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/* Copyright (c) 1994 Regents of the University of California */ |
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/* Copyright (c) 1995 Regents of the University of California */ |
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/* SCCSid "$SunId$ LBL" */ |
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* Header file for MGF interpreter |
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*/ |
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#ifndef MG_VMAJOR |
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/* must include stdio.h before us */ |
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/* Entities (order doesn't really matter) */ |
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#define MG_E_COMMENT 0 |
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#define MG_E_COLOR 1 |
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#define MG_E_CCT 2 |
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#define MG_E_CONE 3 |
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#define MG_E_CMIX 4 |
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#define MG_E_CSPEC 5 |
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#define MG_E_CXY 6 |
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#define MG_E_CYL 7 |
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#define MG_E_ED 8 |
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#define MG_E_FACE 9 |
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#define MG_E_INCLUDE 10 |
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#define MG_E_IES 11 |
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#define MG_E_MATERIAL 12 |
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#define MG_E_NORMAL 13 |
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#define MG_E_OBJECT 14 |
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#define MG_E_POINT 15 |
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#define MG_E_PRISM 16 |
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#define MG_E_RD 17 |
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#define MG_E_RING 18 |
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#define MG_E_RS 19 |
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#define MG_E_SIDES 20 |
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#define MG_E_SPH 21 |
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#define MG_E_TD 22 |
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#define MG_E_TORUS 23 |
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#define MG_E_TS 24 |
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#define MG_E_VERTEX 25 |
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#define MG_E_XF 26 |
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#define MG_VMAJOR 2 /* major version number */ |
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#define MG_VMINOR 0 /* minor version number */ |
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#define MG_NENTITIES 27 |
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/* Entities (list is only appended, never modified) */ |
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#define MG_E_COMMENT 0 /* # */ |
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#define MG_E_COLOR 1 /* c */ |
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#define MG_E_CCT 2 /* cct */ |
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#define MG_E_CONE 3 /* cone */ |
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#define MG_E_CMIX 4 /* cmix */ |
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#define MG_E_CSPEC 5 /* cspec */ |
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#define MG_E_CXY 6 /* cxy */ |
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#define MG_E_CYL 7 /* cyl */ |
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#define MG_E_ED 8 /* ed */ |
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#define MG_E_FACE 9 /* f */ |
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#define MG_E_INCLUDE 10 /* i */ |
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#define MG_E_IES 11 /* ies */ |
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#define MG_E_IR 12 /* ir */ |
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#define MG_E_MATERIAL 13 /* m */ |
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#define MG_E_NORMAL 14 /* n */ |
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#define MG_E_OBJECT 15 /* o */ |
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#define MG_E_POINT 16 /* p */ |
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#define MG_E_PRISM 17 /* prism */ |
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#define MG_E_RD 18 /* rd */ |
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#define MG_E_RING 19 /* ring */ |
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#define MG_E_RS 20 /* rs */ |
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#define MG_E_SIDES 21 /* sides */ |
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#define MG_E_SPH 22 /* sph */ |
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#define MG_E_TD 23 /* td */ |
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#define MG_E_TORUS 24 /* torus */ |
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#define MG_E_TS 25 /* ts */ |
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#define MG_E_VERTEX 26 /* v */ |
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#define MG_E_XF 27 /* xf */ |
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/* end of Version 1 entities */ |
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#define MG_E_FACEH 28 /* fh */ |
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/* end of Version 2 entities */ |
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#define MG_NENTITIES 29 /* total # entities */ |
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#define MG_NELIST {28,29} /* entity count for version 1 and up */ |
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#define MG_NAMELIST {"#","c","cct","cone","cmix","cspec","cxy","cyl","ed",\ |
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"f","i","ies","m","n","o","p","prism","rd","ring",\ |
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"rs","sides","sph","td","torus","ts","v","xf"} |
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"f","i","ies","ir","m","n","o","p","prism","rd",\ |
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"ring","rs","sides","sph","td","torus","ts","v","xf",\ |
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"fh"} |
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#define MG_MAXELEN 6 |
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extern char mg_ename[MG_NENTITIES][MG_MAXELEN]; |
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/* Handler routines for each entity */ |
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/* Handler routines for each entity and unknown ones */ |
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#ifdef NOPROTO |
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extern int (*mg_ehand[MG_NENTITIES])(); |
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extern int (*mg_uhand)(); |
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extern int mg_defuhand(); |
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#else |
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extern int (*mg_ehand[MG_NENTITIES])(int argc, char **argv); |
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extern int (*mg_uhand)(int argc, char **argv); |
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extern int mg_defuhand(int, char **); |
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#endif |
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extern unsigned mg_nunknown; /* count of unknown entities */ |
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/* Error codes */ |
