src/rt/ray.h

/* RCSid $Id: ray.h,v 2.38 2015/02/24 19:39:27 greg Exp $ */
/*
 *  ray.h - header file for routines using rays.
 */
#ifndef _RAD_RAY_H_
#define _RAD_RAY_H_

#include  "standard.h"
#include  "octree.h"
#include  "object.h"
#include  "color.h"
#include  "pmapparm.h"

#ifdef __cplusplus
extern "C" {
#endif

#ifndef RNUMBER
#define RNUMBER         unsigned long   /* ray counter (>= sizeof pointer) */
#endif

#define  MAXDIM         32      /* maximum number of dimensions */

                                /* ray type flags */
#define  PRIMARY        01              /* original ray */
#define  SHADOW         02              /* ray to light source */
#define  REFLECTED      04              /* reflected ray */
#define  REFRACTED      010             /* refracted (bent) ray */
#define  TRANS          020             /* transmitted/transferred ray */
#define  AMBIENT        040             /* ray scattered for interreflection */
#define  SPECULAR       0100            /* ray scattered for specular */

                                /* reflected ray types */
#define  RAYREFL        (SHADOW|REFLECTED|AMBIENT|SPECULAR)

/* Arrange so double's come first for optimal alignment */
/* Pointers and long's come second for 64-bit mode */
/* Int's next (unknown length), then floats, followed by short's & char's */
typedef struct ray {
        FVECT   rorg;           /* origin of ray */
        FVECT   rdir;           /* normalized direction of ray */
        RREAL   rmax;           /* maximum distance (aft clipping plane) */
        RREAL   rot;            /* distance to object */
        FVECT   rop;            /* intersection point */
        FVECT   ron;            /* intersection surface normal */
        RREAL   rod;            /* -DOT(rdir, ron) */
        RREAL   uv[2];          /* local coordinates */
        FVECT   pert;           /* surface normal perturbation */
        RREAL   rmt;            /* returned mirrored ray length */
        RREAL   rxt;            /* returned unmirrored ray length */
        const struct ray  *parent;      /* ray this originated from */
        OBJECT  *clipset;       /* set of objects currently clipped */
        OBJECT  *newcset;       /* next clipset, used for transmission */
        void    (*revf)(struct ray *);  /* ray evaluation function */
        void    (*hitf)(OBJECT *, struct ray *);        /* custom hit test */
        OBJREC  *ro;            /* intersected object (one with material) */
        FULLXF  *rox;           /* object transformation */
        int     *slights;       /* list of lights to test for scattering */
        RNUMBER rno;            /* unique ray number */
        int     rlvl;           /* number of reflections for this ray */
        int     rsrc;           /* source we're aiming for */
        float   rweight;        /* cumulative weight (for termination) */
        COLOR   rcoef;          /* contribution coefficient w.r.t. parent */
        COLOR   pcol;           /* pattern color */
        COLOR   mcol;           /* mirrored color contribution */
        COLOR   rcol;           /* returned radiance value */
        COLOR   cext;           /* medium extinction coefficient */
        COLOR   albedo;         /* medium scattering albedo */
        float   gecc;           /* scattering eccentricity coefficient */
        OBJECT  robj;           /* intersected object number */
        short   rtype;          /* ray type */
        short   crtype;         /* cumulative ray type */
}  RAY;

#define  rayvalue(r)    (*(r)->revf)(r)

#define  raydistance(r) (bright((r)->mcol) > 0.5*bright((r)->rcol) ? \
                                (r)->rmt : (r)->rxt)

extern char  VersionID[];       /* Radiance version ID string */

extern CUBE     thescene;       /* our scene */
extern OBJECT   nsceneobjs;     /* number of objects in our scene */

extern RNUMBER  raynum;         /* next ray ID */
extern RNUMBER  nrays;          /* total rays traced so far */

extern OBJREC  Lamb;            /* a Lambertian surface */
extern OBJREC  Aftplane;        /* aft clipping object */

extern void     (*trace)();     /* global trace reporting callback */

extern int      dimlist[];      /* dimension list for distribution */
extern int      ndims;          /* number of dimensions so far */
extern int      samplendx;      /* index for this sample */

extern int      ray_savesiz;    /* size of parameter save buffer */

extern int      do_irrad;       /* compute irradiance? */

extern int      rand_samp;      /* pure Monte Carlo sampling? */

extern double   dstrsrc;        /* square source distribution */
extern double   shadthresh;     /* shadow threshold */
extern double   shadcert;       /* shadow testing certainty */
extern int      directrelay;    /* number of source relays */
extern int      vspretest;      /* virtual source pretest density */
extern int      directvis;      /* light sources visible to eye? */
extern double   srcsizerat;     /* maximum source size/dist. ratio */

