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path: root/gamut/viewgam.c
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/* 
 * viewgam
 *
 * Gamut support routines.
 *
 * Author:  Graeme W. Gill
 * Date:    4/10/00
 * Version: 1.00
 *
 * Copyright 2000 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.
 */

#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <fcntl.h>
#include <string.h>
#include <math.h>
#include "copyright.h"
#include "aconfig.h"
#include "numlib.h"
#include "gamut.h"
#include "cgats.h"

/* 
	This program reads one or more CGATS format triangular gamut
	surface descriptions, and combines them into a VRML file,
	so that the gamuts can be visually compared.

 */

/* TTBD:
 *
 */

#undef DEBUG

#undef HALF_HACK /* 27.0 */

void usage(char *diag, ...) {
	fprintf(stderr,"View gamuts Version %s\n",ARGYLL_VERSION_STR);
	fprintf(stderr,"Author: Graeme W. Gill, licensed under the AGPL Version 3\n");
	if (diag != NULL) {
		va_list args;
		fprintf(stderr,"Diagnostic: ");
		va_start(args, diag);
		vfprintf(stderr, diag, args);
		va_end(args);
		fprintf(stderr,"\n");
	}
	fprintf(stderr,"usage: viewgam { [-c color] [-t trans] [-w|s] infile.gam } ... outfile.wrl\n");
	fprintf(stderr," -c color       Color to make gamut, r = red, g = green, b = blue\n"); 
	fprintf(stderr,"                c = cyan, m = magenta, y = yellow, e = grey, w = white\n"); 
	fprintf(stderr,"                n = natural color\n"); 
	fprintf(stderr," -t trans       Set transparency from 0.0 (opaque) to 1.0 (invisible)\n"); 
	fprintf(stderr," -w             Show as a wireframe\n");
	fprintf(stderr," -s             Show as a solid surace\n");
	fprintf(stderr," infile.gam     Name of .gam file\n");
	fprintf(stderr,"                Repeat above for each input file\n\n");
	fprintf(stderr," -n             Don't add Lab axes\n");
	fprintf(stderr," -k             Add markers for prim. & sec. \"cusp\" points\n");
	fprintf(stderr," -i             Compute and print intersecting volume of first 2 gamuts\n");
	fprintf(stderr," -I isect.gam   Same as -i, but save intersection gamut to isect.gam\n");
	fprintf(stderr," outfile.wrl    Name of output .wrl file\n");
	fprintf(stderr,"\n");
	exit(1);
}

#define GCENT 50.0		/* Center of object view */

typedef enum {
	gam_red       = 0,
	gam_green     = 1,
	gam_blue      = 2,
	gam_cyan      = 3,
	gam_magenta   = 4,	
	gam_yellow    = 5,
	gam_grey      = 6,
	gam_white     = 7,
	gam_natural   = 8
} gam_colors;

struct {
	double r, g, b;
} color_rgb[8] = {
	{ 1, 0, 0 },	/* gam_red */
	{ 0, 1, 0 },	/* gam_green */
	{ 0, 0, 1 },	/* gam_blue */
	{ 0, 1, 1 },	/* gam_cyan */
	{ 1, 0, 1 },	/* gam_magenta */
	{ 1, 1, 0 },	/* gam_yellow */
	{ .1, .1, .1 },	/* gam_grey */
	{ .7, .7, .7 }	/* gam_white */
};

typedef enum {
	gam_solid     = 0,
	gam_wire      = 1,
	gam_points    = 2
} gam_reps;

struct _gamdisp {
	char in_name[MAXNAMEL+1];
	gam_colors in_colors;		/* Color enum for each input */
	double in_trans;			/* Transparency for each input */
	gam_reps in_rep;			/* Representation enum for each input */
}; typedef struct _gamdisp gamdisp;  


