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/*
* International Color Consortium color transform expanded support
*
* Author: Graeme W. Gill
* Date: 11/11/2004
* Version: 1.00
*
* Copyright 2000-2004 Graeme W. Gill
* All rights reserved.
* This material is licenced under the GNU AFFERO GENERAL PUBLIC LICENSE Version 3 :-
* see the License.txt file for licencing details.
*
*/
/*
* This is some test code to test the CIECAM02 continuity.
* This test creates file "cam02plot.tif" containing values that
* have been converted to and back from CIECAM02 space.
*/
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include "copyright.h"
#include "aconfig.h"
#include "numlib.h"
#include "icc.h"
#include "xcam.h"
#include "cam02.h"
#include "tiffio.h"
#include "cam02ref.h"
#define DEFRES 100 /* Default cube resolution */
#define NORMAL_XYZ2RGB
#undef NIEVE_XYZ2RGB
#undef COMPLEX_XYZ2RGB
#define SCALE 1.0 /* Compress RGB by scale towards grey */
#ifndef _isnan
#define _isnan(x) ((x) != (x))
#define _finite(x) ((x) == 0.0 || (x) * 1.0000001 != (x))
#endif
static void
Lab2XYZ(double *out, double *in) {
double L = in[0], a = in[1], b = in[2];
double x,y,z,fx,fy,fz;
if (L > 8.0) {
fy = (L + 16.0)/116.0;
y = pow(fy,3.0);
} else {
y = L/903.2963058;
fy = 7.787036979 * y + 16.0/116.0;
}
fx = a/500.0 + fy;
if (fx > 24.0/116.0)
x = pow(fx,3.0);
else
x = (fx - 16.0/116.0)/7.787036979;
fz = fy - b/200.0;
if (fz > 24.0/116.0)
z = pow(fz,3.0);
else
z = (fz - 16.0/116.0)/7.787036979;
out[0] = x * 0.9642;
out[1] = y * 1.0000;
out[2] = z * 0.8249;
}
/* CIE XYZ to perceptual Lab */
static void
XYZ2Lab(double *out, double *in) {
double X = in[0], Y = in[1], Z = in[2];
double x,y,z,fx,fy,fz;
x = X/0.9642;
y = Y/1.0000;
z = Z/0.8249;
if (x > 0.008856451586)
fx = pow(x,1.0/3.0);
else
fx = 7.787036979 * x + 16.0/116.0;
if (y > 0.008856451586)
fy = pow(y,1.0/3.0);
else
fy = 7.787036979 * y + 16.0/116.0;
if (z > 0.008856451586)
fz = pow(z,1.0/3.0);
else
fz = 7.787036979 * z + 16.0/116.0;
out[0] = 116.0 * fy - 16.0;
out[1] = 500.0 * (fx - fy);
out[2] = 200.0 * (fy - fz);
}
#ifdef NORMAL_XYZ2RGB
static double sign(double x) {
if (x < 0.0)
return -1.0;
else
return 1.0;
}
/* Version with reasonable clipping. Converts to Lab, */
/* clips the Lab an then converts to sRGB */
/* Convert from XYZ to sRGB */
void XYZ2sRGB(double *out, double *in, int trace) {
double lab[3];
double tmp[3];
double scale = SCALE; /* Scale RGB towards grey */
double mat[3][3] =
{
{ 3.2410, -1.5374, -0.4986 },
{ -0.9692, 1.8760, 0.0416 },
{ 0.0556, -0.2040, 1.0570 }
};
int i;
// ~~999
trace = 0;
/* Copy from input */
for(i = 0; i < 3; i++)
tmp[i] = in[i];
if (trace) printf("XYZ to RGB\n");
if (trace) printf("input XYZ %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Clip to reasonable range */
// if (tmp[1] <= 0.0)
// tmp[0] = tmp[2] = 0.0;
XYZ2Lab(lab, tmp);
if (trace) printf("Lab %f %f %f\n",tmp[0],tmp[1],tmp[2]);
icmClipLab(lab, lab);
