src/common/spec_rgb.c

#ifndef lint
static const char       RCSid[] = "$Id$";
#endif
/*
 * Convert colors and spectral ranges.
 * Added von Kries white-balance calculations 10/01 (GW).
 *
 * Externals declared in color.h
 */

#include "copyright.h"

#include "color.h"
#include <string.h>

#define CEPS    1e-4                    /* color epsilon */

#define CEQ(v1,v2)      ((v1) <= (v2)+CEPS && (v2) <= (v1)+CEPS)

#define XYEQ(c1,c2)     (CEQ((c1)[CIEX],(c2)[CIEX]) && CEQ((c1)[CIEY],(c2)[CIEY]))


RGBPRIMS  stdprims = STDPRIMS;  /* standard primary chromaticities */

COLOR  cblack = BLKCOLOR;               /* global black color */
COLOR  cwhite = WHTCOLOR;               /* global white color */

float  xyneu[2] = {1./3., 1./3.};       /* neutral xy chromaticities */

/*
 *      The following table contains the CIE tristimulus integrals
 *  for X, Y, and Z.  The table is cumulative, so that
 *  each color coordinate integrates to 1.
 */

#define  STARTWL        380             /* starting wavelength (nanometers) */
#define  INCWL          10              /* wavelength increment */
#define  NINC           40              /* # of values */

static BYTE  chroma[3][NINC] = {
        {                                                       /* X */
                0,   0,   0,   2,   6,   13,  22,  30,  36,  41,
                42,  43,  43,  44,  46,  52,  60,  71,  87,  106,
                128, 153, 178, 200, 219, 233, 243, 249, 252, 254,
                255, 255, 255, 255, 255, 255, 255, 255, 255, 255
        }, {                                                    /* Y */
                0,   0,   0,   0,   0,   1,   2,   4,   7,   11,
                17,  24,  34,  48,  64,  84,  105, 127, 148, 169,
                188, 205, 220, 232, 240, 246, 250, 253, 254, 255,
                255, 255, 255, 255, 255, 255, 255, 255, 255, 255
        }, {                                                    /* Z */
                0,   0,   2,   10,  32,  66,  118, 153, 191, 220,
                237, 246, 251, 253, 254, 255, 255, 255, 255, 255,
                255, 255, 255, 255, 255, 255, 255, 255, 255, 255,
                255, 255, 255, 255, 255, 255, 255, 255, 255, 255
        }
};

COLORMAT  xyz2rgbmat = {                /* XYZ to RGB (no white balance) */
        {(CIE_y_g - CIE_y_b - CIE_x_b*CIE_y_g + CIE_y_b*CIE_x_g)/CIE_C_rD,
         (CIE_x_b - CIE_x_g - CIE_x_b*CIE_y_g + CIE_x_g*CIE_y_b)/CIE_C_rD,
         (CIE_x_g*CIE_y_b - CIE_x_b*CIE_y_g)/CIE_C_rD},
        {(CIE_y_b - CIE_y_r - CIE_y_b*CIE_x_r + CIE_y_r*CIE_x_b)/CIE_C_gD,
         (CIE_x_r - CIE_x_b - CIE_x_r*CIE_y_b + CIE_x_b*CIE_y_r)/CIE_C_gD,
         (CIE_x_b*CIE_y_r - CIE_x_r*CIE_y_b)/CIE_C_gD},
        {(CIE_y_r - CIE_y_g - CIE_y_r*CIE_x_g + CIE_y_g*CIE_x_r)/CIE_C_bD,
         (CIE_x_g - CIE_x_r - CIE_x_g*CIE_y_r + CIE_x_r*CIE_y_g)/CIE_C_bD,
         (CIE_x_r*CIE_y_g - CIE_x_g*CIE_y_r)/CIE_C_bD}
};

COLORMAT  rgb2xyzmat = {                /* RGB to XYZ (no white balance) */
        {CIE_x_r*CIE_C_rD/CIE_D,CIE_x_g*CIE_C_gD/CIE_D,CIE_x_b*CIE_C_bD/CIE_D},
        {CIE_y_r*CIE_C_rD/CIE_D,CIE_y_g*CIE_C_gD/CIE_D,CIE_y_b*CIE_C_bD/CIE_D},
        {(1.-CIE_x_r-CIE_y_r)*CIE_C_rD/CIE_D,
         (1.-CIE_x_g-CIE_y_g)*CIE_C_gD/CIE_D,
         (1.-CIE_x_b-CIE_y_b)*CIE_C_bD/CIE_D}
};

COLORMAT  vkmat = {             /* Sharp primary matrix */
        { 1.2694, -0.0988, -0.1706},
        {-0.8364,  1.8006,  0.0357},
        { 0.0297, -0.0315,  1.0018}
};

