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greg |
2.36 |
/* RCSid $Id: color.h,v 2.35 2021/11/14 17:30:02 greg Exp $ */ |
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1.1 |
/* |
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* color.h - header for routines using pixel color values. |
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* |
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* Two color representations are used, one for calculation and |
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* another for storage. Calculation is done with three floats |
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* for speed. Stored color values use 4 bytes which contain |
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* three single byte mantissas and a common exponent. |
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*/ |
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schorsch |
2.21 |
#ifndef _RAD_COLOR_H_ |
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#define _RAD_COLOR_H_ |
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schorsch |
2.25 |
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2.33 |
#include <stdio.h> |
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schorsch |
2.25 |
#include <stdlib.h> |
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schorsch |
2.21 |
#ifdef __cplusplus |
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extern "C" { |
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#endif |
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2.18 |
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1.1 |
#define RED 0 |
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#define GRN 1 |
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#define BLU 2 |
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2.10 |
#define CIEX 0 /* or, if input is XYZ... */ |
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#define CIEY 1 |
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#define CIEZ 2 |
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#define EXP 3 /* exponent same for either format */ |
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1.1 |
#define COLXS 128 /* excess used for exponent */ |
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2.10 |
#define WHT 3 /* used for RGBPRIMS type */ |
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1.1 |
|
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2.31 |
#undef uby8 |
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#define uby8 unsigned char /* 8-bit unsigned integer */ |
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typedef uby8 COLR[4]; /* red, green, blue (or X,Y,Z), exponent */ |
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1.1 |
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2.28 |
typedef float COLORV; |
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typedef COLORV COLOR[3]; /* red, green, blue (or X,Y,Z) */ |
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2.10 |
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typedef float RGBPRIMS[4][2]; /* (x,y) chromaticities for RGBW */ |
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typedef float (*RGBPRIMP)[2]; /* pointer to RGBPRIMS array */ |
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typedef float COLORMAT[3][3]; /* color coordinate conversion matrix */ |
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1.1 |
#define copycolr(c1,c2) (c1[0]=c2[0],c1[1]=c2[1], \ |
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c1[2]=c2[2],c1[3]=c2[3]) |
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#define colval(col,pri) ((col)[pri]) |
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#define setcolor(col,r,g,b) ((col)[RED]=(r),(col)[GRN]=(g),(col)[BLU]=(b)) |
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#define copycolor(c1,c2) ((c1)[0]=(c2)[0],(c1)[1]=(c2)[1],(c1)[2]=(c2)[2]) |
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#define scalecolor(col,sf) ((col)[0]*=(sf),(col)[1]*=(sf),(col)[2]*=(sf)) |
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#define addcolor(c1,c2) ((c1)[0]+=(c2)[0],(c1)[1]+=(c2)[1],(c1)[2]+=(c2)[2]) |
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#define multcolor(c1,c2) ((c1)[0]*=(c2)[0],(c1)[1]*=(c2)[1],(c1)[2]*=(c2)[2]) |
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2.35 |
#if defined(NTSC_RGB) |
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2.7 |
#define CIE_x_r 0.670 /* standard NTSC primaries */ |
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#define CIE_y_r 0.330 |
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#define CIE_x_g 0.210 |
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#define CIE_y_g 0.710 |
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#define CIE_x_b 0.140 |
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#define CIE_y_b 0.080 |
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2.35 |
#define CIE_x_w (1./3.) /* use EE white */ |
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#define CIE_y_w (1./3.) |
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#elif defined(SHARP_RGB) |
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#define CIE_x_r 0.6898 /* "sharp" RGB primaries */ |
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#define CIE_y_r 0.3206 |
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#define CIE_x_g 0.0736 |