if (trace) printf("Clipped Lab %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* We're going to assume that L == 0 is always black */
if (lab[0] <= 0.0) {
lab[1] = lab[2] = 0.0;
}
if (trace) printf("Clipped Lab2 %f %f %f\n",tmp[0],tmp[1],tmp[2]);
Lab2XYZ(tmp, lab);
if (trace) printf("XYZ %f %f %f\n",tmp[0],tmp[1],tmp[2]);
icmClipXYZ(tmp, tmp);
if (trace) printf("clipped XYZ %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Now convert to sRGB assuming D50 (??) white point */
icmMulBy3x3(tmp, mat, tmp);
/* Scale */
for(i = 0; i < 3; i++) {
tmp[i] = ((tmp[i] - 0.5) * scale) + 0.5;
}
if (trace) printf("raw RGB %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Apply gamma */
for(i = 0; i < 3; i++) {
if (tmp[i] < 0.00304) {
tmp[i] = tmp[i] * 12.92;
} else {
tmp[i] = 1.055 * pow(tmp[i], 1.0/2.4) - 0.055;
}
}
if (trace) printf("gamma corrected RGB %f %f %f\n",tmp[0],tmp[1],tmp[2]);
#ifndef NEVER
/* Clip to nearest */
for(i = 0; i < 3; i++) {
if (tmp[i] < 0.0)
tmp[i] = 0.0;
else if (tmp[i] > 1.0)
tmp[i] = 1.0;
}
#else
/* Clip towards center */
{
double biggest = -100.0;
for(i = 0; i < 3; i++) {
tmp[i] -= 0.5;
if (fabs(tmp[i]) > biggest)
biggest = fabs(tmp[i]);
}
for(i = 0; i < 3; i++) {
if (biggest > 0.5)
tmp[i] *= 0.5/biggest;
tmp[i] += 0.5;
}
}
#endif
if (trace) printf("output clipped RGB %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Copy to output */
for(i = 0; i < 3; i++)
out[i] = tmp[i];
}
#endif /* NORMAL_XYZ2RGB */
#ifdef NIEVE_XYZ2RGB
/* Nieve version with RGB clipping */
/* Convert from XYZ to sRGB */
void XYZ2sRGB(double *out, double *in, int trace) {
double tmp[3];
double scale = SCALE; /* Scale RGB towards grey */
double mat[3][3] =
{
{ 3.2410, -1.5374, -0.4986 },
{ -0.9692, 1.8760, 0.0416 },
{ 0.0556, -0.2040, 1.0570 }
};
int i;
if (trace) printf("XYZ to RGB\n");
if (trace) printf("input XYZ %f %f %f\n",in[0],in[1],in[2]);
/* Now convert to sRGB assuming D50 (??) white point */
icmMulBy3x3(tmp, mat, in);
/* Scale */
for(i = 0; i < 3; i++) {
tmp[i] = ((tmp[i] - 0.5) * scale) + 0.5;
}
if (trace) printf("raw RGB %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Clip to nearest */
for(i = 0; i < 3; i++) {
if (tmp[i] < 0.0)
tmp[i] = 0.0;
else if (tmp[i] > 1.0)
tmp[i] = 1.0;
}
if (trace) printf("clipped RGB %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Apply gamma */
for(i = 0; i < 3; i++) {
if (tmp[i] < 0.00304) {
tmp[i] = tmp[i] * 12.92;
} else {
tmp[i] = 1.055 * pow(tmp[i], 1.0/2.4) - 0.055;
}
}
if (trace) printf("output gamma corrected RGB %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Copy to output */
for(i = 0; i < 3; i++)
out[i] = tmp[i];
}
#endif /* NIEVE_XYZ2RGB */
#ifdef COMPLEX_XYZ2RGB
/* Complex version using powell to ensure good clipping */
/* Callback context */
typedef struct {
double scale;
double lab[3];
double imat[3][3];
} ctx;
double clipf(void *fdata, double tp[]) {
ctx *x = (ctx *)fdata;
double lab[3], tmp[3], tt;
int k;
double rv = 0.0;
