Jump to content

File:Julia IIM 1.jpg

Page contents not supported in other languages.
This is a file from the Wikimedia Commons
From Wikipedia, the free encyclopedia

Original file (2,000 × 2,000 pixels, file size: 95 KB, MIME type: image/jpeg)

Description Julia set for c=i . Fc(z)=z*z + c. Made using IIM
Date
Source Own work
Author Adam majewski
Permission
(Reusing this file)
w:en:Creative Commons
attribution
This file is licensed under the Creative Commons Attribution 3.0 Unported license.
You are free:
  • to share – to copy, distribute and transmit the work
  • to remix – to adapt the work
Under the following conditions:
  • attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.

Summary

Julia set for c=i . Fc(z)=z*z + c. Made using IIM with random choose of one of two roots.

Compare with

C source

It is a console C program ( one file) It can be compiled under :

  • windows ( gcc thru Dev-C++ )
  • linux and mac using gcc :
gcc main.c -lm

it creates a.out file. Then run it :

./a.out

It creates ppm file in program directory. Use file viewer to see it.

C console program which writes an image to PPM file. It is ( probably) multiplatform.

 #include <stdio.h>
 #include <stdlib.h> /* for ISO C Random Number Functions */
 #include <math.h>
 /*  gives sign of number */
 double sign(double d)
 {
       if (d<0)
       {return -1.0;}
       else {return 1.0;};
 };
 /* ----------------------*/
 int main()
 {   
    const double Cx=0.0,Cy=1.0;
     /* screen coordinate = coordinate of pixels */      
    int iX, iY, 
        iXmin=0, iXmax=2000,
        iYmin=0, iYmax=2000,
        iWidth=iXmax-iXmin+1,
        iHeight=iYmax-iYmin+1,
        /* number of bytes = number of pixels of image * number of bytes of color */
        iLength=iWidth*iHeight*3,/* 3 bytes of color  */
        index; /* of array */
   int iXinc, iYinc;     
   /* world ( double) coordinate = parameter plane*/
        const double ZxMin=-2.5;
        const double ZxMax=2.5;
        const double ZyMin=-2.5;
        const double ZyMax=2.5;
        /* */
        double PixelWidth=(ZxMax-ZxMin)/iWidth;
        double PixelHeight=(ZyMax-ZyMin)/iHeight;
        double Zx, Zy,    /* Z=Zx+Zy*i   */
               NewZx, NewZy,
               DeltaX, DeltaY,
               SqrtDeltaX, SqrtDeltaY,
               AlphaX, AlphaY,
               BetaX,BetaY; /* repelling fixed point Beta */
         /*  */
        int Iteration,
            IterationMax=100000000;
     /* PPM file */
    FILE * fp;
    char *filename="julia1.ppm";
    char *comment="# this is julia set for c=i ";/* comment should start with # */
    const int MaxColorComponentValue=255;/* color component ( R or G or B) is coded from 0 to 255 */
     /* dynamic 1D array for 24-bit color values */    
    unsigned char *array;
  /*  ---------  find repelling fixed point ---------------------------------*/
   /* Delta=1-4*c */
   DeltaX=1-4*Cx;
   DeltaY=-4*Cy;
   /* SqrtDelta = sqrt(Delta) */
   /* sqrt of complex number algorithm from Peitgen, Jurgens, Saupe: Fractals for the classroom */
   if (DeltaX>0)
   {
    SqrtDeltaX=sqrt((DeltaX+sqrt(DeltaX*DeltaX+DeltaY*DeltaY))/2);
    SqrtDeltaY=DeltaY/(2*SqrtDeltaX);        
    }
    else /* DeltaX <= 0 */
    {
         if (DeltaX<0)
         {
          SqrtDeltaY=sign(DeltaY)*sqrt((-DeltaX+sqrt(DeltaX*DeltaX+DeltaY*DeltaY))/2);
          SqrtDeltaX=DeltaY/(2*SqrtDeltaY);        
          }
          else /* DeltaX=0 */
          {
           SqrtDeltaX=sqrt(fabs(DeltaY)/2);
           if (SqrtDeltaX>0) SqrtDeltaY=DeltaY/(2*SqrtDeltaX);
                        else SqrtDeltaY=0;    
                }
    };
   /* Beta=(1-sqrt(delta))/2 */
   BetaX=0.5+SqrtDeltaX/2;