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#define CIE_y_g 0.9003 |
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#define CIE_x_b 0.1166 |
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#define CIE_y_b 0.0374 |
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#define CIE_x_w (1./3.) /* use EE white */ |
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2.34 |
#define CIE_y_w (1./3.) |
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1.7 |
#else |
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2.7 |
#define CIE_x_r 0.640 /* nominal CRT primaries */ |
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#define CIE_y_r 0.330 |
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#define CIE_x_g 0.290 |
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#define CIE_y_g 0.600 |
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#define CIE_x_b 0.150 |
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#define CIE_y_b 0.060 |
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2.35 |
#define CIE_x_w (1./3.) /* use EE white */ |
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2.34 |
#define CIE_y_w (1./3.) |
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1.7 |
#endif |
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2.7 |
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2.14 |
#define STDPRIMS {{CIE_x_r,CIE_y_r},{CIE_x_g,CIE_y_g}, \ |
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{CIE_x_b,CIE_y_b},{CIE_x_w,CIE_y_w}} |
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2.10 |
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2.7 |
#define CIE_D ( CIE_x_r*(CIE_y_g - CIE_y_b) + \ |
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CIE_x_g*(CIE_y_b - CIE_y_r) + \ |
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CIE_x_b*(CIE_y_r - CIE_y_g) ) |
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#define CIE_C_rD ( (1./CIE_y_w) * \ |
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( CIE_x_w*(CIE_y_g - CIE_y_b) - \ |
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CIE_y_w*(CIE_x_g - CIE_x_b) + \ |
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CIE_x_g*CIE_y_b - CIE_x_b*CIE_y_g ) ) |
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#define CIE_C_gD ( (1./CIE_y_w) * \ |
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( CIE_x_w*(CIE_y_b - CIE_y_r) - \ |
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CIE_y_w*(CIE_x_b - CIE_x_r) - \ |
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CIE_x_r*CIE_y_b + CIE_x_b*CIE_y_r ) ) |
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#define CIE_C_bD ( (1./CIE_y_w) * \ |
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( CIE_x_w*(CIE_y_r - CIE_y_g) - \ |
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CIE_y_w*(CIE_x_r - CIE_x_g) + \ |
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CIE_x_r*CIE_y_g - CIE_x_g*CIE_y_r ) ) |
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#define CIE_rf (CIE_y_r*CIE_C_rD/CIE_D) |
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#define CIE_gf (CIE_y_g*CIE_C_gD/CIE_D) |
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#define CIE_bf (CIE_y_b*CIE_C_bD/CIE_D) |
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greg |
2.35 |
/* Default CIE_rf=.265074126, CIE_gf=.670114631 and CIE_bf=.064811243 */ |
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greg |
2.9 |
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2.10 |
/***** The following definitions are valid for RGB colors only... *****/ |
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2.7 |
#define bright(col) (CIE_rf*(col)[RED]+CIE_gf*(col)[GRN]+CIE_bf*(col)[BLU]) |
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#define normbright(c) ( ( (long)(CIE_rf*256.+.5)*(c)[RED] + \ |
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(long)(CIE_gf*256.+.5)*(c)[GRN] + \ |
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(long)(CIE_bf*256.+.5)*(c)[BLU] ) >> 8 ) |
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1.1 |
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1.14 |
/* luminous efficacies over visible spectrum */ |
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#define MAXEFFICACY 683. /* defined maximum at 550 nm */ |
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#define WHTEFFICACY 179. /* uniform white light */ |
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#define D65EFFICACY 203. /* standard illuminant D65 */ |
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#define INCEFFICACY 160. /* illuminant A (incand.) */ |
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#define SUNEFFICACY 208. /* illuminant B (solar dir.) */ |
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2.27 |
#define SKYEFFICACY D65EFFICACY /* skylight (should be 110) */ |
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1.14 |
#define DAYEFFICACY D65EFFICACY /* combined sky and solar */ |
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#define luminance(col) (WHTEFFICACY * bright(col)) |
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1.9 |
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2.10 |
/***** ...end of stuff specific to RGB colors *****/ |
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greg |
1.1 |
#define intens(col) ( (col)[0] > (col)[1] \ |
