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|
/*
* xicc lookup/test utility
*
* This program is the analog of icclu, but allows reverse lookup
* of transforms by making use of xicc interpolation code, + other
* more advanced features.
* (Based on the old xfmlu.c)
*
* Author: Graeme W. Gill
* Date: 8/7/00
* Version: 1.00
*
* Copyright 1999, 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.
*/
/* TTBD:
Add HSV as alternative to RGB ?
Can -ff and -fif be made to work with device link files ?
*/
#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 "plot.h"
#include "xicc.h"
#include "ui.h"
#undef SPTEST /* [und] Test (flawed) rspl gamut surface code */
#define USE_NEARCLIP /* [def] Our usual expectation */
#define USE_FASTNNSETP /* [def] Make it more responsive, but not same alg. */
/* NOTE camclip & merglut are runtime options! */
#define XRES 128 /* [128] Plotting resolution */
#ifndef USE_NEARCLIP
# pragma message("!!!!!!!!!!!! USE_NEARCLIP turned off !!!!!!!!!")
#endif
#ifndef USE_FASTNNSETP
# pragma message("!!!!!!!!!!!! USE_FASTNNSETP turned off !!!!!!!!!")
#endif
void usage(char *diag) {
int i;
fprintf(stderr,"Lookup ICC or CAL colors, Version %s\n",ARGYLL_VERSION_STR);
fprintf(stderr,"Author: Graeme W. Gill, licensed under the AGPL Version 3\n");
fprintf(stderr,"usage: xicclu [-options] profile_or_cal\n");
if (diag != NULL)
fprintf(stderr,"Diagnostic: %s\n",diag);
fprintf(stderr," -v level Verbosity level 0 - 2 (default = 1)\n");
fprintf(stderr," -g Plot slice instead of looking colors up. (Default white to black)\n");
fprintf(stderr," -G s:L:a:b Override plot slice start with Lab or Jab co-ordinate \n");
fprintf(stderr," -G e:L:a:b Override plot slice end with Lab or Jab co-ordinate \n");
fprintf(stderr," -V Lookup or plot the 'vcgt' calibration tag from profile\n");
fprintf(stderr," -f function f = forward, b = backwards, g = gamut, p = preview\n");
fprintf(stderr," if = inverted forward, ib = inverted backwards\n");
fprintf(stderr," -i intent a = absolute, r = relative colorimetric\n");
fprintf(stderr," p = perceptual, s = saturation, A = disp. abs. measurements\n");
// fprintf(stderr," P = absolute perceptual, S = absolute saturation\n");
fprintf(stderr," -o order n = normal (priority: lut > matrix > monochrome)\n");
fprintf(stderr," r = reverse (priority: monochrome > matrix > lut)\n");
fprintf(stderr," -p oride x = XYZ_PCS, X = XYZ * 100, l = Lab_PCS, L = LCh, y = Yxy\n");
fprintf(stderr," j = %s Appearance Jab, J = %s Appearance JCh\n",icxcam_description(cam_default),icxcam_description(cam_default));
fprintf(stderr," -s scale Scale device range 0.0 - scale rather than 0.0 - 1.0\n");
fprintf(stderr," -e flag Video encode device input as:\n");
fprintf(stderr," -E flag Video decode device output as:\n");
fprintf(stderr," n normal 0..1 full range RGB levels (default)\n");
fprintf(stderr," t (16-235)/255 \"TV\" RGB levels\n");
fprintf(stderr," 6 Rec601 YCbCr SD (16-235,240)/255 \"TV\" levels\n");
fprintf(stderr," 7 Rec709 1125/60Hz YCbCr HD (16-235,240)/255 \"TV\" levels\n");
fprintf(stderr," 5 Rec709 1250/50Hz YCbCr HD (16-235,240)/255 \"TV\" levels\n");
fprintf(stderr," 2 Rec2020 YCbCr UHD (16-235,240)/255 \"TV\" levels\n");
fprintf(stderr," C Rec2020 Constant Luminance YCbCr UHD (16-235,240)/255 \"TV\" levels\n");
fprintf(stderr," -k [zhxrlv] Black value target: z = zero K,\n");
fprintf(stderr," h = 0.5 K, x = max K, r = ramp K (def.)\n");
fprintf(stderr," l = extra PCS input is portion of K locus\n");
fprintf(stderr," v = extra PCS input is K target value\n");
fprintf(stderr," -k p stle stpo enpo enle shape\n");
fprintf(stderr," stle: K level at White 0.0 - 1.0\n");
fprintf(stderr," stpo: start point of transition Wh 0.0 - Bk 1.0\n");
fprintf(stderr," enpo: End point of transition Wh 0.0 - Bk 1.0\n");
fprintf(stderr," enle: K level at Black 0.0 - 1.0\n");
fprintf(stderr," shape: 1.0 = straight, 0.0-1.0 concave, 1.0-2.0 convex\n");
fprintf(stderr," -k q stle0 stpo0 enpo0 enle0 shape0 stle2 stpo2 enpo2 enle2 shape2\n");
fprintf(stderr," Transfer extra PCS input to dual curve limits\n");
fprintf(stderr," -K parameters Same as -k, but target is K locus rather than K value itself\n");
fprintf(stderr," -l tlimit set total ink limit, 0 - 400%% (estimate by default)\n");
fprintf(stderr," -L klimit set black ink limit, 0 - 100%% (estimate by default)\n");
fprintf(stderr," -a show actual target values if clipped\n");
fprintf(stderr," -u warn if output PCS is outside the spectrum locus\n");
fprintf(stderr," -m merge output processing into clut\n");
fprintf(stderr," -b use CAM Jab for clipping\n");
// fprintf(stderr," -S Use internal optimised separation for inverse 4d [NOT IMPLEMENTED]\n");
#ifdef SPTEST
fprintf(stderr," -w special gamut surface test PCS space\n");
fprintf(stderr," -W special gamut surface test, PCS' space\n");
#endif
fprintf(stderr," -c viewcond set viewing conditions for CIECAM97s,\n");
fprintf(stderr," either an enumerated choice, or a parameter:value changes\n");
for (i = 0; ; i++) {
icxViewCond vc;
if (xicc_enum_viewcond(NULL, &vc, i, NULL, 1, NULL) == -999)
break;
fprintf(stderr," %s\n",vc.desc);
}
fprintf(stderr," s:surround n = auto, a = average, m = dim, d = dark,\n");
fprintf(stderr," c = transparency (default average)\n");
fprintf(stderr," w:X:Y:Z Adapted white point as XYZ (default media white, Abs: D50)\n");
fprintf(stderr," w:x:y Adapted white point as x, y\n");
fprintf(stderr," a:adaptation Adaptation luminance in cd.m^2 (default 50.0)\n");
fprintf(stderr," b:background Background %% of image luminance (default 20)\n");
fprintf(stderr," l:imagewhite Image white in cd.m^2 if surround = auto (default 250)\n");
fprintf(stderr," f:flare Flare light %% of image luminance (default 0)\n");
fprintf(stderr," g:glare Flare light %% of ambient (default %d)\n",XICC_DEFAULT_GLARE);
fprintf(stderr," g:X:Y:Z Flare color as XYZ (default media white, Abs: D50)\n");
fprintf(stderr," g:x:y Flare color as x, y\n");
fprintf(stderr," h:hkscale Helmholtz-Kohlrausch effect scale factor (default 1.0)\n");
fprintf(stderr," m:mtaf Mid-tone partial adaptation factor (default 0.0)\n");
fprintf(stderr," m:X:Y:Z Mid-tone Adaptation white as XYZ (default D50)\n");
fprintf(stderr," m:x:y Mid-tone Adaptation white as x, y\n");
fprintf(stderr,"\n");
fprintf(stderr," The colors to be translated should be fed into standard in,\n");
fprintf(stderr," one input color per line, white space separated.\n");
fprintf(stderr," A line starting with a # will be ignored.\n");
fprintf(stderr," A line not starting with a number will terminate the program.\n");
fprintf(stderr," Use -v0 for just output colors.\n");
exit(1);
}
#ifdef SPTEST
#pragma message("!!!!!!!!!!!! Experimental gamut boundary test !!!!!!!!!")