   BetaY=SqrtDeltaY/2;
   /* Alpha=(1+sqrt(delta))/2 */
   AlphaX=0.5-SqrtDeltaX/2;
   AlphaY=-SqrtDeltaY/2;
   printf(" Cx= %f\n",Cx);
   printf(" Cy= %f\n",Cy); 
   printf(" Beta= %f\n",BetaX);
   printf(" BetaY= %f\n",BetaY);
   printf(" AlphaX= %f\n",AlphaX);
   printf(" AlphaY= %f\n",AlphaY);
   /* initial value of orbit Z=Z0 is repelling fixed point */
   Zy=BetaY; /*  */
   Zx=BetaX; 
   /*-------------------------------------------------------------------*/
    array = malloc( iLength * sizeof(unsigned char) );
    if (array == NULL)
    {
      fprintf(stderr,"Could not allocate memory");
      getchar();
      return 1;
    }
    else 
    {         
      /* fill the data array with white points */       
      for(index=0;index<iLength-1;++index) array[index]=255;
   /* ---------------------------------------------------------------*/
  for (Iteration=0;Iteration<IterationMax;Iteration++)
            {
                /* Zn*Zn=Z(n+1)-c */
                Zx=Zx-Cx;
                Zy=Zy-Cy;
                /* sqrt of complex number algorithm from Peitgen, Jurgens, Saupe: Fractals for the classroom */
                if (Zx>0)
                {
                 NewZx=sqrt((Zx+sqrt(Zx*Zx+Zy*Zy))/2);
                 NewZy=Zy/(2*NewZx);        
                 }
                 else /* ZX <= 0 */
                 {
                  if (Zx<0)
                     {
                      NewZy=sign(Zy)*sqrt((-Zx+sqrt(Zx*Zx+Zy*Zy))/2);
                      NewZx=Zy/(2*NewZy);        
                      }
                      else /* Zx=0 */
                      {
                       NewZx=sqrt(fabs(Zy)/2);
                       if (NewZx>0) NewZy=Zy/(2*NewZx);
                          else NewZy=0;    
                      }
                 };
              if (rand()<(RAND_MAX/2))
              {   
                  Zx=NewZx;
                  Zy=NewZy; 
                  }
              else {Zx=-NewZx;
                  Zy=-NewZy; }
              /* translate from world to screen coordinate */
              iX=(Zx-ZxMin)/PixelWidth;
              iY=(Zy-ZyMin)/PixelHeight; /*  */
              /* plot  pixel  */
              array[((iYmax-iY-1)*iXmax+iX)*3]=0;
              array[((iYmax-iY-1)*iXmax+iX)*3+1]=0;
              array[((iYmax-iY-1)*iXmax+iX)*3+2]=0; 
            };           
      /* write the whole data array to ppm file in one step */      
      /*create new file,give it a name and open it in binary mode  */
      fp= fopen(filename,"wb"); /* b -  binary mode */
      if (fp == NULL){ fprintf(stderr,"file error"); }
            else
            {
            /*write ASCII header to the file*/
            fprintf(fp,"P6\n %s\n %d\n %d\n %d\n",comment,iXmax,iYmax,MaxColorComponentValue);
            /*write image data bytes to the file*/
            fwrite(array,iLength ,1,fp);
            fclose(fp);
            fprintf(stderr,"file saved");
            getchar();
            }
      free(array);
      return 0;
    } /* if (array ..  else ... */
 }

Captions

Add a one-line explanation of what this file represents

Items portrayed in this file

depicts

11 January 2008

File history

Click on a date/time to view the file as it appeared at that time.

Date/TimeThumbnailDimensionsUserComment
current15:44, 11 January 2008Thumbnail for version as of 15:44, 11 January 20082,000 × 2,000 (95 KB)Soul windsurfer{{Information |Description=Julia set for c=i . Fc(z)=z*z + c. Made using IIM |Source=self-made |Date=2008.01.11 |Author= Adam majewski |Permission={{cc-by-3.0}} |other_versions= }}

The following page uses this file:

Global file usage

The following other wikis use this file:

Metadata