//printf("\n");
//printf("~1 clipf got %f %f %f\n",tp[0],tp[1],tp[2]);
/* Penalize for being out of gamut */
for (k = 0; k < 3; k++) {
if (tp[k] < 0.0) {
tt = 100000.0 * (0.0 - tp[k]);
rv += tt * tt;
} else if (tp[k] > 1.0) {
tt = 100000.0 * (tp[k] - 1.0);
rv += tt * tt;
}
}
//printf("~1 rv out of gamut = %f\n",rv);
/* Unscale it */
for(k = 0; k < 3; k++)
tmp[k] = ((tp[k] - 0.5) / x->scale) + 0.5;
//printf("~1 unscale %f %f %f\n",tmp[0],tmp[1],tmp[2]);
icmMulBy3x3(tmp, x->imat, tmp); /* To XYZ */
//printf("~1 xyz %f %f %f\n",tmp[0],tmp[1],tmp[2]);
XYZ2Lab(lab, tmp); /* To Lab */
//printf("~1 lab = %f %f %f\n",lab[0],lab[1],lab[2]);
//printf("~1 target = %f %f %f\n",x->lab[0],x->lab[1],x->lab[2]);
/* Compute an error to the goal */
tt = 10000.0 * (lab[0] - x->lab[0]);
rv += tt * tt;
tt = 1.0 * (lab[1] - x->lab[1]);
rv += tt * tt;
tt = 1.0 * (lab[2] - x->lab[2]);
rv += tt * tt;
//printf("~1 rv = %f\n",rv);
return rv;
}
/* Convert from XYZ to sRGB */
void XYZ2sRGB(double *out, double *in, int trace) {
double lab[3], tmp[3];
double scale = SCALE; /* Scale RGB towards grey */
double mat[3][3] =
{
{ 3.2410, -1.5374, -0.4986 },
{ -0.9692, 1.8760, 0.0416 },
{ 0.0556, -0.2040, 1.0570 }
};
int i;
/* Copy from input */
for(i = 0; i < 3; i++)
tmp[i] = in[i];
if (trace) printf("XYZ to RGB\n");
if (trace) printf("input XYZ %f %f %f\n",tmp[0],tmp[1],tmp[2]);
XYZ2Lab(lab, tmp);
if (trace) printf("Lab %f %f %f\n",lab[0],lab[1],lab[2]);
icmClipLab(lab, lab);
if (trace) printf("Clipped Lab %f %f %f\n",lab[0],lab[1],lab[2]);
/* Now convert to sRGB assuming D50 (??) white point */
Lab2XYZ(tmp, lab);
icmMulBy3x3(tmp, mat, tmp);
/* Scale */
for(i = 0; i < 3; i++) {
tmp[i] = ((tmp[i] - 0.5) * scale) + 0.5;
}
if (trace) printf("raw RGB %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* See if it need clipping */
for(i = 0; i < 3; i++) {
if (tmp[i] < 0.0 || tmp[i] > 1.0)
break;
}
/* It needs more clipping */
if (i < 3) {
ctx x;
double ss[3] = { 0.1, 0.1, 0.1 };
x.lab[0] = lab[0];
x.lab[1] = lab[1];
x.lab[2] = lab[2];
x.scale = scale;
icmInverse3x3(x.imat, mat);
if (powell(NULL, 3, tmp, ss, 1e-6, 1000, clipf, (void *)&x) < 0.0)
error("RGB clip failed");
}
if (trace) printf("RGB clip %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Clip to nearest */
for(i = 0; i < 3; i++) {
if (tmp[i] < 0.0)
tmp[i] = 0.0;
else if (tmp[i] > 1.0)
tmp[i] = 1.0;
}
if (trace) printf("clip to nearest RGB %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Apply gamma */
for(i = 0; i < 3; i++) {
if (tmp[i] < 0.00304) {
tmp[i] = tmp[i] * 12.92;
} else {
tmp[i] = 1.055 * pow(tmp[i], 1.0/2.4) - 0.055;
}
}
if (trace) printf("gamma corrected RGB %f %f %f\n",tmp[0],tmp[1],tmp[2]);
/* Copy to output */
for(i = 0; i < 3; i++)
out[i] = tmp[i];
}
#endif /* COMPLEX_XYZ2RGB */
void usage(char *diag) {
fprintf(stderr,"Create a 3D slice plot of XYZ/Lab <-> Jab, Version %s\n",ARGYLL_VERSION_STR);
fprintf(stderr,"Author: Graeme W. Gill, licensed under the AGPL Version 3\n");