extern double   specthresh;     /* specular sampling threshold */
extern double   specjitter;     /* specular sampling jitter */

extern COLOR    cextinction;    /* global extinction coefficient */
extern COLOR    salbedo;        /* global scattering albedo */
extern double   seccg;          /* global scattering eccentricity */
extern double   ssampdist;      /* scatter sampling distance */

extern int      backvis;        /* back face visibility */

extern int      maxdepth;       /* maximum recursion depth */
extern double   minweight;      /* minimum ray weight */

extern char     *ambfile;       /* ambient file name */
extern COLOR    ambval;         /* ambient value */
extern int      ambvwt;         /* initial weight for ambient value */
extern double   ambacc;         /* ambient accuracy */
extern int      ambres;         /* ambient resolution */
extern int      ambdiv;         /* ambient divisions */
extern int      ambssamp;       /* ambient super-samples */
extern int      ambounce;       /* ambient bounces */
extern char     *amblist[];     /* ambient include/exclude list */
extern int      ambincl;        /* include == 1, exclude == 0 */

extern int      ray_pnprocs;    /* number of child processes */
extern int      ray_pnidle;     /* number of idle processes */

#ifndef AMBLLEN
#define AMBLLEN         512     /* max. ambient list length */
#endif
#define AMBWORD         12      /* average word length */

typedef struct {                /* rendering parameter holder */
        int     do_irrad;
        int     rand_samp;
        double  dstrsrc;
        double  shadthresh;
        double  shadcert;
        int     directrelay;
        int     vspretest;
        int     directvis;
        double  srcsizerat;
        COLOR   cextinction;
        COLOR   salbedo;
        double  seccg;
        double  ssampdist;
        double  specthresh;
        double  specjitter;
        int     backvis;
        int     maxdepth;
        double  minweight;
        char    ambfile[512];
        COLOR   ambval;
        int     ambvwt;
        double  ambacc;
        int     ambres;
        int     ambdiv;
        int     ambssamp;
        int     ambounce;
        int     ambincl;
        short   amblndx[AMBLLEN+1];
        char    amblval[AMBLLEN*AMBWORD];
        
        /* PMAP: photon mapping parameters */
        PhotonMapParams pmapParams [NUM_PMAP_TYPES];
} RAYPARAMS;

#define rpambmod(p,i)   ( (i)>=AMBLLEN||(p)->amblndx[i]<0 ? \
                          (char *)NULL : (p)->amblval+(p)->amblndx[i] )

                                        /* defined in duphead.c */
extern void     headclean(void);
extern void     openheader(void);
extern void     dupheader(void);
                                        /* defined in persist.c */
extern void persistfile(char *pfn);
extern void     pfdetach(void);
extern void     pfclean(void);
extern void     pflock(int lf);
extern void     pfhold(void);
extern void     io_process(void);
                                        /* defined in freeobjmem.c */
extern int      free_objs(OBJECT on, OBJECT no);
extern void     free_objmem(void);
                                        /* defined in preload.c */
extern int      load_os(OBJREC *op);
extern void     preload_objs(void);
                                        /* defined in raycalls.c */
extern void     ray_init(char *otnm);
extern void     ray_trace(RAY *r);
extern void     ray_done(int freall);
extern void     ray_save(RAYPARAMS *rp);
extern void     ray_restore(RAYPARAMS *rp);
extern void     ray_defaults(RAYPARAMS *rp);
                                        /* defined in raypcalls.c */
extern void     ray_pinit(char *otnm, int nproc);
extern int      ray_psend(RAY *r);
extern int      ray_pqueue(RAY *r);
extern int      ray_presult(RAY *r, int poll);
extern void     ray_pdone(int freall);
extern void     ray_popen(int nadd);
extern void     ray_pclose(int nsub);
                                        /* defined in ray_fifo.c */
extern int      (*ray_fifo_out)(RAY *r);
extern int      ray_fifo_in(RAY *r);
extern int      ray_fifo_flush(void);
                                        /* defined in raytrace.c */
extern int      rayorigin(RAY *r, int rt, const RAY *ro, const COLOR rc);
extern void     rayclear(RAY *r);
extern void     raytrace(RAY *r);
extern void     rayhit(OBJECT *oset, RAY *r);
extern void     raycont(RAY *r);
extern void     raytrans(RAY *r);
extern int      rayshade(RAY *r, int mod);
extern void     rayparticipate(RAY *r);
extern void     raytexture(RAY *r, OBJECT mod);
extern int      raymixture(RAY *r, OBJECT fore, OBJECT back, double coef);
extern void     raycontrib(RREAL rc[3], const RAY *r, int flags);
extern double   raydist(const RAY *r, int flags);
extern double   raynormal(FVECT norm, RAY *r);
extern void     newrayxf(RAY *r);
extern void     flipsurface(RAY *r);
extern int      localhit(RAY *r, CUBE *scene);
                                        /* defined in renderopts.c */
extern int      getrenderopt(int ac, char *av[]);
extern void     print_rdefaults(void);
                                        /* defined in srcdraw.c */
extern void     drawsources(COLOR *pic[], float *zbf[],
                        int x0, int xsiz, int y0, int ysiz);
extern void init_drawsources(int rad);
                                        /* defined in rt/initotypes.c */
extern void initotypes(void);
                                        /* module main procedures */
extern void     rtrace(char *fname, int nproc);
extern char     *formstr(int  f);
extern void     rview(void);
extern void     rpict(int seq, char *pout, char *zout, char *prvr);

