qse/qse/lib/cmn/htb.c

751 lines
16 KiB
C

/*
* $Id$
*
Copyright (c) 2006-2019 Chung, Hyung-Hwan. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
THIS SOFTWARE IS PROVIDED BY THE AUTHOR "AS IS" AND ANY EXPRESS OR
IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <qse/cmn/htb.h>
#include <qse/hash.h>
#include "mem-prv.h"
#define htb_t qse_htb_t
#define pair_t qse_htb_pair_t
#define copier_t qse_htb_copier_t
#define freeer_t qse_htb_freeer_t
#define hasher_t qse_htb_hasher_t
#define comper_t qse_htb_comper_t
#define keeper_t qse_htb_keeper_t
#define sizer_t qse_htb_sizer_t
#define walker_t qse_htb_walker_t
#define cbserter_t qse_htb_cbserter_t
#define style_t qse_htb_style_t
#define style_kind_t qse_htb_style_kind_t
#define KPTR(p) QSE_HTB_KPTR(p)
#define KLEN(p) QSE_HTB_KLEN(p)
#define VPTR(p) QSE_HTB_VPTR(p)
#define VLEN(p) QSE_HTB_VLEN(p)
#define NEXT(p) QSE_HTB_NEXT(p)
#define SIZEOF(x) QSE_SIZEOF(x)
#define size_t qse_size_t
#define byte_t qse_byte_t
#define mmgr_t qse_mmgr_t
#define KTOB(htb,len) ((len)*(htb)->scale[QSE_HTB_KEY])
#define VTOB(htb,len) ((len)*(htb)->scale[QSE_HTB_VAL])
QSE_INLINE pair_t* qse_htb_allocpair (
htb_t* htb, void* kptr, size_t klen, void* vptr, size_t vlen)
{
pair_t* n;
copier_t kcop, vcop;
size_t as;
kcop = htb->style->copier[QSE_HTB_KEY];
vcop = htb->style->copier[QSE_HTB_VAL];
as = SIZEOF(pair_t);
if (kcop == QSE_HTB_COPIER_INLINE) as += QSE_ALIGNTO_POW2(KTOB(htb,klen), QSE_SIZEOF_VOID_P);
if (vcop == QSE_HTB_COPIER_INLINE) as += VTOB(htb,vlen);
n = (pair_t*) QSE_MMGR_ALLOC (htb->mmgr, as);
if (n == QSE_NULL) return QSE_NULL;
NEXT(n) = QSE_NULL;
KLEN(n) = klen;
if (kcop == QSE_HTB_COPIER_SIMPLE)
{
KPTR(n) = kptr;
}
else if (kcop == QSE_HTB_COPIER_INLINE)
{
KPTR(n) = n + 1;
/* if kptr is QSE_NULL, the inline copier does not fill
* the actual key area */
if (kptr) QSE_MEMCPY (KPTR(n), kptr, KTOB(htb,klen));
}
else
{
KPTR(n) = kcop (htb, kptr, klen);
if (KPTR(n) == QSE_NULL)
{
QSE_MMGR_FREE (htb->mmgr, n);
return QSE_NULL;
}
}
VLEN(n) = vlen;
if (vcop == QSE_HTB_COPIER_SIMPLE)
{
VPTR(n) = vptr;
}
else if (vcop == QSE_HTB_COPIER_INLINE)
{
VPTR(n) = n + 1;
if (kcop == QSE_HTB_COPIER_INLINE)
VPTR(n) = (byte_t*)VPTR(n) + QSE_ALIGNTO_POW2(KTOB(htb,klen), QSE_SIZEOF_VOID_P);
/* if vptr is QSE_NULL, the inline copier does not fill
* the actual value area */
if (vptr) QSE_MEMCPY (VPTR(n), vptr, VTOB(htb,vlen));
}
else
{
VPTR(n) = vcop (htb, vptr, vlen);
if (VPTR(n) != QSE_NULL)
{
if (htb->style->freeer[QSE_HTB_KEY] != QSE_NULL)
htb->style->freeer[QSE_HTB_KEY] (htb, KPTR(n), KLEN(n));
QSE_MMGR_FREE (htb->mmgr, n);
return QSE_NULL;
}
}
return n;
}
QSE_INLINE void qse_htb_freepair (htb_t* htb, pair_t* pair)
{
if (htb->style->freeer[QSE_HTB_KEY] != QSE_NULL)
htb->style->freeer[QSE_HTB_KEY] (htb, KPTR(pair), KLEN(pair));
if (htb->style->freeer[QSE_HTB_VAL] != QSE_NULL)
htb->style->freeer[QSE_HTB_VAL] (htb, VPTR(pair), VLEN(pair));
QSE_MMGR_FREE (htb->mmgr, pair);
}
static QSE_INLINE pair_t* change_pair_val (
htb_t* htb, pair_t* pair, void* vptr, size_t vlen)
{
if (VPTR(pair) == vptr && VLEN(pair) == vlen)
{
/* if the old value and the new value are the same,
* it just calls the handler for this condition.