/* Set a default for a given gamut */
static void set_default(gamdisp *gds, int n) {
	gds[n].in_name[0] = '\000';
	switch(n) {
		case 0:
			gds[n].in_colors = gam_natural;
			gds[n].in_rep   = gam_solid;
			gds[n].in_trans  = 0.0;
			break;
		case 1:
			gds[n].in_colors = gam_white;
			gds[n].in_rep   = gam_wire;
			gds[n].in_trans  = 0.0;
			break;
		case 2:
			gds[n].in_colors = gam_red;
			gds[n].in_rep   = gam_wire;
			gds[n].in_trans  = 0.0;
			break;
		case 3:
			gds[n].in_colors = gam_cyan;
			gds[n].in_rep   = gam_wire;
			gds[n].in_trans  = 0.0;
			break;
		case 4:
			gds[n].in_colors = gam_yellow;
			gds[n].in_rep   = gam_wire;
			gds[n].in_trans  = 0.2;
			break;
		case 5:
			gds[n].in_colors = gam_green;
			gds[n].in_rep   = gam_wire;
			gds[n].in_trans  = 0.3;
			break;
		case 6:
			gds[n].in_colors = gam_blue;
			gds[n].in_rep   = gam_wire;
			gds[n].in_trans  = 0.4;
			break;
		case 7:
			gds[n].in_colors = gam_magenta;
			gds[n].in_rep   = gam_wire;
			gds[n].in_trans  = 0.5;
			break;
		default:
			gds[n].in_colors = n % 6;
			gds[n].in_rep   = gam_wire;
			gds[n].in_trans  = 0.6;
			break;
	}
}

int
main(int argc, char *argv[]) {
	int fa, nfa, mfa;		/* argument we're looking at */
	int n, ng = 0;			/* Current allocation, number of input gamuts */
	gamdisp *gds;			/* Definition of each gamut */
	int doaxes = 1;
	int docusps = 0;
	int isect = 0;
	FILE *wrl;
	char out_name[MAXNAMEL+1];
	char iout_name[MAXNAMEL+1] = "\000";;
	if (argc < 3)
		usage("Too few arguments, got %d expect at least 2",argc-1);

	mfa = 1;		/* Minimum final arguments */

	if ((gds = (gamdisp *)malloc((ng+1) * sizeof(gamdisp))) == NULL)
		error("Malloc failed on gamdisp");
	set_default(gds, 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+mfa) < argc) {
					if (argv[fa+1][0] != '-') {
						nfa = fa + 1;
						na = argv[nfa];		/* next is seperate non-flag argument */
					}
				}
			}

			if (argv[fa][1] == '?')
				usage("Usage requested");

			/* Color */
			else if (argv[fa][1] == 'c' || argv[fa][1] == 'C') {
				fa = nfa;
				if (na == NULL) usage("Expect argument after flag -c");
    			switch (na[0]) {
					case 'r':
					case 'R':
						gds[ng].in_colors = gam_red;
						break;
					case 'g':
					case 'G':
						gds[ng].in_colors = gam_green;
						break;
					case 'b':
					case 'B':
						gds[ng].in_colors = gam_blue;
						break;
					case 'c':
					case 'C':
						gds[ng].in_colors = gam_cyan;
						break;
					case 'm':
					case 'M':
						gds[ng].in_colors = gam_magenta;
						break;
					case 'y':
					case 'Y':
						gds[ng].in_colors = gam_yellow;
						break;
					case 'e':
					case 'E':
						gds[ng].in_colors = gam_grey;
						break;
					case 'w':
					case 'W':
						gds[ng].in_colors = gam_white;
						break;
					case 'n':
					case 'N':
						gds[ng].in_colors = gam_natural;
						break;
					default:
						usage("Unknown argument after flag -c '%c'",na[0]);
				}
			}

			/* Transparency */
			else if (argv[fa][1] == 't' || argv[fa][1] == 'T') {
				double v;
				fa = nfa;
				if (na == NULL) usage("Expect argument after flag -t");
				v = atof(na);
				if (v < 0.0)
					v = 0.0;
				else if (v > 1.0)
					v = 1.0;
				gds[ng].in_trans = v;
			}

			/* Solid output */
			else if (argv[fa][1] == 's' || argv[fa][1] == 'S') {
				gds[ng].in_rep = gam_solid;
			}

			/* Wireframe output */
			else if (argv[fa][1] == 'w' || argv[fa][1] == 'W') {
				gds[ng].in_rep = gam_wire;
			}

			/* No axis output */
			else if (argv[fa][1] == 'n' || argv[fa][1] == 'N') {
				doaxes = 0;
			}

			/* Add cusp markers */
			else if (argv[fa][1] == 'k' || argv[fa][1] == 'K') {
				docusps = 1;
			}

			/* Print intersecting volume */
			else if (argv[fa][1] == 'i' || argv[fa][1] == 'I') {
				isect = 1;

				/* There is an intersection output gamut file */
				if (argv[fa][1] == 'I' && na != NULL) {
					fa = nfa;
					strncpy(iout_name, na, MAXNAMEL); iout_name[MAXNAMEL] = '\000';
				}
			}

			else 
				usage("Unknown flag '%c'",argv[fa][1]);

