src/rt/source.h

/* RCSid: $Id$ */
/*
 *  source.h - header file for ray tracing sources.
 *
 *  Include after ray.h
 */

/* ====================================================================
 * The Radiance Software License, Version 1.0
 *
 * Copyright (c) 1990 - 2002 The Regents of the University of California,
 * through Lawrence Berkeley National Laboratory.   All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *         notice, this list of conditions and the following disclaimer.
 *
 * 2. Redistributions in binary form must reproduce the above copyright
 *       notice, this list of conditions and the following disclaimer in
 *       the documentation and/or other materials provided with the
 *       distribution.
 *
 * 3. The end-user documentation included with the redistribution,
 *           if any, must include the following acknowledgment:
 *             "This product includes Radiance software
 *                 (http://radsite.lbl.gov/)
 *                 developed by the Lawrence Berkeley National Laboratory
 *               (http://www.lbl.gov/)."
 *       Alternately, this acknowledgment may appear in the software itself,
 *       if and wherever such third-party acknowledgments normally appear.
 *
 * 4. The names "Radiance," "Lawrence Berkeley National Laboratory"
 *       and "The Regents of the University of California" must
 *       not be used to endorse or promote products derived from this
 *       software without prior written permission. For written
 *       permission, please contact [email protected].
 *
 * 5. Products derived from this software may not be called "Radiance",
 *       nor may "Radiance" appear in their name, without prior written
 *       permission of Lawrence Berkeley National Laboratory.
 *
 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 * DISCLAIMED.   IN NO EVENT SHALL Lawrence Berkeley National Laboratory OR
 * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
 * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
 * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 * ====================================================================
 *
 * This software consists of voluntary contributions made by many
 * individuals on behalf of Lawrence Berkeley National Laboratory.   For more
 * information on Lawrence Berkeley National Laboratory, please see
 * <http://www.lbl.gov/>.
 */

#define  AIMREQT        100             /* required aim success/failure */

#define  SDISTANT       01              /* source distant flag */
#define  SSKIP          02              /* source skip flag */
#define  SPROX          04              /* source proximity flag */
#define  SSPOT          010             /* source spotlight flag */
#define  SVIRTUAL       020             /* source virtual flag */
#define  SFLAT          040             /* source flat flag */
#define  SCYL           0100            /* source cylindrical flag */
#define  SFOLLOW        0200            /* source follow path flag */

typedef struct {
        FVECT  aim;             /* aim direction or center */
        float  siz;             /* output solid angle or area */
        float  flen;            /* focal length (negative if distant source) */
} SPOT;                 /* spotlight */

typedef struct {
        int  sflags;            /* source flags */
        FVECT  sloc;            /* direction or position of source */
        FVECT  ss[3];           /* source dimension vectors, U, V, and W */
        float  srad;            /* maximum source radius */
        float  ss2;             /* solid angle or projected area */
        struct {
                float  prox;            /* proximity */
                SPOT  *s;               /* spot */
        } sl;                   /* localized source information */
        union {
                long  success;          /* successes - AIMREQT*failures */
                struct {
                        short  pn;              /* projection number */
                        int  sn;                /* next source to aim for */
                }  sv;                  /* virtual source */
        } sa;                   /* source aiming information */
        long  ntests, nhits;    /* shadow tests and hits */
        OBJREC  *so;            /* source destination object */
}  SRCREC;              /* light source */

#define MAXSPART        64              /* maximum partitions per source */

#define SU              0               /* U vector or partition */
#define SV              1               /* V vector or partition */
#define SW              2               /* W vector or partition */
#define S0              3               /* leaf partition */

#define snorm           ss[SW]          /* normal vector for flat source */

typedef struct {
        int  sn;                                /* source number */
        short  np;                              /* number of partitions */
        short  sp;                              /* this partition number */
        double  dom;                            /* solid angle of partition */
        unsigned char  spt[MAXSPART/2];         /* source partitioning */
}  SRCINDEX;            /* source index structure */

#define initsrcindex(s) ((s)->sn = (s)->sp = -1, (s)->np = 0)

#define clrpart(pt)     bzero((char *)(pt), MAXSPART/2)
#define setpart(pt,i,v) ((pt)[(i)>>2] |= (v)<<(((i)&3)<<1))
#define spart(pt,pi)    ((pt)[(pi)>>2] >> (((pi)&3)<<1) & 3)