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#define MG_OK 0 /* normal return value */ |
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#define MG_EUNK 1 /* unknown entity */ |
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#define MG_EMEM 8 /* out of memory */ |
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#define MG_ESEEK 9 /* file seek error */ |
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#define MG_EBADMAT 10 /* bad material specification */ |
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#define MG_ELINE 11 /* input line too long */ |
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#define MG_ECNTXT 12 /* unmatched context close */ |
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#define MG_NERRS 11 |
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#define MG_NERRS 13 |
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extern char *mg_err[MG_NERRS]; |
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extern char *mg_err[MG_NERRS]; /* list of error messages */ |
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/* |
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* The general process for running the parser is to fill in the mg_ehand |
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* (The first argument to mg_handle is the entity #, or -1.) |
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* To free any data structures and clear the parser, use mg_clear. |
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* If there is an error, mg_load, mg_open, mg_parse, mg_handle and |
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* mg_rewind will return an error from the list above. In addition, |
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* mg_fgoto will return an error from the list above. In addition, |
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* mg_load will report the error to stderr. The mg_read routine |
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* returns 0 when the end of file has been reached. |
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*/ |
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#ifdef NOPROTO |
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extern int mg_entity(); /* get entity number from its name */ |
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extern int isint(); /* non-zero if integer format */ |
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extern int isintd(); /* same with delimiter set */ |
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extern int isflt(); /* non-zero if floating point format */ |
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extern int isfltd(); /* same with delimiter set */ |
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extern int isname(); /* non-zero if legal identifier name */ |
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extern int badarg(); /* check argument format */ |
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extern int e_include(); /* expand include entity */ |
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extern int e_sph(); /* expand sphere as other entities */ |
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extern int e_torus(); /* expand torus as other entities */ |
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extern int e_cyl(); /* expand cylinder as other entities */ |
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extern int e_ring(); /* expand ring as other entities */ |
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extern int e_cone(); /* expand cone as other entities */ |
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extern int e_prism(); /* expand prism as other entities */ |
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extern int e_faceh(); /* expand face w/ holes as face */ |
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#else |
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extern int mg_entity(char *); /* get entity number from its name */ |
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extern int isint(char *); /* non-zero if integer format */ |
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extern int isintd(char *, char *); /* same with delimiter set */ |
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extern int isflt(char *); /* non-zero if floating point format */ |
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extern int isfltd(char *, char *); /* same with delimiter set */ |
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extern int isname(char *); /* non-zero if legal identifier name */ |
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extern int badarg(int, char **, char *);/* check argument format */ |
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extern int e_include(int, char **); /* expand include entity */ |
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extern int e_sph(int, char **); /* expand sphere as other entities */ |
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extern int e_torus(int, char **); /* expand torus as other entities */ |
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extern int e_cyl(int, char **); /* expand cylinder as other entities */ |
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extern int e_ring(int, char **); /* expand ring as other entities */ |
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extern int e_cone(int, char **); /* expand cone as other entities */ |
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extern int e_prism(int, char **); /* expand prism as other entities */ |
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extern int e_faceh(int, char **); /* expand face w/ holes as face */ |
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#endif |
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/************************************************************************ |
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extern double normalize(); /* normalize a vector */ |
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#else |
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extern double normalize(FVECT); /* normalize a vector */ |
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extern void fcross(FVECT,FVECT,FVECT);/* cross product of two vectors */ |
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#endif |
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/************************************************************************ |
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typedef struct { |
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int clock; /* incremented each change */ |
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unsigned short flags; /* what's been set */ |
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unsigned short ssamp[C_CNSS]; /* spectral samples, min wl to max */ |
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unsigned long ssum; /* straight sum of spectral values */ |
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short flags; /* what's been set */ |
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short ssamp[C_CNSS]; /* spectral samples, min wl to max */ |
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long ssum; /* straight sum of spectral values */ |
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float cx, cy; /* xy chromaticity value */ |
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float eff; /* efficacy (lumens/watt) */ |
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} C_COLOR; |
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C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV},\ |
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(long)C_CNSS*C_CMAXV, 1./3., 1./3., 178.006 } |
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#define C_CIEX { 1, C_CDSPEC|C_CSSPEC|C_CSXY|C_CSEFF,\ |
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{14,42,143,435,1344,2839,3483,3362,2908,1954,956,\ |