/* Output curve function */
void spoutf(void *cbntx, double *out, double *in) {
icxLuLut *clu = (icxLuLut *)cbntx;
clu->output(clu, out, in);
clu->out_abs(clu, out, out);
}
/* Inverse output curve function */
void spioutf(void *cbntx, double *out, double *in) {
icxLuLut *clu = (icxLuLut *)cbntx;
clu->inv_out_abs(clu, out, in);
clu->inv_output(clu, out, out);
}
#endif /* SPTEST */
int
main(int argc, char *argv[]) {
int fa, nfa, mfa; /* argument we're looking at */
char prof_name[MAXNAMEL+1];
icmFile *fp = NULL;
icc *icco = NULL;
xicc *xicco = NULL;
xcal *cal = NULL; /* If .cal rather than .icm/.icc, not NULL */
int dovcgt = 0; /* Extract cal out of icc profile */
int doplot = 0; /* Do grey axis plot */
double pstart[3] = { -1000.0 }; /* Plot Lab/Jab PCS start point = white */
double pend[3] = { -1000.0 }; /* Plot Lab/Jab PCS end point = black */
icxInk ink; /* Ink parameters */
double tlimit = -1.0; /* Total ink limit */
double klimit = -1.0; /* Black ink limit */
int intsep = 0;
icxViewCond vc; /* Viewing Condition for CIECAM97s */
int vc_e = -1; /* Enumerated viewing condition */
int vc_s = -1; /* Surround override */
double vc_wXYZ[3] = {-1.0, -1.0, -1.0}; /* Adapted white override in XYZ */
double vc_wxy[2] = {-1.0, -1.0}; /* Adapted white override in x,y */
double vc_a = -1.0; /* Adapted luminance */
double vc_b = -1.0; /* Background % overide */
double vc_l = -1.0; /* Scene luminance override */
double vc_f = -1.0; /* Flare % overide */
double vc_g = -1.0; /* Glare % overide */
double vc_gXYZ[3] = {-1.0, -1.0, -1.0}; /* Glare color override in XYZ */
double vc_gxy[2] = {-1.0, -1.0}; /* Glare color override in x,y */
double vc_hkscale = -1.0; /* HK scaling factor */
double vc_mtaf = -1.0; /* Mid tone partial adapation factor from Wxyz to Wxyz2 */
double vc_Wxyz2[3] = {-1.0, -1.0, -1.0}; /* Adapted white override in XYZ */
int verb = 1;
int actual = 0;
int slocwarn = 0;
int merge = 0;
int camclip = 0;
int repYxy = 0; /* Report Yxy */
int repJCh = 0; /* Report JCh */
int repLCh = 0; /* Report LCh */
int repXYZ100 = 0; /* Scale XYZ by 10 */
double scale = 0.0; /* Device value scale factor */
int in_tvenc = 0; /* 1 to use RGB Video Level encoding, 2 = Rec601, 3 = Rec709 YCbCr */
int out_tvenc = 0; /* 1 to use RGB Video Level encoding, 2 = Rec601, 3 = Rec709 YCbCr */
int rv = 0;
char buf[200];
double uin[MAX_CHAN], in[MAX_CHAN], out[MAX_CHAN], uout[MAX_CHAN];
icxLuBase *luo = NULL, *aluo = NULL;
icColorSpaceSignature ins, outs; /* Type of input and output spaces */
int inn, outn; /* Number of components */
icmLuAlgType alg; /* Type of lookup algorithm */
/* Lookup parameters */
icmLookupFunc func = icmFwd; /* Default */
icRenderingIntent intent = icmDefaultIntent; /* Default */
int absmeas = 0; /* Show display absolute measurement in XYZ */
double dispLuminance = -1.0; /* Luminance value for absmeas */
icColorSpaceSignature pcsor = icmSigDefaultData; /* Default */
icmLookupOrder order = icmLuOrdNorm; /* Default */
int inking = 3; /* Default is ramp */
int locus = 0; /* Default is K value */
/* K curve params */
double Kstle = 0.0, Kstpo = 0.0, Kenle = 0.0, Kenpo = 0.0, Kshap = 0.0;
/* K curve params (max) */
double Kstle1 = 0.0, Kstpo1 = 0.0, Kenle1 = 0.0, Kenpo1 = 0.0, Kshap1 = 0.0;
int invert = 0;
xslpoly *chlp = NULL;
#ifdef SPTEST
int sptest = 0;
warning("xicc/xicclu.c !!!! special rspl gamut sest code is compiled in !!!!\n");
#endif
error_program = argv[0];
if (argc < 2)
usage("Too few arguments");
/* Process the arguments */
mfa = 1; /* Minimum final 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("Requested usage");
/* Verbosity */
else if (argv[fa][1] == 'v') {
if (na == NULL) {
verb = 2;
} else {
fa = nfa;
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");
}
}
/* Load ICC 'vcgt' tag as Cal */
else if (argv[fa][1] == 'V') {
dovcgt = 1;
}
/* Locus plot */
else if (argv[fa][1] == 'g') {
doplot = 1;
}
/* Plot start or end override */
else if (argv[fa][1] == 'G') {
if (na == NULL) usage("No parameter after flag -G");
fa = nfa;
if (na[0] == 's' || na[0] == 'S') {
if (sscanf(na+1,":%lf:%lf:%lf",&pstart[0],&pstart[1],&pstart[2]) != 3)
usage("Unrecognised parameters after -Gs");
} else if (na[0] == 'e' || na[0] == 'E') {
if (sscanf(na+1,":%lf:%lf:%lf",&pend[0],&pend[1],&pend[2]) != 3)
usage("Unrecognised parameters after -Ge");
} else
usage("Unrecognised parameters after -G");
}
/* Actual target values */