/*
 * Special support functions for sources
 */

/*
 * Virtual source materials must define the following.
 *
 *      vproj(pm, op, sp, i)    Compute i'th virtual projection
 *                              of source sp in object op and assign
 *                              the 4x4 transformation matrix pm.
 *                              Return 1 on success, 0 if no i'th projection.
 *
 *      nproj                   The number of projections.  The value of
 *                              i passed to vproj runs from 0 to nproj-1.
 */

typedef struct {
        int  (*vproj)();        /* project virtual sources */
        int  nproj;             /* number of possible projections */
} VSMATERIAL;           /* virtual source material functions */

typedef struct {
        void    (*setsrc)();    /* set light source for object */
        void    (*partit)();    /* partition light source object */
        double  (*getpleq)();   /* plane equation for surface */
        double  (*getdisk)();   /* maximum disk for surface */
} SOBJECT;              /* source object functions */

typedef union {
        VSMATERIAL  *mf;        /* material functions */
        SOBJECT  *of;           /* object functions */
} SRCFUNC;              /* source functions */

extern SRCFUNC  sfun[];                 /* source dispatch table */

extern SRCREC  *source;                 /* our source list */
extern int  nsources;                   /* the number of sources */

#define  sflatform(sn,dir)      -DOT(source[sn].snorm, dir)

#define  getplaneq(c,o)         (*sfun[(o)->otype].of->getpleq)(c,o)
#define  getmaxdisk(c,o)        (*sfun[(o)->otype].of->getdisk)(c,o)
#define  setsource(s,o)         (*sfun[(o)->otype].of->setsrc)(s,o)

#ifdef NOPROTO

extern void     marksources();
extern void     freesources();
extern int      srcray();
extern void     srcvalue();
extern int      sourcehit();
extern void     direct();
extern void     srcscatter();
extern int      m_light();
extern double   nextssamp();
extern int      skipparts();
extern void     nopart();
extern void     cylpart();
extern void     flatpart();
extern double   scylform();
extern void     initstypes();
extern int      newsource();
extern void     setflatss();
extern void     fsetsrc();
extern void     ssetsrc();
extern void     sphsetsrc();
extern void     rsetsrc();
extern void     cylsetsrc();
extern SPOT     *makespot();
extern int      spotout();
extern double   fgetmaxdisk();
extern double   rgetmaxdisk();
extern double   fgetplaneq();
extern double   rgetplaneq();
extern int      commonspot();
extern int      commonbeam();
extern int      checkspot();
extern double   spotdisk();
extern double   beamdisk();
extern double   intercircle();
extern void     markvirtuals();
extern void     addvirtuals();
extern void     vproject();
extern OBJREC   *vsmaterial();
extern int      makevsrc();
extern double   getdisk();
extern int      vstestvis();
extern void     virtverb();

#else
                                        /* defined in source.c */
extern void     marksources(void);
extern void     freesources(void);
extern int      srcray(RAY *sr, RAY *r, SRCINDEX *si);
extern void     srcvalue(RAY *r);
extern int      sourcehit(RAY *r);
extern void     direct(RAY *r, void (*f)(), char *p);
extern void     srcscatter(RAY *r);
extern int      m_light(OBJREC *m, RAY *r);
                                        /* defined in srcsamp.c */
extern double   nextssamp(RAY *r, SRCINDEX *si);
extern int      skipparts(int ct[3], int sz[3], int pp[2], unsigned char *pt);
extern void     nopart(SRCINDEX *si, RAY *r);
extern void     cylpart(SRCINDEX *si, RAY *r);
extern void     flatpart(SRCINDEX *si, RAY *r);
extern double   scylform(int sn, FVECT dir);
                                        /* defined in srcsupp.c */
extern void     initstypes(void);
extern int      newsource(void);
extern void     setflatss(SRCREC *src);
extern void     fsetsrc(SRCREC *src, OBJREC *so);
extern void     ssetsrc(SRCREC *src, OBJREC *so);
extern void     sphsetsrc(SRCREC *src, OBJREC *so);
extern void     rsetsrc(SRCREC *src, OBJREC *so);
extern void     cylsetsrc(SRCREC *src, OBJREC *so);
extern SPOT     *makespot(OBJREC *m);
extern int      spotout(RAY *r, SPOT *s);
extern double   fgetmaxdisk(FVECT ocent, OBJREC *op);
extern double   rgetmaxdisk(FVECT ocent, OBJREC *op);
extern double   fgetplaneq(FVECT nvec, OBJREC *op);
extern double   rgetplaneq(FVECT nvec, OBJREC *op);
extern int      commonspot(SPOT *sp1, SPOT *sp2, FVECT org);
extern int      commonbeam(SPOT *sp1, SPOT *sp2, FVECT org);
extern int      checkspot(SPOT *sp, FVECT nrm);
extern double   spotdisk(FVECT oc, OBJREC *op, SPOT *sp, FVECT pos);
extern double   beamdisk(FVECT oc, OBJREC *op, SPOT *sp, FVECT dir);
extern double   intercircle(FVECT cc, FVECT c1, FVECT c2,
                        double r1s, double r2s);
                                        /* defined in virtuals.c */
extern void     markvirtuals(void);
extern void     addvirtuals(int sn, int nr);
extern void     vproject(OBJREC *o, int sn, int n);
extern OBJREC   *vsmaterial(OBJREC *o);
extern int      makevsrc(OBJREC *op, int sn, MAT4 pm);
extern double   getdisk(FVECT oc, OBJREC *op, int sn);
extern int      vstestvis(int f, OBJREC *o, FVECT oc, double or2, int sn);
extern void     virtverb(int sn, FILE *fp);