COLORMAT  ivkmat = {            /* inverse Sharp primary matrix */
        { 0.8156,  0.0472,  0.1372},
        { 0.3791,  0.5769,  0.0440},
        {-0.0123,  0.0167,  0.9955}
};


void
spec_rgb(col, s, e)             /* compute RGB color from spectral range */
COLOR  col;
int  s, e;
{
        COLOR  ciecolor;

        spec_cie(ciecolor, s, e);
        cie_rgb(col, ciecolor);
}


void
spec_cie(col, s, e)             /* compute a color from a spectral range */
COLOR  col;             /* returned color */
int  s, e;              /* starting and ending wavelengths */
{
        register int  i, d, r;
        
        s -= STARTWL;
        if (s < 0)
                s = 0;

        e -= STARTWL;
        if (e <= s) {
                col[CIEX] = col[CIEY] = col[CIEZ] = 0.0;
                return;
        }
        if (e >= INCWL*(NINC - 1))
                e = INCWL*(NINC - 1) - 1;

        d = e / INCWL;                  /* interpolate values */
        r = e % INCWL;
        for (i = 0; i < 3; i++)
                col[i] = chroma[i][d]*(INCWL - r) + chroma[i][d + 1]*r;

        d = s / INCWL;
        r = s % INCWL;
        for (i = 0; i < 3; i++)
                col[i] -= chroma[i][d]*(INCWL - r) - chroma[i][d + 1]*r;

        col[CIEX] = (col[CIEX] + 0.5) * (1./(256*INCWL));
        col[CIEY] = (col[CIEY] + 0.5) * (1./(256*INCWL));
        col[CIEZ] = (col[CIEZ] + 0.5) * (1./(256*INCWL));
}


void
cie_rgb(rgb, xyz)               /* convert CIE color to standard RGB */
COLOR   rgb;
COLOR  xyz;
{
        colortrans(rgb, xyz2rgbmat, xyz);
        clipgamut(rgb, xyz[CIEY], CGAMUT_LOWER, cblack, cwhite);
}


int
clipgamut(col, brt, gamut, lower, upper)        /* clip to gamut cube */
COLOR  col;
double  brt;
int  gamut;
COLOR  lower, upper;
{
        int  rflags = 0;
        double  brtmin, brtmax, v, vv;
        COLOR  cgry;
        register int  i;
                                        /* check for no check */
        if (gamut == 0) return(0);
                                        /* check brightness limits */
        brtmin = 1./3.*(lower[0]+lower[1]+lower[2]);
        if (gamut & CGAMUT_LOWER && brt < brtmin) {
                copycolor(col, lower);
                return(CGAMUT_LOWER);
        }
        brtmax = 1./3.*(upper[0]+upper[1]+upper[2]);
        if (gamut & CGAMUT_UPPER && brt > brtmax) {
                copycolor(col, upper);
                return(CGAMUT_UPPER);
        }
                                        /* compute equivalent grey */
        v = (brt - brtmin)/(brtmax - brtmin);
        for (i = 0; i < 3; i++)
                cgry[i] = v*upper[i] + (1.-v)*lower[i];
        vv = 1.;                        /* check each limit */
        for (i = 0; i < 3; i++)
                if (gamut & CGAMUT_LOWER && col[i] < lower[i]) {
                        v = (lower[i]+CEPS - cgry[i])/(col[i] - cgry[i]);
                        if (v < vv) vv = v;
                        rflags |= CGAMUT_LOWER;
                } else if (gamut & CGAMUT_UPPER && col[i] > upper[i]) {
                        v = (upper[i]-CEPS - cgry[i])/(col[i] - cgry[i]);
                        if (v < vv) vv = v;
                        rflags |= CGAMUT_UPPER;
                }
        if (rflags)                     /* desaturate to cube face */
                for (i = 0; i < 3; i++)
                        col[i] = vv*col[i] + (1.-vv)*cgry[i];
        return(rflags);
}


void
colortrans(c2, mat, c1)         /* convert c1 by mat and put into c2 */
register COLOR  c2;
register COLORMAT  mat;
register COLOR  c1;
{
        COLOR   cout;

        cout[0] = mat[0][0]*c1[0] + mat[0][1]*c1[1] + mat[0][2]*c1[2];
        cout[1] = mat[1][0]*c1[0] + mat[1][1]*c1[1] + mat[1][2]*c1[2];
        cout[2] = mat[2][0]*c1[0] + mat[2][1]*c1[1] + mat[2][2]*c1[2];

        copycolor(c2, cout);
}


void
multcolormat(m3, m2, m1)        /* multiply m1 by m2 and put into m3 */
COLORMAT  m3;                   /* m3 can be either m1 or m2 w/o harm */
COLORMAT  m2, m1;
{
        COLORMAT  mt;
        register int  i, j;

        for (i = 0; i < 3; i++)
                for (j = 0; j < 3; j++)
                        mt[i][j] =      m1[i][0]*m2[0][j] +
                                        m1[i][1]*m2[1][j] +
                                        m1[i][2]*m2[2][j] ;
        cpcolormat(m3, mt);
}


void
compxyz2rgbmat(mat, pr)         /* compute conversion from CIE to RGB space */
COLORMAT  mat;
register RGBPRIMS  pr;
{
        double  C_rD, C_gD, C_bD;

