src/px/ciq.c

/* Copyright 1988 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
CIQ - main program for color image quantization
options for Floyd-Steinberg dithering by minimization of accumulated error
or undithered quantization

Paul Heckbert   16 April 82, cleaned up 8 June 86
Greg Ward       1 March 88, modified for arbitrary picture sizes
*/

#include "ciq.h"

#define table(m,r,g,b) hist[m[0][r]|m[1][g]|m[2][b]]  /* histogram/pvtable */

int hist[len];          /* list of frequencies or pixelvalues for coded color */

colormap color;         /* quantization colormap */
int n;                  /* number of colors in it */

/*----------------------------------------------------------------------*/

ciq(dith,nw,synth,cm)
int dith;               /* is dithering desired? 0=no, 1=yes */
int nw;                 /* number of colors wanted in output image */
int synth;              /* synthesize colormap? 0=no, 1=yes */
colormap cm;            /* quantization colormap */
                        /* read if synth=0; always written */
{
    int na,i;
    colormap ocm;

    picreadcm(ocm);     /* read original picture's colormap (usually identity)*/
    sample(ocm);        /* find histogram */

    if (synth)
        n = makecm(nw,&na);     /* analyze histogram and synthesize colormap */
    else {
        bcopy(cm,color,sizeof color);
        n = nw;
        na = 0;
        for (i=0; i<len; i++) if (hist[i]) na++;
        /*printf("from %d to %d colors\n",na,n);*/
    }
    picwritecm(color);

    if (dith)
        draw_dith(ocm);
    else {
        for (i=0; i<len; i++)
            if (hist[i]) hist[i] = closest(red(i),gre(i),blu(i));
        draw_nodith(ocm);
    }

    bcopy(color,cm,sizeof color);
    /*endclosest();*/
}

/*----------------------------------------------------------------------*/

sample(ocm)             /* make color frequency table (histogram) */
colormap ocm;
{
    register int x,y;
    register rgbpixel *lp;
    rgbpixel *line;
    colormap map;

    line = line3alloc(xmax);
    convertmap(ocm,map);

    for (y=0; y<ymax; y++) {
        picreadline3(y,line);
        for (lp=line, x=0; x<xmax; x++, lp++)
            table(map,lp->r,lp->g,lp->b)++;
    }
    free((char *)line);
}

convertmap(in,out)              /* convert to shifted color map */
register colormap in,out;
{
    register int j;

    for (j=0; j<256; j++) {
        out[0][j] = (in[0][j]&0xf8)<<7;
        out[1][j] = (in[1][j]&0xf8)<<2;
        out[2][j] = (in[2][j]&0xf8)>>3;
    }
}

draw_nodith(ocm)        /* quantize without dithering */
colormap ocm;                   /* colormap for orig */
{
    register int x,y;
    register rgbpixel *lp;
    rgbpixel *iline;
    pixel *oline;
    colormap map;

    iline = line3alloc(xmax);
    oline = linealloc(xmax);
    convertmap(ocm,map);

    for (y=0; y<ymax; y++) {
        picreadline3(y,iline);
        for (lp=iline, x=0; x<xmax; x++, lp++)
            oline[x] = table(map,lp->r,lp->g,lp->b);
        picwriteline(y,oline);
    }
    free((char *)iline);
    free((char *)oline);
}

draw_dith(ocm)                  /* quantize with dithering */
colormap ocm;                   /* colormap for orig */
{
    register int *p,*q,rr,gg,bb,v,x,y,*P,*Q,*R;
    int *buf;
    rgbpixel *iline;            /* input scanline */
    pixel *oline;               /* output scanline */

    buf = (int *)ecalloc(2,3*sizeof(int)*(xmax+1));
    iline = line3alloc(xmax);
    oline = linealloc(xmax);
    /* reuse hist array as quantization table */
    for (v=0; v<len; v++) hist[v] = -1;

