/*
* sdbm - ndbm work-alike hashed database library
* based on Per-Ake Larson's Dynamic Hashing algorithms. BIT 18 (1978).
* author: oz@nexus.yorku.ca
*/
#ifndef lint
static char rcsid[] = "@(#)Id: pair.c,v 1.8 89/09/06 15:34:50 oz Exp Locker: oz ";
#endif
#include "sdbm.h"
#include "port.h"
#include "pair.h"
#include <memory.h>
#define exhash(item) dbm_hash((item).dptr, (item).dsize)
/*
* forward
*/
static int seepair proto((char *, int, char *, int));
/*
* routines dealing with a data page
*
* page format:
* +------------------------------+
* ino | n | keyoff | datoff | keyoff |
* +------------+--------+--------+
* | datoff | - - - ----> |
* +--------+---------------------+
* | F R E E A R E A |
* +--------------+---------------+
* | <---- - - - | data |
* +--------+-----+----+----------+
* | key | data | key |
* +--------+----------+----------+
*
* calculating the offsets for free area: if the number
* of entries (ino[0]) is zero, the offset to the END of
* the free area is the block size. Otherwise, it is the
* nth (ino[ino[0]]) entry's offset.
*/
int
fitpair(pag, need)
char *pag;
int need;
{
register int n;
register int off;
register int free;
register short *ino = (short *) pag;
off = ((n = ino[0]) > 0) ? ino[n] : PBLKSIZ;
free = off - (n + 1) * sizeof(short);
need += 2 * sizeof(short);
#ifdef DEBUGP
printf("free %d need %d\n", free, need);
#endif
return (need <= free);
}
void
putpair(pag, key, val)
char *pag;
datum key;
datum val;
{
register int n;
register int off;
register short *ino = (short *) pag;
off = ((n = ino[0]) > 0) ? ino[n] : PBLKSIZ;
/*
* enter the key first
*/
off -= key.dsize;
(void) memcpy(pag + off, key.dptr, key.dsize);
ino[n + 1] = off;
/*
* now the data
*/
off -= val.dsize;
(void) memcpy(pag + off, val.dptr, val.dsize);
ino[n + 2] = off;
/*
* adjust item count
*/
ino[0] += 2;
}
datum
getpair(pag, key)
char *pag;
datum key;
{
register int i;
register int n;
datum val;
register short *ino = (short *) pag;
if ((n = ino[0]) == 0)
return (nullitem);
if ((i = seepair(pag, n, key.dptr, key.dsize)) == 0)
return (nullitem);
val.dptr = pag + ino[i + 1];
val.dsize = ino[i] - ino[i + 1];
return (val);
}
int
duppair(pag, key)
char *pag;
datum key;
{
register short *ino = (short *) pag;
return (ino[0] > 0 && seepair(pag, ino[0], key.dptr, key.dsize) > 0);
}
datum
getnkey(pag, num)
char *pag;
int num;
{
datum key;
register int off;
register short *ino = (short *) pag;
num = num * 2 - 1;
if (ino[0] == 0 || num > ino[0])
return (nullitem);
off = (num > 1) ? ino[num - 1] : PBLKSIZ;
key.dptr = pag + ino[num];
key.dsize = off - ino[num];
return (key);
}
int
delpair(pag, key)
char *pag;
datum key;
{
register int n;
register int i;
register short *ino = (short *) pag;
if ((n = ino[0]) == 0)
return (0);
if ((i = seepair(pag, n, key.dptr, key.dsize)) == 0)
return (0);
/*
* found the key. if it is the last entry
* [i.e. i == n - 1] we just adjust the entry count.
* hard case: move all data down onto the deleted pair,
* shift offsets onto deleted offsets, and adjust them.
* [note: 0 < i < n]
*/
if (i < n - 1) {
register int m;
register char *dst = pag + (i == 1 ? PBLKSIZ : ino[i - 1]);
register char *src = pag + ino[i + 1];
register int zoo = dst - src;
#ifdef DEBUG
printf("free-up %d ", zoo);
#endif
/*
* shift data/keys down
*/
m = ino[i + 1] - ino[n];
#ifdef DUFF
#define MOVB *--dst = *--src
if (m > 0) {
register int loop = (m + 8 - 1) >> 3;
switch (m & (8 - 1)) {
case 0: do {
MOVB; case 7: MOVB;
case 6: MOVB; case 5: MOVB;
case 4: MOVB; case 3: MOVB;
case 2: MOVB; case 1: MOVB;
} while (--loop);
}
}
#else
#ifdef MEMMOVE
memmove(dst, src, m);
#else
while (m--)
*--dst = *--src;
#endif
#endif
/*
* adjust offset index up
*/
while (i < n - 1) {
ino[i] = ino[i + 2] + zoo;
i++;
}
}
ino[0] -= 2;
return (1);
}
/*
* search for the key in the page.
* return offset index in the range 0 < i < n.
* return 0 if not found.
*/
static int
seepair(pag, n, key, siz)
char *pag;
register int n;
register char *key;
register int siz;
{
register int i;
register int off = PBLKSIZ;
register short *ino = (short *) pag;
for (i = 1; i < n; i += 2) {
if (siz == off - ino[i] &&
memcmp(key, pag + ino[i], siz) == 0)
return (i);
off = ino[i + 1];
}
return (0);
}
void
splpage(pag, new, sbit)
char *pag;
char *new;
long sbit;
{
datum key;
datum val;
register int n;
register int off = PBLKSIZ;
char cur[PBLKSIZ];
register short *ino = (short *) cur;
(void) memcpy(cur, pag, PBLKSIZ);
(void) memset(pag, 0, PBLKSIZ);
(void) memset(new, 0, PBLKSIZ);
n = ino[0];
for (ino++; n > 0; ino += 2) {
key.dptr = cur + ino[0];
key.dsize = off - ino[0];
val.dptr = cur + ino[1];
val.dsize = ino[0] - ino[1];
/*
* select the page pointer (by looking at sbit) and insert
*/
(void) putpair((exhash(key) & sbit) ? new : pag, key, val);
off = ino[1];
n -= 2;
}
#ifdef DEBUG
printf("%d split %d/%d\n", ((short *) cur)[0] / 2,
((short *) new)[0] / 2,
((short *) pag)[0] / 2);
#endif
}
/*
* check page sanity:
* number of entries should be something
* reasonable, and all offsets in the index should be in order.
* this could be made more rigorous.
*/
int
chkpage(pag)
char *pag;
{
register int n;
register int off;
register short *ino = (short *) pag;
if ((n = ino[0]) < 0 || n > PBLKSIZ / sizeof(short))
return (0);
if (n > 0) {
off = PBLKSIZ;
for (ino++; n > 0; ino += 2) {
if (ino[0] > off || ino[1] > off ||
ino[1] > ino[0])
return (0);
off = ino[1];
n -= 2;
}
}
return (1);
}