#endif
Revision:	2.5
Committed:	Sat Feb 22 02:07:29 2003 UTC (21 years, 2 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.4:	+157 -27 lines
Log Message:	Changes and check-in for 3.5 release Includes new source files and modifications not recorded for many years See ray/doc/notes/ReleaseNotes for notes between 3.1 and 3.5 release
#	User	Rev	Content
1	greg	2.5	/* RCSid: $Id$ */
2	greg	1.1	/*
3			* source.h - header file for ray tracing sources.
4			*
5	greg	2.5	* Include after ray.h
6			*/
7
8			/* ====================================================================
9			* The Radiance Software License, Version 1.0
10			*
11			* Copyright (c) 1990 - 2002 The Regents of the University of California,
12			* through Lawrence Berkeley National Laboratory. All rights reserved.
13			*
14			* Redistribution and use in source and binary forms, with or without
15			* modification, are permitted provided that the following conditions
16			* are met:
17			*
18			* 1. Redistributions of source code must retain the above copyright
19			* notice, this list of conditions and the following disclaimer.
20			*
21			* 2. Redistributions in binary form must reproduce the above copyright
22			* notice, this list of conditions and the following disclaimer in
23			* the documentation and/or other materials provided with the
24			* distribution.
25			*
26			* 3. The end-user documentation included with the redistribution,
27			* if any, must include the following acknowledgment:
28			* "This product includes Radiance software
29			* (http://radsite.lbl.gov/)
30			* developed by the Lawrence Berkeley National Laboratory
31			* (http://www.lbl.gov/)."
32			* Alternately, this acknowledgment may appear in the software itself,
33			* if and wherever such third-party acknowledgments normally appear.
34			*
35			* 4. The names "Radiance," "Lawrence Berkeley National Laboratory"
36			* and "The Regents of the University of California" must
37			* not be used to endorse or promote products derived from this
38			* software without prior written permission. For written
39			* permission, please contact [email protected].
40			*
41			* 5. Products derived from this software may not be called "Radiance",
42			* nor may "Radiance" appear in their name, without prior written
43			* permission of Lawrence Berkeley National Laboratory.
44			*
45			* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
46			* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
47			* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
48			* DISCLAIMED. IN NO EVENT SHALL Lawrence Berkeley National Laboratory OR
49			* ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
50			* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
51			* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
52			* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
53			* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
54			* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
55			* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
56			* SUCH DAMAGE.
57			* ====================================================================
58			*
59			* This software consists of voluntary contributions made by many
60			* individuals on behalf of Lawrence Berkeley National Laboratory. For more
61			* information on Lawrence Berkeley National Laboratory, please see
62			* <http://www.lbl.gov/>.
63	greg	1.1	*/
64
65	greg	1.6	#define AIMREQT 100 /* required aim success/failure */
66
67	greg	1.1	#define SDISTANT 01 /* source distant flag */
68			#define SSKIP 02 /* source skip flag */
69	greg	1.3	#define SPROX 04 /* source proximity flag */
70			#define SSPOT 010 /* source spotlight flag */
71	greg	1.6	#define SVIRTUAL 020 /* source virtual flag */
