src/hd/sm_qtree.h

/* Copyright (c) 1998 Silicon Graphics, Inc. */

/* SCCSid "$SunId$ SGI" */

/*
 *  sm_qtree.h - header file for routines using spherical quadtrees.
 *
 *    adapted from octree.h 
 */

/*
 *      An quadtree is expressed as an integer which is either
 *      an index to 4 other nodes, the empty tree, or an index
 *      to a set of objects.  If the quadtree has a value:
 *
 *              > -1:   it is an index to four other nodes.
 *
 *              -1:     it is empty
 *
 *              < -1:   it is an index to a set of objects
 */
#include "object.h"
typedef struct _FUNC {
    int (*func)();
    int *argptr;
}FUNC;

#define F_FUNC(f) (f.func)
#define F_ARGS(f) (f.argptr)
#define  QUADTREE               int

#define  EMPTY          (-1)

#define  QT_IS_EMPTY(qt)        ((qt) == EMPTY)
#define  QT_IS_LEAF(qt)         ((qt) < EMPTY)
#define  QT_IS_TREE(qt)         ((qt) > EMPTY)

#define  QT_INDEX(qt)           (-(qt)-2)       /* quadtree node from set */
#define  QT_SET_INDEX(i)        (-((i)+2))      /* object set from node */
#define  QT_BLOCK_SIZE          1024            /* quadtrees in block */
#define  QT_BLOCK(qt)           ((qt)>>10)      /* quadtree block index */
#define  QT_BLOCK_INDEX(qt)   (((qt)&0x3ff)<<2) /* quadtree index in block */


#ifndef  QT_MAX_BLK
#ifdef  BIGMEM
#define  QT_MAX_BLK     16383           /* maximum quadtree block */
#else
#define  QT_MAX_BLK     2047            /* maximum quadtree block */
#endif
#endif


#define  QT_NTH_CHILD(qt,br) (quad_block[QT_BLOCK(qt)][QT_BLOCK_INDEX(qt)+br])
#define  QT_NTH_CHILD_PTR(qt,br) (&QT_NTH_CHILD(qt,br))
#define  QT_CLEAR_CHILDREN(qt) (QT_NTH_CHILD(qt,0)=QT_NTH_CHILD(qt,1)= \
                        QT_NTH_CHILD(qt,2)=QT_NTH_CHILD(qt,3)=EMPTY)


/* QUADTREE NODE FLAGS */
#define QT_IS_FLAG(qt)          IS_FLAG(quad_flag,qt)
#define QT_SET_FLAG(qt)         SET_FLAG(quad_flag,qt)
#define QT_CLR_FLAG(qt)         CLR_FLAG(quad_flag,qt)
#define QT_LEAF_IS_FLAG(qt)     IS_FLAG(qtsetflag,QT_INDEX(qt))
#define QT_LEAF_SET_FLAG(qt)    SET_FLAG(qtsetflag,QT_INDEX(qt))
#define QT_LEAF_CLR_FLAG(qt)    CLR_FLAG(qtsetflag,QT_INDEX(qt))

/* OBJECT SET CODE */
#define QT_SET_CNT(s)          ((s)[0])
#define QT_SET_NTH_ELEM(s,n)   ((s)[(n)])   

#define QT_CLEAR_SET(s)        ((s)[0] = 0)
#define QT_SET_NEXT_ELEM(p)    (*(p)++)
#define QT_SET_PTR(s)          (&((s)[1]))


#define QT_MAXSET        511
#define MAXCSET          2*QT_MAXSET
#define QT_MAXCSET       MAXCSET
#ifndef QT_SET_THRESHOLD
#define QT_SET_THRESHOLD 64  
#endif

#ifndef QT_MAX_LEVELS
#define QT_MAX_LEVELS     10
#endif

#define QT_FILL_THRESHOLD 2
#define QT_EXPAND   8
#define QT_COMPRESS 16
#define QT_DONE 32
#define QT_MODIFIED 64