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? (col)[0] > (col)[2] ? (col)[0] : (col)[2] \ |
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: (col)[1] > (col)[2] ? (col)[1] : (col)[2] ) |
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1.3 |
#define colrval(c,p) ( (c)[EXP] ? \ |
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ldexp((c)[p]+.5,(int)(c)[EXP]-(COLXS+8)) : \ |
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0. ) |
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greg |
1.1 |
#define WHTCOLOR {1.0,1.0,1.0} |
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#define BLKCOLOR {0.0,0.0,0.0} |
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#define WHTCOLR {128,128,128,COLXS+1} |
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#define BLKCOLR {0,0,0,0} |
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1.3 |
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1.11 |
/* picture format identifier */ |
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#define COLRFMT "32-bit_rle_rgbe" |
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2.10 |
#define CIEFMT "32-bit_rle_xyze" |
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#define PICFMT "32-bit_rle_???e" /* matches either */ |
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#define LPICFMT 15 /* max format id len */ |
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1.11 |
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1.6 |
/* macros for exposures */ |
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1.5 |
#define EXPOSSTR "EXPOSURE=" |
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1.12 |
#define LEXPOSSTR 9 |
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#define isexpos(hl) (!strncmp(hl,EXPOSSTR,LEXPOSSTR)) |
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#define exposval(hl) atof((hl)+LEXPOSSTR) |
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#define fputexpos(ex,fp) fprintf(fp,"%s%e\n",EXPOSSTR,ex) |
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1.6 |
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/* macros for pixel aspect ratios */ |
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#define ASPECTSTR "PIXASPECT=" |
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1.12 |
#define LASPECTSTR 10 |
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#define isaspect(hl) (!strncmp(hl,ASPECTSTR,LASPECTSTR)) |
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#define aspectval(hl) atof((hl)+LASPECTSTR) |
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1.6 |
#define fputaspect(pa,fp) fprintf(fp,"%s%f\n",ASPECTSTR,pa) |
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1.5 |
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2.10 |
/* macros for primary specifications */ |
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#define PRIMARYSTR "PRIMARIES=" |
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#define LPRIMARYSTR 10 |
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#define isprims(hl) (!strncmp(hl,PRIMARYSTR,LPRIMARYSTR)) |
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2.32 |
#define primsval(p,hl) (sscanf((hl)+LPRIMARYSTR, \ |
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2.10 |
"%f %f %f %f %f %f %f %f", \ |
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&(p)[RED][CIEX],&(p)[RED][CIEY], \ |
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&(p)[GRN][CIEX],&(p)[GRN][CIEY], \ |
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&(p)[BLU][CIEX],&(p)[BLU][CIEY], \ |
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2.32 |
&(p)[WHT][CIEX],&(p)[WHT][CIEY]) == 8) |
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greg |
2.10 |
#define fputprims(p,fp) fprintf(fp, \ |
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"%s %.4f %.4f %.4f %.4f %.4f %.4f %.4f %.4f\n",\ |
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PRIMARYSTR, \ |
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(p)[RED][CIEX],(p)[RED][CIEY], \ |
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(p)[GRN][CIEX],(p)[GRN][CIEY], \ |
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(p)[BLU][CIEX],(p)[BLU][CIEY], \ |
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(p)[WHT][CIEX],(p)[WHT][CIEY]) |
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greg |
1.8 |
/* macros for color correction */ |
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#define COLCORSTR "COLORCORR=" |
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1.12 |
#define LCOLCORSTR 10 |
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#define iscolcor(hl) (!strncmp(hl,COLCORSTR,LCOLCORSTR)) |
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greg |
2.30 |
#define colcorval(cc,hl) sscanf((hl)+LCOLCORSTR,"%f %f %f", \ |
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1.8 |
&(cc)[RED],&(cc)[GRN],&(cc)[BLU]) |
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#define fputcolcor(cc,fp) fprintf(fp,"%s %f %f %f\n",COLCORSTR, \ |
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(cc)[RED],(cc)[GRN],(cc)[BLU]) |
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greg |
2.6 |
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greg |
2.10 |
/* |
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* Conversions to and from XYZ space generally don't apply WHTEFFICACY. |
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* If you need Y to be luminance (cd/m^2), this must be applied when |