72			#define SFLAT 040 /* source flat flag */
73	greg	1.14	#define SCYL 0100 /* source cylindrical flag */
74			#define SFOLLOW 0200 /* source follow path flag */
75	greg	1.1
76			typedef struct {
77	greg	1.6	FVECT aim; /* aim direction or center */
78			float siz; /* output solid angle or area */
79	greg	2.4	float flen; /* focal length (negative if distant source) */
80	greg	1.3	} SPOT; /* spotlight */
81
82			typedef struct {
83	greg	1.6	int sflags; /* source flags */
84	greg	1.1	FVECT sloc; /* direction or position of source */
85	greg	1.14	FVECT ss[3]; /* source dimension vectors, U, V, and W */
86			float srad; /* maximum source radius */
87			float ss2; /* solid angle or projected area */
88	greg	1.6	struct {
89	greg	1.3	float prox; /* proximity */
90			SPOT s; / spot */
91			} sl; /* localized source information */
92	greg	1.6	union {
93	greg	2.3	long success; /* successes - AIMREQTfailures /
94	greg	1.12	struct {
95			short pn; /* projection number */
96	greg	2.3	int sn; /* next source to aim for */
97	greg	1.12	} sv; /* virtual source */
98	greg	1.6	} sa; /* source aiming information */
99	greg	1.2	long ntests, nhits; /* shadow tests and hits */
100	greg	1.6	OBJREC so; / source destination object */
101	greg	1.2	} SRCREC; /* light source */
102	greg	1.1
103	greg	1.15	#define MAXSPART 64 /* maximum partitions per source */
104	greg	1.14
105			#define SU 0 /* U vector or partition */
106			#define SV 1 /* V vector or partition */
107			#define SW 2 /* W vector or partition */
108			#define S0 3 /* leaf partition */
109
110			#define snorm ss[SW] /* normal vector for flat source */
111
112			typedef struct {
113			int sn; /* source number */
114			short np; /* number of partitions */
115			short sp; /* this partition number */
116			double dom; /* solid angle of partition */
117			unsigned char spt[MAXSPART/2]; /* source partitioning */
118			} SRCINDEX; /* source index structure */
119
120			#define initsrcindex(s) ((s)->sn = (s)->sp = -1, (s)->np = 0)
121
122			#define clrpart(pt) bzero((char *)(pt), MAXSPART/2)
123			#define setpart(pt,i,v) ((pt)[(i)>>2] \|= (v)<<(((i)&3)<<1))
124			#define spart(pt,pi) ((pt)[(pi)>>2] >> (((pi)&3)<<1) & 3)
125
126	greg	1.8	/*
127			* Special support functions for sources
128			*/
129
130			/*
131	greg	1.10	* Virtual source materials must define the following.
132	greg	1.8	*
133			* vproj(pm, op, sp, i) Compute i'th virtual projection
134			* of source sp in object op and assign
135			* the 4x4 transformation matrix pm.
136			* Return 1 on success, 0 if no i'th projection.
137			*
138			* nproj The number of projections. The value of
139			* i passed to vproj runs from 0 to nproj-1.
140			*/
141
142	greg	1.2	typedef struct {
143	greg	1.8	int (vproj)(); / project virtual sources */
144			int nproj; /* number of possible projections */
145			} VSMATERIAL; /* virtual source material functions */
146	greg	1.4
147			typedef struct {
148	greg	2.5	void (setsrc)(); / set light source for object */
149			void (partit)(); / partition light source object */
150	greg	1.8	double (getpleq)(); / plane equation for surface */
151			double (getdisk)(); / maximum disk for surface */
152			} SOBJECT; /* source object functions */
153	greg	1.1
154	greg	1.8	typedef union {
155			VSMATERIAL mf; / material functions */
156			SOBJECT of; / object functions */
157			} SRCFUNC; /* source functions */
158
159			extern SRCFUNC sfun[]; /* source dispatch table */
160
161	greg	1.2	extern SRCREC source; / our source list */
162	greg	1.1	extern int nsources; /* the number of sources */
163
164	greg	1.14	#define sflatform(sn,dir) -DOT(source[sn].snorm, dir)
165
166	greg	1.11	#define getplaneq(c,o) (*sfun[(o)->otype].of->getpleq)(c,o)
167			#define getmaxdisk(c,o) (*sfun[(o)->otype].of->getdisk)(c,o)
