/* * sdbm - ndbm work-alike hashed database library * based on Per-Aake Larson's Dynamic Hashing algorithms. BIT 18 (1978). * author: oz@nexus.yorku.ca * status: public domain. * * page-level routines */ #ifndef lint static char rcsid[] = "$Id: pair.c,v 1.10 90/12/13 13:00:35 oz Exp $"; #endif #include "config.h" #include "EXTERN.h" #include "sdbm.h" #include "tune.h" #include "pair.h" #define exhash(item) sdbm_hash((item).dptr, (item).dsize) /* * forward */ static int seepair proto((char *, int, char *, int)); /* * 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(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); debug(("free %d need %d\n", free, need)); return need <= free; } void putpair(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(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; } #ifdef SEEDUPS int duppair(char *pag, datum key) { register short *ino = (short *) pag; return ino[0] > 0 && seepair(pag, ino[0], key.dptr, key.dsize) > 0; } #endif datum getnkey(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(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; debug(("free-up %d ", zoo)); /* * 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 HAS_MEMMOVE dst -= m; src -= m; 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(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] && memEQ(key, pag + ino[i], siz)) return i; off = ino[i + 1]; } return 0; } void splpage(char *pag, char *New, long int 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; } debug(("%d split %d/%d\n", ((short *) cur)[0] / 2, ((short *) New)[0] / 2, ((short *) pag)[0] / 2)); } /* * 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(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; }