.setXscale(-radius, radius); // Set the X scale
    StdDraw.setYscale(-radius, radius); // Set the Y scale
    StdDraw.picture(0, 0, "starfield.jpg"); // Display background pic centered at (0,0)

    // read in inital location values and velocity values for each particle

    for (int i = 0; i < bodyNum; i++)

    {
       x[i] = scan.nextDouble();
       y[i] = scan.nextDouble();
       vx[i] = scan.nextDouble();
       vy[i] = scan.nextDouble();
       m[i] = scan.nextDouble();
       name[i] = scan.next();
       StdDraw.picture(x[i], y[i], name[i]); // display particle pic on screen
    }

    // This following line play background music, uncomment it in lab
    // If you work from a remote location via VNC, comment it
    StdAudio.play("2001.mid");

    // main animation loop
    while(true){

        // array Fx and Fy store net force acting on each body
        // initialize these two arrays to zeros

        for (int n = 0; n<bodyNum; n++)

        {
           Fx[n] = 0.0;
           Fy[n] = 0.0;
        }

         //  for loop to process all bodies
         for(int body = 0; body<bodyNum; body++)

            {

            // calculate the gravitational attraction between current body
            // and all other bodies

            Fx[body] = (m[body] * m[body+1])  / (x[body+1] -x[body])*G;

            Fy[body] = (m[body] * m[body+1]) / (y[body+1] -y[body])*G;

                for (int j = 0; j < bodyNum; j++)

                {

                 // calculate only when two bodies are different
                 // Please fill out the following if statement body                 

                 if(body != j)

                 {

                 Fx[j] = (m[j] * m[j+1]) / (y[j+1] -y[j])*G;
                 Fy[j] = (m[j] * m[j+1]) / (y[j+1] -y[j])*G;


                 }


                }
            }

         // update vleocity value and location value for each particle
         // please fill out the for loop
         for (int j = 0; j < bodyNum; j++)

            {

             // calculate accleration rate
             ax = Fx[j] / m[j];
             ay = Fy[j] / m[j];

             // update vleocity value 

            vx[j] = vx[j] + deltaT * ax;
            vy[j] = vy[j] + deltaT * ay;

            // update location value

            x[j] = x[j] + deltaT * vx[j];
            y[j] = y[j] + deltaT * vy[j];


            } 

         // redraw background
         StdDraw.setXscale(-radius, radius);
         StdDraw.setYscale(-radius, radius);
         StdDraw.picture(0, 0, "starfield.jpg");

         for (int i = 0; i < bodyNum; i++){
             // display the particle           
             StdDraw.picture(x[i], y[i], name[i]);
         }

         // display and pause for 30ms      
         StdDraw.show(30);        
    }
}
}

Any thoughts?

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closed as too localized by Vulcan, bmargulies, the Tin Man, gawi, Graviton Oct 23 '12 at 14:11

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1  
What exactly isn't working right? Is the calculation wrong, or the display? If the latter, have you tried printing out the results of each iteration so you can see if the positions/velocities are being updated, and are plausible? Remember that StdDraw isn't part of standard Java, so we can't easily try your program out... –  DNA Oct 21 '12 at 21:49
    
I believe it's the calculations that are wrong. Looking back, I have the same equation written for calculating the gravitational attraction between the current body & all other bodies as well as only when two bodies are different.. –  Ryan Oct 21 '12 at 21:52
    
I'm also receiving a run time error: Exception in thread "main" java.lang.ArrayIndexOutOfBoundsException: 5 at Nbody.main(Nbody.java:107) –  Ryan Oct 21 '12 at 21:59
    
can you check after this line " y[j] = y[j] + deltaT * vy[j];" are x[j] and y[j] values changing? –  chrome Oct 21 '12 at 22:00
    
Which line 107? –  chrome Oct 21 '12 at 22:01

1 Answer 1

up vote 2 down vote accepted

Your force calculations seem quite a bit off to me. I'd do it like this:

Arrays.fill(Fx, 0.0);
Arrays.fill(Fy, 0.0);
for (int body = 0; body < bodyNum - 1; body++) {
    for (int body2 = body + 1; body2 < bodyNum; body2++) {
        double dx = x[body2] - x[body];
        double dy = y[body2] - y[body];
        double d2 = dx * dx + dy * dy;
        double d = Math.sqrt(d2);
        double f = G * m[body] * m[body2] / d2;
        double fx = f * dx / d;
        double fy = f * dy / d;
        Fx[body] += fx;
        Fy[body] += fy;
        Fx[body2] -= fx;
        Fy[body2] -= fy;
    }
}
// then update positions and velocities based on Fx and Fy arrays

This computes the x and y components of the force acting on body due to body2 and then adds that to the x and y force components for body and subtracts them from body2. By indexing from body + 1, we can account for equal-and-opposite forces on two bodies in the same inner loop pass, reducing the number of calculations by half.

For updating positions, you are using the velocity at the end of the time delta, as if the bodies were moving for the entire delta at the velocity at the end of the delta. It might be more accurate to do some sort of interpolation, but that should be a second order effect.

share|improve this answer
    
the new doubles you defined are generating errors when i try to compile "due to incompatible types" :/ –  Ryan Oct 21 '12 at 22:20
    
change to: double fx = f * dx / d; double fy = f * dy / d; –  chrome Oct 21 '12 at 22:23
    
Hmmm, now I'm back to the issue of the planets not updating & receiving an array out of bounds error at line 95 (double dx = x[body2] - x[body]) –  Ryan Oct 21 '12 at 22:28
    
for updating velocities & positions we're supposed to be using the "leapfrog method" thats why I am using deltaT as I am –  Ryan Oct 21 '12 at 22:32
    
could you solve "bounds error" problem? –  chrome Oct 21 '12 at 22:37

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