    P = &buf[0];
    Q = &buf[3*(xmax+1)];
    for (y=0; y<ymax; y++, R=P, P=Q, Q=R) {
        Q[0] = Q[1] = Q[2] = 0;
        picreadline3(y,iline);
        for (p=P, q=Q, x=0; x<xmax; x++, p+=3, q+=3) {
            rr = ocm[0][iline[x].r]+p[0];
            gg = ocm[1][iline[x].g]+p[1];       /* ideal */
            bb = ocm[2][iline[x].b]+p[2];
            if (rr<0) rr = 0; else if (rr>255) rr = 255;
            if (gg<0) gg = 0; else if (gg>255) gg = 255;
            if (bb<0) bb = 0; else if (bb>255) bb = 255;
            v = (rr&0xf8)<<7 | (gg&0xf8)<<2 | (bb&0xf8)>>3;
            if (hist[v]<0)
                hist[v] = closest(rr,gg,bb);    /* nearest to ideal */
            oline[x] = v = hist[v];
            rr -= color[0][v];
            gg -= color[1][v];                  /* error */
            bb -= color[2][v];
            v = rr*3>>3; p[3] += v; q[0] += v; q[3] = rr-(v<<1);
            v = gg*3>>3; p[4] += v; q[1] += v; q[4] = gg-(v<<1);
            v = bb*3>>3; p[5] += v; q[2] += v; q[5] = bb-(v<<1);
        }
        picwriteline(y,oline);
    }
    free((char *)iline);
    free((char *)oline);
    free((char *)buf);
}
Revision:	1.2
Committed:	Thu Feb 2 14:10:33 1989 UTC (35 years, 3 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 1.1:	+3 -1 lines
Log Message:	Fixed SCCSid
#	User	Rev	Content
1	greg	1.2	/* Copyright 1988 Regents of the University of California */
2	greg	1.1
3			#ifndef lint
4			static char SCCSid[] = "$SunId$ LBL";
5			#endif
6	greg	1.2
7			/*
8	greg	1.1	CIQ - main program for color image quantization
9			options for Floyd-Steinberg dithering by minimization of accumulated error
10			or undithered quantization
11
12			Paul Heckbert 16 April 82, cleaned up 8 June 86
13			Greg Ward 1 March 88, modified for arbitrary picture sizes
14			*/
15
16			#include "ciq.h"
17
18			#define table(m,r,g,b) hist[m[0][r]\|m[1][g]\|m[2][b]] /* histogram/pvtable */
19
20			int hist[len]; /* list of frequencies or pixelvalues for coded color */
21
22			colormap color; /* quantization colormap */
23			int n; /* number of colors in it */
24
25			/----------------------------------------------------------------------/
26
27			ciq(dith,nw,synth,cm)
28			int dith; /* is dithering desired? 0=no, 1=yes */
29			int nw; /* number of colors wanted in output image */
30			int synth; /* synthesize colormap? 0=no, 1=yes */
31			colormap cm; /* quantization colormap */
32			/* read if synth=0; always written */
33			{
34			int na,i;
35			colormap ocm;
36
37			picreadcm(ocm); /* read original picture's colormap (usually identity)*/
38			sample(ocm); /* find histogram */
39
40			if (synth)
41			n = makecm(nw,&na); /* analyze histogram and synthesize colormap */
42			else {
43			bcopy(cm,color,sizeof color);
44			n = nw;
45			na = 0;
46			for (i=0; i<len; i++) if (hist[i]) na++;
47			/printf("from %d to %d colors\n",na,n);/
48			}
49			picwritecm(color);
50
51			if (dith)
52			draw_dith(ocm);
53			else {
54			for (i=0; i<len; i++)
