stuff
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/* RCSid $Id: color.h,v 2.29 2006/09/05 21:54:32 greg Exp $ */
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/*
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* color.h - header for routines using pixel color values.
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*
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* Must be included after X11 headers, since they declare a BYTE type.
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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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#ifndef _RAD_COLOR_H_
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#define _RAD_COLOR_H_
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#include <stdlib.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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#define RED 0
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#define GRN 1
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#define BLU 2
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#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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#define COLXS 128 /* excess used for exponent */
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#define WHT 3 /* used for RGBPRIMS type */
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#undef BYTE
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#define BYTE unsigned char /* 8-bit unsigned integer */
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typedef BYTE COLR[4]; /* red, green, blue (or X,Y,Z), exponent */
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typedef float COLORV;
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typedef COLORV COLOR[3]; /* red, green, blue (or X,Y,Z) */
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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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#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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#ifdef NTSC
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#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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#define CIE_x_w 0.3333 /* use true white */
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#define CIE_y_w 0.3333
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#else
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#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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#define CIE_x_w 0.3333 /* use true white */
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#define CIE_y_w 0.3333
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#endif
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#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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#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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/* As of 9-94, CIE_rf=.265074126, CIE_gf=.670114631 and CIE_bf=.064811243 */
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/***** The following definitions are valid for RGB colors only... *****/
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#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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/* 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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#define SKYEFFICACY D65EFFICACY /* skylight (should be 110) */
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#define DAYEFFICACY D65EFFICACY /* combined sky and solar */
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#define luminance(col) (WHTEFFICACY * bright(col))
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/***** ...end of stuff specific to RGB colors *****/
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#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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#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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#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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/* picture format identifier */
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#define COLRFMT "32-bit_rle_rgbe"
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#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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/* macros for exposures */
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#define EXPOSSTR "EXPOSURE="
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#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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/* macros for pixel aspect ratios */
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#define ASPECTSTR "PIXASPECT="
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#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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#define fputaspect(pa,fp) fprintf(fp,"%s%f\n",ASPECTSTR,pa)
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/* 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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#define primsval(p,hl) sscanf(hl+LPRIMARYSTR, \
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"%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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&(p)[WHT][CIEX],&(p)[WHT][CIEY])
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#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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/* macros for color correction */
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#define COLCORSTR "COLORCORR="
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#define LCOLCORSTR 10
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#define iscolcor(hl) (!strncmp(hl,COLCORSTR,LCOLCORSTR))
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#define colcorval(cc,hl) sscanf(hl+LCOLCORSTR,"%f %f %f", \
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&(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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/*
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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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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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#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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#define cpcolormat(md,ms) memcpy((void *)md,(void *)ms,sizeof(COLORMAT))
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#ifdef __cplusplus
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}
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#endif
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#endif /* _RAD_COLOR_H_ */
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#ifndef lint
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static const char RCSid[] = "$Id: colrops.c,v 2.11 2003/07/30 10:11:06 schorsch Exp $";
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#endif
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/*
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* Integer operations on COLR scanlines
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*/
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#include "copyright.h"
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#include <stdio.h>
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#include <math.h>
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#include "rtmisc.h"
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#include "color.h"
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#define MAXGSHIFT 31 /* maximum shift for gamma table */
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static BYTE *g_mant = NULL, *g_nexp = NULL;
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static BYTE (*g_bval)[256] = NULL;
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int
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setcolrcor(f, a2) /* set brightness correction */
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double (*f)(double,double);
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double a2;
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{
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double mult;
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register int i, j;
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/* allocate tables */
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if (g_bval == NULL && (g_bval =
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(BYTE (*)[256])bmalloc((MAXGSHIFT+1)*256)) == NULL)
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return(-1);
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/* compute colr -> gamb mapping */
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mult = 1.0/256.0;
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for (i = 0; i <= MAXGSHIFT; i++) {
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for (j = 0; j < 256; j++)
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g_bval[i][j] = 256.0 * (*f)((j+.5)*mult, a2);
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mult *= 0.5;
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}
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return(0);
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}
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int
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setcolrinv(f, a2) /* set inverse brightness correction */
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double (*f)(double,double);
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double a2;
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{
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double mult;
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register int i, j;
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/* allocate tables */
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if (g_mant == NULL && (g_mant = (BYTE *)bmalloc(256)) == NULL)
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return(-1);
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if (g_nexp == NULL && (g_nexp = (BYTE *)bmalloc(256)) == NULL)
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return(-1);
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/* compute gamb -> colr mapping */
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i = 0;
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mult = 256.0;