        if (pr == stdprims) {   /* can use xyz2rgbmat */
                cpcolormat(mat, xyz2rgbmat);
                return;
        }
        C_rD = (1./pr[WHT][CIEY]) *
                        ( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) -
                          pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) +
                  pr[GRN][CIEX]*pr[BLU][CIEY] - pr[BLU][CIEX]*pr[GRN][CIEY] ) ;
        C_gD = (1./pr[WHT][CIEY]) *
                        ( pr[WHT][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) -
                          pr[WHT][CIEY]*(pr[BLU][CIEX] - pr[RED][CIEX]) -
                  pr[RED][CIEX]*pr[BLU][CIEY] + pr[BLU][CIEX]*pr[RED][CIEY] ) ;
        C_bD = (1./pr[WHT][CIEY]) *
                        ( pr[WHT][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) -
                          pr[WHT][CIEY]*(pr[RED][CIEX] - pr[GRN][CIEX]) +
                  pr[RED][CIEX]*pr[GRN][CIEY] - pr[GRN][CIEX]*pr[RED][CIEY] ) ;

        mat[0][0] = (pr[GRN][CIEY] - pr[BLU][CIEY] -
                        pr[BLU][CIEX]*pr[GRN][CIEY] +
                        pr[BLU][CIEY]*pr[GRN][CIEX])/C_rD ;
        mat[0][1] = (pr[BLU][CIEX] - pr[GRN][CIEX] -
                        pr[BLU][CIEX]*pr[GRN][CIEY] +
                        pr[GRN][CIEX]*pr[BLU][CIEY])/C_rD ;
        mat[0][2] = (pr[GRN][CIEX]*pr[BLU][CIEY] -
                        pr[BLU][CIEX]*pr[GRN][CIEY])/C_rD ;
        mat[1][0] = (pr[BLU][CIEY] - pr[RED][CIEY] -
                        pr[BLU][CIEY]*pr[RED][CIEX] +
                        pr[RED][CIEY]*pr[BLU][CIEX])/C_gD ;
        mat[1][1] = (pr[RED][CIEX] - pr[BLU][CIEX] -
                        pr[RED][CIEX]*pr[BLU][CIEY] +
                        pr[BLU][CIEX]*pr[RED][CIEY])/C_gD ;
        mat[1][2] = (pr[BLU][CIEX]*pr[RED][CIEY] -
                        pr[RED][CIEX]*pr[BLU][CIEY])/C_gD ;
        mat[2][0] = (pr[RED][CIEY] - pr[GRN][CIEY] -
                        pr[RED][CIEY]*pr[GRN][CIEX] +
                        pr[GRN][CIEY]*pr[RED][CIEX])/C_bD ;
        mat[2][1] = (pr[GRN][CIEX] - pr[RED][CIEX] -
                        pr[GRN][CIEX]*pr[RED][CIEY] +
                        pr[RED][CIEX]*pr[GRN][CIEY])/C_bD ;
        mat[2][2] = (pr[RED][CIEX]*pr[GRN][CIEY] -
                        pr[GRN][CIEX]*pr[RED][CIEY])/C_bD ;
}


void
comprgb2xyzmat(mat, pr)         /* compute conversion from RGB to CIE space */
COLORMAT  mat;
register RGBPRIMS  pr;
{
        double  C_rD, C_gD, C_bD, D;

        if (pr == stdprims) {   /* can use rgb2xyzmat */
                cpcolormat(mat, rgb2xyzmat);
                return;
        }
        C_rD = (1./pr[WHT][CIEY]) *
                        ( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) -
                          pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) +
                  pr[GRN][CIEX]*pr[BLU][CIEY] - pr[BLU][CIEX]*pr[GRN][CIEY] ) ;
        C_gD = (1./pr[WHT][CIEY]) *
                        ( pr[WHT][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) -
                          pr[WHT][CIEY]*(pr[BLU][CIEX] - pr[RED][CIEX]) -
                  pr[RED][CIEX]*pr[BLU][CIEY] + pr[BLU][CIEX]*pr[RED][CIEY] ) ;
        C_bD = (1./pr[WHT][CIEY]) *
                        ( pr[WHT][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) -
                          pr[WHT][CIEY]*(pr[RED][CIEX] - pr[GRN][CIEX]) +
                  pr[RED][CIEX]*pr[GRN][CIEY] - pr[GRN][CIEX]*pr[RED][CIEY] ) ;
        D = pr[RED][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) +
                        pr[GRN][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) +
                        pr[BLU][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) ;
        mat[0][0] = pr[RED][CIEX]*C_rD/D;
        mat[0][1] = pr[GRN][CIEX]*C_gD/D;
        mat[0][2] = pr[BLU][CIEX]*C_bD/D;
        mat[1][0] = pr[RED][CIEY]*C_rD/D;
        mat[1][1] = pr[GRN][CIEY]*C_gD/D;
        mat[1][2] = pr[BLU][CIEY]*C_bD/D;
        mat[2][0] = (1.-pr[RED][CIEX]-pr[RED][CIEY])*C_rD/D;
        mat[2][1] = (1.-pr[GRN][CIEX]-pr[GRN][CIEY])*C_gD/D;
        mat[2][2] = (1.-pr[BLU][CIEX]-pr[BLU][CIEY])*C_bD/D;
}