55			if (hist[i]) hist[i] = closest(red(i),gre(i),blu(i));
56			draw_nodith(ocm);
57			}
58
59			bcopy(color,cm,sizeof color);
60			/endclosest();/
61			}
62
63			/----------------------------------------------------------------------/
64
65			sample(ocm) /* make color frequency table (histogram) */
66			colormap ocm;
67			{
68			register int x,y;
69			register rgbpixel *lp;
70			rgbpixel *line;
71			colormap map;
72
73			line = line3alloc(xmax);
74			convertmap(ocm,map);
75
76			for (y=0; y<ymax; y++) {
77			picreadline3(y,line);
78			for (lp=line, x=0; x<xmax; x++, lp++)
79			table(map,lp->r,lp->g,lp->b)++;
80			}
81			free((char *)line);
82			}
83
84			convertmap(in,out) /* convert to shifted color map */
85			register colormap in,out;
86			{
87			register int j;
88
89			for (j=0; j<256; j++) {
90			out[0][j] = (in[0][j]&0xf8)<<7;
91			out[1][j] = (in[1][j]&0xf8)<<2;
92			out[2][j] = (in[2][j]&0xf8)>>3;
93			}
94			}
95
96			draw_nodith(ocm) /* quantize without dithering */
97			colormap ocm; /* colormap for orig */
98			{
99			register int x,y;
100			register rgbpixel *lp;
101			rgbpixel *iline;
102			pixel *oline;
103			colormap map;
104
105			iline = line3alloc(xmax);
106			oline = linealloc(xmax);
107			convertmap(ocm,map);
108
109			for (y=0; y<ymax; y++) {
110			picreadline3(y,iline);
111			for (lp=iline, x=0; x<xmax; x++, lp++)
112			oline[x] = table(map,lp->r,lp->g,lp->b);
113			picwriteline(y,oline);
114			}
115			free((char *)iline);
116			free((char *)oline);
117			}
118
119			draw_dith(ocm) /* quantize with dithering */
120			colormap ocm; /* colormap for orig */
121			{
122			register int p,q,rr,gg,bb,v,x,y,P,Q,*R;
123			int *buf;
124			rgbpixel iline; / input scanline */
125			pixel oline; / output scanline */
126
127			buf = (int )ecalloc(2,3sizeof(int)*(xmax+1));
128			iline = line3alloc(xmax);
129			oline = linealloc(xmax);
130			/* reuse hist array as quantization table */
131			for (v=0; v<len; v++) hist[v] = -1;
132
133			P = &buf[0];
134			Q = &buf[3*(xmax+1)];
135			for (y=0; y<ymax; y++, R=P, P=Q, Q=R) {
136			Q[0] = Q[1] = Q[2] = 0;
137			picreadline3(y,iline);
138			for (p=P, q=Q, x=0; x<xmax; x++, p+=3, q+=3) {
139			rr = ocm[0][iline[x].r]+p[0];
140			gg = ocm[1][iline[x].g]+p[1]; /* ideal */
141			bb = ocm[2][iline[x].b]+p[2];
142			if (rr<0) rr = 0; else if (rr>255) rr = 255;
143			if (gg<0) gg = 0; else if (gg>255) gg = 255;
144			if (bb<0) bb = 0; else if (bb>255) bb = 255;
145			v = (rr&0xf8)<<7 \| (gg&0xf8)<<2 \| (bb&0xf8)>>3;
146			if (hist[v]<0)
147			hist[v] = closest(rr,gg,bb); /* nearest to ideal */
148			oline[x] = v = hist[v];
149			rr -= color[0][v];
150			gg -= color[1][v]; /* error */
151			bb -= color[2][v];
152			v = rr*3>>3; p[3] += v; q[0] += v; q[3] = rr-(v<<1);
153			v = gg*3>>3; p[4] += v; q[1] += v; q[4] = gg-(v<<1);
154			v = bb*3>>3; p[5] += v; q[2] += v; q[5] = bb-(v<<1);
155			}
156			picwriteline(y,oline);
157			}
158			free((char *)iline);
159			free((char *)oline);
160			free((char *)buf);
161			}