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for (j = 256; j--; ) {
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while ((g_mant[j] = mult * (*f)((j+.5)/256.0, a2)) < 128) {
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i++;
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mult *= 2.0;
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}
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g_nexp[j] = i;
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}
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return(0);
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}
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int
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setcolrgam(g) /* set gamma conversion */
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double g;
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{
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if (setcolrcor(pow, 1.0/g) < 0)
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return(-1);
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return(setcolrinv(pow, g));
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}
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int
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colrs_gambs(scan, len) /* convert scanline of colrs to gamma bytes */
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register COLR *scan;
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int len;
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{
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register int i, expo;
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if (g_bval == NULL)
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return(-1);
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while (len-- > 0) {
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expo = scan[0][EXP] - COLXS;
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if (expo < -MAXGSHIFT) {
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if (expo < -MAXGSHIFT-8) {
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scan[0][RED] =
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scan[0][GRN] =
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scan[0][BLU] = 0;
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} else {
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i = (-MAXGSHIFT-1) - expo;
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scan[0][RED] =
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g_bval[MAXGSHIFT][((scan[0][RED]>>i)+1)>>1];
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scan[0][GRN] =
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g_bval[MAXGSHIFT][((scan[0][GRN]>>i)+1)>>1];
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scan[0][BLU] =
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g_bval[MAXGSHIFT][((scan[0][BLU]>>i)+1)>>1];
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}
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} else if (expo > 0) {
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if (expo > 8) {
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scan[0][RED] =
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scan[0][GRN] =
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scan[0][BLU] = 255;
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} else {
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i = (scan[0][RED]<<1 | 1) << (expo-1);
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scan[0][RED] = i > 255 ? 255 : g_bval[0][i];
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i = (scan[0][GRN]<<1 | 1) << (expo-1);
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scan[0][GRN] = i > 255 ? 255 : g_bval[0][i];
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i = (scan[0][BLU]<<1 | 1) << (expo-1);
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scan[0][BLU] = i > 255 ? 255 : g_bval[0][i];
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}
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} else {
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scan[0][RED] = g_bval[-expo][scan[0][RED]];
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scan[0][GRN] = g_bval[-expo][scan[0][GRN]];
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scan[0][BLU] = g_bval[-expo][scan[0][BLU]];
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}
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scan[0][EXP] = COLXS;
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scan++;
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}
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return(0);
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}
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int
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gambs_colrs(scan, len) /* convert gamma bytes to colr scanline */
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register COLR *scan;
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int len;
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{
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register int nexpo;
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if ((g_mant == NULL) | (g_nexp == NULL))
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return(-1);
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while (len-- > 0) {
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nexpo = g_nexp[scan[0][RED]];
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if (g_nexp[scan[0][GRN]] < nexpo)
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nexpo = g_nexp[scan[0][GRN]];
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if (g_nexp[scan[0][BLU]] < nexpo)
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nexpo = g_nexp[scan[0][BLU]];
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if (nexpo < g_nexp[scan[0][RED]])
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scan[0][RED] = g_mant[scan[0][RED]]
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>> (g_nexp[scan[0][RED]]-nexpo);
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else
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scan[0][RED] = g_mant[scan[0][RED]];
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if (nexpo < g_nexp[scan[0][GRN]])
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scan[0][GRN] = g_mant[scan[0][GRN]]
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>> (g_nexp[scan[0][GRN]]-nexpo);
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else
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scan[0][GRN] = g_mant[scan[0][GRN]];
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if (nexpo < g_nexp[scan[0][BLU]])
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scan[0][BLU] = g_mant[scan[0][BLU]]
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>> (g_nexp[scan[0][BLU]]-nexpo);
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else
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scan[0][BLU] = g_mant[scan[0][BLU]];
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scan[0][EXP] = COLXS - nexpo;
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scan++;
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}
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return(0);
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}
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void
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shiftcolrs(scan, len, adjust) /* shift a scanline of colors by 2^adjust */
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register COLR *scan;
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register int len;
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register int adjust;
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{
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int minexp;
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if (adjust == 0)
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return;
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minexp = adjust < 0 ? -adjust : 0;
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while (len-- > 0) {
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if (scan[0][EXP] <= minexp)
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scan[0][RED] = scan[0][GRN] = scan[0][BLU] =
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scan[0][EXP] = 0;
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else
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scan[0][EXP] += adjust;
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scan++;
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}
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}
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void
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normcolrs(scan, len, adjust) /* normalize a scanline of colrs */
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register COLR *scan;
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int len;
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int adjust;
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{
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register int c;
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register int shift;
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while (len-- > 0) {
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shift = scan[0][EXP] + adjust - COLXS;
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if (shift > 0) {
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if (shift > 8) {
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scan[0][RED] =
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scan[0][GRN] =
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scan[0][BLU] = 255;
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} else {
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shift--;
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c = (scan[0][RED]<<1 | 1) << shift;
|
||||
scan[0][RED] = c > 255 ? 255 : c;
|
||||
c = (scan[0][GRN]<<1 | 1) << shift;
|
||||
scan[0][GRN] = c > 255 ? 255 : c;
|
||||
c = (scan[0][BLU]<<1 | 1) << shift;
|
||||
scan[0][BLU] = c > 255 ? 255 : c;
|
||||
}
|
||||
} else if (shift < 0) {
|
||||
if (shift < -8) {
|
||||
scan[0][RED] =
|
||||
scan[0][GRN] =
|
||||
scan[0][BLU] = 0;
|
||||
} else {
|
||||
shift = -1-shift;
|
||||
scan[0][RED] = ((scan[0][RED]>>shift)+1)>>1;
|
||||
scan[0][GRN] = ((scan[0][GRN]>>shift)+1)>>1;
|
||||
scan[0][BLU] = ((scan[0][BLU]>>shift)+1)>>1;
|
||||
}
|
||||
}
|
||||
scan[0][EXP] = COLXS - adjust;
|
||||
scan++;
|
||||
}
|
||||
}
|
|
@ -1,84 +0,0 @@
|
|||
/* RCSid $Id: resolu.h,v 2.10 2005/02/01 01:28:16 greg Exp $ */
|
||||
/*
|
||||
* Definitions for resolution line in image file.