void
comprgb2rgbmat(mat, pr1, pr2)   /* compute conversion from RGB1 to RGB2 */
COLORMAT  mat;
RGBPRIMS  pr1, pr2;
{
        COLORMAT  pr1toxyz, xyztopr2;

        if (pr1 == pr2) {
                mat[0][0] = mat[1][1] = mat[2][2] = 1.0;
                mat[0][1] = mat[0][2] = mat[1][0] =
                mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
                return;
        }
        comprgb2xyzmat(pr1toxyz, pr1);
        compxyz2rgbmat(xyztopr2, pr2);
                                /* combine transforms */
        multcolormat(mat, pr1toxyz, xyztopr2);
}


void
compxyzWBmat(mat, wht1, wht2)   /* CIE von Kries transform from wht1 to wht2 */
COLORMAT  mat;
float  wht1[2], wht2[2];
{
        COLOR   cw1, cw2;
        if (XYEQ(wht1,wht2)) {
                mat[0][0] = mat[1][1] = mat[2][2] = 1.0;
                mat[0][1] = mat[0][2] = mat[1][0] =
                mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
                return;
        }
        cw1[RED] = wht1[CIEX]/wht1[CIEY];
        cw1[GRN] = 1.;
        cw1[BLU] = (1. - wht1[CIEX] - wht1[CIEY])/wht1[CIEY];
        colortrans(cw1, vkmat, cw1);
        cw2[RED] = wht2[CIEX]/wht2[CIEY];
        cw2[GRN] = 1.;
        cw2[BLU] = (1. - wht2[CIEX] - wht2[CIEY])/wht2[CIEY];
        colortrans(cw2, vkmat, cw2);
        mat[0][0] = cw2[RED]/cw1[RED];
        mat[1][1] = cw2[GRN]/cw1[GRN];
        mat[2][2] = cw2[BLU]/cw1[BLU];
        mat[0][1] = mat[0][2] = mat[1][0] =
        mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
        multcolormat(mat, vkmat, mat);
        multcolormat(mat, mat, ivkmat);
}


void
compxyz2rgbWBmat(mat, pr)       /* von Kries conversion from CIE to RGB space */
COLORMAT  mat;
RGBPRIMS  pr;
{
        COLORMAT        wbmat;

        compxyz2rgbmat(mat, pr);
        if (XYEQ(pr[WHT],xyneu))
                return;
        compxyzWBmat(wbmat, xyneu, pr[WHT]);
        multcolormat(mat, wbmat, mat);
}

void
comprgb2xyzWBmat(mat, pr)       /* von Kries conversion from RGB to CIE space */
COLORMAT  mat;
RGBPRIMS  pr;
{
        COLORMAT        wbmat;
        
        comprgb2xyzmat(mat, pr);
        if (XYEQ(pr[WHT],xyneu))
                return;
        compxyzWBmat(wbmat, pr[WHT], xyneu);
        multcolormat(mat, mat, wbmat);
}

void
comprgb2rgbWBmat(mat, pr1, pr2) /* von Kries conversion from RGB1 to RGB2 */
COLORMAT  mat;
RGBPRIMS  pr1, pr2;
{
        COLORMAT  pr1toxyz, xyztopr2, wbmat;