		} else if (argv[fa][0] != '\000') { /* Got a non-flag */
			strncpy(gds[ng].in_name,argv[fa],MAXNAMEL); gds[ng].in_name[MAXNAMEL] = '\000';

			ng++;
			if ((gds = (gamdisp *)realloc(gds, (ng+1) * sizeof(gamdisp))) == NULL)
				error("Realloc failed on gamdisp");
			set_default(gds, ng);
		} else {
			break;
		}
	}

	/* The last "gamut" is actually the output VRML filename, */
	/* so unwind it. */

	if (ng < 2)
		usage("Not enough arguments to specify output VRML files");

	strncpy(out_name,gds[--ng].in_name,MAXNAMEL); out_name[MAXNAMEL] = '\000';

#ifdef DEBUG
	for (n = 0; n < ng; n++) {
		printf("Input file %d is '%s'\n",n,gds[n].in_name);
		printf("Input file %d has color %d\n",n,gds[n].in_colors);
		printf("Input file %d has rep %d\n",n,gds[n].in_rep);
		printf("Input file %d has trans %f\n",n,gds[n].in_trans);
		
	}
	printf("Output file is '%s'\n",out_name);
#endif	/* DEBUG */

	/* Open up the output file */
	if ((wrl = fopen(out_name,"w")) == NULL)
		error("Error opening output file '%s'\n",out_name);
	
	/* Write the header info */

	fprintf(wrl,"#VRML V2.0 utf8\n");
	fprintf(wrl,"\n");
	fprintf(wrl,"# Created by the Argyll CMS\n");
	fprintf(wrl,"Transform {\n");
  	fprintf(wrl,"  children [\n");
    fprintf(wrl,"    NavigationInfo {\n");
	fprintf(wrl,"      type \"EXAMINE\"        # It's an object we examine\n");
	fprintf(wrl,"    } # We'll add our own light\n");
	fprintf(wrl,"\n");
#ifdef NEVER
	fprintf(wrl,"    DirectionalLight {\n");
	fprintf(wrl,"      direction 0 0 -1      # Light illuminating the scene\n");
	fprintf(wrl,"      direction 0 -1 0      # Light illuminating the scene\n");
	fprintf(wrl,"    }\n");
#else
	fprintf(wrl,"    DirectionalLight {\n");
	fprintf(wrl,"        intensity 0.2\n");
	fprintf(wrl,"        ambientIntensity 0.1\n");
	fprintf(wrl,"        direction -1 -1 -1\n");
	fprintf(wrl,"    }\n");
	fprintf(wrl,"    DirectionalLight {\n");
	fprintf(wrl,"        intensity 0.6\n");
	fprintf(wrl,"        ambientIntensity 0.2\n");
	fprintf(wrl,"        direction 1 1 1\n");
	fprintf(wrl,"    }\n");
#endif
	fprintf(wrl,"\n");
	fprintf(wrl,"    Viewpoint {\n");
	fprintf(wrl,"      position 0 0 340      # Position we view from\n");
	fprintf(wrl,"    }\n");
	fprintf(wrl,"\n");
	if (doaxes) {
		/* Define the axis boxes */
		struct {
			double x, y, z;			/* Box center */
			double wx, wy, wz;		/* Box size */
			double r, g, b;			/* Box color */
		} axes[5] = {
			{ 0, 0,   50-GCENT, 2, 2, 100, .7, .7, .7 },	/* L axis */
			{ 50, 0,  0-GCENT,  100, 2, 2,  1,  0,  0 },	/* +a (red) axis */
			{ 0, -50, 0-GCENT,  2, 100, 2,  0,  0,  1 },	/* -b (blue) axis */
			{ -50, 0, 0-GCENT,  100, 2, 2,  0,  1,  0 },	/* -a (green) axis */
			{ 0,  50, 0-GCENT,  2, 100, 2,  1,  1,  0 },	/* +b (yellow) axis */
		};