#define QT_FLAG_FILL_TRI(f)  (((f)&0x7) == QT_FILL_THRESHOLD)
#define QT_FLAG_UPDATE(f)    ((f)& (QT_EXPAND | QT_COMPRESS))
#define QT_FLAG_IS_DONE(f)   ((f)& QT_DONE)
#define QT_FLAG_SET_DONE(f)   ((f) |= QT_DONE)
#define QT_FLAG_IS_MODIFIED(f)   ((f)& QT_MODIFIED)
#define QT_FLAG_SET_MODIFIED(f)   ((f) |= QT_MODIFIED)

#define qtSubdivide(qt) (qt = qtAlloc(),QT_CLEAR_CHILDREN(qt))
#define qtSubdivide_tri(v0,v1,v2,a,b,c) (EDGE_MIDPOINT(a,v1,v2), \
                                         EDGE_MIDPOINT(b,v2,v0), \
                                         EDGE_MIDPOINT(c,v0,v1))
 
extern QUADTREE  qtnewleaf(), qtaddelem(), qtdelelem();

extern QUADTREE  *quad_block[QT_MAX_BLK];       /* quadtree blocks */
extern int4  *quad_flag;                        /* zeroeth quadtree flag */

extern OBJECT   **qtsettab;             /* quadtree leaf node table */
extern QUADTREE  qtnumsets;             /* number of used set indices */
extern int4   *qtsetflag;
#ifdef DEBUG
extern OBJECT   *qtqueryset();
#else
#define qtqueryset(qt)  (qtsettab[QT_SET_INDEX(qt)])
#endif

#define qtinset(qt,id)  inset(qtqueryset(qt),id)
#define qtgetset(os,qt) setcopy(os,qtqueryset(qt))


#define SIDES_GTR(b0,b1,b2,s0,s1,s2,a,b,c) \
    (s0 = ((b0[0] > a?4:0) | (b1[0] > a?2:0) | (b2[0] > a?1:0)), \
     s1 = ((b0[1] > b?4:0) | (b1[1] > b?2:0) | (b2[1] > b?1:0)), \
     s2 = ((b0[2] > c?4:0) | (b1[2] > c?2:0) | (b2[2] > c?1:0)))

#define SIDES_LESS(b0,b1,b2,s0,s1,s2,a,b,c) \
    (s0 = ((b0[0] < a?4:0) | (b1[0] < a?2:0) | (b2[0] < a?1:0)), \
     s1 = ((b0[1] < b?4:0) | (b1[1] < b?2:0) | (b2[1] < b?1:0)), \
     s2 = ((b0[2] < c?4:0) | (b1[2] < c?2:0) | (b2[2] < c?1:0)))

/* 
QUADTREE qtRoot_point_locate(qt,q0,q1,q2,peq,pt,r0,r1,r2)
   QUADTREE qt;
   FVECT q0,q1,q2;
   FPEQ peq;
   FVECT pt;
   FVECT r0,r1,r2;

   Return the quadtree node containing pt. It is assumed that pt is in
   the root node qt with ws vertices q0,q1,q2 and plane equation peq.
   If r0 != NULL will return coordinates of node in (r0,r1,r2). 
*/