else if (argv[fa][1] == 'a') {
actual = 1;
}
/* Warn if output is outside the spectrum locus */
else if (argv[fa][1] == 'u') {
slocwarn = 1;
}
/* Merge output */
else if (argv[fa][1] == 'm') {
merge = 1;
}
/* Use CAM Jab for clipping on reverse lookup */
else if (argv[fa][1] == 'b') {
camclip = 1;
}
/* Use optimised internal separation */
else if (argv[fa][1] == 'S') {
intsep = 1;
}
/* Device scale */
else if (argv[fa][1] == 's') {
if (na == NULL) usage("No parameter after flag -s");
fa = nfa;
scale = atof(na);
if (scale <= 0.0) usage("Illegal scale value");
}
/* Video RGB encoding */
else if (argv[fa][1] == 'e'
|| argv[fa][1] == 'E') {
int enc;
if (na == NULL) usage("Video encodong flag (-e/E) needs an argument");
fa = nfa;
switch (na[0]) {
case 'n': /* Normal */
enc = 0;
break;
case 't': /* TV 16 .. 235 */
enc = 1;
break;
case '6': /* Rec601 YCbCr */
enc = 2;
break;
case '7': /* Rec709 1150/60/2:1 YCbCr */
enc = 3;
break;
case '5': /* Rec709 1250/50/2:1 YCbCr (HD) */
enc = 4;
break;
case '2': /* Rec2020 Non-constant Luminance YCbCr (UHD) */
enc = 5;
break;
case 'C': /* Rec2020 Constant Luminance YCbCr (UHD) */
enc = 6;
break;
default:
usage("Video encoding (-E) argument not recognised");
}
if (argv[fa][1] == 'e')
in_tvenc = enc;
else
out_tvenc = enc;
}
/* function */
else if (argv[fa][1] == 'f') {
if (na == NULL) usage("No parameter after flag -f");
fa = nfa;
switch (na[0]) {
case 'f':
case 'F':
func = icmFwd;
break;
case 'b':
case 'B':
func = icmBwd;
break;
case 'g':
case 'G':
func = icmGamut;
break;
case 'p':
case 'P':
func = icmPreview;
break;
case 'i':
case 'I':
invert = 1;
if (na[1] == 'f' || na[1] == 'F')
func = icmFwd;
else if (na[1] == 'b' || na[1] == 'B')
func = icmBwd;
else
usage("Unknown parameter after flag -fi");
break;
default:
usage("Unknown parameter after flag -f");
}
}
/* Intent */
else if (argv[fa][1] == 'i') {
if (na == NULL) usage("No parameter after flag -i");
fa = nfa;
absmeas = 0;
switch (na[0]) {
case 'p':
intent = icPerceptual;
break;
case 'r':
intent = icRelativeColorimetric;
break;
case 's':
intent = icSaturation;
break;
case 'a':
intent = icAbsoluteColorimetric;
break;
case 'A':
intent = icAbsoluteColorimetric;
absmeas = 1;
break;
/* Argyll special intents to check spaces underlying */
/* icxPerceptualAppearance & icxSaturationAppearance */
case 'P':
intent = icmAbsolutePerceptual;
break;
case 'S':
intent = icmAbsoluteSaturation;
break;
default:
usage("Unknown parameter after flag -i");
}
}
/* PCS override */
else if (argv[fa][1] == 'p') {
if (na == NULL) usage("No parameter after flag -i");
fa = nfa;
switch (na[0]) {
case 'x':
/* (See also absmeas after options) */
pcsor = icSigXYZData;
repYxy = 0;
repLCh = 0;
repJCh = 0;
repXYZ100 = 0;
break;
case 'X':
pcsor = icSigXYZData;
repYxy = 0;
repLCh = 0;
repJCh = 0;
repXYZ100 = 1;
break;
case 'l':
pcsor = icSigLabData;
repYxy = 0;
repLCh = 0;
repJCh = 0;
repXYZ100 = 0;
break;
case 'L':
pcsor = icSigLabData;
repYxy = 0;
repLCh = 1;
repJCh = 0;
repXYZ100 = 0;
break;
case 'y':
case 'Y':
pcsor = icSigXYZData;
repYxy = 1;
repLCh = 0;
repJCh = 0;
repXYZ100 = 0;
break;
case 'j':
pcsor = icxSigJabData;
repYxy = 0;
repLCh = 0;
repJCh = 0;
repXYZ100 = 0;
break;
case 'J':
pcsor = icxSigJabData;
repYxy = 0;
repLCh = 0;
repJCh = 1;
repXYZ100 = 0;
break;
default:
usage("Unknown parameter after flag -i");
}
}
/* Search order */
else if (argv[fa][1] == 'o') {
if (na == NULL) usage("No parameter after flag -o");
fa = nfa;
switch (na[0]) {
case 'n':
case 'N':
order = icmLuOrdNorm;
break;
case 'r':
case 'R':
order = icmLuOrdRev;
break;
default:
usage("Unknown parameter after flag -o");
}
}
/* Inking rule */
else if (argv[fa][1] == 'k'
|| argv[fa][1] == 'K') {
if (na == NULL) usage("No parameter after flag -k");
fa = nfa;
if (argv[fa][1] == 'k')
locus = 0; /* K value target */
else
locus = 1; /* K locus target */
switch (na[0]) {
case 'z':
case 'Z':
inking = 0; /* Use minimum k */
break;
case 'h':
case 'H':
inking = 1; /* Use 0.5 k */
break;
case 'x':
case 'X':
inking = 2; /* Use maximum k */
break;
case 'r':
case 'R':
inking = 3; /* Use ramping K */
break;
case 'l':
case 'L':
inking = 4; /* Extra param is locus */
break;
case 'v':
case 'V':
inking = 5; /* Extra param is K target */
break;
case 'p':
case 'P':
case 'q':
case 'Q':
inking = 6; /* Use curve parameter */
++fa;
if (fa >= argc) usage("Inking rule (-kp) expects more parameters");
Kstle = atof(argv[fa]);
++fa;
