import java.awt.Graphics;
import java.applet.Applet;
import java.awt.Color;
public class dela2 extends java.applet.Applet{
  Color col1,col2;
  int N;
  int taka,haba,taka2,haba2;
  int k,i,j,l,kaw;
  double di2,di,cp2,cpx,ys,t,th;
  double x0,y0,xx,yy,xa1=0,ya1=0,yy2;
  double di4,di3,cp3,cpx3,ys3,t2,ds,us;
  double y20,y21,sa0,sa1;
  int br,br2,u,k2;
  int xz,xz2,yz,yz2;
  String NS,habaS,takaS;
  double Nd,takad,habad;
  Color cl[]=new Color[13];
  double kx[]=new double[100];
  double ky[]=new double[100];
  double kz[]=new double[100];
  public double jou(double a,double b){
    double jou1;
    jou1=Math.pow(a,b);
    return jou1;
  }
  public double dou(String dous){
    double dou1;
    dou1 = (Double.valueOf(dous)).doubleValue();
    return dou1;
  }
  public double rand(){
    double rand1;
    rand1=Math.random();
    return rand1;
  }
  public void init(){
    col1=Color.black;
    col2=Color.yellow;
    cl[0]=Color.white;
    cl[1]=Color.green;
    cl[2]=new Color(199,111,238);
    takaS=getParameter("takap");
    habaS=getParameter("habap");
    NS=getParameter("Np");
    habad=dou(habaS);
    takad=dou(takaS);
    Nd=dou(NS);
    if(Nd==20){
      Nd=4+26*rand();
    }
    haba=(int)habad;
    taka=(int)takad;
    N=(int)Nd;
  }
  double x1[]=new double[100];
  double y1[]=new double[100];
  double w1[]=new double[100];

  double x2[]=new double[100];
  double y2[]=new double[100];
  double w2[]=new double[100];


  int x[]=new int[100];
  int y[]=new int[100];
  double s[]=new double[100];
  String sss[]=new String[100];
  void heapv(double te1[],double te2[],double te3[],int NN){
    int kk,kks,ii,jj,mm;
    double b1,b2,b3,c1,c2,c3;
    kks=(int)(NN/2);
    for(kk=kks;kk>=1;kk--){
      ii=kk;
      b1=te1[ii-1];b2=te2[ii-1];b3=te3[ii-1];
      while(2*ii<=NN){
        jj=2*ii;
        if(jj+1<=NN){
          if(te1[jj-1]<te1[jj]){
            jj++;
          }
        }
        if(te1[jj-1]<=b1){
          break;
        }
        te1[ii-1]=te1[jj-1];te2[ii-1]=te2[jj-1];te3[ii-1]=te3[jj-1];
        ii=jj;
      }//wend
      te1[ii-1]=b1;te2[ii-1]=b2;te3[ii-1]=b3;
    }//next kk
    for(mm=NN-1;mm>=1;mm--){
      c1=te1[mm];c2=te2[mm];c3=te3[mm];
      te1[mm]=te1[0];te2[mm]=te2[0];te3[mm]=te3[0];
      ii=1;
      while(2*ii<=mm){
        kk=2*ii;
        if(kk+1<=mm){
          if(te1[kk-1]<=te1[kk]){
            kk++;
          }
        }
        if(te1[kk-1]<=c1){
          break;
        }
        te1[ii-1]=te1[kk-1];te2[ii-1]=te2[kk-1];te3[ii-1]=te3[kk-1];
        ii=kk;
      }//wend
      te1[ii-1]=c1;te2[ii-1]=c2;te3[ii-1]=c3;
    }//next mm
  }
  public void paint(java.awt.Graphics g){
    taka=350;
    haba=500;
    taka2=taka;
    haba2=haba;
    taka=taka2*40;
    haba=haba2*40;
    g.setColor(col1);
    g.fillRect(1,1,haba,taka);
    g.setColor(cl[1]);
    for(k=0;k<N;k++){
      x1[k]=rand()*(haba2-30)+15;
      y1[k]=rand()*(taka2-30)+15;
      x[k]=(int)(x1[k]+0.5);
      y[k]=(int)(y1[k]+0.5);
      s[k]=jou(x1[k]*x1[k]+y1[k]*y1[k],0.5);
    }