#ifdef __FAST_MATH__
#define checknorm(vn)   (void)normalize(vn)
#else
#define checknorm(vn)
#endif

#ifdef __cplusplus
}
#endif
#endif /* _RAD_RAY_H_ */

Revision:	2.39
Committed:	Tue Nov 13 19:58:33 2018 UTC (5 years, 6 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.38:	+7 -2 lines
Log Message:	Added -orRxX options to rtrace for VR rendering
#	User	Rev	Content
1	greg	2.39	/* RCSid $Id: ray.h,v 2.38 2015/02/24 19:39:27 greg Exp $ */
2	greg	1.1	/*
3			* ray.h - header file for routines using rays.
4	greg	2.12	*/
5	schorsch	2.17	#ifndef _RAD_RAY_H_
6			#define _RAD_RAY_H_
7	greg	1.1
8			#include "standard.h"
9	greg	2.12	#include "octree.h"
10	greg	1.1	#include "object.h"
11	schorsch	2.20	#include "color.h"
12	greg	2.38	#include "pmapparm.h"
13	greg	1.1
14	schorsch	2.20	#ifdef __cplusplus
15			extern "C" {
16			#endif
17	greg	1.1
18	greg	2.30	#ifndef RNUMBER
19			#define RNUMBER unsigned long /* ray counter (>= sizeof pointer) */
20			#endif
21
22	greg	2.6	#define MAXDIM 32 /* maximum number of dimensions */
23
24	greg	1.1	/* ray type flags */
25			#define PRIMARY 01 /* original ray */
26			#define SHADOW 02 /* ray to light source */
27			#define REFLECTED 04 /* reflected ray */
28			#define REFRACTED 010 /* refracted (bent) ray */
29			#define TRANS 020 /* transmitted/transferred ray */
30			#define AMBIENT 040 /* ray scattered for interreflection */
31	greg	2.2	#define SPECULAR 0100 /* ray scattered for specular */
32	greg	1.1
33			/* reflected ray types */
34	greg	2.2	#define RAYREFL (SHADOW\|REFLECTED\|AMBIENT\|SPECULAR)
35	greg	1.1
36	greg	2.29	/* Arrange so double's come first for optimal alignment */
37			/* Pointers and long's come second for 64-bit mode */
38			/* Int's next (unknown length), then floats, followed by short's & char's */
39	greg	1.1	typedef struct ray {
40	greg	2.12	FVECT rorg; /* origin of ray */
41			FVECT rdir; /* normalized direction of ray */
42	greg	2.29	RREAL rmax; /* maximum distance (aft clipping plane) */
43			RREAL rot; /* distance to object */
44			FVECT rop; /* intersection point */
45			FVECT ron; /* intersection surface normal */
46			RREAL rod; /* -DOT(rdir, ron) */
47			RREAL uv[2]; /* local coordinates */
48			FVECT pert; /* surface normal perturbation */
49	greg	2.39	RREAL rmt; /* returned mirrored ray length */
50			RREAL rxt; /* returned unmirrored ray length */
51	greg	2.29	const struct ray parent; / ray this originated from */
52	greg	2.12	OBJECT clipset; / set of objects currently clipped */
53			OBJECT newcset; / next clipset, used for transmission */
54	greg	2.26	void (revf)(struct ray ); /* ray evaluation function */
55	greg	2.21	void (hitf)(OBJECT , struct ray ); / custom hit test */
56	greg	2.12	OBJREC ro; / intersected object (one with material) */
57			FULLXF rox; / object transformation */
58	greg	2.29	int slights; / list of lights to test for scattering */
59	greg	2.30	RNUMBER rno; /* unique ray number */
60	greg	2.29	int rlvl; /* number of reflections for this ray */
61			int rsrc; /* source we're aiming for */
62			float rweight; /* cumulative weight (for termination) */
63			COLOR rcoef; /* contribution coefficient w.r.t. parent */
64	greg	2.12	COLOR pcol; /* pattern color */
65	greg	2.39	COLOR mcol; /* mirrored color contribution */
66	greg	2.24	COLOR rcol; /* returned radiance value */
67	greg	2.12	COLOR cext; /* medium extinction coefficient */
68			COLOR albedo; /* medium scattering albedo */
69			float gecc; /* scattering eccentricity coefficient */
70	greg	2.29	OBJECT robj; /* intersected object number */
71			short rtype; /* ray type */
