src/common/objset.c

/* Copyright (c) 1986 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
 *  objset.c - routines for maintaining object sets.
 *
 *      7/28/85
 */

#include  "standard.h"

#include  "octree.h"

#include  "object.h"

#ifndef  OSTSIZ
#ifdef  BIGMEM
#define  OSTSIZ         262139          /* object table size (a prime!) */
#else
#define  OSTSIZ         32749           /* object table size (a prime!) */
#endif
#endif

static OBJECT  *ostable[OSTSIZ];        /* the object set table */


insertelem(os, obj)             /* insert obj into os, no questions */
register OBJECT  *os;
OBJECT  obj;
{
        register int  i;
        
        for (i = os[0]++; i > 0; i--)
                if (os[i] > obj)
                        os[i+1] = os[i];
                else
                        break;
        os[i+1] = obj;
}


deletelem(os, obj)              /* delete obj from os, no questions */
register OBJECT  *os;
OBJECT  obj;
{
        register int  i;

        i = (*os)--;
        os++;
        while (i > 0 && *os < obj) {
                i--;
                os++;
        }
        while (--i > 0) {
                os[0] = os[1];
                os++;
        }
}


inset(os, obj)                  /* determine if object is in set */
register OBJECT  *os;
OBJECT  obj;
{
        int  upper, lower;
        register int  cm, i;

        if ((i = os[0]) <= 6) {         /* linear search algorithm */
                cm = obj;
                while (i-- > 0)
                        if (*++os == cm)
                                return(1);
                return(0);
        }
        lower = 1;
        upper = cm = i + 1;
                                        /* binary search algorithm */
        while ((i = (lower + upper) >> 1) != cm) {
                cm = obj - os[i];
                if (cm > 0)
                        lower = i;
                else if (cm < 0)
                        upper = i;
                else
                        return(1);
                cm = i;
        }
        return(0);
}


setequal(os1, os2)              /* determine if two sets are equal */
register OBJECT  *os1, *os2;
{
        register int  i;

        for (i = *os1; i-- >= 0; )
                if (*os1++ != *os2++)
                        return(0);
        return(1);
}


setcopy(os1, os2)               /* copy object set os2 into os1 */
register OBJECT  *os1, *os2;
{
        register int  i;

        for (i = *os2; i-- >= 0; )
                *os1++ = *os2++;
}


OBJECT *
setsave(os)                     /* allocate space and save set */
register OBJECT  *os;
{
        OBJECT  *osnew;
        register OBJECT  *oset;
        register int  i;

        if ((osnew = oset = (OBJECT *)malloc((*os+1)*sizeof(OBJECT))) == NULL)
                error(SYSTEM, "out of memory in setsave\n");
        for (i = *os; i-- >= 0; )       /* inline setcopy */
                *oset++ = *os++;
        return(osnew);
}


setunion(osr, os1, os2)         /* osr = os1 Union os2 */
register OBJECT  *osr, *os1, *os2;
{
        register int    i1, i2;

        osr[0] = 0;
        for (i1 = i2 = 1; i1 <= os1[0] || i2 <= os2[0]; ) {
                while (i1 <= os1[0] && (i2 > os2[0] || os1[i1] <= os2[i2])) {
                        osr[++osr[0]] = os1[i1];
                        if (i2 <= os2[0] && os2[i2] == os1[i1])
                                i2++;
                        i1++;
                }
                while (i2 <= os2[0] && (i1 > os1[0] || os2[i2] < os1[i1]))
                        osr[++osr[0]] = os2[i2++];
        }
}


setintersect(osr, os1, os2)     /* osr = os1 Intersect os2 */
register OBJECT  *osr, *os1, *os2;
{
        register int    i1, i2;

        osr[0] = 0;
        if (os1[0] <= 0)
                return;
        for (i1 = i2 = 1; i2 <= os2[0]; ) {
                while (os1[i1] < os2[i2])
                        if (++i1 > os1[0])
                                return;
                while (os2[i2] < os1[i1])
                        if (++i2 > os2[0])
                                return;
                if (os1[i1] == os2[i2])
                        osr[++osr[0]] = os2[i2++];
        }
}