		/* Define the labels */
		struct {
			double x, y, z;
			double size;
			char *string;
			double r, g, b;
		} labels[6] = {
			{ -2, 2, -GCENT + 100 + 10, 10, "+L*",  .7, .7, .7 },	/* Top of L axis */
			{ -2, 2, -GCENT - 10,      10, "0",    .7, .7, .7 },	/* Bottom of L axis */
			{ 100 + 5, -3,  0-GCENT,  10, "+a*",  1,  0,  0 },	/* +a (red) axis */
			{ -5, -100 - 10, 0-GCENT,  10, "-b*",  0,  0,  1 },	/* -b (blue) axis */
			{ -100 - 15, -3, 0-GCENT,  10, "-a*",  0,  0,  1 },	/* -a (green) axis */
			{ -5,  100 + 5, 0-GCENT,  10, "+b*",  1,  1,  0 },	/* +b (yellow) axis */
		};

		fprintf(wrl,"    # Lab axes as boxes:\n");
		for (n = 0; n < 5; n++) {
			fprintf(wrl,"    Transform { translation %f %f %f\n", axes[n].x, axes[n].y, axes[n].z);
			fprintf(wrl,"      children [\n");
			fprintf(wrl,"        Shape{\n");
			fprintf(wrl,"          geometry Box { size %f %f %f }\n",
			                       axes[n].wx, axes[n].wy, axes[n].wz);
			fprintf(wrl,"          appearance Appearance { material Material ");
			fprintf(wrl,"{ diffuseColor %f %f %f} }\n", axes[n].r, axes[n].g, axes[n].b);
			fprintf(wrl,"        }\n");
			fprintf(wrl,"      ]\n");
			fprintf(wrl,"    }\n");
		}
		fprintf(wrl,"    # Axes identification:\n");
		for (n = 0; n < 6; n++) {
			fprintf(wrl,"    Transform { translation %f %f %f\n", labels[n].x, labels[n].y, labels[n].z);
			fprintf(wrl,"      children [\n");
			fprintf(wrl,"        Shape{\n");
			fprintf(wrl,"          geometry Text { string [\"%s\"]\n",labels[n].string);
			fprintf(wrl,"            fontStyle FontStyle { family \"SANS\" style \"BOLD\" size %f }\n",
			                                  labels[n].size);
			fprintf(wrl,"                        }\n");
			fprintf(wrl,"          appearance Appearance { material Material ");
			fprintf(wrl,"{ diffuseColor %f %f %f} }\n", labels[n].r, labels[n].g, labels[n].b);
			fprintf(wrl,"        }\n");
			fprintf(wrl,"      ]\n");
			fprintf(wrl,"    }\n");
		}
	}

	/* Read each input in turn */
	for (n = 0; n < ng; n++) {
		int i;
		cgats *pp;
		int nverts;
		int ntris;
		int Lf, af, bf;			/* Fields holding L, a & b data */
		int v0f, v1f, v2f;		/* Fields holding verticies 0, 1 & 2 */

		pp = new_cgats();	/* Create a CGATS structure */
	
		/* Setup to cope with a gamut file */
		pp->add_other(pp, "GAMUT");
	
		if (pp->read_name(pp, gds[n].in_name))
			error("Input file '%s' error : %s",gds[n].in_name, pp->err);
	
		if (pp->t[0].tt != tt_other || pp->t[0].oi != 0)
			error("Input file isn't a GAMUT format file");
		if (pp->ntables != 2)
			error("Input file doesn't contain exactly two tables");

		if ((nverts = pp->t[0].nsets) <= 0)
			error("No verticies");
		if ((ntris = pp->t[1].nsets) <= 0)
			error("No triangles");

		if ((Lf = pp->find_field(pp, 0, "LAB_L")) < 0)
			error("Input file doesn't contain field LAB_L");
		if (pp->t[0].ftype[Lf] != r_t)
			error("Field LAB_L is wrong type");
		if ((af = pp->find_field(pp, 0, "LAB_A")) < 0)
			error("Input file doesn't contain field LAB_A");
		if (pp->t[0].ftype[af] != r_t)
			error("Field LAB_A is wrong type");
		if ((bf = pp->find_field(pp, 0, "LAB_B")) < 0)
			error("Input file doesn't contain field LAB_B");
		if (pp->t[0].ftype[bf] != r_t)
			error("Field LAB_B is wrong type");

		/* Write the vertexes out */
		fprintf(wrl,"\n");
		fprintf(wrl,"    Transform {\n");
		fprintf(wrl,"      translation 0 0 0\n");
		fprintf(wrl,"      children [\n");
		fprintf(wrl,"        Shape { \n");
		if (gds[n].in_rep == gam_wire) {
			fprintf(wrl,"          geometry IndexedLineSet {\n");
		} else {
			fprintf(wrl,"          geometry IndexedFaceSet {\n");
			fprintf(wrl,"            ccw FALSE\n");
			fprintf(wrl,"            convex TRUE\n");
		}
		fprintf(wrl,"\n");
		fprintf(wrl,"            coord Coordinate { \n");
		fprintf(wrl,"              point [			# Verticy coordinates\n");