if (fa >= argc) usage("Inking rule (-kp) expects more parameters");
Kstpo = atof(argv[fa]);
++fa;
if (fa >= argc || argv[fa][0] == '-') usage("Inking rule (-kp) expects more parameters");
Kenpo = atof(argv[fa]);
++fa;
if (fa >= argc || argv[fa][0] == '-') usage("Inking rule (-kp) expects more parameters");
Kenle = atof(argv[fa]);
++fa;
if (fa >= argc || argv[fa][0] == '-') usage("Inking rule (-kp) expects more parameters");
Kshap = atof(argv[fa]);
if (na[0] == 'q' || na[0] == 'Q') {
inking = 7; /* Use transfer to dual curve parameter */
++fa;
if (fa >= argc) usage("Inking rule (-kq) expects more parameters");
Kstle1 = atof(argv[fa]);
++fa;
if (fa >= argc) usage("Inking rule (-kq) expects more parameters");
Kstpo1 = atof(argv[fa]);
++fa;
if (fa >= argc || argv[fa][0] == '-') usage("Inking rule (-kq) expects more parameters");
Kenpo1 = atof(argv[fa]);
++fa;
if (fa >= argc) usage("Inking rule (-kq) expects more parameters");
Kenle1 = atof(argv[fa]);
++fa;
if (fa >= argc || argv[fa][0] == '-') usage("Inking rule (-kq) expects more parameters");
Kshap1 = atof(argv[fa]);
}
break;
default:
usage("Unknown parameter after flag -k");
}
}
else if (argv[fa][1] == 'l') {
if (na == NULL) usage("No parameter after flag -l");
fa = nfa;
tlimit = atoi(na)/100.0;
}
else if (argv[fa][1] == 'L') {
if (na == NULL) usage("No parameter after flag -L");
fa = nfa;
klimit = atoi(na)/100.0;
}
#ifdef SPTEST
else if (argv[fa][1] == 'w') {
sptest = 1;
}
else if (argv[fa][1] == 'W') {
sptest = 2;
}
#endif
/* Viewing conditions */
else if (argv[fa][1] == 'c') {
if (na == NULL) usage("No parameter after flag -c");
fa = nfa;
#ifdef NEVER
if (na[0] >= '0' && na[0] <= '9') {
vc_e = atoi(na);
} else
#endif
if (na[1] != ':') {
if ((vc_e = xicc_enum_viewcond(NULL, NULL, -2, na, 1, NULL)) == -999)
usage("Urecognised Enumerated Viewing conditions");
} else if (na[0] == 's' || na[0] == 'S') {
if (na[1] != ':')
usage("Unrecognised parameters after -cs");
if (na[2] == 'n' || na[2] == 'N') {
vc_s = vc_none; /* Automatic using Lv */
} else if (na[2] == 'a' || na[2] == 'A') {
vc_s = vc_average;
} else if (na[2] == 'm' || na[2] == 'M') {
vc_s = vc_dim;
} else if (na[2] == 'd' || na[2] == 'D') {
vc_s = vc_dark;
} else if (na[2] == 'c' || na[2] == 'C') {
vc_s = vc_cut_sheet;
} else
usage("Unrecognised parameters after -cs:");
} else if (na[0] == 'w' || na[0] == 'W') {
double x, y, z;
if (sscanf(na+1,":%lf:%lf:%lf",&x,&y,&z) == 3) {
vc_wXYZ[0] = x; vc_wXYZ[1] = y; vc_wXYZ[2] = z;
} else if (sscanf(na+1,":%lf:%lf",&x,&y) == 2) {
vc_wxy[0] = x; vc_wxy[1] = y;
} else
usage("Unrecognised parameters after -cw");
} else if (na[0] == 'a' || na[0] == 'A') {
if (na[1] != ':')
usage("Unrecognised parameters after -ca");
vc_a = atof(na+2);
} else if (na[0] == 'b' || na[0] == 'B') {
if (na[1] != ':')
usage("Unrecognised parameters after -cb");
vc_b = atof(na+2);
} else if (na[0] == 'l' || na[0] == 'L') {
if (na[1] != ':')
usage("Viewing conditions (-cl) missing ':'");
vc_l = atof(na+2);
} else if (na[0] == 'f' || na[0] == 'F') {
if (na[1] != ':')
usage("Viewing conditions (-cf) missing ':'");
vc_f = atof(na+2);
} else if (na[0] == 'g' || na[0] == 'G') {
double x, y, z;
if (sscanf(na+1,":%lf:%lf:%lf",&x,&y,&z) == 3) {
vc_gXYZ[0] = x; vc_gXYZ[1] = y; vc_gXYZ[2] = z;
} else if (sscanf(na+1,":%lf:%lf",&x,&y) == 2) {
vc_gxy[0] = x; vc_gxy[1] = y;
} else if (sscanf(na+1,":%lf",&x) == 1) {
vc_g = x;
} else
usage("Unrecognised parameters after -cg");
} else if (na[0] == 'h' || na[0] == 'H') {
if (na[1] != ':')
usage("Unrecognised parameters after -ch");
vc_hkscale = atof(na+2);
} else if (na[0] == 'm' || na[0] == 'M') {
double x, y, z;
if (sscanf(na+1,":%lf:%lf:%lf",&x,&y,&z) == 3) {
vc_Wxyz2[0] = x; vc_Wxyz2[1] = y; vc_Wxyz2[2] = z;
} else if (sscanf(na+1,":%lf:%lf",&x,&y) == 2) {
vc_Wxyz2[0] = x; vc_Wxyz2[1] = y; vc_Wxyz2[2] = -1;
} else if (sscanf(na+1,":%lf",&x) == 1) {
vc_mtaf = x;
} else
usage("Unrecognised parameters after -cm");
} else
usage("Unrecognised parameters after -c");
}
else
usage("Unknown flag");
} else
break;
}
if (fa >= argc || argv[fa][0] == '-') usage("Expecting profile file name");
strncpy(prof_name,argv[fa],MAXNAMEL); prof_name[MAXNAMEL] = '\000';
if (slocwarn) {
if ((chlp = chrom_locus_poligon(0, icxOT_CIE_1931_2, 0)) == NULL)
error("chrom_locus_poligon failed");
}
/* Force to XYZ PCS */
if (absmeas) {
pcsor = icSigXYZData;
repYxy = 0;
repLCh = 0;
repJCh = 0;
repXYZ100 = 0;
}
