src/libdraw/rgb.c - plan9 - Git at Google

 #include <u.h>
 #include <libc.h>
 #include <draw.h>

 /*
  * This original version, although fast and a true inverse of
  * cmap2rgb, in the sense that rgb2cmap(cmap2rgb(c))
  * returned the original color, does a terrible job for RGB
  * triples that do not appear in the color map, so it has been
  * replaced by the much slower version below, that loops
  * over the color map looking for the nearest point in RGB
  * space.  There is no visual psychology reason for that
  * criterion, but it's easy to implement and the results are
  * far more pleasing.
  *
 int
 rgb2cmap(int cr, int cg, int cb)
 {
 	int r, g, b, v, cv;

 	if(cr < 0)
 		cr = 0;
 	else if(cr > 255)
 		cr = 255;
 	if(cg < 0)
 		cg = 0;
 	else if(cg > 255)
 		cg = 255;
 	if(cb < 0)
 		cb = 0;
 	else if(cb > 255)
 		cb = 255;
 	r = cr>>6;
 	g = cg>>6;
 	b = cb>>6;
 	cv = cr;
 	if(cg > cv)
 		cv = cg;
 	if(cb > cv)
 		cv = cb;
 	v = (cv>>4)&3;
 	return ((((r<<2)+v)<<4)+(((g<<2)+b+v-r)&15));
 }
 */

 int
 rgb2cmap(int cr, int cg, int cb)
 {
 	int i, r, g, b, sq;
 	u32int rgb;
 	int best, bestsq;

 	best = 0;
 	bestsq = 0x7FFFFFFF;
 	for(i=0; i<256; i++){
 		rgb = cmap2rgb(i);
 		r = (rgb>>16) & 0xFF;
 		g = (rgb>>8) & 0xFF;
 		b = (rgb>>0) & 0xFF;
 		sq = (r-cr)*(r-cr)+(g-cg)*(g-cg)+(b-cb)*(b-cb);
 		if(sq < bestsq){
 			bestsq = sq;
 			best = i;
 		}
 	}
 	return best;
 }

 int
 cmap2rgb(int c)
 {
 	int j, num, den, r, g, b, v, rgb;

 	r = c>>6;
 	v = (c>>4)&3;
 	j = (c-v+r)&15;
 	g = j>>2;
 	b = j&3;
 	den=r;
 	if(g>den)
 		den=g;
 	if(b>den)
 		den=b;
 	if(den==0) {
 		v *= 17;
 		rgb = (v<<16)|(v<<8)|v;
 	}
 	else{
 		num=17*(4*den+v);
 		rgb = ((r*num/den)<<16)|((g*num/den)<<8)|(b*num/den);
 	}
 	return rgb;
 }

 int
 cmap2rgba(int c)
 {
 	return (cmap2rgb(c)<<8)|0xFF;
 }
	#include <u.h>
	#include <libc.h>
	#include <draw.h>

	/*
	* This original version, although fast and a true inverse of
	* cmap2rgb, in the sense that rgb2cmap(cmap2rgb(c))
	* returned the original color, does a terrible job for RGB
	* triples that do not appear in the color map, so it has been
	* replaced by the much slower version below, that loops
	* over the color map looking for the nearest point in RGB
	* space. There is no visual psychology reason for that
	* criterion, but it's easy to implement and the results are
	* far more pleasing.
	*
	int
	rgb2cmap(int cr, int cg, int cb)
	{
	int r, g, b, v, cv;

	if(cr < 0)
	cr = 0;
	else if(cr > 255)
	cr = 255;
	if(cg < 0)
	cg = 0;
	else if(cg > 255)
	cg = 255;
	if(cb < 0)
	cb = 0;
	else if(cb > 255)
	cb = 255;
	r = cr>>6;
	g = cg>>6;
	b = cb>>6;
	cv = cr;
	if(cg > cv)
	cv = cg;
	if(cb > cv)
	cv = cb;
	v = (cv>>4)&3;
	return ((((r<<2)+v)<<4)+(((g<<2)+b+v-r)&15));
	}
	*/

	int
	rgb2cmap(int cr, int cg, int cb)
	{
	int i, r, g, b, sq;
	u32int rgb;
	int best, bestsq;

	best = 0;
	bestsq = 0x7FFFFFFF;
	for(i=0; i<256; i++){
	rgb = cmap2rgb(i);
	r = (rgb>>16) & 0xFF;
	g = (rgb>>8) & 0xFF;
	b = (rgb>>0) & 0xFF;
	sq = (r-cr)(r-cr)+(g-cg)(g-cg)+(b-cb)*(b-cb);
	if(sq < bestsq){
	bestsq = sq;
	best = i;
	}
	}
	return best;
	}

	int
	cmap2rgb(int c)
	{
	int j, num, den, r, g, b, v, rgb;

	r = c>>6;
	v = (c>>4)&3;
	j = (c-v+r)&15;
	g = j>>2;
	b = j&3;
	den=r;
	if(g>den)
	den=g;
	if(b>den)
	den=b;
	if(den==0) {
	v *= 17;
	rgb = (v<<16)\|(v<<8)\|v;
	}
	else{
	num=17(4den+v);
	rgb = ((rnum/den)<<16)\|((gnum/den)<<8)\|(b*num/den);
	}
	return rgb;
	}

	int
	cmap2rgba(int c)
	{
	return (cmap2rgb(c)<<8)\|0xFF;
	}