        if (pr1 == pr2) {
                mat[0][0] = mat[1][1] = mat[2][2] = 1.0;
                mat[0][1] = mat[0][2] = mat[1][0] =
                mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
                return;
        }
        comprgb2xyzmat(pr1toxyz, pr1);
        compxyzWBmat(wbmat, pr1[WHT], pr2[WHT]);
        compxyz2rgbmat(xyztopr2, pr2);
                                /* combine transforms */
        multcolormat(mat, pr1toxyz, wbmat);
        multcolormat(mat, mat, xyztopr2);
}
Revision:	2.12
Committed:	Tue Feb 25 02:47:22 2003 UTC (22 years, 8 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad3R5
Changes since 2.11:	+1 -56 lines
Log Message:	Replaced inline copyright notice with #include "copyright.h"
#	User	Rev	Content
1	greg	1.1	#ifndef lint
2	greg	2.11	static const char RCSid[] = "$Id$";
3	greg	1.1	#endif
4			/*
5			* Convert colors and spectral ranges.
6	greg	2.11	* Added von Kries white-balance calculations 10/01 (GW).
7			*
8			* Externals declared in color.h
9			*/
10
11	greg	2.12	#include "copyright.h"
12	greg	1.1
13			#include "color.h"
14	greg	2.11	#include <string.h>
15
16			#define CEPS 1e-4 /* color epsilon */
17
18			#define CEQ(v1,v2) ((v1) <= (v2)+CEPS && (v2) <= (v1)+CEPS)
19	greg	1.1
20	greg	2.11	#define XYEQ(c1,c2) (CEQ((c1)[CIEX],(c2)[CIEX]) && CEQ((c1)[CIEY],(c2)[CIEY]))
21	greg	2.5
22	gwlarson	2.10
23	greg	2.11	RGBPRIMS stdprims = STDPRIMS; /* standard primary chromaticities */
24	greg	2.5
25	greg	2.8	COLOR cblack = BLKCOLOR; /* global black color */
26			COLOR cwhite = WHTCOLOR; /* global white color */
27
28	greg	2.11	float xyneu[2] = {1./3., 1./3.}; /* neutral xy chromaticities */
29
30	greg	1.1	/*
31			* The following table contains the CIE tristimulus integrals
32			* for X, Y, and Z. The table is cumulative, so that
33			* each color coordinate integrates to 1.
34			*/
35
36			#define STARTWL 380 /* starting wavelength (nanometers) */
37			#define INCWL 10 /* wavelength increment */
38			#define NINC 40 /* # of values */
39
40			static BYTE chroma[3][NINC] = {
41			{ /* X */
42			0, 0, 0, 2, 6, 13, 22, 30, 36, 41,
43			42, 43, 43, 44, 46, 52, 60, 71, 87, 106,
44			128, 153, 178, 200, 219, 233, 243, 249, 252, 254,
45			255, 255, 255, 255, 255, 255, 255, 255, 255, 255
46			}, { /* Y */
47			0, 0, 0, 0, 0, 1, 2, 4, 7, 11,
48			17, 24, 34, 48, 64, 84, 105, 127, 148, 169,
49			188, 205, 220, 232, 240, 246, 250, 253, 254, 255,
50			255, 255, 255, 255, 255, 255, 255, 255, 255, 255
51			}, { /* Z */
52			0, 0, 2, 10, 32, 66, 118, 153, 191, 220,
53			237, 246, 251, 253, 254, 255, 255, 255, 255, 255,
54			255, 255, 255, 255, 255, 255, 255, 255, 255, 255,
55			255, 255, 255, 255, 255, 255, 255, 255, 255, 255
56			}
57			};
58
59	greg	2.11	COLORMAT xyz2rgbmat = { /* XYZ to RGB (no white balance) */
60	greg	2.3	{(CIE_y_g - CIE_y_b - CIE_x_bCIE_y_g + CIE_y_bCIE_x_g)/CIE_C_rD,
61			(CIE_x_b - CIE_x_g - CIE_x_bCIE_y_g + CIE_x_gCIE_y_b)/CIE_C_rD,
62			(CIE_x_gCIE_y_b - CIE_x_bCIE_y_g)/CIE_C_rD},
63			{(CIE_y_b - CIE_y_r - CIE_y_bCIE_x_r + CIE_y_rCIE_x_b)/CIE_C_gD,
64			(CIE_x_r - CIE_x_b - CIE_x_rCIE_y_b + CIE_x_bCIE_y_r)/CIE_C_gD,
65			(CIE_x_bCIE_y_r - CIE_x_rCIE_y_b)/CIE_C_gD},
66			{(CIE_y_r - CIE_y_g - CIE_y_rCIE_x_g + CIE_y_gCIE_x_r)/CIE_C_bD,
67			(CIE_x_g - CIE_x_r - CIE_x_gCIE_y_r + CIE_x_rCIE_y_g)/CIE_C_bD,
68			(CIE_x_rCIE_y_g - CIE_x_gCIE_y_r)/CIE_C_bD}
69	greg	1.2	};
70	greg	1.1
71	greg	2.11	COLORMAT rgb2xyzmat = { /* RGB to XYZ (no white balance) */
72	greg	2.4	{CIE_x_rCIE_C_rD/CIE_D,CIE_x_gCIE_C_gD/CIE_D,CIE_x_b*CIE_C_bD/CIE_D},
73			{CIE_y_rCIE_C_rD/CIE_D,CIE_y_gCIE_C_gD/CIE_D,CIE_y_b*CIE_C_bD/CIE_D},
74			{(1.-CIE_x_r-CIE_y_r)*CIE_C_rD/CIE_D,
