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root/Development/ray/src/cv/mgflib/parser.h

Comparing ray/src/cv/mgflib/parser.h (file contents):
Revision 1.15 by greg, Thu Sep 1 09:17:46 1994 UTC vs.
Revision 1.29 by greg, Thu Feb 8 16:29:33 1996 UTC

#	Line 1 | Line 1
1	<	/* Copyright (c) 1994 Regents of the University of California */
1	>	/* Copyright (c) 1995 Regents of the University of California */
2
3		/* SCCSid "$SunId$ LBL" */
4
#	Line 8 | Line 8
8
9		/* must include stdio.h before us */
10
11	<	/* Entities (order doesn't really matter) */
12	<	#define MG_E_COMMENT    0
13	<	#define MG_E_COLOR      1
14	<	#define MG_E_CONE       2
15	<	#define MG_E_CMIX       3
16	<	#define MG_E_CSPEC      4
17	<	#define MG_E_CXY        5
18	<	#define MG_E_CYL        6
19	<	#define MG_E_ED         7
20	<	#define MG_E_FACE       8
21	<	#define MG_E_INCLUDE    9
22	<	#define MG_E_IES        10
23	<	#define MG_E_MATERIAL   11
24	<	#define MG_E_NORMAL     12
25	<	#define MG_E_OBJECT     13
26	<	#define MG_E_POINT      14
27	<	#define MG_E_PRISM      15
28	<	#define MG_E_RD         16
29	<	#define MG_E_RING       17
30	<	#define MG_E_RS         18
31	<	#define MG_E_SIDES      19
32	<	#define MG_E_SPH        20
33	<	#define MG_E_TD         21
34	<	#define MG_E_TORUS      22
35	<	#define MG_E_TS         23
36	<	#define MG_E_VERTEX     24
37	<	#define MG_E_XF         25
11	>	#define MG_VMAJOR       1               /* major version number */
12	>	#define MG_VMINOR       1               /* minor version number */
13
14	<	#define MG_NENTITIES    26
14	>	/* Entities (list is only appended, never modified) */
15	>	#define MG_E_COMMENT    0               /* #            */
16	>	#define MG_E_COLOR      1               /* c            */
17	>	#define MG_E_CCT        2               /* cct          */
18	>	#define MG_E_CONE       3               /* cone         */
19	>	#define MG_E_CMIX       4               /* cmix         */
20	>	#define MG_E_CSPEC      5               /* cspec        */
21	>	#define MG_E_CXY        6               /* cxy          */
22	>	#define MG_E_CYL        7               /* cyl          */
23	>	#define MG_E_ED         8               /* ed           */
24	>	#define MG_E_FACE       9               /* f            */
25	>	#define MG_E_INCLUDE    10              /* i            */
26	>	#define MG_E_IES        11              /* ies          */
27	>	#define MG_E_IR         12              /* ir           */
28	>	#define MG_E_MATERIAL   13              /* m            */
29	>	#define MG_E_NORMAL     14              /* n            */
30	>	#define MG_E_OBJECT     15              /* o            */
31	>	#define MG_E_POINT      16              /* p            */
32	>	#define MG_E_PRISM      17              /* prism        */
33	>	#define MG_E_RD         18              /* rd           */
34	>	#define MG_E_RING       19              /* ring         */
35	>	#define MG_E_RS         20              /* rs           */
36	>	#define MG_E_SIDES      21              /* sides        */
37	>	#define MG_E_SPH        22              /* sph          */
38	>	#define MG_E_TD         23              /* td           */
39	>	#define MG_E_TORUS      24              /* torus        */
40	>	#define MG_E_TS         25              /* ts           */
41	>	#define MG_E_VERTEX     26              /* v            */
42	>	#define MG_E_XF         27              /* xf           */
43	>	/* end of Version 1 entities */
44
45	<	#define MG_NAMELIST     {"#","c","cone","cmix","cspec","cxy","cyl","ed","f",\
42	<	"i","ies","m","n","o","p","prism","rd","ring","rs",\
43	<	"sides","sph","td","torus","ts","v","xf"}
45	>	#define MG_NENTITIES    28              /* total # entities */
46
47	+	#define MG_NELIST       {28}            /* entity count for version 1 and up */
48	+
49	+	#define MG_NAMELIST     {"#","c","cct","cone","cmix","cspec","cxy","cyl","ed",\
50	+	"f","i","ies","ir","m","n","o","p","prism","rd",\
51	+	"ring","rs","sides","sph","td","torus","ts","v","xf"}
52	+
53		#define MG_MAXELEN      6
54
55		extern char     mg_ename[MG_NENTITIES][MG_MAXELEN];
56
57	<	/* Handler routines for each entity */
50	<
57	>	/* Handler routines for each entity and unknown ones */
58		#ifdef NOPROTO
59		extern int      (*mg_ehand[MG_NENTITIES])();
60	+	extern int      (*mg_uhand)();
61	+	extern int      mg_defuhand();
62		#else
63		extern int      (*mg_ehand[MG_NENTITIES])(int argc, char **argv);
64	+	extern int      (*mg_uhand)(int argc, char **argv);
65	+	extern int      mg_defuhand(int, char **);
66		#endif
67
68	+	extern unsigned mg_nunknown;            /* count of unknown entities */
69	+
70		/* Error codes */
71		#define MG_OK           0               /* normal return value */
72		#define MG_EUNK         1               /* unknown entity */
#	Line 66 | Line 79 | extern int     (*mg_ehand[MG_NENTITIES])(int argc, char **
79		#define MG_EMEM         8               /* out of memory */
80		#define MG_ESEEK        9               /* file seek error */
81		#define MG_EBADMAT      10              /* bad material specification */
82	+	#define MG_ELINE        11              /* input line too long */
83	+	#define MG_ECNTXT       12              /* unmatched context close */
84
85	<	#define MG_NERRS        11
85	>	#define MG_NERRS        13
86
87	<	extern char     *mg_err[MG_NERRS];
87	>	extern char     *mg_err[MG_NERRS];      /* list of error messages */
88
89		/*
90		* The general process for running the parser is to fill in the mg_ehand
#	Line 85 | Line 100 | extern char    *mg_err[MG_NERRS];
100		* (The first argument to mg_handle is the entity #, or -1.)