/* Open up the profile for reading */
if ((fp = new_icmFileStd_name(prof_name,"r")) == NULL)
error ("Can't open file '%s'",prof_name);
if ((icco = new_icc()) == NULL)
error ("Creation of ICC object failed");
if (dovcgt) {
if ((rv = icco->read(icco,fp,0)) != 0)
error ("Can't load ICC file '%s'",prof_name);
if ((cal = new_xcal()) == NULL)
error("new_xcal failed");
if ((cal->read_icc(cal, icco)) != 0) {
error ("ICC file '%s' doesn't contain a 'vcgt' tag",prof_name);
}
icco->del(icco);
fp->del(fp);
fp = NULL;
/* Get details of conversion (Arguments may be NULL if info not needed) */
outs = ins = cal->colspace;
outn = inn = cal->devchan;
} else if ((rv = icco->read(icco,fp,0)) == 0) { /* ICC profile */
if (doplot) {
/* Force PCS to be Lab or Jab */
repJCh = 0;
repLCh = 0;
if (pcsor != icxSigJabData)
pcsor = icSigLabData;
if ((invert == 0 && func != icmBwd)
|| (invert != 0 && func != icmFwd))
error("Must use -fb or -fif for grey axis plot");
}
if (icco->header->cmmId == str2tag("argl"))
icco->allowclutPoints256 = 1;
if (doplot) {
if (icco->header->deviceClass != icSigInputClass
&& icco->header->deviceClass != icSigDisplayClass
&& icco->header->deviceClass != icSigOutputClass)
error("Profile must be a device profile to plot neutral axis");
}
/* Wrap with an expanded icc */
if ((xicco = new_xicc(icco)) == NULL)
error ("Creation of xicc failed");
/* Set the default ink limits if not set on command line */
icxDefaultLimits(xicco, &ink.tlimit, tlimit, &ink.klimit, klimit);
if (verb > 1) {
if (ink.tlimit >= 0.0)
printf("Total ink limit assumed is %3.0f%%\n",100.0 * ink.tlimit);
if (ink.klimit >= 0.0)
printf("Black ink limit assumed is %3.0f%%\n",100.0 * ink.klimit);
}
ink.KonlyLmin = 0; /* Use normal black as locus Lmin */
ink.c.Ksmth = ICXINKDEFSMTH; /* Default curve smoothing */
ink.c.Kskew = ICXINKDEFSKEW; /* default curve skew */
ink.x.Ksmth = ICXINKDEFSMTH;
ink.x.Kskew = ICXINKDEFSKEW;
if (inking == 0) { /* Use minimum */
ink.k_rule = locus ? icxKluma5 : icxKluma5k; /* Locus or value target */
ink.c.Kstle = 0.0;
ink.c.Kstpo = 0.0;
ink.c.Kenpo = 1.0;
ink.c.Kenle = 0.0;
ink.c.Kshap = 1.0;
} else if (inking == 1) { /* Use 0.5 */
ink.k_rule = locus ? icxKluma5 : icxKluma5k; /* Locus or value target */
ink.c.Kstle = 0.5;
ink.c.Kstpo = 0.0;
ink.c.Kenpo = 1.0;
ink.c.Kenle = 0.5;
ink.c.Kshap = 1.0;
} else if (inking == 2) { /* Use maximum */
ink.k_rule = locus ? icxKluma5 : icxKluma5k; /* Locus or value target */
ink.c.Kstle = 1.0;
ink.c.Kstpo = 0.0;
ink.c.Kenpo = 1.0;
ink.c.Kenle = 1.0;
ink.c.Kshap = 1.0;
} else if (inking == 3) { /* Use ramp */
ink.k_rule = locus ? icxKluma5 : icxKluma5k; /* Locus or value target */
ink.c.Kstle = 0.0;
ink.c.Kstpo = 0.0;
ink.c.Kenpo = 1.0;
ink.c.Kenle = 1.0;
ink.c.Kshap = 1.0;
} else if (inking == 4) { /* Use locus */
ink.k_rule = icxKlocus;
} else if (inking == 5) { /* Use K target */
ink.k_rule = icxKvalue;
} else if (inking == 6) { /* Use specified curve */
ink.k_rule = locus ? icxKluma5 : icxKluma5k; /* Locus or value target */
ink.c.Kstle = Kstle;
ink.c.Kstpo = Kstpo;
ink.c.Kenpo = Kenpo;
ink.c.Kenle = Kenle;
ink.c.Kshap = Kshap;
} else { /* Use dual curves */
ink.k_rule = locus ? icxKl5l : icxKl5lk; /* Locus or value target */
ink.c.Kstle = Kstle;
ink.c.Kstpo = Kstpo;
ink.c.Kenpo = Kenpo;
ink.c.Kenle = Kenle;
ink.c.Kshap = Kshap;
ink.x.Kstle = Kstle1;
ink.x.Kstpo = Kstpo1;
ink.x.Kenpo = Kenpo1;
ink.x.Kenle = Kenle1;
ink.x.Kshap = Kshap1;
}
/* Setup the viewing conditions in case we need them */
if (xicc_enum_viewcond(xicco, &vc, -1, NULL, 0, NULL) == -999) {
if (camclip || pcsor == icxSigJabData) /* If it will be needed */
error("%d, %s",xicco->errc, xicco->err);
}
//xicc_dump_viewcond(&vc);
if (vc_e != -1)
if (xicc_enum_viewcond(xicco, &vc, vc_e, NULL, 0, NULL) == -999)
error ("%d, %s",xicco->errc, xicco->err);
if (vc_s >= 0)
vc.Ev = vc_s;
if (vc_wXYZ[1] > 0.0) {
/* Normalise it to current media white */
vc.Wxyz[0] = vc_wXYZ[0]/vc_wXYZ[1] * vc.Wxyz[1];
vc.Wxyz[2] = vc_wXYZ[2]/vc_wXYZ[1] * vc.Wxyz[1];
}
if (vc_wxy[0] >= 0.0) {
double x = vc_wxy[0];
double y = vc_wxy[1]; /* If Y == 1.0, then X+Y+Z = 1/y */
double z = 1.0 - x - y;
vc.Wxyz[0] = x/y * vc.Wxyz[1];
vc.Wxyz[2] = z/y * vc.Wxyz[1];
}
if (vc_a >= 0.0)
vc.La = vc_a;
if (vc_b >= 0.0)
vc.Yb = vc_b/100.0;
if (vc_l >= 0.0)
vc.Lv = vc_l;
if (vc_f >= 0.0)
vc.Yf = vc_f/100.0;
if (vc_g >= 0.0)
vc.Yg = vc_g/100.0;
if (vc_gXYZ[1] > 0.0) {
/* Normalise it to current media white */