		/* Spit out the point values, in order. */
		/* Note that a->x, b->y, L->z */
		for (i = 0; i < nverts; i++) {
			double L, a, b;
			L = *((double *)pp->t[0].fdata[i][Lf]);
			a = *((double *)pp->t[0].fdata[i][af]);
			b = *((double *)pp->t[0].fdata[i][bf]);
			fprintf(wrl,"                %f %f %f,\n",a, b, L - GCENT);
		}
		fprintf(wrl,"              ]\n");
		fprintf(wrl,"            }\n");
		fprintf(wrl,"\n");

		/* Write the triangles/wires out */
		if ((v0f = pp->find_field(pp, 1, "VERTEX_0")) < 0)
			error("Input file doesn't contain field VERTEX_0");
		if (pp->t[1].ftype[v0f] != i_t)
			error("Field VERTEX_0 is wrong type");
		if ((v1f = pp->find_field(pp, 1, "VERTEX_1")) < 0)
			error("Input file doesn't contain field VERTEX_1");
		if (pp->t[1].ftype[v1f] != i_t)
			error("Field VERTEX_1 is wrong type");
		if ((v2f = pp->find_field(pp, 1, "VERTEX_2")) < 0)
			error("Input file doesn't contain field VERTEX_2");
		if (pp->t[1].ftype[v2f] != i_t)
			error("Field VERTEX_2 is wrong type");

		fprintf(wrl,"            coordIndex [ 		# Indexes of poligon Verticies \n");

		for (i = 0; i < ntris; i++) {
			int v0, v1, v2;
			v0 = *((int *)pp->t[1].fdata[i][v0f]);
			v1 = *((int *)pp->t[1].fdata[i][v1f]);
			v2 = *((int *)pp->t[1].fdata[i][v2f]);

#ifdef HALF_HACK 
			if (*((double *)pp->t[0].fdata[v0][Lf]) < HALF_HACK
			 || *((double *)pp->t[0].fdata[v1][Lf]) < HALF_HACK
			 || *((double *)pp->t[0].fdata[v2][Lf]) < HALF_HACK)
				continue;
#endif /* HALF_HACK */

			if (gds[n].in_rep == gam_wire) {
				if (v0 < v1)				/* Only output 1 wire of two on an edge */
					fprintf(wrl,"              %d, %d, -1\n", v0, v1);
				if (v1 < v2)
					fprintf(wrl,"              %d, %d, -1\n", v1, v2);
				if (v2 < v0)
					fprintf(wrl,"              %d, %d, -1\n", v2, v0);
			} else {
				fprintf(wrl,"              %d, %d, %d, -1\n", v0, v1, v2);
			}
		}
		fprintf(wrl,"            ]\n");
		fprintf(wrl,"\n");

		/* Write the colors out */
		if (gds[n].in_colors == gam_natural) {
			fprintf(wrl,"            colorPerVertex TRUE\n");
			fprintf(wrl,"            color Color {\n");
			fprintf(wrl,"              color [			# RGB colors of each vertex\n");

			for (i = 0; i < nverts; i++) {
				double rgb[3], Lab[3];
				Lab[0] = *((double *)pp->t[0].fdata[i][Lf]);
				Lab[1] = *((double *)pp->t[0].fdata[i][af]);
				Lab[2] = *((double *)pp->t[0].fdata[i][bf]);
				gamut_Lab2RGB(rgb, Lab);
				fprintf(wrl,"                %f %f %f,\n", rgb[0], rgb[1], rgb[2]);
			}
			fprintf(wrl,"              ] \n");
			fprintf(wrl,"            }\n");
		}
		fprintf(wrl,"          }\n");
		fprintf(wrl,"          appearance Appearance { \n");
		fprintf(wrl,"            material Material {\n");
		if (gds[n].in_trans > 0.0) {
			fprintf(wrl,"              transparency %f\n", gds[n].in_trans);
		}
		fprintf(wrl,"              ambientIntensity 0.3\n");
		fprintf(wrl,"              shininess 0.5\n");
		if (gds[n].in_colors != gam_natural) {
			fprintf(wrl,"              emissiveColor %f %f %f\n",
			   color_rgb[gds[n].in_colors].r, color_rgb[gds[n].in_colors].g, color_rgb[gds[n].in_colors].b);
		}
		fprintf(wrl,"            }\n");
		fprintf(wrl,"          }\n");
		fprintf(wrl,"        }	# end Shape\n");
		fprintf(wrl,"      ] # end children\n");
		fprintf(wrl,"    } # end Transform\n");
		fprintf(wrl,"\n");