OCTREE
fullnode(oset)                  /* return octree for object set */
OBJECT  *oset;
{
        int  osentry, ntries;
        long  hval;
        OCTREE  ot;
        register int  i;
        register OBJECT  *os;
                                        /* hash on set */
        hval = 0;
        os = oset;
        i = *os++;
        while (i-- > 0)
                hval += *os++;
        ntries = 0;
tryagain:
        osentry = (hval + (long)ntries*ntries) % OSTSIZ;
        os = ostable[osentry];
        if (os == NULL) {
                os = ostable[osentry] = (OBJECT *)malloc(
                                (unsigned)(oset[0]+2)*sizeof(OBJECT));
                if (os == NULL)
                        goto memerr;
                ot = oseti(osentry);
        } else {
                                                /* look for set */
                for (i = 0; *os > 0; i++, os += *os + 1)
                        if (setequal(os, oset))
                                break;
                ot = oseti(i*OSTSIZ + osentry);
                if (*os > 0)                    /* found it */
                        return(ot);
                if (!isfull(ot))                /* entry overflow */
                        if (++ntries < OSTSIZ)
                                goto tryagain;
                        else
                                error(INTERNAL, "hash table overflow in fullnode");
                                                /* remember position */
                i = os - ostable[osentry];
                os = ostable[osentry] = (OBJECT *)realloc(
                                (char *)ostable[osentry],
                                (unsigned)(i+oset[0]+2)*sizeof(OBJECT));
                if (os == NULL)
                        goto memerr;
                os += i;                        /* last entry */
        }
        setcopy(os, oset);              /* add new set */
        os += *os + 1;
        *os = 0;                        /* terminator */
        return(ot);
memerr:
        error(SYSTEM, "out of memory in fullnode");
}


objset(oset, ot)                /* get object set for full node */
register OBJECT  *oset;
OCTREE  ot;
{
        register OBJECT  *os;
        register int  i;

        if (!isfull(ot))
                goto noderr;
        ot = oseti(ot);
        if ((os = ostable[ot%OSTSIZ]) == NULL)
                goto noderr;
        for (i = ot/OSTSIZ; i--; os += *os + 1)
                if (*os <= 0)
                        goto noderr;
        for (i = *os; i-- >= 0; )               /* copy set here */
                *oset++ = *os++;
        return;
noderr:
        error(CONSISTENCY, "bad node in objset");
}


int
dosets(f)                               /* loop through all sets */
int     (*f)();
{
        int  res = 0;
        int  n;
        register OBJECT  *os;

        for (n = 0; n < OSTSIZ; n++) {
                if ((os = ostable[n]) == NULL)
                        continue;
                while (*os > 0) {
                        res += (*f)(os);
                        os += *os + 1;
                }
        }
        return(res);
}


donesets()                      /* free ALL SETS in our table */
{
        register int  n;