vc.Gxyz[0] = vc_gXYZ[0]/vc_gXYZ[1] * vc.Gxyz[1];
vc.Gxyz[2] = vc_gXYZ[2]/vc_gXYZ[1] * vc.Gxyz[1];
}
if (vc_gxy[0] >= 0.0) {
double x = vc_gxy[0];
double y = vc_gxy[1]; /* If Y == 1.0, then X+Y+Z = 1/y */
double z = 1.0 - x - y;
vc.Gxyz[0] = x/y * vc.Gxyz[1];
vc.Gxyz[2] = z/y * vc.Gxyz[1];
}
if (vc_hkscale >= 0.0)
vc.hkscale = vc_hkscale;
if (vc_mtaf >= 0.0)
vc.mtaf = vc_mtaf;
if (vc_Wxyz2[0] >= 0.0 && vc_Wxyz2[1] > 0.0 && vc_Wxyz2[2] >= 0.0) {
/* Normalise XYZ */
vc.Wxyz2[0] = vc_Wxyz2[0]/vc_Wxyz2[1] * vc.Wxyz2[1];
vc.Wxyz2[2] = vc_Wxyz2[2]/vc_Wxyz2[1] * vc.Wxyz2[1];
}
if (vc_Wxyz2[0] >= 0.0 && vc_Wxyz2[1] >= 0.0 && vc_Wxyz2[2] < 0.0) {
/* Convert Yxy to XYZ */
double x = vc_Wxyz2[0];
double y = vc_Wxyz2[1]; /* If Y == 1.0, then X+Y+Z = 1/y */
double z = 1.0 - x - y;
vc.Wxyz2[0] = x/y * vc.Wxyz2[1];
vc.Wxyz2[2] = z/y * vc.Wxyz2[1];
}
//xicc_dump_viewcond(&vc);
/* Get a expanded color conversion object */
if ((luo = xicco->get_luobj(xicco, 0
#ifdef USE_NEARCLIP
| ICX_CLIP_NEAREST
#endif
| (intsep ? ICX_INT_SEPARATE : 0)
| (merge ? ICX_MERGE_CLUT : 0)
| (camclip ? ICX_CAM_CLIP : 0)
#ifdef USE_FASTNNSETP
| ICX_FAST_SETUP
#endif
, func, intent, pcsor, order, &vc, &ink)) == NULL)
error ("%d, %s",xicco->errc, xicco->err);
/* Get details of conversion (Arguments may be NULL if info not needed) */
if (invert)
luo->spaces(luo, &outs, &outn, &ins, &inn, &alg, NULL, NULL, NULL);
else
luo->spaces(luo, &ins, &inn, &outs, &outn, &alg, NULL, NULL, NULL);
/* If we can do check on clipped values */
if (actual != 0) {
if (invert == 0) {
if (func == icmFwd || func == icmBwd) {
if ((aluo = xicco->get_luobj(xicco, ICX_CLIP_NEAREST,
func == icmFwd ? icmBwd : icmFwd, intent, pcsor, order, &vc, &ink)) == NULL)
error ("%d, %s",xicco->errc, xicco->err);
}
} else {
aluo = luo; /* We can use the same one */
}
}
/* More information */
if (verb > 1) {
int j;
double inmin[MAX_CHAN], inmax[MAX_CHAN];
double outmin[MAX_CHAN], outmax[MAX_CHAN];
luo->get_native_ranges(luo, inmin, inmax, outmin,outmax);
printf("Internal input value range: ");
for (j = 0; j < inn; j++) {
if (j > 0)
fprintf(stdout," %f..%f",inmin[j], inmax[j]);
else
fprintf(stdout,"%f..%f",inmin[j], inmax[j]);
}
printf("\nInternal output value range: ");
for (j = 0; j < outn; j++) {
if (j > 0)
fprintf(stdout," %f..%f",outmin[j], outmax[j]);
else
fprintf(stdout,"%f..%f",outmin[j], outmax[j]);
}
luo->get_ranges(luo, inmin, inmax, outmin,outmax);
printf("\nInput value range: ");
for (j = 0; j < inn; j++) {
if (j > 0)
fprintf(stdout," %f..%f",inmin[j], inmax[j]);
else
fprintf(stdout,"%f..%f",inmin[j], inmax[j]);
}
printf("\nOutput value range: ");
for (j = 0; j < outn; j++) {
if (j > 0)
fprintf(stdout," %f..%f",outmin[j], outmax[j]);
else
fprintf(stdout,"%f..%f",outmin[j], outmax[j]);
}
printf("\n");
}
if (repYxy) { /* report Yxy rather than XYZ */
if (ins == icSigXYZData)
ins = icSigYxyData;
if (outs == icSigXYZData)
outs = icSigYxyData;
}
if (repJCh) { /* report JCh rather than Jab */
if (ins == icxSigJabData)
ins = icxSigJChData;
if (outs == icxSigJabData)
outs = icxSigJChData;
}
if (repLCh) { /* report LCh rather than Lab */
if (ins == icSigLabData)
ins = icxSigLChData;
if (outs == icSigLabData)
outs = icxSigLChData;
}
#ifdef SPTEST
if (sptest) {
icxLuLut *clu;
double cent[3] = { 50.0, 0.0, 0.0 };
if (luo->plu->ttype != icmLutType)
error("Special test only works on CLUT profiles");
clu = (icxLuLut *)luo;
clu->clutTable->comp_gamut(clu->clutTable, cent, NULL, spoutf, clu, spioutf, clu);
rspl_gam_plot(clu->clutTable, "sp_test.wrl", sptest-1);
exit(0);
}
#endif
/* If we are doing display absolute measurement PCS */
if (absmeas) {
icmXYZArray *wo;
if ((wo = (icmXYZArray *)icco->read_tag(
icco, icSigLuminanceTag)) != NULL
&& wo->ttype == icSigXYZArrayType) {
dispLuminance = wo->data[0].Y;
}
if (verb)
printf("Display Luminance = %f cd/m^2\n", dispLuminance);
if (dispLuminance <= 0.0)
error("Unable to read display luminance tag from '%s'\n",prof_name);
}
} else { /* See if it's a .cal */
icco->del(icco);
fp->del(fp);
fp = NULL;
if ((cal = new_xcal()) == NULL)
error("new_xcal failed");
if ((cal->read(cal, prof_name)) != 0) {
error ("File '%s' is not an ICC or .cal file",prof_name);
}
/* Get details of conversion (Arguments may be NULL if info not needed) */
outs = ins = cal->colspace;
outn = inn = cal->devchan;
}
/* Sanity check */
if (absmeas && ins != icSigXYZData && outs != icSigXYZData) {