75			(1.-CIE_x_g-CIE_y_g)*CIE_C_gD/CIE_D,
76			(1.-CIE_x_b-CIE_y_b)*CIE_C_bD/CIE_D}
77			};
78	greg	1.2
79	greg	2.11	COLORMAT vkmat = { /* Sharp primary matrix */
80			{ 1.2694, -0.0988, -0.1706},
81			{-0.8364, 1.8006, 0.0357},
82			{ 0.0297, -0.0315, 1.0018}
83			};
84
85			COLORMAT ivkmat = { /* inverse Sharp primary matrix */
86			{ 0.8156, 0.0472, 0.1372},
87			{ 0.3791, 0.5769, 0.0440},
88			{-0.0123, 0.0167, 0.9955}
89			};
90	greg	1.2
91	greg	2.4
92	greg	2.11	void
93	greg	1.1	spec_rgb(col, s, e) /* compute RGB color from spectral range */
94			COLOR col;
95			int s, e;
96			{
97			COLOR ciecolor;
98
99			spec_cie(ciecolor, s, e);
100			cie_rgb(col, ciecolor);
101			}
102
103
104	greg	2.11	void
105	greg	1.1	spec_cie(col, s, e) /* compute a color from a spectral range */
106			COLOR col; /* returned color */
107			int s, e; /* starting and ending wavelengths */
108			{
109			register int i, d, r;
110
111			s -= STARTWL;
112			if (s < 0)
113			s = 0;
114
115			e -= STARTWL;
116	greg	1.2	if (e <= s) {
117	greg	2.5	col[CIEX] = col[CIEY] = col[CIEZ] = 0.0;
118	greg	1.2	return;
119			}
120	greg	1.1	if (e >= INCWL*(NINC - 1))
121			e = INCWL*(NINC - 1) - 1;
122
123			d = e / INCWL; /* interpolate values */
124			r = e % INCWL;
125			for (i = 0; i < 3; i++)
126			col[i] = chroma[i][d](INCWL - r) + chroma[i][d + 1]r;
127
128			d = s / INCWL;
129			r = s % INCWL;
130			for (i = 0; i < 3; i++)
131			col[i] -= chroma[i][d](INCWL - r) - chroma[i][d + 1]r;
132
133	greg	2.5	col[CIEX] = (col[CIEX] + 0.5) * (1./(256*INCWL));
134			col[CIEY] = (col[CIEY] + 0.5) * (1./(256*INCWL));
135			col[CIEZ] = (col[CIEZ] + 0.5) * (1./(256*INCWL));
136	greg	1.1	}
137
138
139	greg	2.11	void
140	greg	2.8	cie_rgb(rgb, xyz) /* convert CIE color to standard RGB */
141	greg	2.11	COLOR rgb;
142			COLOR xyz;
143	greg	2.8	{
144			colortrans(rgb, xyz2rgbmat, xyz);
145			clipgamut(rgb, xyz[CIEY], CGAMUT_LOWER, cblack, cwhite);
146			}
147
148
149			int
150			clipgamut(col, brt, gamut, lower, upper) /* clip to gamut cube */
151			COLOR col;
152			double brt;
153			int gamut;
154			COLOR lower, upper;
155			{
156			int rflags = 0;
157			double brtmin, brtmax, v, vv;
158			COLOR cgry;
159			register int i;
160			/* check for no check */
161			if (gamut == 0) return(0);
162			/* check brightness limits */
163			brtmin = 1./3.*(lower[0]+lower[1]+lower[2]);
164			if (gamut & CGAMUT_LOWER && brt < brtmin) {
165			copycolor(col, lower);
166			return(CGAMUT_LOWER);
167			}
168			brtmax = 1./3.*(upper[0]+upper[1]+upper[2]);
169			if (gamut & CGAMUT_UPPER && brt > brtmax) {
170			copycolor(col, upper);
171			return(CGAMUT_UPPER);
172			}
173			/* compute equivalent grey */
174			v = (brt - brtmin)/(brtmax - brtmin);
175			for (i = 0; i < 3; i++)
176			cgry[i] = vupper[i] + (1.-v)lower[i];
177			vv = 1.; /* check each limit */
178			for (i = 0; i < 3; i++)
179			if (gamut & CGAMUT_LOWER && col[i] < lower[i]) {
180	gwlarson	2.10	v = (lower[i]+CEPS - cgry[i])/(col[i] - cgry[i]);
181	greg	2.8	if (v < vv) vv = v;
182			rflags \|= CGAMUT_LOWER;
183			} else if (gamut & CGAMUT_UPPER && col[i] > upper[i]) {
184	gwlarson	2.10	v = (upper[i]-CEPS - cgry[i])/(col[i] - cgry[i]);
185	greg	2.8	if (v < vv) vv = v;
186			rflags \|= CGAMUT_UPPER;
187			}
188			if (rflags) /* desaturate to cube face */
189			for (i = 0; i < 3; i++)
190			col[i] = vvcol[i] + (1.-vv)cgry[i];
191			return(rflags);
192			}
193
194
195	greg	2.11	void
196	greg	2.8	colortrans(c2, mat, c1) /* convert c1 by mat and put into c2 */
197	greg	2.11	register COLOR c2;
198	greg	2.5	register COLORMAT mat;
199	greg	2.11	register COLOR c1;
200	greg	1.1	{
201	greg	2.9	COLOR cout;