if (diag != NULL)
fprintf(stderr,"Diagnostic '%s'\n",diag);
fprintf(stderr,"usage: cam02plot [-options] x y\n");
fprintf(stderr,"'cam02plot -l -o' shows problem best\n");
fprintf(stderr," -v level Verbosity level 0 - 2 (default = 1)\n");
fprintf(stderr," -n Don't use Helmholtz-Kohlraush flag\n");
fprintf(stderr," -f Use the reference CIECAM transform\n");
fprintf(stderr," -r res Resolution (default %d)\n",DEFRES);
fprintf(stderr," -l Lab source cube (default XYZ source cube)\n");
fprintf(stderr," -i XYZ/Lab -> Jab (default XYZ/Lab -> Lab)\n");
fprintf(stderr," -o Jab -> XYZ -> RGB (defult Lab -> XYZ -> RGB\n");
fprintf(stderr," -s XYZ/Lab -> ab scale as RGB\n");
fprintf(stderr," -x Cross section plots\n");
fprintf(stderr," x y Return input color for this coordinate\n");
exit(1);
}
int
main(int argc, char *argv[]) {
int fa,nfa; /* argument we're looking at */
char *tiffname = "cam02plot.tif";
TIFF *wh = NULL;
uint16 resunits = RESUNIT_INCH;
float resx = 75.0, resy = 75.0;
tdata_t *obuf;
unsigned char *ob;
int verb = 0;
int transl = 0; /* Translate x,y into input color */
int tx = 0, ty = 0; /* coordinate to translate */
int use_hk = 1; /* Use Helmholtz-Kohlraush flag */
int use_ref = 0; /* Use reference transform rather than working code */
int lab_plot = 0; /* Lab <-> Jab plot, else XYZ <-> Jab */
int to_jab = 0; /* Convert to Jab, else convert to Lab */
int from_jab = 0; /* Convert from Jab, else convert from Lab */
int to_ss = 0; /* Convert from XYZ/Lab to abs scale ss */
int xsect = 0; /* Cross section plots */
double white[9][3] = {
{ 0.964242, 1.000000, 0.825124 }, /* 0: D50 */
{ 1.098494, 1.000000, 0.355908 }, /* 1: A */
{ 0.908731, 1.000000, 0.987233 }, /* 2: F5 */
{ 1.128981, 1.000000, 0.305862 }, /* 3: D25 */
{ 0.950471, 1.000000, 1.088828 }, /* 4: D65 */
{ 0.949662, 1.000000, 1.160438 }, /* 5: D80 */
{ 0.949662, 1.000000, 1.160438 }, /* 6: D80 */
{ 0.951297, 1.000000, 1.338196 }, /* 7: D85 */
{ 0.952480, 1.000000, 1.386693 } /* 8: D90 */
};
#ifdef NEVER
double La[6] = { 10.0, 31.83, 100.0, 318.31, 1000.83, 3183.1 };
ViewingCondition Vc[4] = {
vc_average,
vc_dark,
vc_dim,
vc_cut_sheet
};
#endif /* NEVER */
int i, j, k, m;
double xyz[3], Jab[3], rgb[3];
cam02 *cam1, *cam2;
int res = DEFRES; /* Resolution of scan through space */
int ares; /* Array of 2d sub-rasters */
int w, h; /* Width and height of raster */
int x, y;
int sp = 5; /* Spacing beween resxres sub-images */
error_program = argv[0];
/* Process the arguments */
for(fa = 1;fa < argc;fa++) {
nfa = fa; /* skip to nfa if next argument is used */
if (argv[fa][0] == '-') { /* Look for any flags */
char *na = NULL; /* next argument after flag, null if none */
if (argv[fa][2] != '\000')
na = &argv[fa][2]; /* next is directly after flag */
else {
if ((fa+1) < argc) {
if (argv[fa+1][0] != '-') {
nfa = fa + 1;
na = argv[nfa]; /* next is seperate non-flag argument */
}
}
}
if (argv[fa][1] == '?')