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320,49,93,633,1655,2904,4334,5945,7621,9163,10263,\ |
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10622,10026,8544,6424,4479,2835,1649,874,468,227,\ |
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114,58,29,14,7,3,2,1,0}, 106836L, .467, .368, 362.230 } |
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#define C_CIEY { 1, C_CDSPEC|C_CSSPEC|C_CSXY|C_CSEFF,\ |
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{0,1,4,12,40,116,230,380,600,910,1390,2080,3230,\ |
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5030,7100,8620,9540,9950,9950,9520,8700,7570,6310,\ |
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5030,3810,2650,1750,1070,610,320,170,82,41,21,10,\ |
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5,2,1,1,0,0}, 106856L, .398, .542, 493.525 } |
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#define C_CIEZ { 1, C_CDSPEC|C_CSSPEC|C_CSXY|C_CSEFF,\ |
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{65,201,679,2074,6456,13856,17471,17721,16692,\ |
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12876,8130,4652,2720,1582,782,422,203,87,39,21,17,\ |
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11,8,3,2,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},\ |
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106770L, .147, .077, 54.363 } |
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#define c_cval(c,l) ((double)(c)->ssamp[((l)-C_MINWL)/C_CWLI] / (c)->ssum) |
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#define C_1SIDEDTHICK 0.005 /* assumed thickness of 1-sided mat. */ |
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typedef struct { |
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int clock; /* incremented each change -- resettable */ |
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int sided; /* 1 if surface is 1-sided, 0 for 2-sided */ |
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float nr, ni; /* index of refraction, real and imaginary */ |
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float rd; /* diffuse reflectance */ |
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C_COLOR rd_c; /* diffuse reflectance color */ |
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float td; /* diffuse transmittance */ |
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FVECT p, n; /* point and normal */ |
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} C_VERTEX; /* vertex context */ |
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#define C_DEFMATERIAL {1,0,0.,C_DEFCOLOR,0.,C_DEFCOLOR,0.,C_DEFCOLOR,\ |
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#define C_DEFMATERIAL {1,0,1.,0.,0.,C_DEFCOLOR,0.,C_DEFCOLOR,0.,C_DEFCOLOR,\ |
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0.,C_DEFCOLOR,0.,0.,C_DEFCOLOR,0.} |
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#define C_DEFVERTEX {1,{0.,0.,0.},{0.,0.,0.}} |
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typedef struct xf_spec { |
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long xid; /* unique transform id */ |
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short xav0; /* zeroeth argument in xf_argv array */ |
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short xac; /* transform argument count */ |
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short xac; /* context argument count */ |
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short rev; /* boolean true if vertices reversed */ |
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XF xf; /* cumulative transformation */ |
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struct xf_array *xarr; /* transformation array pointer */ |
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struct xf_spec *prev; /* previous transformation context */ |
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} XF_SPEC; /* followed by argument buffer */ |
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extern int xf_argc; /* total # transform args. */ |
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extern char **xf_argv; /* transform arguments */ |
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extern XF_SPEC *xf_context; /* current context */ |
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extern XF_SPEC *xf_context; /* current transform context */ |
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extern char **xf_argend; /* last transform argument */ |
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#define xf_ac(xf) ((xf)==NULL ? 0 : (xf)->xac) |
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#define xf_av(xf) (xf_argend - (xf)->xac) |
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#define xf_argc xf_ac(xf_context) |
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#define xf_argv xf_av(xf_context) |
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/* |
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* The transformation handler should do most of the work that needs |
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* doing. Just pass it any xf entities, then use the associated |
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/* The following are support routines you probably won't call directly */ |
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XF_SPEC *new_xf(); /* allocate new transform */ |
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void free_xf(); /* free a transform */ |
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int xf_aname(); /* name this instance */ |
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long comp_xfid(); /* compute unique ID */ |
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extern void multmat4(); /* m4a = m4b X m4c */ |
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extern void multv3(); /* v3a = v3b X m4 (vectors) */ |
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extern void multp3(); /* p3a = p3b X m4 (points) */ |
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/* The following are support routines you probably won't call directly */ |
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XF_SPEC *new_xf(int, char **); /* allocate new transform */ |
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void free_xf(XF_SPEC *); /* free a transform */ |
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int xf_aname(struct xf_array *); /* name this instance */ |
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long comp_xfid(MAT4); /* compute unique ID */ |
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extern void multmat4(MAT4, MAT4, MAT4); /* m4a = m4b X m4c */ |
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extern void multv3(FVECT, FVECT, MAT4); /* v3a = v3b X m4 (vectors) */ |
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extern void multp3(FVECT, FVECT, MAT4); /* p3a = p3b X m4 (points) */ |
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* Miscellaneous definitions |
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*/ |
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#ifndef PI |
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#ifdef M_PI |
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#define PI M_PI |
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#else |
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#define PI 3.14159265358979323846 |
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#endif |
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#endif |
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#ifdef DCL_ATOF |
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extern double atof(); |
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extern MEM_PTR calloc(); |
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extern MEM_PTR realloc(); |
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extern void free(); |
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#endif /*MG_VMAJOR*/ |