|
||||
*
|
||||
* Include after <stdio.h>
|
||||
*
|
||||
* True image orientation is defined by an xy coordinate system
|
||||
* whose origin is at the lower left corner of the image, with
|
||||
* x increasing to the right and y increasing in the upward direction.
|
||||
* This true orientation is independent of how the pixels are actually
|
||||
* ordered in the file, which is indicated by the resolution line.
|
||||
* This line is of the form "{+-}{XY} xyres {+-}{YX} yxres\n".
|
||||
* A typical line for a 1024x600 image might be "-Y 600 +X 1024\n",
|
||||
* indicating that the scanlines are in English text order (PIXSTANDARD).
|
||||
*/
|
||||
#ifndef _RAD_RESOLU_H_
|
||||
#define _RAD_RESOLU_H_
|
||||
|
||||
#include <time.h>
|
||||
|
||||
|
||||
#ifdef __cplusplus
|
||||
extern "C" {
|
||||
#endif
|
||||
|
||||
/* flags for scanline ordering */
|
||||
#define XDECR 1
|
||||
#define YDECR 2
|
||||
#define YMAJOR 4
|
||||
|
||||
/* standard scanline ordering */
|
||||
#define PIXSTANDARD (YMAJOR|YDECR)
|
||||
#define PIXSTDFMT "-Y %d +X %d\n"
|
||||
|
||||
/* structure for image dimensions */
|
||||
typedef struct {
|
||||
int rt; /* orientation (from flags above) */
|
||||
int xr, yr; /* x and y resolution */
|
||||
} RESOLU;
|
||||
|
||||
/* macros to get scanline length and number */
|
||||
#define scanlen(rs) ((rs)->rt & YMAJOR ? (rs)->xr : (rs)->yr)
|
||||
#define numscans(rs) ((rs)->rt & YMAJOR ? (rs)->yr : (rs)->xr)
|
||||
|
||||
/* resolution string buffer and its size */
|
||||
#define RESOLU_BUFLEN 32
|
||||
extern char resolu_buf[RESOLU_BUFLEN];
|
||||
|
||||
/* macros for reading/writing resolution struct */
|
||||
#define fputsresolu(rs,fp) fputs(resolu2str(resolu_buf,rs),fp)
|
||||
#define fgetsresolu(rs,fp) str2resolu(rs, \
|
||||
fgets(resolu_buf,RESOLU_BUFLEN,fp))
|
||||
|
||||
/* reading/writing of standard ordering */
|
||||
#define fprtresolu(sl,ns,fp) fprintf(fp,PIXSTDFMT,ns,sl)
|
||||
#define fscnresolu(sl,ns,fp) (fscanf(fp,PIXSTDFMT,ns,sl)==2)
|
||||
|
||||
/* defined in resolu.c */
|
||||
extern void fputresolu(int ord, int sl, int ns, FILE *fp);
|
||||
extern int fgetresolu(int *sl, int *ns, FILE *fp);
|
||||
extern char * resolu2str(char *buf, RESOLU *rp);
|
||||
extern int str2resolu(RESOLU *rp, char *buf);
|
||||
/* defined in header.c */
|
||||
extern void newheader(char *t, FILE *fp);
|
||||
extern int isheadid(char *s);
|
||||
extern int headidval(char *r, char *s);
|
||||
extern int dateval(time_t *t, char *s);
|
||||
extern int isdate(char *s);
|
||||
extern void fputdate(time_t t, FILE *fp);
|
||||
extern void fputnow(FILE *fp);
|
||||
extern void printargs(int ac, char **av, FILE *fp);
|
||||
extern int isformat(char *s);
|
||||
extern int formatval(char *r, char *s);
|
||||
extern void fputformat(char *s, FILE *fp);
|
||||
typedef int gethfunc(char *s, void *p); /* callback to process header lines */
|
||||
extern int getheader(FILE *fp, gethfunc *f, void *p);
|
||||
extern int globmatch(char *pat, char *str);
|
||||
extern int checkheader(FILE *fin, char *fmt, FILE *fout);
|
||||
|
||||
#ifdef __cplusplus
|
||||
}
|
||||
#endif
|
||||
#endif /* _RAD_RESOLU_H_ */
|
||||
|
|
@ -1,86 +0,0 @@
|
|||