error("Must be XYZ PCS space for display absolute measurement");
}
if (verb > 1 && icco != NULL) {
icmFile *op;
if ((op = new_icmFileStd_fp(stdout)) == NULL)
error ("Can't open stdout");
icco->header->dump(icco->header, op, 1);
op->del(op);
}
if (doplot) {
int i, j;
double xx[XRES];
double yy[6][XRES];
double start[3], end[3];
if (cal != NULL) {
for (i = 0; i < XRES; i++) {
double ival = (double)i/(XRES-1.0);
for (j = 0; j < inn; j++)
in[j] = ival;
/* Do the conversion */
if (func == icmBwd || invert) {
if ((rv = cal->inv_interp(cal, out, in)) != 0)
error ("%d, %s",cal->errc,cal->err);
} else {
cal->interp(cal, out, in);
}
xx[i] = 100.0 * ival;
for (j = 0; j < outn; j++)
yy[j][i] = 100.0 * out[j];
}
} else {
/* Plot from white to black by default */
luo->efv_wh_bk_points(luo, start, end, NULL);
if (pstart[0] == -1000.0)
icmCpy3(pstart, start);
if (pend[0] == -1000.0)
icmCpy3(pend, end);
if (verb) {
printf("Plotting from white %f %f %f to black %f %f %f\n",
pstart[0], pstart[1], pstart[2], pend[0], pend[1], pend[2]);
}
for (i = 0; i < XRES; i++) {
double ival = (double)i/(XRES-1.0);
/* Input is always Jab or Lab */
in[0] = ival * pend[0] + (1.0 - ival) * pstart[0];
in[1] = ival * pend[1] + (1.0 - ival) * pstart[1];
in[2] = ival * pend[2] + (1.0 - ival) * pstart[2];
//in[1] = in[2] = 0.0;
/* Do the conversion */
if (invert) {
if ((rv = luo->inv_lookup(luo, out, in)) > 1)
error ("%d, %s",xicco->errc,xicco->err);
//printf("~1 %f: %f %f %f -> %f %f %f %f\n", ival, in[0], in[1], in[2], out[0], out[1], out[2], out[3]);
} else {
if ((rv = luo->lookup(luo, out, in)) > 1)
error ("%d, %s",xicco->errc,xicco->err);
}
xx[i] = 100.0 * ival;
for (j = 0; j < outn; j++)
yy[j][i] = 100.0 * out[j];
}
//fflush(stdout);
}
/* plot order: Black Red Green Blue Yellow Purple */
if (outs == icSigRgbData) {
do_plot6(xx, NULL, yy[0], yy[1], yy[2], NULL, NULL, XRES);
} else if (outs == icSigCmykData) {
do_plot6(xx, yy[3], yy[1], NULL, yy[0], yy[2], NULL, XRES);
} else {
switch(outn) {
case 1:
do_plot6(xx, yy[0], NULL, NULL, NULL, NULL, NULL, XRES);
break;
case 2:
do_plot6(xx, yy[0], yy[1], NULL, NULL, NULL, NULL, XRES);
break;
case 3:
do_plot6(xx, yy[0], yy[1], yy[2], NULL, NULL, NULL, XRES);
break;
case 4:
do_plot6(xx, yy[0], yy[1], yy[2], yy[3], NULL, NULL, XRES);
break;
case 5:
do_plot6(xx, yy[0], yy[1], yy[2], yy[3], yy[4], NULL, XRES);
break;
case 6:
do_plot6(xx, yy[0], yy[1], yy[2], yy[3], yy[4], yy[5], XRES);
break;
}
}
} else {
if (slocwarn && outs != icSigXYZData
&& outs != icSigYxyData
&& outs != icSigLabData
&& outs != icxSigLChData) {
error("Can't warn if outside spectrum locus unless XYZ like space");
}
/* Process colors to translate */
for (;;) {
int i,j;
char *bp, *nbp;
int outsloc = 0;
/* Read in the next line */
if (fgets(buf, 200, stdin) == NULL)
break;
if (buf[0] == '#') {
if (verb > 0)
fprintf(stdout,"%s\n",buf);
continue;
}
/* For each input number */
for (nbp = buf, i = 0; i < MAX_CHAN; i++) {
bp = nbp;
uout[i] = out[i] = in[i] = uin[i] = strtod(bp, &nbp);
if (nbp == bp)
break; /* Failed */
}
if (i == 0)
break;
/* If device data and scale */
if( ins != icxSigJabData
&& ins != icxSigJChData
&& ins != icSigXYZData
&& ins != icSigLabData
&& ins != icxSigLChData
&& ins != icSigLuvData
&& ins != icSigYCbCrData
&& ins != icSigYxyData
&& ins != icSigHsvData
&& ins != icSigHlsData) {
if (scale > 0.0) {
for (i = 0; i < MAX_CHAN; i++)
in[i] /= scale;
}
if (inn == 3 && in_tvenc != 0) {
if (in_tvenc == 1) { /* Video 16-235 range */
icmRGB_2_VidRGB(in, in);
} else if (in_tvenc == 2) { /* Rec601 YCbCr */
icmRec601_RGBd_2_YPbPr(in, in);
icmRecXXX_YPbPr_2_YCbCr(in, in);
} else if (in_tvenc == 3) { /* Rec709 YCbCr */
icmRec709_RGBd_2_YPbPr(in, in);
icmRecXXX_YPbPr_2_YCbCr(in, in);
} else if (out_tvenc == 4) { /* Rec709 1250/50/2:1 YCbCr */
icmRec709_50_RGBd_2_YPbPr(in, in);
icmRecXXX_YPbPr_2_YCbCr(in, in);
} else if (out_tvenc == 5) { /* Rec2020 Non-constant Luminance YCbCr */
icmRec2020_NCL_RGBd_2_YPbPr(in, in);
icmRecXXX_YPbPr_2_YCbCr(in, in);
} else if (out_tvenc == 6) { /* Rec2020 Non-constant Luminance YCbCr */
icmRec2020_CL_RGBd_2_YPbPr(in, in);
icmRecXXX_YPbPr_2_YCbCr(in, in);
}
}
}
if (repXYZ100 && ins == icSigXYZData) {
in[0] /= 100.0;
in[1] /= 100.0;
in[2] /= 100.0;
}
if (repYxy && ins == icSigYxyData) {
icmYxy2XYZ(in, in);
}
/* JCh -> Jab & LCh -> Lab */
if ((repJCh && ins == icxSigJChData)
|| (repLCh && ins == icxSigLChData)) {
double C = in[1];