202
203			cout[0] = mat[0][0]c1[0] + mat[0][1]c1[1] + mat[0][2]*c1[2];
204			cout[1] = mat[1][0]c1[0] + mat[1][1]c1[1] + mat[1][2]*c1[2];
205			cout[2] = mat[2][0]c1[0] + mat[2][1]c1[1] + mat[2][2]*c1[2];
206
207			copycolor(c2, cout);
208	greg	2.4	}
209
210
211	greg	2.11	void
212	greg	2.5	multcolormat(m3, m2, m1) /* multiply m1 by m2 and put into m3 */
213	greg	2.11	COLORMAT m3; /* m3 can be either m1 or m2 w/o harm */
214			COLORMAT m2, m1;
215	greg	2.4	{
216	greg	2.5	COLORMAT mt;
217			register int i, j;
218	greg	2.4
219			for (i = 0; i < 3; i++)
220	greg	2.5	for (j = 0; j < 3; j++)
221			mt[i][j] = m1[i][0]*m2[0][j] +
222			m1[i][1]*m2[1][j] +
223			m1[i][2]*m2[2][j] ;
224			cpcolormat(m3, mt);
225			}
226
227
228	greg	2.11	void
229	greg	2.5	compxyz2rgbmat(mat, pr) /* compute conversion from CIE to RGB space */
230			COLORMAT mat;
231			register RGBPRIMS pr;
232			{
233			double C_rD, C_gD, C_bD;
234
235	greg	2.6	if (pr == stdprims) { /* can use xyz2rgbmat */
236			cpcolormat(mat, xyz2rgbmat);
237			return;
238			}
239	greg	2.5	C_rD = (1./pr[WHT][CIEY]) *
240			( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) -
241			pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) +
242			pr[GRN][CIEX]pr[BLU][CIEY] - pr[BLU][CIEX]pr[GRN][CIEY] ) ;
243			C_gD = (1./pr[WHT][CIEY]) *
244			( pr[WHT][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) -
245			pr[WHT][CIEY]*(pr[BLU][CIEX] - pr[RED][CIEX]) -
246			pr[RED][CIEX]pr[BLU][CIEY] + pr[BLU][CIEX]pr[RED][CIEY] ) ;
247			C_bD = (1./pr[WHT][CIEY]) *
248			( pr[WHT][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) -
249			pr[WHT][CIEY]*(pr[RED][CIEX] - pr[GRN][CIEX]) +
250			pr[RED][CIEX]pr[GRN][CIEY] - pr[GRN][CIEX]pr[RED][CIEY] ) ;
251
252			mat[0][0] = (pr[GRN][CIEY] - pr[BLU][CIEY] -
253			pr[BLU][CIEX]*pr[GRN][CIEY] +
254			pr[BLU][CIEY]*pr[GRN][CIEX])/C_rD ;
255			mat[0][1] = (pr[BLU][CIEX] - pr[GRN][CIEX] -
256			pr[BLU][CIEX]*pr[GRN][CIEY] +
257			pr[GRN][CIEX]*pr[BLU][CIEY])/C_rD ;
258			mat[0][2] = (pr[GRN][CIEX]*pr[BLU][CIEY] -
259			pr[BLU][CIEX]*pr[GRN][CIEY])/C_rD ;
260			mat[1][0] = (pr[BLU][CIEY] - pr[RED][CIEY] -
261			pr[BLU][CIEY]*pr[RED][CIEX] +
262			pr[RED][CIEY]*pr[BLU][CIEX])/C_gD ;
263			mat[1][1] = (pr[RED][CIEX] - pr[BLU][CIEX] -
264			pr[RED][CIEX]*pr[BLU][CIEY] +
265			pr[BLU][CIEX]*pr[RED][CIEY])/C_gD ;
266			mat[1][2] = (pr[BLU][CIEX]*pr[RED][CIEY] -
267			pr[RED][CIEX]*pr[BLU][CIEY])/C_gD ;
268			mat[2][0] = (pr[RED][CIEY] - pr[GRN][CIEY] -
269			pr[RED][CIEY]*pr[GRN][CIEX] +
270			pr[GRN][CIEY]*pr[RED][CIEX])/C_bD ;
271			mat[2][1] = (pr[GRN][CIEX] - pr[RED][CIEX] -
272			pr[GRN][CIEX]*pr[RED][CIEY] +
273			pr[RED][CIEX]*pr[GRN][CIEY])/C_bD ;
274			mat[2][2] = (pr[RED][CIEX]*pr[GRN][CIEY] -
275			pr[GRN][CIEX]*pr[RED][CIEY])/C_bD ;
276			}
277
278
279	greg	2.11	void
280	greg	2.5	comprgb2xyzmat(mat, pr) /* compute conversion from RGB to CIE space */
281			COLORMAT mat;
282			register RGBPRIMS pr;
283			{
284			double C_rD, C_gD, C_bD, D;
285
286	greg	2.6	if (pr == stdprims) { /* can use rgb2xyzmat */
287			cpcolormat(mat, rgb2xyzmat);
288			return;
289			}
290	greg	2.5	C_rD = (1./pr[WHT][CIEY]) *
291			( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) -
292			pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) +
293			pr[GRN][CIEX]pr[BLU][CIEY] - pr[BLU][CIEX]pr[GRN][CIEY] ) ;
294			C_gD = (1./pr[WHT][CIEY]) *
295			( pr[WHT][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) -
296			pr[WHT][CIEY]*(pr[BLU][CIEX] - pr[RED][CIEX]) -
297			pr[RED][CIEX]pr[BLU][CIEY] + pr[BLU][CIEX]pr[RED][CIEY] ) ;
298			C_bD = (1./pr[WHT][CIEY]) *
299			( pr[WHT][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) -