        for (n = 0; n < OSTSIZ; n++) 
                if (ostable[n] != NULL) {
                        free((char *)ostable[n]);
                        ostable[n] = NULL;
                }
}
Revision:	2.7
Committed:	Fri Sep 11 15:26:43 1998 UTC (25 years, 7 months ago) by gwlarson
Content type:	text/plain
Branch:	MAIN
Changes since 2.6:	+8 -1 lines
Log Message:	added linear search for small sets in inset()
#	User	Rev	Content
1	greg	1.1	/* Copyright (c) 1986 Regents of the University of California */
2
3			#ifndef lint
4			static char SCCSid[] = "$SunId$ LBL";
5			#endif
6
7			/*
8			* objset.c - routines for maintaining object sets.
9			*
10			* 7/28/85
11			*/
12
13			#include "standard.h"
14
15			#include "octree.h"
16
17			#include "object.h"
18
19	greg	1.4	#ifndef OSTSIZ
20	greg	1.8	#ifdef BIGMEM
21	gregl	2.5	#define OSTSIZ 262139 /* object table size (a prime!) */
22	greg	1.8	#else
23	gregl	2.5	#define OSTSIZ 32749 /* object table size (a prime!) */
24	greg	1.8	#endif
25	greg	1.4	#endif
26	greg	1.1
27			static OBJECT ostable[OSTSIZ]; / the object set table */
28
29
30			insertelem(os, obj) /* insert obj into os, no questions */
31			register OBJECT *os;
32			OBJECT obj;
33			{
34			register int i;
35
36			for (i = os[0]++; i > 0; i--)
37			if (os[i] > obj)
38			os[i+1] = os[i];
39			else
40			break;
41			os[i+1] = obj;
42			}
43
44
45			deletelem(os, obj) /* delete obj from os, no questions */
46			register OBJECT *os;
47			OBJECT obj;
48			{
49			register int i;
50
51	greg	1.6	i = (*os)--;
52			os++;
53			while (i > 0 && *os < obj) {
54			i--;
55			os++;
56			}
57	greg	1.1	while (--i > 0) {
58			os[0] = os[1];
59			os++;
60			}
61			}
62
63
64			inset(os, obj) /* determine if object is in set */
65			register OBJECT *os;
66			OBJECT obj;
67			{
68			int upper, lower;
69			register int cm, i;
70
71	gwlarson	2.7	if ((i = os[0]) <= 6) { /* linear search algorithm */
72			cm = obj;
73			while (i-- > 0)
74			if (*++os == cm)
75			return(1);
76			return(0);
77			}
78	greg	1.1	lower = 1;
79	gwlarson	2.7	upper = cm = i + 1;
80	greg	2.4	/* binary search algorithm */
81	greg	1.1	while ((i = (lower + upper) >> 1) != cm) {
82			cm = obj - os[i];
83			if (cm > 0)
84			lower = i;
85			else if (cm < 0)
86			upper = i;
87			else
88			return(1);
89			cm = i;
90			}
91			return(0);
92			}
93
94
95			setequal(os1, os2) /* determine if two sets are equal */
96			register OBJECT os1, os2;
97			{
98			register int i;
99
100			for (i = *os1; i-- >= 0; )
101			if (os1++ != os2++)
102			return(0);
103			return(1);
104			}
105
106
107			setcopy(os1, os2) /* copy object set os2 into os1 */
108			register OBJECT os1, os2;
109			{
110			register int i;
111
112			for (i = *os2; i-- >= 0; )
113			os1++ = os2++;
114			}
115
116
117	greg	2.4	OBJECT *
118			setsave(os) /* allocate space and save set */
119			register OBJECT *os;
120			{
121			OBJECT *osnew;
122			register OBJECT *oset;
123			register int i;
124
125			if ((osnew = oset = (OBJECT )malloc((os+1)*sizeof(OBJECT))) == NULL)
126			error(SYSTEM, "out of memory in setsave\n");
127			for (i = os; i-- >= 0; ) / inline setcopy */
128			oset++ = os++;
129			return(osnew);
130			}
131
132
133			setunion(osr, os1, os2) /* osr = os1 Union os2 */
134			register OBJECT osr, os1, *os2;
135			{
136			register int i1, i2;
137
138			osr[0] = 0;
139			for (i1 = i2 = 1; i1 <= os1[0] \|\| i2 <= os2[0]; ) {
140			while (i1 <= os1[0] && (i2 > os2[0] \|\| os1[i1] <= os2[i2])) {