    for(k=0;k<N;k++){
      x2[k]=x1[k];
      y2[k]=y1[k];
      g.fillOval((int)x2[k]-5,(int)y2[k]-5,10,10);
    }
    for(k=0;k<N;k++){
      x1[k]=x2[k]+haba2*20;
      y1[k]=y2[k]+taka2*20;
    }

    for(i=1;i<=N-1;i++){
      for(j=i+1;j<=N;j++){
        di2=(y1[i-1]-y1[j-1])/(x1[i-1]-x1[j-1]);
        di=-1/di2;
        cp2=(y1[i-1]+y1[j-1])/2;
        cpx=(x1[i-1]+x1[j-1])/2;
        ys=cp2-cpx*di;
        t=jou(x1[i-1]-x1[j-1],2)+jou(y1[i-1]-y1[j-1],2);
        if(ys>0 && ys<taka){
          x0=0;y0=ys;
        }
        else{
          if(di>0){
            x0=-ys/di;y0=0;
          }
          else{
            x0=(taka-ys)/di;
            y0=taka;
          }
        }
        yy=di*haba+ys;
        if(yy>0 && yy<taka){
          xa1=haba;ya1=yy;
        }
        else{
          if(di>0){
            xa1=(taka-ys)/di;ya1=taka;
          }
          else{
            xa1=-ys/di;
            ya1=0;
          }
        }
        l=1;
        kx[l-1]=x0;ky[l-1]=y0;
        for(k=1;k<=N;k++){
          if(k!=i && k!=j){
            di4=(y1[i-1]-y1[k-1])/(x1[i-1]-x1[k-1]);
            di3=-1/di4;
            cp3=(y1[i-1]+y1[k-1])/2;
            cpx3=(x1[i-1]+x1[k-1])/2;
            ys3=cp3-cpx3*di3;
            t2=jou(x1[i-1]-x1[k-1],2)+jou(y1[i-1]-y1[k-1],2);
            y20=di3*x0+ys3;
            y21=di3*xa1+ys3;
            sa0=y0-y20;
            sa1=ya1-y21;
            if(sa0*sa1<0){
              l++;
              kx[l-1]=(ys3-ys)/(di-di3);
              ky[l-1]=di*kx[l-1]+ys;
            }//if sa0*sa1<0
          }//if(k!=i && k!=j)
        }//next k
          l++;
          kx[l-1]=xa1;
          ky[l-1]=ya1;
          for(u=1;u<=l;u++){
            kz[u-1]=0;
          }
          heapv(kx,ky,kz,l);
          for(k=1;k<=l-1;k++){
            k2=k+1;
            xx=(kx[k-1]+kx[k2-1])/2;
            yy2=di*xx+ys;
            ds=jou(xx-x1[i-1],2)+jou(yy2-y1[i-1],2);
            br2=0;
            for(u=1;u<=N;u++){
              if(u!=i && u!=j){
                us=jou(xx-x1[u-1],2)+jou(yy2-y1[u-1],2);
                if(us<ds){
                  br2=br2+1;
                }
              }
            }//next u
            if(br2==1){
              xz=(int)(kx[k-1]+0.5);
              xz2=(int)(kx[k2-1]+0.5);
              yz=(int)(ky[k-1]+0.5);
              yz2=(int)(ky[k2-1]+0.5);
              g.setColor(cl[2]);
              g.drawLine(xz-haba2*20,yz-taka2*20,xz2-haba2*20,yz2-taka2*20);
              g.setColor(cl[0]);
              g.drawLine((int)x1[i-1]-haba2*20,(int)y1[i-1]-taka2*20,(int)x1[j-1]-haba2*20,(int)y1[j-1]-taka2*20);
            }//if br2<3
          }//next k
      }//next j
    }//next i



    g.setColor(cl[1]);
    g.drawString("N="+N,15,15);
  }
}