300			pr[WHT][CIEY]*(pr[RED][CIEX] - pr[GRN][CIEX]) +
301			pr[RED][CIEX]pr[GRN][CIEY] - pr[GRN][CIEX]pr[RED][CIEY] ) ;
302			D = pr[RED][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) +
303			pr[GRN][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) +
304			pr[BLU][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) ;
305			mat[0][0] = pr[RED][CIEX]*C_rD/D;
306			mat[0][1] = pr[GRN][CIEX]*C_gD/D;
307			mat[0][2] = pr[BLU][CIEX]*C_bD/D;
308			mat[1][0] = pr[RED][CIEY]*C_rD/D;
309			mat[1][1] = pr[GRN][CIEY]*C_gD/D;
310			mat[1][2] = pr[BLU][CIEY]*C_bD/D;
311			mat[2][0] = (1.-pr[RED][CIEX]-pr[RED][CIEY])*C_rD/D;
312			mat[2][1] = (1.-pr[GRN][CIEX]-pr[GRN][CIEY])*C_gD/D;
313			mat[2][2] = (1.-pr[BLU][CIEX]-pr[BLU][CIEY])*C_bD/D;
314			}
315
316
317	greg	2.11	void
318	greg	2.5	comprgb2rgbmat(mat, pr1, pr2) /* compute conversion from RGB1 to RGB2 */
319			COLORMAT mat;
320			RGBPRIMS pr1, pr2;
321			{
322			COLORMAT pr1toxyz, xyztopr2;
323
324	greg	2.6	if (pr1 == pr2) {
325			mat[0][0] = mat[1][1] = mat[2][2] = 1.0;
326			mat[0][1] = mat[0][2] = mat[1][0] =
327			mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
328			return;
329			}
330			comprgb2xyzmat(pr1toxyz, pr1);
331			compxyz2rgbmat(xyztopr2, pr2);
332	greg	2.5	/* combine transforms */
333			multcolormat(mat, pr1toxyz, xyztopr2);
334	greg	2.11	}
335
336
337			void
338			compxyzWBmat(mat, wht1, wht2) /* CIE von Kries transform from wht1 to wht2 */
339			COLORMAT mat;
340			float wht1[2], wht2[2];
341			{
342			COLOR cw1, cw2;
343			if (XYEQ(wht1,wht2)) {
344			mat[0][0] = mat[1][1] = mat[2][2] = 1.0;
345			mat[0][1] = mat[0][2] = mat[1][0] =
346			mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
347			return;
348			}
349			cw1[RED] = wht1[CIEX]/wht1[CIEY];
350			cw1[GRN] = 1.;
351			cw1[BLU] = (1. - wht1[CIEX] - wht1[CIEY])/wht1[CIEY];
352			colortrans(cw1, vkmat, cw1);
353			cw2[RED] = wht2[CIEX]/wht2[CIEY];
354			cw2[GRN] = 1.;
355			cw2[BLU] = (1. - wht2[CIEX] - wht2[CIEY])/wht2[CIEY];
356			colortrans(cw2, vkmat, cw2);
357			mat[0][0] = cw2[RED]/cw1[RED];
358			mat[1][1] = cw2[GRN]/cw1[GRN];
359			mat[2][2] = cw2[BLU]/cw1[BLU];
360			mat[0][1] = mat[0][2] = mat[1][0] =
361			mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
362			multcolormat(mat, vkmat, mat);
363			multcolormat(mat, mat, ivkmat);
364			}
365
366
367			void
368			compxyz2rgbWBmat(mat, pr) /* von Kries conversion from CIE to RGB space */
369			COLORMAT mat;
370			RGBPRIMS pr;
371			{
372			COLORMAT wbmat;
373
374			compxyz2rgbmat(mat, pr);
375			if (XYEQ(pr[WHT],xyneu))
376			return;
377			compxyzWBmat(wbmat, xyneu, pr[WHT]);
378			multcolormat(mat, wbmat, mat);
379			}
380
381			void
382			comprgb2xyzWBmat(mat, pr) /* von Kries conversion from RGB to CIE space */
383			COLORMAT mat;
384			RGBPRIMS pr;
385			{
386			COLORMAT wbmat;
387
388			comprgb2xyzmat(mat, pr);
389			if (XYEQ(pr[WHT],xyneu))
390			return;
391			compxyzWBmat(wbmat, pr[WHT], xyneu);
392			multcolormat(mat, mat, wbmat);
393			}
394
395			void
396			comprgb2rgbWBmat(mat, pr1, pr2) /* von Kries conversion from RGB1 to RGB2 */
397			COLORMAT mat;
398			RGBPRIMS pr1, pr2;
399			{
400			COLORMAT pr1toxyz, xyztopr2, wbmat;
401
402			if (pr1 == pr2) {
403			mat[0][0] = mat[1][1] = mat[2][2] = 1.0;
404			mat[0][1] = mat[0][2] = mat[1][0] =
405			mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
406			return;
407			}
408			comprgb2xyzmat(pr1toxyz, pr1);
409			compxyzWBmat(wbmat, pr1[WHT], pr2[WHT]);
410			compxyz2rgbmat(xyztopr2, pr2);
411			/* combine transforms */
412			multcolormat(mat, pr1toxyz, wbmat);
413			multcolormat(mat, mat, xyztopr2);
414	greg	1.1	}