168			#define setsource(s,o) (*sfun[(o)->otype].of->setsrc)(s,o)
169	greg	2.5
170			#ifdef NOPROTO
171
172			extern void marksources();
173			extern void freesources();
174			extern int srcray();
175			extern void srcvalue();
176			extern int sourcehit();
177			extern void direct();
178			extern void srcscatter();
179			extern int m_light();
180			extern double nextssamp();
181			extern int skipparts();
182			extern void nopart();
183			extern void cylpart();
184			extern void flatpart();
185			extern double scylform();
186			extern void initstypes();
187			extern int newsource();
188			extern void setflatss();
189			extern void fsetsrc();
190			extern void ssetsrc();
191			extern void sphsetsrc();
192			extern void rsetsrc();
193			extern void cylsetsrc();
194			extern SPOT *makespot();
195			extern int spotout();
196			extern double fgetmaxdisk();
197			extern double rgetmaxdisk();
198			extern double fgetplaneq();
199			extern double rgetplaneq();
200			extern int commonspot();
201			extern int commonbeam();
202			extern int checkspot();
203			extern double spotdisk();
204			extern double beamdisk();
205			extern double intercircle();
206			extern void markvirtuals();
207			extern void addvirtuals();
208			extern void vproject();
209			extern OBJREC *vsmaterial();
210			extern int makevsrc();
211			extern double getdisk();
212			extern int vstestvis();
213			extern void virtverb();
214
215			#else
216			/* defined in source.c */
217			extern void marksources(void);
218			extern void freesources(void);
219			extern int srcray(RAY sr, RAY r, SRCINDEX *si);
220			extern void srcvalue(RAY *r);
221			extern int sourcehit(RAY *r);
222			extern void direct(RAY r, void (f)(), char *p);
223			extern void srcscatter(RAY *r);
224			extern int m_light(OBJREC m, RAY r);
225			/* defined in srcsamp.c */
226			extern double nextssamp(RAY r, SRCINDEX si);
227			extern int skipparts(int ct[3], int sz[3], int pp[2], unsigned char *pt);
228			extern void nopart(SRCINDEX si, RAY r);
229			extern void cylpart(SRCINDEX si, RAY r);
230			extern void flatpart(SRCINDEX si, RAY r);
231			extern double scylform(int sn, FVECT dir);
232			/* defined in srcsupp.c */
233			extern void initstypes(void);
234			extern int newsource(void);
235			extern void setflatss(SRCREC *src);
236			extern void fsetsrc(SRCREC src, OBJREC so);
237			extern void ssetsrc(SRCREC src, OBJREC so);
238			extern void sphsetsrc(SRCREC src, OBJREC so);
239			extern void rsetsrc(SRCREC src, OBJREC so);
240			extern void cylsetsrc(SRCREC src, OBJREC so);
241			extern SPOT makespot(OBJREC m);
242			extern int spotout(RAY r, SPOT s);
243			extern double fgetmaxdisk(FVECT ocent, OBJREC *op);
244			extern double rgetmaxdisk(FVECT ocent, OBJREC *op);
245			extern double fgetplaneq(FVECT nvec, OBJREC *op);
246			extern double rgetplaneq(FVECT nvec, OBJREC *op);
247			extern int commonspot(SPOT sp1, SPOT sp2, FVECT org);
248			extern int commonbeam(SPOT sp1, SPOT sp2, FVECT org);
249			extern int checkspot(SPOT *sp, FVECT nrm);
250			extern double spotdisk(FVECT oc, OBJREC op, SPOT sp, FVECT pos);
251			extern double beamdisk(FVECT oc, OBJREC op, SPOT sp, FVECT dir);
252			extern double intercircle(FVECT cc, FVECT c1, FVECT c2,
253			double r1s, double r2s);
254			/* defined in virtuals.c */
255			extern void markvirtuals(void);
256			extern void addvirtuals(int sn, int nr);
257			extern void vproject(OBJREC *o, int sn, int n);
258			extern OBJREC vsmaterial(OBJREC o);
259			extern int makevsrc(OBJREC *op, int sn, MAT4 pm);
260			extern double getdisk(FVECT oc, OBJREC *op, int sn);
261			extern int vstestvis(int f, OBJREC *o, FVECT oc, double or2, int sn);
262			extern void virtverb(int sn, FILE *fp);
263
264			#endif