/* RCSid $Id: rtio.h,v 3.9 2006/12/23 17:27:45 greg Exp $ */
|
||||
/*
|
||||
* Radiance i/o and string routines
|
||||
*/
|
||||
|
||||
#ifndef _RAD_RTIO_H_
|
||||
#define _RAD_RTIO_H_
|
||||
|
||||
#include <stdio.h>
|
||||
#include <sys/types.h>
|
||||
#include <fcntl.h>
|
||||
#include <string.h>
|
||||
|
||||
#ifdef __cplusplus
|
||||
extern "C" {
|
||||
#endif
|
||||
/* defined in badarg.c */
|
||||
extern int badarg(int ac, char **av, char *fl);
|
||||
/* defined in expandarg.c */
|
||||
extern int expandarg(int *acp, char ***avp, int n);
|
||||
/* defined in fdate.c */
|
||||
extern time_t fdate(char *fname);
|
||||
extern int setfdate(char *fname, long ftim);
|
||||
/* defined in fgetline.c */
|
||||
extern char *fgetline(char *s, int n, FILE *fp);
|
||||
/* defined in fgetval.c */
|
||||
extern int fgetval(FILE *fp, int ty, void *vp);
|
||||
/* defined in fgetword.c */
|
||||
extern char *fgetword(char *s, int n, FILE *fp);
|
||||
/* defined in fputword.c */
|
||||
extern void fputword(char *s, FILE *fp);
|
||||
/* defined in fropen.c */
|
||||
extern FILE *frlibopen(char *fname);
|
||||
/* defined in getlibpath.c */
|
||||
extern char *getrlibpath(void);
|
||||
/* defined in gethomedir.c */
|
||||
extern char *gethomedir(char *uname, char *path, int plen);
|
||||
/* defined in getpath.c */
|
||||
extern char *getpath(char *fname, char *searchpath, int mode);
|
||||
/* defined in byteswap.c */
|
||||
extern void swap16(char *wp, int n);
|
||||
extern void swap32(char *wp, int n);
|
||||
extern void swap64(char *wp, int n);
|
||||
/* defined in portio.c */
|
||||
extern void putstr(char *s, FILE *fp);
|
||||
extern void putint(long i, int siz, FILE *fp);
|
||||
extern void putflt(double f, FILE *fp);
|
||||
extern char *getstr(char *s, FILE *fp);
|
||||
extern long getint(int siz, FILE *fp);
|
||||
extern double getflt(FILE *fp);
|
||||
/* defined in rexpr.c */
|
||||
extern int ecompile(char *sp, int iflg, int wflag);
|
||||
extern char *expsave(void);
|
||||
extern void expset(char *ep);
|
||||
extern char *eindex(char *sp);
|
||||
/* defined in savestr.c */
|
||||
extern char *savestr(char *str);
|
||||
extern void freestr(char *s);
|
||||
extern int shash(char *s);
|
||||
/* defined in savqstr.c */
|
||||
extern char *savqstr(char *s);
|
||||
extern void freeqstr(char *s);
|
||||
/* defined in wordfile.c */
|
||||
extern int wordfile(char **words, char *fname);
|
||||
extern int wordstring(char **avl, char *str);
|
||||
/* defined in words.c */
|
||||
extern char *atos(char *rs, int nb, char *s);
|
||||
extern char *nextword(char *cp, int nb, char *s);
|
||||
extern char *sskip(char *s);
|
||||
extern char *sskip2(char *s, int n);
|
||||
extern char *iskip(char *s);
|
||||
extern char *fskip(char *s);
|
||||
extern int isint(char *s);
|
||||
extern int isintd(char *s, char *ds);
|
||||
extern int isflt(char *s);
|
||||
extern int isfltd(char *s, char *ds);
|
||||
/* defined in lamp.c */
|
||||
extern float * matchlamp(char *s);
|
||||
extern int loadlamps(char *file);
|
||||
extern void freelamps(void);
|
||||
|
||||
#ifdef __cplusplus
|
||||
}
|
||||
#endif
|
||||
#endif /* _RAD_RTIO_H_ */
|
||||
|
Loading…
Reference in New Issue