72			short crtype; /* cumulative ray type */
73	greg	1.1	} RAY;
74
75	greg	2.26	#define rayvalue(r) (*(r)->revf)(r)
76
77	greg	2.39	#define raydistance(r) (bright((r)->mcol) > 0.5*bright((r)->rcol) ? \
78			(r)->rmt : (r)->rxt)
79
80	greg	2.12	extern char VersionID[]; /* Radiance version ID string */
81	greg	1.6
82	greg	2.12	extern CUBE thescene; /* our scene */
83			extern OBJECT nsceneobjs; /* number of objects in our scene */
84	greg	2.5
85	greg	2.35	extern RNUMBER raynum; /* next ray ID */
86			extern RNUMBER nrays; /* total rays traced so far */
87	greg	1.5
88	greg	2.12	extern OBJREC Lamb; /* a Lambertian surface */
89			extern OBJREC Aftplane; /* aft clipping object */
90
91			extern void (trace)(); / global trace reporting callback */
92
93			extern int dimlist[]; /* dimension list for distribution */
94			extern int ndims; /* number of dimensions so far */
95			extern int samplendx; /* index for this sample */
96
97			extern int ray_savesiz; /* size of parameter save buffer */
98
99			extern int do_irrad; /* compute irradiance? */
100
101	greg	2.27	extern int rand_samp; /* pure Monte Carlo sampling? */
102
103	greg	2.12	extern double dstrsrc; /* square source distribution */
104			extern double shadthresh; /* shadow threshold */
105			extern double shadcert; /* shadow testing certainty */
106			extern int directrelay; /* number of source relays */
107			extern int vspretest; /* virtual source pretest density */
108			extern int directvis; /* light sources visible to eye? */
109			extern double srcsizerat; /* maximum source size/dist. ratio */
110
111			extern double specthresh; /* specular sampling threshold */
112			extern double specjitter; /* specular sampling jitter */
113
114			extern COLOR cextinction; /* global extinction coefficient */
115			extern COLOR salbedo; /* global scattering albedo */
116			extern double seccg; /* global scattering eccentricity */
117			extern double ssampdist; /* scatter sampling distance */
118
119			extern int backvis; /* back face visibility */
120
121			extern int maxdepth; /* maximum recursion depth */
122			extern double minweight; /* minimum ray weight */
123
124			extern char ambfile; / ambient file name */
125			extern COLOR ambval; /* ambient value */
126			extern int ambvwt; /* initial weight for ambient value */
127			extern double ambacc; /* ambient accuracy */
128			extern int ambres; /* ambient resolution */
129			extern int ambdiv; /* ambient divisions */
130			extern int ambssamp; /* ambient super-samples */
131			extern int ambounce; /* ambient bounces */
132			extern char amblist[]; / ambient include/exclude list */
133			extern int ambincl; /* include == 1, exclude == 0 */
134
135			extern int ray_pnprocs; /* number of child processes */
136			extern int ray_pnidle; /* number of idle processes */
137
138	greg	2.23	#ifndef AMBLLEN
139			#define AMBLLEN 512 /* max. ambient list length */
140			#endif
141			#define AMBWORD 12 /* average word length */
142	greg	2.12
143			typedef struct { /* rendering parameter holder */
144			int do_irrad;
145	greg	2.27	int rand_samp;
146	greg	2.12	double dstrsrc;
147			double shadthresh;
148			double shadcert;
149			int directrelay;
150			int vspretest;
151			int directvis;
152			double srcsizerat;
153			COLOR cextinction;
154			COLOR salbedo;
155			double seccg;
156			double ssampdist;
157			double specthresh;
158			double specjitter;
159			int backvis;
160			int maxdepth;
161			double minweight;
162			char ambfile[512];
163			COLOR ambval;
164			int ambvwt;
165			double ambacc;
166			int ambres;
167			int ambdiv;
168			int ambssamp;
169			int ambounce;
