src/hd/holo.h

/* RCSid: $Id: holo.h,v 3.27 2010/09/30 15:43:30 greg Exp $ */
/*
 * Header file for holodeck programs
 *
 *      9/29/97 GWLarson
 */
#ifndef _RAD_HOLO_H_
#define _RAD_HOLO_H_

#include "standard.h"
#include "color.h"

#ifdef __cplusplus
extern "C" {
#endif

#ifndef HDMAX
#define HDMAX           128     /* maximum active holodeck sections */
#endif

#ifndef MAXDIRSE
#define MAXDIRSE        32      /* maximum seeks per directory write */
#endif

#define DCINF   (unsigned)((1L<<16)-1)  /* special value for infinity */
#define DCLIN   (unsigned)(1L<<11)      /* linear depth limit */

typedef struct {
        uby8    r[2][2];        /* ray direction index */
        COLR    v;              /* color value */
        uint16  d;              /* depth code (from entry wall) */
} RAYVAL;               /* ray value */

/*
 * Walls are ordered:           X0      X1      X2      WN
 *                              0       ?       ?       0
 *                              1       ?       ?       1
 *                              ?       0       ?       2
 *                              ?       1       ?       3
 *                              ?       ?       0       4
 *                              ?       ?       1       5
 *
 * Grid on wall WN corresponds to X(WN/2+1)%3 and X(WN/2+2)%3, resp.
 */

typedef struct {
        short   w;              /* wall number */
        short   i[2];           /* index on wall grid */
} GCOORD;               /* grid coordinates (two for beam) */

typedef struct {
        uint32  nrd;            /* number of beam rays bundled on disk */
        off_t   fo;             /* position in file */
} BEAMI;                /* beam index */

typedef struct {
        uint32  nrm;            /* number of beam rays bundled in memory */
        uint32  tick;           /* clock tick for LRU replacement */
} BEAM;                 /* followed by nrm RAYVAL's */

#define hdbray(bp)      ((RAYVAL *)((bp)+1))
#define hdbsiz(nr)      (sizeof(BEAM)+(nr)*sizeof(RAYVAL))

typedef struct {
        FVECT   orig;           /* prism origin (first) */
        FVECT   xv[3];          /* side vectors (second) */
        int16   grid[3];        /* grid resolution (third) */
} HDGRID;               /* holodeck section grid (must match HOLO struct) */

typedef struct holo {
        FVECT   orig;           /* prism origin (first) */
        FVECT   xv[3];          /* side vectors (second) */
        int16   grid[3];        /* grid resolution (third) */
        int     fd;             /* file descriptor */
        struct {
                int     s, n;           /* dirty section start, length */
        } dirseg[MAXDIRSE+1];   /* dirty beam index segments */
        short   dirty;          /* number of dirty segments */
        double  tlin;           /* linear range for depth encoding */
        FVECT   wg[3];          /* wall grid vectors (derived) */
        int     wi[6];          /* wall super-indices (derived) */
        char    *priv;          /* pointer to private client data */
        BEAM    **bl;           /* beam pointers (memory cache) */
        BEAMI   bi[1];          /* beam index (extends struct) */
} HOLO;                 /* holodeck section */

typedef struct {
        HOLO    *h;             /* pointer to holodeck */
        int     b;              /* beam index */
} HDBEAMI;              /* holodeck beam index */

#define nbeams(hp)      (((hp)->wi[5]-1)<<1)
#define biglob(hp)      ((hp)->bi)
#define blglob(hp)      (*(hp)->bl)

#define bnrays(hp,i)    ((hp)->bl[i]!=NULL ? (hp)->bl[i]->nrm : (hp)->bi[i].nrd)

#define hdflush(hp)     (hdfreebeam(hp,0), hdsync(hp,0))
#define hdclobber(hp)   (hdkillbeam(hp,0), hdsync(hp,0))

/*
extern HOLO     *hdinit(), *hdalloc();
extern BEAM     *hdgetbeam();
extern RAYVAL   *hdnewrays();
extern unsigned hdmemuse();
extern off_t    hdfiluse(), hdfilen(), hdallocfrag();
extern double   hdray(), hdinter();
extern unsigned hdcode();
extern int      hdfilord();
*/