extern QUADTREE qtRoot_point_locate();
extern QUADTREE qtRoot_add_tri();
extern QUADTREE qtRoot_remove_tri();
extern QUADTREE qtAdd_tri();
extern QUADTREE qtRoot_visit_tri_edges();
extern QUADTREE qtRoot_trace_ray();
Revision:	3.11
Committed:	Sun Jan 10 10:27:44 1999 UTC (25 years, 3 months ago) by gwlarson
Content type:	text/plain
Branch:	MAIN
Changes since 3.10:	+0 -0 lines
Log Message:	sm.c, sm_del.c sm_ogl.c sm.h Fixed failure to tone-map on start up added code for temporary buffer allocation added bg flag, and fast flag checking routines for drawing provided graceful backout if deletion triangulation fails
#	Content
1	/* Copyright (c) 1998 Silicon Graphics, Inc. */
2
3	/* SCCSid "$SunId$ SGI" */
4
5	/*
6	* sm_qtree.h - header file for routines using spherical quadtrees.
7	*
8	* adapted from octree.h
9	*/
10
11	/*
12	* An quadtree is expressed as an integer which is either
13	* an index to 4 other nodes, the empty tree, or an index
14	* to a set of objects. If the quadtree has a value:
15	*
16	* > -1: it is an index to four other nodes.
17	*
18	* -1: it is empty
19	*
20	* < -1: it is an index to a set of objects
21	*/
22	#include "object.h"
23	typedef struct _FUNC {
24	int (*func)();
25	int *argptr;
26	}FUNC;
27
28	#define F_FUNC(f) (f.func)
29	#define F_ARGS(f) (f.argptr)
30	#define QUADTREE int
31
32	#define EMPTY (-1)
33
34	#define QT_IS_EMPTY(qt) ((qt) == EMPTY)
35	#define QT_IS_LEAF(qt) ((qt) < EMPTY)
36	#define QT_IS_TREE(qt) ((qt) > EMPTY)
37
38	#define QT_INDEX(qt) (-(qt)-2) /* quadtree node from set */
39	#define QT_SET_INDEX(i) (-((i)+2)) /* object set from node */
40	#define QT_BLOCK_SIZE 1024 /* quadtrees in block */
41	#define QT_BLOCK(qt) ((qt)>>10) /* quadtree block index */
42	#define QT_BLOCK_INDEX(qt) (((qt)&0x3ff)<<2) /* quadtree index in block */
43
44
45	#ifndef QT_MAX_BLK
46	#ifdef BIGMEM
47	#define QT_MAX_BLK 16383 /* maximum quadtree block */
48	#else
49	#define QT_MAX_BLK 2047 /* maximum quadtree block */
50	#endif
51	#endif
52
53
54	#define QT_NTH_CHILD(qt,br) (quad_block[QT_BLOCK(qt)][QT_BLOCK_INDEX(qt)+br])
55	#define QT_NTH_CHILD_PTR(qt,br) (&QT_NTH_CHILD(qt,br))
56	#define QT_CLEAR_CHILDREN(qt) (QT_NTH_CHILD(qt,0)=QT_NTH_CHILD(qt,1)= \
57	QT_NTH_CHILD(qt,2)=QT_NTH_CHILD(qt,3)=EMPTY)
58
59
60	/* QUADTREE NODE FLAGS */
61	#define QT_IS_FLAG(qt) IS_FLAG(quad_flag,qt)
62	#define QT_SET_FLAG(qt) SET_FLAG(quad_flag,qt)
63	#define QT_CLR_FLAG(qt) CLR_FLAG(quad_flag,qt)
64	#define QT_LEAF_IS_FLAG(qt) IS_FLAG(qtsetflag,QT_INDEX(qt))
65	#define QT_LEAF_SET_FLAG(qt) SET_FLAG(qtsetflag,QT_INDEX(qt))
66	#define QT_LEAF_CLR_FLAG(qt) CLR_FLAG(qtsetflag,QT_INDEX(qt))
67
68	/* OBJECT SET CODE */
69	#define QT_SET_CNT(s) ((s)[0])
70	#define QT_SET_NTH_ELEM(s,n) ((s)[(n)])
