sksp2024-mcu/libucw/images/ucw-color-tool.c


								/*

								 *	Color spaces tool

								 *

								 *	(c) 2006 Pavel Charvat <pchar@ucw.cz>

								 *

								 *	This software may be freely distributed and used according to the terms

								 *	of the GNU General Public License.

								 */


								#include <ucw/lib.h>

								#include <images/images.h>

								#include <images/color.h>


								#include <getopt.h>

								#include <stdlib.h>

								#include <fcntl.h>

								#include <stdio.h>

								#include <string.h>


								static void NONRET

								usage(void)

								{

								  fputs("\

								Usage: ucw-color-tool input-color-space output-color-space\n\

								", stderr);

								  exit(1);

								}


								static char *shortopts = "";

								static struct option longopts[] =

								{

								  { NULL,			0, 0, 0 }

								};


								static const struct color_space_info *

								parse_color_space(byte *s)

								{

								  if (!strcasecmp(s, "sRGB"))

								    return &color_srgb_info;

								  else if (!strcasecmp(s, "AdobeRGB") || !strcasecmp(s, "Adobe RGB"))

								    return &color_adobe_rgb_info;

								  else if (!strcasecmp(s, "CIERGB") || strcasecmp(s, "CIE RGB"))

								    return &color_cie_rgb_info;

								  else

								    die("Unknown color space");

								}


								static void

								print_matrix(double m[9])

								{

								  for (uint j = 0; j < 3; j++)

								    {

								      for (uint i = 0; i < 3; i++)

									printf(" %12.8f", m[i + j * 3]);

								      printf("\n");

								    }

								}


								int

								main(int argc, char **argv)

								{

								  log_init(argv[0]);

								  int opt;

								  while ((opt = getopt_long(argc, argv, shortopts, longopts, NULL)) >= 0)

								    switch (opt)

								      {

									default:

									  usage();

								      }


								  if (argc == optind + 1)

								    {

								      const struct color_space_info *a = parse_color_space(argv[optind]);

								      double a_to_xyz[9], xyz_to_a[9];

								      color_compute_color_space_to_xyz_matrix(a_to_xyz, &a->chromacity);

								      color_invert_matrix(xyz_to_a, a_to_xyz);

								      printf("linear %s -> XYZ:\n", a->name);

								      print_matrix(a_to_xyz);

								      printf("XYZ -> linear %s:\n", a->name);

								      print_matrix(xyz_to_a);

								      printf("Simple gamma: %.8f\n", a->gamma.simple_gamma);

								      printf("Detailed gamma: g=%.8f o=%.8f t=%.8f s=%.8f\n", a->gamma.detailed_gamma, a->gamma.offset, a->gamma.transition, a->gamma.slope);

								    }

								  else if (argc == optind + 2)

								    {

								      const struct color_space_info *a = parse_color_space(argv[optind++]);

								      const struct color_space_info *b = parse_color_space(argv[optind]);

								      double a_to_b[9];

								      color_compute_color_spaces_conversion_matrix(a_to_b, &a->chromacity, &b->chromacity);

								      printf("linear %s -> linear %s:\n", a->name, b->name);

								      print_matrix(a_to_b);

								    }

								  else

								    usage();


								  return 0;

								}