#define FF_NEVER        0               /* never free fragments */
#define FF_WRITE        01              /* free fragment on write */
#define FF_ALLOC        02              /* free fragment on ray alloc */
#define FF_READ         04              /* free fragment on read */
#define FF_KILL         010             /* free fragment on beam kill */

extern int      hdfragflags;            /* tells when to free fragments */
extern unsigned hdcachesize;            /* target cache size (bytes) */
extern unsigned long    hdclock;        /* holodeck system clock */
extern HOLO     *hdlist[HDMAX+1];       /* holodeck pointers (NULL term.) */

extern float    hd_depthmap[];          /* depth conversion map */

extern int      hdwg0[6];               /* wall grid 0 index */
extern int      hdwg1[6];               /* wall grid 1 index */

#define hddepth(hp,dc)  ( (dc) >= DCINF ? FHUGE : \
                                (hp)->tlin * ( (dc) >= DCLIN ? \
                                        hd_depthmap[(dc)-DCLIN] : \
                                        ((dc)+.5)/DCLIN ) )

#define HOLOFMT         "Holodeck"      /* file format identifier */
#define HOLOVERS        0               /* file format version number */
#define HOLOMAGIC       (324+sizeof(BEAMI)+16*HOLOVERS) /* file magic number */

/*
 * A holodeck file consists of an information header terminated by a
 * blank line, with "FORMAT=Holodeck" somewhere in it.
 * The first integer after the information header is the
 * above magic number, which includes the file format version number.
 * The first longword (off_t) after the magic number is a pointer to the
 * pointer just before the SECOND holodeck section, or 0 if there is only one.
 * This longword is immediately followed by the first holodeck
 * section header and directory.
 * Similarly, every holodeck section in the file is preceeded by
 * a pointer to the following section, or 0 for the final section.
 * Since holodeck files consist of directly written C data structures, 
 * they are not generally portable between different machine architectures.
 * In particular, different floating point formats or bit/byte ordering
 * will make the data unusable.  This is unfortunate, and may be changed
 * in future versions, but we thought this would be best for paging speed
 * in our initial implementation.
 */

        /* clumpbeams.c */
extern void clumpbeams(HOLO *hp, int maxcnt, int maxsiz,
int (*cf)(HOLO *hp, int *bqueue, int bqlen));
        /* holo.c */
extern void hdcompgrid(HOLO *hp);
extern int hdbcoord(GCOORD gc[2], HOLO *hp, int i);
extern int hdbindex(HOLO *hp, GCOORD gc[2]);
extern void hdcell(FVECT cp[4], HOLO *hp, GCOORD *gc);
extern int hdlseg(int   lseg[2][3], HOLO        *hp, GCOORD     gc[2]);
extern unsigned int hdcode(HOLO *hp, double d);
extern void hdgrid( FVECT gp, HOLO *hp, FVECT wp);
extern void hdworld(FVECT wp, HOLO *hp, FVECT gp);
extern double hdray(FVECT ro, FVECT rd, HOLO *hp, GCOORD gc[2], uby8 r[2][2]);
extern double hdinter(GCOORD gc[2], uby8 r[2][2], double *ed, HOLO *hp,
                FVECT ro, FVECT rd);
        /* holofile.c */
extern HOLO * hdinit(int fd, HDGRID *hproto);
extern void hddone(HOLO *hp);
extern int hdsync(HOLO *hp, int all);
extern off_t hdfilen(int fd);
extern off_t hdfiluse(int fd);
extern RAYVAL * hdnewrays(HOLO *hp, int i, int nr);
extern BEAM * hdgetbeam(HOLO *hp, int i);
extern void hdloadbeams(HDBEAMI *hb, int n, void (*bf)(BEAM *bp, HDBEAMI *hb));
extern int hdfreebeam(HOLO *hp, int i);
extern int hdfreefrag(HOLO *hp, int i);
extern int hdfragOK(int fd, int *listlen, int32 *listsiz);
extern int hdkillbeam(HOLO *hp, int i);


