/*********************************************** * Newtz6B.c * * Generates a RAW format file of an image * of a Julia set attractor of Newton's method (grayscale) * * C source file by Alberto Strumia * ************************************************/ #include /* definition of constants */ #define Radius 0.1 #define Cx 0.0 #define Cy 0.0 #define Side 2.0 #define M 700 #define Num 32 /* main program */ main() { int p, q, n, w; double x, y, xx, yy, Incx, Incy; FILE *fp; fp = fopen("Newt.raw","w"); for (p = 1; p <= M; p++) { Incy = - Side + 2*Side/M*p; printf("%i %%\n", p*100/M); for (q = 1; q <= M; q++) { Incx = - Side + 2*Side/M*q; x = Incx; y = Incy; w = 0; for ( n = 1; n <= Num; ++n) { xx = 5*x/6.0 - x*(x*x*x*x - 10*x*x*y*y +5*y*y*y*y)/(x*x+y*y)/(x*x+y*y)/(x*x+y*y)/(x*x+y*y)/(x*x+y*y)/6.0; yy = 5*y/6.0 + y*(5*x*x*x*x - 10*x*x*y*y + y*y*y*y)/(x*x+y*y)/(x*x+y*y)/(x*x+y*y)/(x*x+y*y)/(x*x+y*y)/6.0; x = xx; y = yy; if ( (x-Cx)*(x-Cx) + (y-Cy)*(y-Cy) < Radius ) { w = n; n = Num; } } fprintf(fp, "%c", 8*w ); } } fclose(fp); } /* end of main program */