double h = in[2];
in[1] = C * cos(3.14159265359/180.0 * h);
in[2] = C * sin(3.14159265359/180.0 * h);
}
/* display absolute measurement */
if (absmeas && ins == icSigXYZData) {
in[0] /= dispLuminance;
in[1] /= dispLuminance;
in[2] /= dispLuminance;
}
/* Do conversion */
if (cal != NULL) { /* .cal */
if (func == icmBwd || invert) {
if ((rv = cal->inv_interp(cal, out, in)) != 0)
error ("%d, %s",cal->errc,cal->err);
} else {
cal->interp(cal, out, in);
rv = 0;
}
} else { /* ICC */
if (invert) {
for (j = 0; j < MAX_CHAN; j++)
out[j] = in[j]; /* Carry any auxiliary value to out for lookup */
if ((rv = luo->inv_lookup(luo, out, in)) > 1)
error ("%d, %s",xicco->errc,xicco->err);
} else {
if ((rv = luo->lookup(luo, out, in)) > 1)
error ("%d, %s",xicco->errc,xicco->err);
}
}
if (slocwarn) {
double xyz[3];
if (outs == icSigLabData || outs == icxSigLChData)
icmLab2XYZ(&icmD50, out, xyz);
else
icmCpy3(xyz, out);
outsloc = icx_outside_spec_locus(chlp, xyz);
}
/* Copy conversion out value so that we can create user values */
for (i = 0; i < MAX_CHAN; i++)
uout[i] = out[i];
/* display absolute measurement */
if (absmeas && outs == icSigXYZData) {
uout[0] *= dispLuminance;
uout[1] *= dispLuminance;
uout[2] *= dispLuminance;
}
if (repXYZ100 && outs == icSigXYZData) {
uout[0] *= 100.0;
uout[1] *= 100.0;
uout[2] *= 100.0;
}
if (repYxy && outs == icSigYxyData) {
icmXYZ2Yxy(uout, uout);
}
/* Jab -> JCh and Lab -> LCh */
if ((repJCh && outs == icxSigJChData)
|| (repLCh && outs == icxSigLChData)) {
double a = uout[1];
double b = uout[2];
uout[1] = sqrt(a * a + b * b);
uout[2] = (180.0/3.14159265359) * atan2(b, a);
uout[2] = (uout[2] < 0.0) ? uout[2] + 360.0 : uout[2];
}
/* If device data and scale */
if( outs != icxSigJabData
&& outs != icxSigJChData
&& outs != icSigXYZData
&& outs != icSigLabData
&& outs != icxSigLChData
&& outs != icSigLuvData
&& outs != icSigYCbCrData
&& outs != icSigYxyData
&& outs != icSigHsvData
&& outs != icSigHlsData) {
if (outn == 3 && out_tvenc != 0) {
if (out_tvenc == 1) { /* Video 16-235 range */
icmVidRGB_2_RGB(uout, uout);
} else if (out_tvenc == 2) { /* Rec601 YCbCr */
icmRecXXX_YCbCr_2_YPbPr(uout, uout);
icmRec601_YPbPr_2_RGBd(uout, uout);
} else if (out_tvenc == 3) { /* Rec709 1150/60/2:1 YCbCr */
icmRecXXX_YCbCr_2_YPbPr(uout, uout);
icmRec709_YPbPr_2_RGBd(uout, uout);
} else if (out_tvenc == 4) { /* Rec709 1250/50/2:1 YCbCr */
icmRecXXX_YCbCr_2_YPbPr(uout, uout);
icmRec709_50_YPbPr_2_RGBd(uout, uout);
} else if (out_tvenc == 5) { /* Rec2020 Non-constant Luminance YCbCr */
icmRecXXX_YCbCr_2_YPbPr(uout, uout);
icmRec2020_NCL_YPbPr_2_RGBd(uout, uout);
} else if (out_tvenc == 6) { /* Rec2020 Non-constant Luminance YCbCr */
icmRecXXX_YCbCr_2_YPbPr(uout, uout);
icmRec2020_CL_YPbPr_2_RGBd(uout, uout);
}
}
if (scale > 0.0) {
for (i = 0; i < MAX_CHAN; i++)
uout[i] *= scale;
}
}
/* Output the results */
if (verb > 0) {
for (j = 0; j < inn; j++) {
if (j > 0)
fprintf(stdout," %f",uin[j]);
else
fprintf(stdout,"%f",uin[j]);
}
if (cal != NULL)
printf(" [%s] -> ", icx2str(icmColorSpaceSignature, ins));
else
printf(" [%s] -> %s -> ", icx2str(icmColorSpaceSignature, ins),
icm2str(icmLuAlg, alg));
}
for (j = 0; j < outn; j++) {
if (j > 0)
fprintf(stdout," %f",uout[j]);
else
fprintf(stdout,"%f",uout[j]);
}
if (verb > 0)
printf(" [%s]", icx2str(icmColorSpaceSignature, outs));
if (verb > 0 && tlimit >= 0) {
double tot;
for (tot = 0.0, j = 0; j < outn; j++) {
tot += out[j];
}
printf(" Lim %f",tot);
}
if (outsloc)
fprintf(stdout,"(Imaginary)");
if (verb == 0 || rv == 0)
fprintf(stdout,"\n");
else {
fprintf(stdout," (clip)\n");
/* This probably isn't right - we need to convert */
/* in[] to Lab to Jab if it is not in that space, */
/* so we can do a delta E on it. */
if (actual && aluo != NULL) {
double cin[MAX_CHAN], de;
if ((rv = aluo->lookup(aluo, cin, out)) > 1)
error ("%d, %s",xicco->errc,xicco->err);
for (de = 0.0, j = 0; j < inn; j++) {
de += (cin[j] - in[j]) * (cin[j] - in[j]);
}
de = sqrt(de);
printf("[Actual ");
for (j = 0; j < inn; j++) {
if (j > 0)
fprintf(stdout," %f",cin[j]);
else
fprintf(stdout,"%f",cin[j]);
}
printf(", deltaE %f]\n",de);
}
}
}
}
/* Done with lookup object */
if (aluo != NULL && aluo != luo)
luo->del(aluo);
if (luo != NULL)
luo->del(luo);
if (cal != NULL)
cal->del(cal);
if (xicco != NULL)
xicco->del(xicco); /* Expansion wrapper */
if (icco != NULL)
icco->del(icco); /* Icc */
if (fp != NULL)
fp->del(fp);
return 0;
}
|