usage("Requested usage");
/* Verbosity */
else if (argv[fa][1] == 'v' || argv[fa][1] == 'V') {
fa = nfa;
if (na == NULL)
verb = 2;
else {
if (na[0] == '0')
verb = 0;
else if (na[0] == '1')
verb = 1;
else if (na[0] == '2')
verb = 2;
else
usage("Illegal verbosity level");
}
}
else if (argv[fa][1] == 'r' || argv[fa][1] == 'R') {
fa = nfa;
if (na == NULL)
usage("Need resolution after -r");
res = atoi(na);
if (res < 2 || res > 1000)
usage("Resolution is out of range");
}
else if (argv[fa][1] == 'n' || argv[fa][1] == 'N') {
use_hk = 0;
}
else if (argv[fa][1] == 'f' || argv[fa][1] == 'F') {
use_ref = 1;
}
else if (argv[fa][1] == 'l' || argv[fa][1] == 'L') {
lab_plot = 1;
}
else if (argv[fa][1] == 'i' || argv[fa][1] == 'I') {
to_jab = 1;
}
else if (argv[fa][1] == 'o' || argv[fa][1] == 'O') {
from_jab = 1;
}
else if (argv[fa][1] == 's' || argv[fa][1] == 'S') {
to_ss = 1;
}
else if (argv[fa][1] == 'x' || argv[fa][1] == 'X') {
xsect = 1;
}
else
usage("Unknown flag");
} else
break;
}
if ((fa+1) < argc) {
tx = atoi(argv[fa]);
ty = atoi(argv[fa+1]);
transl = 1;
}
/* Setup cam to convert to Jab */
if (use_ref)
cam1 = new_cam02ref();
else
cam1 = new_cam02();
cam1->set_view(
cam1,
vc_average, /* Enumerated Viewing Condition */
white[4], /* Reference/Adapted White XYZ (Y range 0.0 .. 1.0) */
1000.0, /* Adapting/Surround Luminance cd/m^2 */
0.20, /* Relative Luminance of Background to reference white */
0.0, /* Luminance of white in image - not used */
0.00, /* Flare as a fraction of the reference white (Y range 0.0 .. 1.0) */
white[4], /* The Flare color coordinates (typically the Ambient color) */
use_hk /* use Helmholtz-Kohlraush flag */
);
/* Setup cam to convert from Jab */
if (use_ref)
cam2 = new_cam02ref();
else
cam2 = new_cam02();
cam2->set_view(
cam2,
vc_average, /* Enumerated Viewing Condition */
white[4], /* Reference/Adapted White XYZ (Y range 0.0 .. 1.0) */
1000.0, /* Adapting/Surround Luminance cd/m^2 */
0.20, /* Relative Luminance of Background to reference white */
0.0, /* Luminance of white in image - not used */
0.00, /* Flare as a fraction of the reference white (Y range 0.0 .. 1.0) */
white[4], /* The Flare color coordinates (typically the Ambient color) */
use_hk /* use Helmholtz-Kohlraush flag */
);
/* Figure out the size of the raster */
ares = (int)ceil(sqrt((double)res));
if (verb)
printf("For res %d, ares = %d\n",res,ares);
w = ares * res + sp * (ares+1);
h = ares * res + sp * (ares+1);
if (to_ss) {
cam1->retss = 1;
}
if (transl) {
int ix,iy,iz;
double dx,dy,dz;
double tmp[3], lab[3];
cam1->trace = 1;
cam2->trace = 1;
//printf("~1 translate %d %d\n",tx,ty);
