File:Colour complex plot.jpg
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Summary
| Description | Colour plot of complex function (x^2-1) * (x-2-I)^2 / (x^2+2+2I), hue represents the argument, sat and value represents the modulus |
| Date | 7 August 2007 |
| Source | Own work |
| Author | Claudio Rocchini |
| Permission ( Reusing this file) |
CC-BY 2.5 |
Source Code
C++
This is the complete C++ source code for image generation (you must change the fun funcion to plot another one). You need some complex class implementation.
#include#include using namespace std; const double PI = 3.1415926535897932384626433832795; const double E = 2.7182818284590452353602874713527; void SetHSV(double h, double s, double v, unsigned char colour[3]) { double r, g, b; if(s==0) r = g = b = v; else { if(h==1) h = 0; double z = floor(h*6); int i = int(z); double f = double(h*6 - z); double p = v*(1-s); double q = v*(1-s*f); double t = v*(1-s*(1-f)); switch(i){ case 0: r=v; g=t; b=p; break; case 1: r=q; g=v; b=p; break; case 2: r=p; g=v; b=t; break; case 3: r=p; g=q; b=v; break; case 4: r=t; g=p; b=v; break; case 5: r=v; g=p; b=q; break; } } int c; c = int(256*r); if(c>255) c = 255; colour[0] = c; c = int(256*g); if(c>255) c = 255; colour[1] = c; c = int(256*b); if(c>255) c = 255; colour[2] = c; } complex<double> fun(complex<double>& c ){ const complex<double> i(0., 1.); return (pow(c,2) -1.) *pow(c -2. -i, 2) /(pow(c,2) +2. +2. *i); } int main(){ const int dimx = 800; const int dimy = 800; const double rmi = -3; const double rma = 3; const double imi = -3; const double ima = 3; ofstream f("complex.ppm", ios::binary); f << "P6" << endl << dimx << " " << dimy << endl << "255" << endl; for(int j=0; j < dimy; ++j){ double im = ima - (ima -imi) *j /(dimy -1); for(int i=0; i < dimx; ++i){ double re = rma -(rma -rmi) *i /(dimx -1); complex<double> c(re, im); complex<double> v = fun(c); double a = arg(v); while(a<0) a += 2*PI; a /= 2*PI; double m = abs(v); double ranges = 0; double rangee = 1; while(m>rangee){ ranges = rangee; rangee *= E; } double k = (m-ranges)/(rangee-ranges); double sat = k < 0.5 ? k *2: 1 -(k -0.5) *2; sat = 1 - pow(1-sat, 3); sat = 0.4 + sat*0.6; double val = k < 0.5 ? k *2: 1 -(k -0.5) *2; val = 1 - val; val = 1 - pow(1-val, 3); val = 0.6 + val*0.4; unsigned char colour[3]; SetHSV(a,sat,val,colour); f.write((const char*)colour,3); } } return 0; }
C
#include#include #include #include // floor /* based on c++ program from : http://commons.wikimedia.org/wiki/File:Color_complex_plot.jpg by Claudio Rocchini gcc d.c -lm -Wall http://en.wikipedia.org/wiki/Domain_coloring */ const double PI = 3.1415926535897932384626433832795; const double E = 2.7182818284590452353602874713527; /* complex domain coloring Given a complex number z=re^{ i \theta}, hue represents the argument ( phase, theta ), sat and value represents the modulus */ int GiveHSV( double complex z, double HSVcolor[3] ) { //The HSV, or HSB, model describes colors in terms of hue, saturation, and value (brightness). // hue = f(argument(z)) //hue values range from .. to .. double a = carg(z); // while(a<0) a += 2*PI; a /= 2*PI; // radius of z double m = cabs(z); // double ranges = 0; double rangee = 1; while(m>rangee){ ranges = rangee; rangee *= E; } double k = (m-ranges)/(rangee-ranges); // saturation = g(abs(z)) double sat = k<0.5 ? k*2: 1 - (k-0.5)*2; sat = 1 - pow( (1-sat), 3); sat = 0.4 + sat*0.6; // value = h(abs(z)) double val = k<0.5 ? k*2: 1 - (k-0.5)*2; val = 1 - val; val = 1 - pow( (1-val), 3); val = 0.6 + val*0.4; HSVcolor[0]= a; HSVcolor[1]= sat; HSVcolor[2]= val; return 0; } int GiveRGBfromHSV( double HSVcolor[3], unsigned char RGBcolor[3] ) { double r,g,b; double h; double s; double v; h=HSVcolor[0]; // hue s=HSVcolor[1]; // saturation; v = HSVcolor[2]; // = value; if(s==0) r = g = b = v; else { if(h==1) h = 0; double z = floor(h*6); int i = (int)z; double f = (h*6 - z); double p = v*(1-s); double q = v*(1-s*f); double t = v*(1-s*(1-f)); switch(i){ case 0: r=v; g=t; b=p; break; case 1: r=q; g=v; b=p; break; case 2: r=p; g=v; b=t; break; case 3: r=p; g=q; b=v; break; case 4: r=t; g=p; b=v; break; case 5: r=v; g=p; b=q; break; } } int c; c = (int)(256*r); if(c>255) c = 255; RGBcolor[0] = c; c = (int)(256*g); if(c>255) c = 255; RGBcolor[1] = c; c = (int)(256*b); if(c>255) c = 255; RGBcolor[2] = c; return 0; } int GiveRGBColor( double complex z, unsigned char RGBcolor[3]) { static double HSVcolor[3]; GiveHSV( z, HSVcolor ); GiveRGBfromHSV(HSVcolor,RGBcolor); return 0; } // double complex fun(double complex c ){ return (cpow(c,2)-1)*cpow(c-2.0- I,2)/(cpow(c,2)+2+2*I);} // int main(){ // screen (integer ) coordinate const int dimx = 800; const int dimy = 800; // world ( double) coordinate const double reMin = -2; const double reMax = 2; const double imMin = -2; const double imMax = 2; static unsigned char RGBcolor[3]; FILE * fp; char *filename ="complex.ppm"; fp = fopen(filename,"wb"); fprintf(fp,"P6\n%d %d\n255\n",dimx,dimy); int i,j; for(j=0;j<dimy;++j){ double im = imMax - (imMax-imMin)*j/(dimy-1); for(i=0;i<dimx;++i){ double re = reMax - (reMax-reMin)*i/(dimx-1); double complex z= re + im*I; // double complex v = fun(z); // GiveRGBColor( v, RGBcolor); fwrite(RGBcolor,1,3,fp); } } fclose(fp); printf("OK - file %s saved\n", filename); return 0; }
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