71
72	#define QT_CLEAR_SET(s) ((s)[0] = 0)
73	#define QT_SET_NEXT_ELEM(p) (*(p)++)
74	#define QT_SET_PTR(s) (&((s)[1]))
75
76
77	#define QT_MAXSET 511
78	#define MAXCSET 2*QT_MAXSET
79	#define QT_MAXCSET MAXCSET
80	#ifndef QT_SET_THRESHOLD
81	#define QT_SET_THRESHOLD 64
82	#endif
83
84	#ifndef QT_MAX_LEVELS
85	#define QT_MAX_LEVELS 10
86	#endif
87
88	#define QT_FILL_THRESHOLD 2
89	#define QT_EXPAND 8
90	#define QT_COMPRESS 16
91	#define QT_DONE 32
92	#define QT_MODIFIED 64
93
94	#define QT_FLAG_FILL_TRI(f) (((f)&0x7) == QT_FILL_THRESHOLD)
95	#define QT_FLAG_UPDATE(f) ((f)& (QT_EXPAND \| QT_COMPRESS))
96	#define QT_FLAG_IS_DONE(f) ((f)& QT_DONE)
97	#define QT_FLAG_SET_DONE(f) ((f) \|= QT_DONE)
98	#define QT_FLAG_IS_MODIFIED(f) ((f)& QT_MODIFIED)
99	#define QT_FLAG_SET_MODIFIED(f) ((f) \|= QT_MODIFIED)
100
101	#define qtSubdivide(qt) (qt = qtAlloc(),QT_CLEAR_CHILDREN(qt))
102	#define qtSubdivide_tri(v0,v1,v2,a,b,c) (EDGE_MIDPOINT(a,v1,v2), \
103	EDGE_MIDPOINT(b,v2,v0), \
104	EDGE_MIDPOINT(c,v0,v1))
105
106	extern QUADTREE qtnewleaf(), qtaddelem(), qtdelelem();
107
108	extern QUADTREE quad_block[QT_MAX_BLK]; / quadtree blocks */
109	extern int4 quad_flag; / zeroeth quadtree flag */
110
111	extern OBJECT *qtsettab; / quadtree leaf node table */
112	extern QUADTREE qtnumsets; /* number of used set indices */
113	extern int4 *qtsetflag;
114	#ifdef DEBUG
115	extern OBJECT *qtqueryset();
116	#else
117	#define qtqueryset(qt) (qtsettab[QT_SET_INDEX(qt)])
118	#endif
119
120	#define qtinset(qt,id) inset(qtqueryset(qt),id)
121	#define qtgetset(os,qt) setcopy(os,qtqueryset(qt))
122
123
124	#define SIDES_GTR(b0,b1,b2,s0,s1,s2,a,b,c) \
125	(s0 = ((b0[0] > a?4:0) \| (b1[0] > a?2:0) \| (b2[0] > a?1:0)), \
126	s1 = ((b0[1] > b?4:0) \| (b1[1] > b?2:0) \| (b2[1] > b?1:0)), \
127	s2 = ((b0[2] > c?4:0) \| (b1[2] > c?2:0) \| (b2[2] > c?1:0)))
128
129	#define SIDES_LESS(b0,b1,b2,s0,s1,s2,a,b,c) \
130	(s0 = ((b0[0] < a?4:0) \| (b1[0] < a?2:0) \| (b2[0] < a?1:0)), \
131	s1 = ((b0[1] < b?4:0) \| (b1[1] < b?2:0) \| (b2[1] < b?1:0)), \
132	s2 = ((b0[2] < c?4:0) \| (b1[2] < c?2:0) \| (b2[2] < c?1:0)))
133
134	/*
135	QUADTREE qtRoot_point_locate(qt,q0,q1,q2,peq,pt,r0,r1,r2)
136	QUADTREE qt;
137	FVECT q0,q1,q2;
138	FPEQ peq;
139	FVECT pt;
140	FVECT r0,r1,r2;
141
142	Return the quadtree node containing pt. It is assumed that pt is in
143	the root node qt with ws vertices q0,q1,q2 and plane equation peq.
144	If r0 != NULL will return coordinates of node in (r0,r1,r2).
145	*/
146
147	extern QUADTREE qtRoot_point_locate();
148	extern QUADTREE qtRoot_add_tri();
149	extern QUADTREE qtRoot_remove_tri();
150	extern QUADTREE qtAdd_tri();
151	extern QUADTREE qtRoot_visit_tri_edges();
152	extern QUADTREE qtRoot_trace_ray();