tx -= sp; /* Border at base */
ty -= sp;
//printf("~1 offset %d %d\n",tx,ty);
ix = tx % (res + sp);
iy = ty % (res + sp);
iz = (ty / (res + sp)) * ares + (tx / (res + sp));
//printf("~1 x y z = %d %d %d\n", ix,iy,iz);
dx = ix/(res-1.0);
dy = iy/(res-1.0);
dz = iz/((ares * ares)-1.0);
//printf("~1 X Y Z = %f %f %f\n", dx,dy,dz);
/* Source range is extended L*a*b* type */
if (lab_plot) {
if (xsect) {
lab[0] = 180.0 * dz - 40.0;
lab[1] = 300.0 * dy - 150.0;
lab[2] = 300.0 * dx - 150.0;
} else {
lab[0] = 180.0 * dx - 40.0;
lab[1] = 300.0 * dy - 150.0;
lab[2] = 300.0 * dz - 150.0;
}
//printf("~1 Lab = %f %f %f\n", lab[0],lab[1],lab[2]);
Lab2XYZ(tmp, lab);
printf("======================================================\n");
printf("%d,%d -> Lab %f %f %f\n", tx+sp, ty+sp, lab[0],lab[1],lab[2]);
printf(" == XYZ %f %f %f\n", tmp[0],tmp[1],tmp[2]);
/* Else source range is extended XYZ type */
} else {
if (xsect) {
tmp[0] = 1.4 * dz - 0.2;
tmp[1] = 1.4 * dy - 0.2;
tmp[2] = 1.6 * dx - 0.2;
} else {
tmp[0] = 1.4 * dx - 0.2;
tmp[1] = 1.4 * dy - 0.2;
tmp[2] = 1.6 * dz - 0.2;
}
printf("%d,%d -> Input color XYZ %f %f %f\n", tx, ty, tmp[0],tmp[1],tmp[2]);
}
if (to_ss) {
cam1->XYZ_to_cam(cam1, Jab, tmp);
printf(" XYZ -> ss %f %f %f\n", Jab[0],Jab[1],Jab[2]);
/* Convert XYZ through cam and back, then to RGB */
} else if (to_jab) {
cam1->XYZ_to_cam(cam1, Jab, tmp);
if (to_ss) {
printf(" XYZ -> ss %f %f %f\n", Jab[0],Jab[1],Jab[2]);
} else {
printf(" XYZ -> ss %f %f %f\n", Jab[0],Jab[1],Jab[2]);
}
/* Else convert XYZ to L*a*b* */
} else {
XYZ2Lab(Jab, tmp);
printf(" XYZ -> Lab %f %f %f\n", Jab[0],Jab[1],Jab[2]);
}
/* Convert from Jab back to XYZ */
if (from_jab) {
cam2->cam_to_XYZ(cam2, rgb, Jab);
printf(" Jab -> XYZ %f %f %f\n", rgb[0],rgb[1],rgb[2]);
/* Else convert from Lab back to XYZ */
} else {
Lab2XYZ(rgb, Jab);
printf(" Lab -> XYZ %f %f %f\n", rgb[0],rgb[1],rgb[2]);
}
XYZ2Lab(tmp, rgb);
printf(" == Lab %f %f %f\n", tmp[0],tmp[1],tmp[2]);
/* Interpret XYZ as RGB color */
XYZ2sRGB(rgb, rgb, 1);
printf(" XYZ -> RGB %f %f %f\n", rgb[0],rgb[1],rgb[2]);
cam1->trace = 0;
cam2->trace = 0;
printf("\n");
exit(0);
}
if (verb)
printf("Raster width = %d, height = %d\n",w,h);
/* Setup the tiff file */
if ((wh = TIFFOpen(tiffname, "w")) == NULL)
error("Can\'t create TIFF file '%s'!",tiffname);
TIFFSetField(wh, TIFFTAG_IMAGEWIDTH, w);
TIFFSetField(wh, TIFFTAG_IMAGELENGTH, h);
TIFFSetField(wh, TIFFTAG_ORIENTATION, ORIENTATION_TOPLEFT);
TIFFSetField(wh, TIFFTAG_SAMPLESPERPIXEL, 3);
TIFFSetField(wh, TIFFTAG_BITSPERSAMPLE, 8);
TIFFSetField(wh, TIFFTAG_PLANARCONFIG, PLANARCONFIG_CONTIG);