101		* To free any data structures and clear the parser, use mg_clear.
102		* If there is an error, mg_load, mg_open, mg_parse, mg_handle and
103	<	* mg_rewind will return an error from the list above.  In addition,
103	>	* mg_fgoto will return an error from the list above.  In addition,
104		* mg_load will report the error to stderr.  The mg_read routine
105		* returns 0 when the end of file has been reached.
106		*/
107
108	<	#define MG_MAXLINE      512             /* maximum input line length */
108	>	#define MG_MAXLINE      4096            /* maximum input line length */
109		#define MG_MAXARGC      (MG_MAXLINE/4)  /* maximum argument count */
110
111		typedef struct mg_fctxt {
#	Line 148 | Line 163 | extern int     mg_nqcdivs;             /* divisions per quarter circl
163		extern int mg_entity();                 /* get entity number from its name */
164		extern int isint();                     /* non-zero if integer format */
165		extern int isflt();                     /* non-zero if floating point format */
166	+	extern int isname();                    /* non-zero if legal identifier name */
167		#else
168		extern int mg_entity(char *);           /* get entity number from its name */
169		extern int isint(char *);               /* non-zero if integer format */
170		extern int isflt(char *);               /* non-zero if floating point format */
171	+	extern int isname(char *);              /* non-zero if legal identifier name */
172		#endif
173
174		/************************************************************************
#	Line 195 | Line 212 | extern double  normalize(FVECT);       /* normalize a vector
212		#define C_CNSS          41              /* number of spectral samples */
213		#define C_CWLI          ((C_CMAXWL-C_CMINWL)/(C_CNSS-1))
214		#define C_CMAXV         10000           /* nominal maximum sample value */
215	+	#define C_CLPWM         (683./C_CMAXV)  /* peak lumens/watt multiplier */
216
217		#define C_CSSPEC        01              /* flag if spectrum is set */
218		#define C_CDSPEC        02              /* flag if defined w/ spectrum */
219		#define C_CSXY          04              /* flag if xy is set */
220		#define C_CDXY          010             /* flag if defined w/ xy */
221	+	#define C_CSEFF         020             /* flag if efficacy set */
222
223		typedef struct {
224		int     clock;                  /* incremented each change */
#	Line 207 | Line 226 | typedef struct {
226		short   ssamp[C_CNSS];          /* spectral samples, min wl to max */
227		long    ssum;                   /* straight sum of spectral values */
228		float   cx, cy;                 /* xy chromaticity value */
229	+	float   eff;                    /* efficacy (lumens/watt) */
230		} C_COLOR;
231
232	<	#define C_DEFCOLOR      { 1, C_CDXY|C_CSXY|C_CSSPEC,\
232	>	#define C_DEFCOLOR      { 1, C_CDXY|C_CSXY|C_CSSPEC|C_CSEFF,\
233		{C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,\
234		C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,\
235		C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,\
#	Line 217 | Line 237 | typedef struct {
237		C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,\
238		C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,\
239		C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV,C_CMAXV},\
240	<	(long)C_CNSS*C_CMAXV, 1./3., 1./3. }
240	>	(long)C_CNSS*C_CMAXV, 1./3., 1./3., 178.006 }
241
222	–	#define C_CIEX          { 1, C_CDSPEC|C_CSSPEC|C_CSXY,\
223	–	{14,42,143,435,1344,2839,3483,3362,2908,1954,956,\
224	–	320,49,93,633,1655,2904,4334,5945,7621,9163,10263,\
225	–	10622,10026,8544,6424,4479,2835,1649,874,468,227,\
226	–	114,58,29,14,7,3,2,1,0}, 106836L, .735, .265 }
227	–
228	–	#define C_CIEY          { 1, C_CDSPEC|C_CSSPEC|C_CSXY,\
229	–	{0,1,4,12,40,116,230,380,600,910,1390,2080,3230,\
230	–	5030,7100,8620,9540,9950,9950,9520,8700,7570,6310,\
231	–	5030,3810,2650,1750,1070,610,320,170,82,41,21,10,\
232	–	5,2,1,1,0,0}, 106856L, .274, .717 }
233	–
234	–	#define C_CIEZ          { 1, C_CDSPEC|C_CSSPEC|C_CSXY,\
235	–	{65,201,679,2074,6456,13856,17471,17721,16692,\
236	–	12876,8130,4652,2720,1582,782,422,203,87,39,21,17,\
237	–	11,8,3,2,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},\
238	–	106770L, .167, .009 }
239	–