170			int ambincl;
171			short amblndx[AMBLLEN+1];
172			char amblval[AMBLLEN*AMBWORD];
173	greg	2.38
174			/* PMAP: photon mapping parameters */
175			PhotonMapParams pmapParams [NUM_PMAP_TYPES];
176	greg	2.12	} RAYPARAMS;
177
178			#define rpambmod(p,i) ( (i)>=AMBLLEN\|\|(p)->amblndx[i]<0 ? \
179			(char *)NULL : (p)->amblval+(p)->amblndx[i] )
180
181			/* defined in duphead.c */
182			extern void headclean(void);
183			extern void openheader(void);
184			extern void dupheader(void);
185	schorsch	2.22	/* defined in persist.c */
186			extern void persistfile(char *pfn);
187	greg	2.12	extern void pfdetach(void);
188			extern void pfclean(void);
189			extern void pflock(int lf);
190			extern void pfhold(void);
191			extern void io_process(void);
192			/* defined in freeobjmem.c */
193			extern int free_objs(OBJECT on, OBJECT no);
194			extern void free_objmem(void);
195			/* defined in preload.c */
196			extern int load_os(OBJREC *op);
197			extern void preload_objs(void);
198			/* defined in raycalls.c */
199			extern void ray_init(char *otnm);
200			extern void ray_trace(RAY *r);
201			extern void ray_done(int freall);
202			extern void ray_save(RAYPARAMS *rp);
203			extern void ray_restore(RAYPARAMS *rp);
204			extern void ray_defaults(RAYPARAMS *rp);
205			/* defined in raypcalls.c */
206			extern void ray_pinit(char *otnm, int nproc);
207	greg	2.33	extern int ray_psend(RAY *r);
208	greg	2.12	extern int ray_pqueue(RAY *r);
209			extern int ray_presult(RAY *r, int poll);
210			extern void ray_pdone(int freall);
211			extern void ray_popen(int nadd);
212			extern void ray_pclose(int nsub);
213	greg	2.31	/* defined in ray_fifo.c */
214			extern int (ray_fifo_out)(RAY r);
215			extern int ray_fifo_in(RAY *r);
216			extern int ray_fifo_flush(void);
217	greg	2.12	/* defined in raytrace.c */
218	greg	2.25	extern int rayorigin(RAY r, int rt, const RAY ro, const COLOR rc);
219	greg	2.12	extern void rayclear(RAY *r);
220	greg	2.26	extern void raytrace(RAY *r);
221	greg	2.14	extern void rayhit(OBJECT oset, RAY r);
222	greg	2.12	extern void raycont(RAY *r);
223			extern void raytrans(RAY *r);
224			extern int rayshade(RAY *r, int mod);
225			extern void rayparticipate(RAY *r);
226	greg	2.16	extern void raytexture(RAY *r, OBJECT mod);
227	greg	2.12	extern int raymixture(RAY *r, OBJECT fore, OBJECT back, double coef);
228	greg	2.36	extern void raycontrib(RREAL rc[3], const RAY *r, int flags);
229	greg	2.25	extern double raydist(const RAY *r, int flags);
230	greg	2.12	extern double raynormal(FVECT norm, RAY *r);
231			extern void newrayxf(RAY *r);
232			extern void flipsurface(RAY *r);
233			extern int localhit(RAY r, CUBE scene);
234			/* defined in renderopts.c */
235			extern int getrenderopt(int ac, char *av[]);
236			extern void print_rdefaults(void);
237			/* defined in srcdraw.c */
238			extern void drawsources(COLOR pic[], float zbf[],
239			int x0, int xsiz, int y0, int ysiz);
240	schorsch	2.22	extern void init_drawsources(int rad);
241			/* defined in rt/initotypes.c */
242			extern void initotypes(void);
243	greg	2.12	/* module main procedures */
244	greg	2.32	extern void rtrace(char *fname, int nproc);
245			extern char *formstr(int f);
246	greg	2.12	extern void rview(void);
247			extern void rpict(int seq, char pout, char zout, char *prvr);
248	greg	1.6
249	greg	2.34	#ifdef __FAST_MATH__
250	greg	2.37	#define checknorm(vn) (void)normalize(vn)
251	greg	2.34	#else
252	greg	2.37	#define checknorm(vn)
253	greg	2.34	#endif
254	schorsch	2.17
255			#ifdef __cplusplus
256			}
257	greg	2.12	#endif
258	schorsch	2.17	#endif /* _RAD_RAY_H_ */
259