TIFFSetField(wh, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_RGB);
TIFFSetField(wh, TIFFTAG_COMPRESSION, COMPRESSION_NONE);
TIFFSetField(wh, TIFFTAG_RESOLUTIONUNIT, resunits);
TIFFSetField(wh, TIFFTAG_XRESOLUTION, resx);
TIFFSetField(wh, TIFFTAG_YRESOLUTION, resy);
TIFFSetField(wh, TIFFTAG_IMAGEDESCRIPTION, "cam02plot");
obuf = _TIFFmalloc(TIFFScanlineSize(wh));
ob = (unsigned char *)obuf;
y = 0;
/* Fill sp lines with black */
for (x = 0, m = 0; m < w; m++) {
ob[x] = ob[x+1] = ob[x+2] = 0;
x += 3;
}
for (j = 0; j < sp; j++, y++) {
TIFFWriteScanline(wh, ob, y, 0);
}
for (i = 0; i < ares; i++) { /* Vertical blocks (rows) */
for (j = 0; j < res; j++, y++) { /* Vertical in block (y = Y/a*) */
xyz[1] = j/(res-1.0);
x = 0;
/* Fill sp pixels with black */
for (m = 0; m < sp; m++) {
ob[x] = ob[x+1] = ob[x+2] = 0;
x += 3;
}
for (k = 0; k < ares; k++) { /* Horizontal blocks (columns) */
int zv = i * ares + k;
if (zv >= res) {
/* Fill res pixels with black */
for (m = 0; m < res; m++) {
ob[x] = ob[x+1] = ob[x+2] = 0;
x += 3;
}
} else {
xyz[2] = zv/(res-1.0); /* z = block = Z/b* */
for (m = 0; m < res; m++) { /* Horizontal in block (x = X/L*) */
double tmp[3], xyz2[3];
xyz[0] = m/(res-1.0);
if (lab_plot) {
if (xsect) {
tmp[0] = 180.0 * xyz[2] - 40.0;
tmp[1] = 300.0 * xyz[1] - 150.0;
tmp[2] = 300.0 * xyz[0] - 150.0;
} else {
tmp[0] = 180.0 * xyz[0] - 40.0;
tmp[1] = 300.0 * xyz[1] - 150.0;
tmp[2] = 300.0 * xyz[2] - 150.0;
}
Lab2XYZ(tmp, tmp);
} else {
if (xsect) {
tmp[0] = 1.4 * xyz[2] - 0.2;
tmp[1] = 1.4 * xyz[1] - 0.2;
tmp[2] = 1.6 * xyz[0] - 0.2;
} else {
tmp[0] = 1.4 * xyz[0] - 0.2;
tmp[1] = 1.4 * xyz[1] - 0.2;
tmp[2] = 1.6 * xyz[2] - 0.2;
}
}
/* Convert XYZ through cam and back, then to RGB */
if (to_jab || to_ss)
cam1->XYZ_to_cam(cam1, Jab, tmp);
else
XYZ2Lab(Jab, tmp);
if (to_ss) {
rgb[0] = Jab[0];
rgb[1] = Jab[1];
rgb[2] = Jab[2];
} else {
if (from_jab)
cam2->cam_to_XYZ(cam2, xyz2, Jab);
else
Lab2XYZ(xyz2, Jab);
XYZ2sRGB(rgb, xyz2, 0);
}
/* Fill with pixel value */
ob[x+0] = (int)(rgb[0] * 255.0 + 0.5);
ob[x+1] = (int)(rgb[1] * 255.0 + 0.5);
ob[x+2] = (int)(rgb[2] * 255.0 + 0.5);
x += 3;
}
}
/* Fill sp pixels with black */
for (m = 0; m < sp; m++) {
ob[x] = ob[x+1] = ob[x+2] = 0;
x += 3;
}
}
TIFFWriteScanline(wh, ob, y, 0);
}
/* Fill sp lines with black */
for (x = m = 0; m < w; m++) {
ob[x] = ob[x+1] = ob[x+2] = 0;
x += 3;
}
for (j = 0; j < sp; j++, y++) {
TIFFWriteScanline(wh, ob, y, 0);
}
}
cam1->del(cam1);
cam2->del(cam2);
/* Write TIFF file */
TIFFClose(wh);
return 0;
}
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