package verteiltesysteme.mandelbrot.rmi;

import java.rmi.registry.LocateRegistry;
import java.rmi.registry.Registry;
import java.rmi.server.UnicastRemoteObject;

class Complex {
	double r;
	double i;

	Complex() {
		r = 0.0;
		i = 0.0;
	}

	Complex(double r, double i) {
		this.r = r;
		this.i = i;
	}

	void mulBy(Complex other) {
		double rTmp = this.r * other.r - this.i * other.i;
		this.i = this.r * other.i + this.i * other.r;
		this.r = rTmp;
	}

	void add(Complex other) {
		this.r += other.r;
		this.i += other.i;
	}

	void sub(Complex other) {
		this.r -= other.r;
		this.i -= other.i;
	}

	double absValue() {
		return Math.sqrt(this.r * this.r + this.i * this.i);
	}
}

public class RMIMandelbrotCalculationsServer implements RMIMandelbrotCalculationsInterface {
    public RMIMandelbrotCalculationsServer() {}
	
    public static void main(String args[]) {

        try {
        	RMIMandelbrotCalculationsServer obj = new RMIMandelbrotCalculationsServer();
        	RMIMandelbrotCalculationsInterface stub = (RMIMandelbrotCalculationsInterface) UnicastRemoteObject.exportObject(obj, 0);

            // Bind the remote object's stub in the registry
            Registry registry = LocateRegistry.getRegistry();
            registry.bind("RMIMandelbrotCalculationsInterface", stub);

            System.err.println("Server ready");
        } catch (Exception e) {
            System.err.println("Server exception: " + e.toString());
            e.printStackTrace();
        }
    }
    
	// hier wird das Ergebnis von iterateAll() gespeichert
	protected int[] result = null;

	// der augenblicklich gewaehlte Ausschnitt
	//double ULx = -2, ULy = -2, LRx = 2, LRy = 2;
	double ULx = -0.16099999999999995, ULy = -0.9365333333333333, LRx = -0.03533333333333327, LRy = -0.8108666666666666;

	int iterateOnePoint(Complex c, int maxIterations, double maxModulus) {
		Complex z = new Complex(0., 0.);

		for (int i = 0; i < maxIterations; i++) {
			z.mulBy(z);
			z.add(c);
			double m = z.absValue();
			if (m > maxModulus) {
				return i;
			}
		}
		return maxIterations;
	}

	public void iterateAllPoints(int maxIterations, double nrPointsX, double nrPointsY) {

		this.result = new int[(int) (nrPointsX * nrPointsY)];

		int counter = 0;
		double stepX = (this.LRx - this.ULx) / nrPointsX;
		double stepY = (this.LRy - this.ULy) / nrPointsY;
		double i = this.ULy;
		for (int cy = 0; cy < nrPointsY; cy++) {
			double r = this.ULx;
			for (int cx = 0; cx < nrPointsX; cx++) {
				Complex c = new Complex(r, i);
				this.result[counter] = maxIterations - this.iterateOnePoint(c, maxIterations, 2.0);
				counter += 1;
				r += stepX;
			}
			i += stepY;
		}
	}

	public int[] getResult() {
		return this.result;
	}

	public double getULx() {
		return this.ULx;
	}

	public double getLRx() {
		return this.LRx;
	}

	public double getULy() {
		return this.ULy;
	}

	public double getLRy() {
		return this.LRy;
	}

	public void setView(double ULx, double ULy, double LRx, double LRy) {
		this.ULx = ULx;
		this.ULy = ULy;
		this.LRx = LRx;
		this.LRy = LRy;
	}

}