#ifdef __cplusplus
}
#endif
#endif /* _RAD_HOLO_H_ */

Revision:	3.28
Committed:	Fri May 20 02:06:39 2011 UTC (14 years, 5 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad5R0, rad5R1, rad4R2, rad4R1, rad4R2P1, rad4R2P2
Changes since 3.27:	+4 -4 lines
Log Message:	Changed every instance of BYTE to uby8 to avoid conflicts
#	Content
1	/* RCSid: $Id: holo.h,v 3.27 2010/09/30 15:43:30 greg Exp $ */
2	/*
3	* Header file for holodeck programs
4	*
5	* 9/29/97 GWLarson
6	*/
7	#ifndef _RAD_HOLO_H_
8	#define _RAD_HOLO_H_
9
10	#include "standard.h"
11	#include "color.h"
12
13	#ifdef __cplusplus
14	extern "C" {
15	#endif
16
17	#ifndef HDMAX
18	#define HDMAX 128 /* maximum active holodeck sections */
19	#endif
20
21	#ifndef MAXDIRSE
22	#define MAXDIRSE 32 /* maximum seeks per directory write */
23	#endif
24
25	#define DCINF (unsigned)((1L<<16)-1) /* special value for infinity */
26	#define DCLIN (unsigned)(1L<<11) /* linear depth limit */
27
28	typedef struct {
29	uby8 r[2][2]; /* ray direction index */
30	COLR v; /* color value */
31	uint16 d; /* depth code (from entry wall) */
32	} RAYVAL; /* ray value */
33
34	/*
35	* Walls are ordered: X0 X1 X2 WN
36	* 0 ? ? 0
37	* 1 ? ? 1
38	* ? 0 ? 2
39	* ? 1 ? 3
40	* ? ? 0 4
41	* ? ? 1 5
42	*
43	* Grid on wall WN corresponds to X(WN/2+1)%3 and X(WN/2+2)%3, resp.
44	*/
45
46	typedef struct {
47	short w; /* wall number */
48	short i[2]; /* index on wall grid */
49	} GCOORD; /* grid coordinates (two for beam) */
50
51	typedef struct {
52	uint32 nrd; /* number of beam rays bundled on disk */
53	off_t fo; /* position in file */
54	} BEAMI; /* beam index */
55
56	typedef struct {
57	uint32 nrm; /* number of beam rays bundled in memory */
58	uint32 tick; /* clock tick for LRU replacement */
59	} BEAM; /* followed by nrm RAYVAL's */
60
61	#define hdbray(bp) ((RAYVAL *)((bp)+1))
62	#define hdbsiz(nr) (sizeof(BEAM)+(nr)*sizeof(RAYVAL))
63
64	typedef struct {
65	FVECT orig; /* prism origin (first) */
66	FVECT xv[3]; /* side vectors (second) */
67	int16 grid[3]; /* grid resolution (third) */
68	} HDGRID; /* holodeck section grid (must match HOLO struct) */
69
70	typedef struct holo {
71	FVECT orig; /* prism origin (first) */
72	FVECT xv[3]; /* side vectors (second) */
73	int16 grid[3]; /* grid resolution (third) */
74	int fd; /* file descriptor */
75	struct {
76	int s, n; /* dirty section start, length */
77	} dirseg[MAXDIRSE+1]; /* dirty beam index segments */
78	short dirty; /* number of dirty segments */
79	double tlin; /* linear range for depth encoding */
80	FVECT wg[3]; /* wall grid vectors (derived) */
81	int wi[6]; /* wall super-indices (derived) */
82	char priv; / pointer to private client data */
83	BEAM *bl; / beam pointers (memory cache) */
84	BEAMI bi[1]; /* beam index (extends struct) */
85	} HOLO; /* holodeck section */
86
87	typedef struct {
88	HOLO h; / pointer to holodeck */
89	int b; /* beam index */
90	} HDBEAMI; /* holodeck beam index */
91
92	#define nbeams(hp) (((hp)->wi[5]-1)<<1)
93	#define biglob(hp) ((hp)->bi)
94	#define blglob(hp) (*(hp)->bl)
95
96	#define bnrays(hp,i) ((hp)->bl[i]!=NULL ? (hp)->bl[i]->nrm : (hp)->bi[i].nrd)
97
98	#define hdflush(hp) (hdfreebeam(hp,0), hdsync(hp,0))
99	#define hdclobber(hp) (hdkillbeam(hp,0), hdsync(hp,0))
100
101	/*
102	extern HOLO hdinit(), hdalloc();
103	extern BEAM *hdgetbeam();
104	extern RAYVAL *hdnewrays();
105	extern unsigned hdmemuse();
106	extern off_t hdfiluse(), hdfilen(), hdallocfrag();
107	extern double hdray(), hdinter();
108	extern unsigned hdcode();
109	extern int hdfilord();
110	*/
111