		/* See if there are cusp values */
		if (docusps) {
			int kk;
			double rgb[3], Lab[3];
			char buf1[50];
			char *cnames[6] = { "RED", "YELLOW", "GREEN", "CYAN", "BLUE", "MAGENTA" };
	
			for (i = 0; i < 6; i++) {
				sprintf(buf1,"CUSP_%s", cnames[i]);
				if ((kk = pp->find_kword(pp, 0, buf1)) < 0)
					break;
	
				if (sscanf(pp->t[0].kdata[kk], "%lf %lf %lf",
			           &Lab[0], &Lab[1], &Lab[2]) != 3) {
					break;
				}

				gamut_Lab2RGB(rgb, Lab);

				fprintf(wrl,"\n");
				fprintf(wrl,"    Transform {\n");
				fprintf(wrl,"      translation %f %f %f\n",Lab[1], Lab[2], Lab[0]-GCENT);
				fprintf(wrl,"      children [\n");
				fprintf(wrl,"		Shape { \n");
				fprintf(wrl,"		 geometry Sphere { radius 2.0 }\n");
				fprintf(wrl,"         appearance Appearance { material Material {\n");
				if (gds[n].in_trans > 0.0)
				fprintf(wrl,"         transparency %f\n", gds[n].in_trans);
				if (gds[n].in_colors != gam_natural)
				fprintf(wrl,"          diffuseColor %f %f %f\n", color_rgb[gds[n].in_colors].r, color_rgb[gds[n].in_colors].g, color_rgb[gds[n].in_colors].b);
				else
				fprintf(wrl,"          diffuseColor  %f %f %f\n", rgb[0], rgb[1], rgb[2]);
				fprintf(wrl,"		  }\n");
				fprintf(wrl,"		}\n");
				fprintf(wrl,"      }\n");
				fprintf(wrl,"     ]\n");
				fprintf(wrl,"    }\n");
			}
			fprintf(wrl,"\n");
		}

		pp->del(pp);		/* Clean up */
	}

	/* Write the trailer */
	fprintf(wrl,"  ] # end of children for world\n");
	fprintf(wrl,"}\n");

	/* Close the file */
	fclose(wrl);

	if (isect && ng >= 2) {
		gamut *s, *s1, *s2;
		double v1, v2, vi;

		if ((s = new_gamut(0.0, 0, 0)) == NULL)
			error("Creating gamut object failed");
		
		if ((s1 = new_gamut(0.0, 0, 0)) == NULL)
			error("Creating gamut object failed");
		
		if ((s2 = new_gamut(0.0, 0, 0)) == NULL)
			error("Creating gamut object failed");
		
		if (s1->read_gam(s1, gds[0].in_name))
			error("Input file '%s' read failed",gds[n].in_name[0]);

		if (s2->read_gam(s2, gds[1].in_name))
			error("Input file '%s' read failed",gds[n].in_name[1]);

		v1 = s1->volume(s1);
		v2 = s2->volume(s2);

		if (s->intersect(s, s1, s2))
			error("Gamuts are not compatible! (Colorspace, gamut center ?)");
		vi = s->volume(s);

		if (iout_name[0] != '\000') {
			if (s->write_gam(s, iout_name))
				error("Writing intersection gamut to '%s' failed",iout_name);
		}

		printf("Intersecting volume = %.1f cubic units\n",vi);
		printf("'%s' volume = %.1f cubic units, intersect = %.2f%%\n",gds[0].in_name,v1,100.0 * vi/v1);
		printf("'%s' volume = %.1f cubic units, intersect = %.2f%%\n",gds[1].in_name,v2,100.0 * vi/v2);

		s1->del(s1);
		s2->del(s2);
	}

	if (ng > 0)
		free(gds);

	return 0;
}

#ifdef NEVER
/* Basic printf type error() and warning() routines */

void
error(char *fmt, ...)
{
	va_list args;

	fprintf(stderr,"icclu: Error - ");
	va_start(args, fmt);
	vfprintf(stderr, fmt, args);
	va_end(args);
	fprintf(stderr, "\n");
	exit (-1);
}

void
warning(char *fmt, ...)
{
	va_list args;

	fprintf(stderr,"icclu: Warning - ");
	va_start(args, fmt);
	vfprintf(stderr, fmt, args);
	va_end(args);
	fprintf(stderr, "\n");
}

#endif /* NEVER */