141			osr[++osr[0]] = os1[i1];
142			if (i2 <= os2[0] && os2[i2] == os1[i1])
143			i2++;
144			i1++;
145			}
146			while (i2 <= os2[0] && (i1 > os1[0] \|\| os2[i2] < os1[i1]))
147			osr[++osr[0]] = os2[i2++];
148			}
149			}
150
151
152			setintersect(osr, os1, os2) /* osr = os1 Intersect os2 */
153			register OBJECT osr, os1, *os2;
154			{
155			register int i1, i2;
156
157			osr[0] = 0;
158			if (os1[0] <= 0)
159			return;
160			for (i1 = i2 = 1; i2 <= os2[0]; ) {
161			while (os1[i1] < os2[i2])
162			if (++i1 > os1[0])
163			return;
164			while (os2[i2] < os1[i1])
165			if (++i2 > os2[0])
166			return;
167			if (os1[i1] == os2[i2])
168			osr[++osr[0]] = os2[i2++];
169			}
170			}
171
172
173	greg	1.1	OCTREE
174			fullnode(oset) /* return octree for object set */
175			OBJECT *oset;
176			{
177			int osentry, ntries;
178			long hval;
179			OCTREE ot;
180			register int i;
181			register OBJECT *os;
182			/* hash on set */
183			hval = 0;
184			os = oset;
185			i = *os++;
186			while (i-- > 0)
187			hval += *os++;
188			ntries = 0;
189			tryagain:
190			osentry = (hval + (long)ntries*ntries) % OSTSIZ;
191			os = ostable[osentry];
192			if (os == NULL) {
193			os = ostable[osentry] = (OBJECT *)malloc(
194			(unsigned)(oset[0]+2)*sizeof(OBJECT));
195			if (os == NULL)
196			goto memerr;
197			ot = oseti(osentry);
198			} else {
199			/* look for set */
200			for (i = 0; os > 0; i++, os += os + 1)
201			if (setequal(os, oset))
202			break;
203			ot = oseti(i*OSTSIZ + osentry);
204			if (os > 0) / found it */
205			return(ot);
206			if (!isfull(ot)) /* entry overflow */
207			if (++ntries < OSTSIZ)
208			goto tryagain;
209			else
210			error(INTERNAL, "hash table overflow in fullnode");
211			/* remember position */
212			i = os - ostable[osentry];
213			os = ostable[osentry] = (OBJECT *)realloc(
214			(char *)ostable[osentry],
215			(unsigned)(i+oset[0]+2)*sizeof(OBJECT));
216			if (os == NULL)
217			goto memerr;
218			os += i; /* last entry */
219			}
220			setcopy(os, oset); /* add new set */
221			os += *os + 1;
222			os = 0; / terminator */
223			return(ot);
224			memerr:
225			error(SYSTEM, "out of memory in fullnode");
226			}
227
228
229			objset(oset, ot) /* get object set for full node */
230			register OBJECT *oset;
231			OCTREE ot;
232			{
233			register OBJECT *os;
234			register int i;
235
236			if (!isfull(ot))
237			goto noderr;
238	gwlarson	2.6	ot = oseti(ot);
239			if ((os = ostable[ot%OSTSIZ]) == NULL)
240	greg	1.1	goto noderr;
241	gwlarson	2.6	for (i = ot/OSTSIZ; i--; os += *os + 1)
242	greg	1.1	if (*os <= 0)
243			goto noderr;
244			for (i = os; i-- >= 0; ) / copy set here */
245			oset++ = os++;
246			return;
247			noderr:
248			error(CONSISTENCY, "bad node in objset");
249	greg	1.2	}
250
251
252	greg	2.4	int
253			dosets(f) /* loop through all sets */
254			int (*f)();
255	greg	1.2	{
256	greg	2.4	int res = 0;
257	greg	1.2	int n;
258			register OBJECT *os;
259	greg	1.3
260	greg	1.2	for (n = 0; n < OSTSIZ; n++) {
261			if ((os = ostable[n]) == NULL)
262			continue;
263	greg	2.4	while (*os > 0) {
264			res += (*f)(os);
265			os += *os + 1;
266			}
267	greg	1.2	}
268	greg	2.4	return(res);
269			}
270
271
272			donesets() /* free ALL SETS in our table */
273			{
274			register int n;
275
276			for (n = 0; n < OSTSIZ; n++)
277			if (ostable[n] != NULL) {
278			free((char *)ostable[n]);
279			ostable[n] = NULL;
280			}
281	greg	1.1	}