112	#define FF_NEVER 0 /* never free fragments */
113	#define FF_WRITE 01 /* free fragment on write */
114	#define FF_ALLOC 02 /* free fragment on ray alloc */
115	#define FF_READ 04 /* free fragment on read */
116	#define FF_KILL 010 /* free fragment on beam kill */
117
118	extern int hdfragflags; /* tells when to free fragments */
119	extern unsigned hdcachesize; /* target cache size (bytes) */
120	extern unsigned long hdclock; /* holodeck system clock */
121	extern HOLO hdlist[HDMAX+1]; / holodeck pointers (NULL term.) */
122
123	extern float hd_depthmap[]; /* depth conversion map */
124
125	extern int hdwg0[6]; /* wall grid 0 index */
126	extern int hdwg1[6]; /* wall grid 1 index */
127
128	#define hddepth(hp,dc) ( (dc) >= DCINF ? FHUGE : \
129	(hp)->tlin * ( (dc) >= DCLIN ? \
130	hd_depthmap[(dc)-DCLIN] : \
131	((dc)+.5)/DCLIN ) )
132
133	#define HOLOFMT "Holodeck" /* file format identifier */
134	#define HOLOVERS 0 /* file format version number */
135	#define HOLOMAGIC (324+sizeof(BEAMI)+16HOLOVERS) / file magic number */
136
137	/*
138	* A holodeck file consists of an information header terminated by a
139	* blank line, with "FORMAT=Holodeck" somewhere in it.
140	* The first integer after the information header is the
141	* above magic number, which includes the file format version number.
142	* The first longword (off_t) after the magic number is a pointer to the
143	* pointer just before the SECOND holodeck section, or 0 if there is only one.
144	* This longword is immediately followed by the first holodeck
145	* section header and directory.
146	* Similarly, every holodeck section in the file is preceeded by
147	* a pointer to the following section, or 0 for the final section.
148	* Since holodeck files consist of directly written C data structures,
149	* they are not generally portable between different machine architectures.
150	* In particular, different floating point formats or bit/byte ordering
151	* will make the data unusable. This is unfortunate, and may be changed
152	* in future versions, but we thought this would be best for paging speed
153	* in our initial implementation.
154	*/
155
156	/* clumpbeams.c */
157	extern void clumpbeams(HOLO *hp, int maxcnt, int maxsiz,
158	int (cf)(HOLO hp, int *bqueue, int bqlen));
159	/* holo.c */
160	extern void hdcompgrid(HOLO *hp);
161	extern int hdbcoord(GCOORD gc[2], HOLO *hp, int i);
162	extern int hdbindex(HOLO *hp, GCOORD gc[2]);
163	extern void hdcell(FVECT cp[4], HOLO hp, GCOORD gc);
164	extern int hdlseg(int lseg[2][3], HOLO *hp, GCOORD gc[2]);
165	extern unsigned int hdcode(HOLO *hp, double d);
166	extern void hdgrid( FVECT gp, HOLO *hp, FVECT wp);
167	extern void hdworld(FVECT wp, HOLO *hp, FVECT gp);
168	extern double hdray(FVECT ro, FVECT rd, HOLO *hp, GCOORD gc[2], uby8 r[2][2]);
169	extern double hdinter(GCOORD gc[2], uby8 r[2][2], double ed, HOLO hp,
170	FVECT ro, FVECT rd);
171	/* holofile.c */
172	extern HOLO * hdinit(int fd, HDGRID *hproto);
173	extern void hddone(HOLO *hp);
174	extern int hdsync(HOLO *hp, int all);
175	extern off_t hdfilen(int fd);
176	extern off_t hdfiluse(int fd);
177	extern RAYVAL * hdnewrays(HOLO *hp, int i, int nr);
178	extern BEAM * hdgetbeam(HOLO *hp, int i);
179	extern void hdloadbeams(HDBEAMI hb, int n, void (bf)(BEAM bp, HDBEAMI hb));
180	extern int hdfreebeam(HOLO *hp, int i);
181	extern int hdfreefrag(HOLO *hp, int i);
182	extern int hdfragOK(int fd, int listlen, int32 listsiz);
183	extern int hdkillbeam(HOLO *hp, int i);
184
185
186	#ifdef __cplusplus
187	}
188	#endif
189	#endif /* _RAD_HOLO_H_ */
190