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* converting from radiance (watts/sr/m^2). |
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*/ |
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greg |
2.18 |
extern RGBPRIMS stdprims; /* standard primary chromaticities */ |
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extern COLORMAT rgb2xyzmat; /* RGB to XYZ conversion matrix */ |
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extern COLORMAT xyz2rgbmat; /* XYZ to RGB conversion matrix */ |
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extern COLOR cblack, cwhite; /* black (0,0,0) and white (1,1,1) */ |
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greg |
2.10 |
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greg |
2.13 |
#define CGAMUT_LOWER 01 |
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#define CGAMUT_UPPER 02 |
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#define CGAMUT (CGAMUT_LOWER|CGAMUT_UPPER) |
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#define rgb_cie(xyz,rgb) colortrans(xyz,rgb2xyzmat,rgb) |
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greg |
2.10 |
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greg |
2.20 |
#define cpcolormat(md,ms) memcpy((void *)md,(void *)ms,sizeof(COLORMAT)) |
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greg |
2.18 |
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/* defined in color.c */ |
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greg |
2.36 |
extern void *tempbuffer(unsigned int len); |
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greg |
2.18 |
extern int fwritecolrs(COLR *scanline, int len, FILE *fp); |
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extern int freadcolrs(COLR *scanline, int len, FILE *fp); |
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extern int fwritescan(COLOR *scanline, int len, FILE *fp); |
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extern int freadscan(COLOR *scanline, int len, FILE *fp); |
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extern void setcolr(COLR clr, double r, double g, double b); |
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extern void colr_color(COLOR col, COLR clr); |
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extern int bigdiff(COLOR c1, COLOR c2, double md); |
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/* defined in spec_rgb.c */ |
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extern void spec_rgb(COLOR col, int s, int e); |
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extern void spec_cie(COLOR col, int s, int e); |
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extern void cie_rgb(COLOR rgb, COLOR xyz); |
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extern int clipgamut(COLOR col, double brt, int gamut, |
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COLOR lower, COLOR upper); |
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extern void colortrans(COLOR c2, COLORMAT mat, COLOR c1); |
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extern void multcolormat(COLORMAT m3, COLORMAT m2, |
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COLORMAT m1); |
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greg |
2.29 |
extern int colorprimsOK(RGBPRIMS pr); |
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extern int compxyz2rgbmat(COLORMAT mat, RGBPRIMS pr); |
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extern int comprgb2xyzmat(COLORMAT mat, RGBPRIMS pr); |
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extern int comprgb2rgbmat(COLORMAT mat, RGBPRIMS pr1, RGBPRIMS pr2); |
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extern int compxyzWBmat(COLORMAT mat, float wht1[2], |
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greg |
2.18 |
float wht2[2]); |
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greg |
2.29 |
extern int compxyz2rgbWBmat(COLORMAT mat, RGBPRIMS pr); |
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extern int comprgb2xyzWBmat(COLORMAT mat, RGBPRIMS pr); |
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extern int comprgb2rgbWBmat(COLORMAT mat, RGBPRIMS pr1, RGBPRIMS pr2); |
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greg |
2.18 |
/* defined in colrops.c */ |
239 |
schorsch |
2.26 |
extern int setcolrcor(double (*f)(double, double), double a2); |
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extern int setcolrinv(double (*f)(double, double), double a2); |
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greg |
2.18 |
extern int setcolrgam(double g); |
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extern int colrs_gambs(COLR *scan, int len); |
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extern int gambs_colrs(COLR *scan, int len); |
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extern void shiftcolrs(COLR *scan, int len, int adjust); |
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extern void normcolrs(COLR *scan, int len, int adjust); |
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#ifdef __cplusplus |
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} |
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greg |
2.6 |
#endif |
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schorsch |
2.21 |
#endif /* _RAD_COLOR_H_ */ |
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