242		#define c_cval(c,l)     ((double)(c)->ssamp[((l)-C_MINWL)/C_CWLI] / (c)->ssum)
243
244	+	#define C_1SIDEDTHICK   0.005           /* assumed thickness of 1-sided mat. */
245	+
246		typedef struct {
247		int     clock;          /* incremented each change -- resettable */
248		int     sided;          /* 1 if surface is 1-sided, 0 for 2-sided */
249	+	float   nr, ni;         /* index of refraction, real and imaginary */
250		float   rd;             /* diffuse reflectance */
251		C_COLOR rd_c;           /* diffuse reflectance color */
252		float   td;             /* diffuse transmittance */
#	Line 261 | Line 266 | typedef struct {
266		FVECT   p, n;           /* point and normal */
267		} C_VERTEX;             /* vertex context */
268
269	<	#define C_DEFMATERIAL   {1,0,0.,C_DEFCOLOR,0.,C_DEFCOLOR,0.,C_DEFCOLOR,\
269	>	#define C_DEFMATERIAL   {1,0,1.,0.,0.,C_DEFCOLOR,0.,C_DEFCOLOR,0.,C_DEFCOLOR,\
270		0.,C_DEFCOLOR,0.,0.,C_DEFCOLOR,0.}
271		#define C_DEFVERTEX     {1,{0.,0.,0.},{0.,0.,0.}}
272
#	Line 349 | Line 354 | struct xf_array {
354
355		typedef struct xf_spec {
356		long    xid;                    /* unique transform id */
357	<	short   xav0;                   /* zeroeth argument in xf_argv array */
353	<	short   xac;                    /* transform argument count */
357	>	short   xac;                    /* context argument count */
358		short   rev;                    /* boolean true if vertices reversed */
359		XF      xf;                     /* cumulative transformation */
360		struct xf_array *xarr;          /* transformation array pointer */
361		struct xf_spec  *prev;          /* previous transformation context */
362		} XF_SPEC;                      /* followed by argument buffer */
363
364	<	extern int      xf_argc;                        /* total # transform args. */
365	<	extern char     **xf_argv;                      /* transform arguments */
362	<	extern XF_SPEC  *xf_context;                    /* current context */
364	>	extern XF_SPEC  *xf_context;                    /* current transform context */
365	>	extern char     **xf_argend;                    /* last transform argument */
366
367	+	#define xf_ac(xf)       ((xf)==NULL ? 0 : (xf)->xac)
368	+	#define xf_av(xf)       (xf_argend - (xf)->xac)
369	+
370	+	#define xf_argc         xf_ac(xf_context)
371	+	#define xf_argv         xf_av(xf_context)
372	+
373		/*
374		* The transformation handler should do most of the work that needs
375		* doing.  Just pass it any xf entities, then use the associated
#	Line 384 | Line 393 | extern void    xf_clear();             /* clear xf stack */
393
394		/* The following are support routines you probably won't call directly */
395
396	+	XF_SPEC         *new_xf();              /* allocate new transform */
397	+	void            free_xf();              /* free a transform */
398	+	int             xf_aname();             /* name this instance */
399	+	long            comp_xfid();            /* compute unique ID */
400		extern void     multmat4();             /* m4a = m4b X m4c */
401		extern void     multv3();               /* v3a = v3b X m4 (vectors) */
402		extern void     multp3();               /* p3a = p3b X m4 (points) */
#	Line 400 | Line 413 | extern void    xf_clear(void);                 /* clear xf stack */
413
414		/* The following are support routines you probably won't call directly */
415
416	+	XF_SPEC         *new_xf(int, char **);          /* allocate new transform */
417	+	void            free_xf(XF_SPEC *);             /* free a transform */
418	+	int             xf_aname(struct xf_array *);    /* name this instance */
419	+	long            comp_xfid(MAT4);                /* compute unique ID */
420		extern void     multmat4(MAT4, MAT4, MAT4);     /* m4a = m4b X m4c */
421		extern void     multv3(FVECT, FVECT, MAT4);     /* v3a = v3b X m4 (vectors) */
422		extern void     multp3(FVECT, FVECT, MAT4);     /* p3a = p3b X m4 (points) */
#	Line 411 | Line 428 | extern int     xf(XF *, int, char **);         /* interpret trans
428		*      Miscellaneous definitions
429		*/
430
431	+	#ifndef  PI
432		#ifdef  M_PI
433		#define  PI             M_PI
434		#else
435		#define  PI             3.14159265358979323846
436	+	#endif
437		#endif
438
439		#ifdef DCL_ATOF

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