* No value replacement occurs. */
if (htb->style->keeper != QSE_NULL)
{
htb->style->keeper (htb, vptr, vlen);
}
}
else
{
copier_t vcop = htb->style->copier[QSE_HTB_VAL];
void* ovptr = VPTR(pair);
size_t ovlen = VLEN(pair);
/* place the new value according to the copier */
if (vcop == QSE_HTB_COPIER_SIMPLE)
{
VPTR(pair) = vptr;
VLEN(pair) = vlen;
}
else if (vcop == QSE_HTB_COPIER_INLINE)
{
if (ovlen == vlen)
{
if (vptr) QSE_MEMCPY (VPTR(pair), vptr, VTOB(htb,vlen));
}
else
{
/* need to reconstruct the pair */
pair_t* p = qse_htb_allocpair (htb,
KPTR(pair), KLEN(pair),
vptr, vlen);
if (p == QSE_NULL) return QSE_NULL;
qse_htb_freepair (htb, pair);
return p;
}
}
else
{
void* nvptr = vcop (htb, vptr, vlen);
if (nvptr == QSE_NULL) return QSE_NULL;
VPTR(pair) = nvptr;
VLEN(pair) = vlen;
}
/* free up the old value */
if (htb->style->freeer[QSE_HTB_VAL] != QSE_NULL)
{
htb->style->freeer[QSE_HTB_VAL] (htb, ovptr, ovlen);
}
}
return pair;
}
static style_t style[] =
{
/* == QSE_HTB_STYLE_DEFAULT == */
{
{
QSE_HTB_COPIER_DEFAULT,
QSE_HTB_COPIER_DEFAULT
},
{
QSE_HTB_FREEER_DEFAULT,
QSE_HTB_FREEER_DEFAULT
},
QSE_HTB_COMPER_DEFAULT,
QSE_HTB_KEEPER_DEFAULT,
QSE_HTB_SIZER_DEFAULT,
QSE_HTB_HASHER_DEFAULT
},
/* == QSE_HTB_STYLE_INLINE_COPIERS == */
{
{
QSE_HTB_COPIER_INLINE,
QSE_HTB_COPIER_INLINE
},
{
QSE_HTB_FREEER_DEFAULT,
QSE_HTB_FREEER_DEFAULT
},
QSE_HTB_COMPER_DEFAULT,
QSE_HTB_KEEPER_DEFAULT,
QSE_HTB_SIZER_DEFAULT,
QSE_HTB_HASHER_DEFAULT
},
/* == QSE_HTB_STYLE_INLINE_KEY_COPIER == */
{
{
QSE_HTB_COPIER_INLINE,
QSE_HTB_COPIER_DEFAULT
},
{
QSE_HTB_FREEER_DEFAULT,
QSE_HTB_FREEER_DEFAULT
},
QSE_HTB_COMPER_DEFAULT,
QSE_HTB_KEEPER_DEFAULT,
QSE_HTB_SIZER_DEFAULT,
QSE_HTB_HASHER_DEFAULT
},
/* == QSE_HTB_STYLE_INLINE_VALUE_COPIER == */
{
{
QSE_HTB_COPIER_DEFAULT,
QSE_HTB_COPIER_INLINE
},
{
QSE_HTB_FREEER_DEFAULT,
QSE_HTB_FREEER_DEFAULT
},
QSE_HTB_COMPER_DEFAULT,
QSE_HTB_KEEPER_DEFAULT,
QSE_HTB_SIZER_DEFAULT,
QSE_HTB_HASHER_DEFAULT
}
};
const style_t* qse_gethtbstyle (style_kind_t kind)
{
return &style[kind];
}
htb_t* qse_htb_open (
mmgr_t* mmgr, size_t xtnsize, size_t capa,
int factor, int kscale, int vscale)
{
htb_t* htb;
htb = (htb_t*) QSE_MMGR_ALLOC (mmgr, SIZEOF(htb_t) + xtnsize);
if (htb == QSE_NULL) return QSE_NULL;
if (qse_htb_init(htb, mmgr, capa, factor, kscale, vscale) <= -1)
{
QSE_MMGR_FREE (mmgr, htb);
return QSE_NULL;
}
QSE_MEMSET (QSE_XTN(htb), 0, xtnsize);
return htb;
}
void qse_htb_close (htb_t* htb)
{
qse_htb_fini (htb);
QSE_MMGR_FREE (htb->mmgr, htb);
}
int qse_htb_init (
htb_t* htb, mmgr_t* mmgr, size_t capa,
int factor, int kscale, int vscale)
{
QSE_ASSERTX (capa > 0,
"The initial capacity should be greater than 0. Otherwise, it is adjusted to 1 in the release mode");
QSE_ASSERTX (factor >= 0 && factor <= 100,
"The load factor should be between 0 and 100 inclusive. In the release mode, a value out of the range is adjusted to 100");
QSE_ASSERT (kscale >= 0 && kscale <= QSE_TYPE_MAX(qse_byte_t));
QSE_ASSERT (vscale >= 0 && vscale <= QSE_TYPE_MAX(qse_byte_t));
/* some initial adjustment */
if (capa <= 0) capa = 1;
if (factor > 100) factor = 100;
/* do not zero out the extension */
QSE_MEMSET (htb, 0, SIZEOF(*htb));
htb->mmgr = mmgr;
htb->bucket = QSE_MMGR_ALLOC(mmgr, capa * SIZEOF(pair_t*));
if (htb->bucket == QSE_NULL) return -1;
/*for (i = 0; i < capa; i++) htb->bucket[i] = QSE_NULL;*/
QSE_MEMSET (htb->bucket, 0, capa * SIZEOF(pair_t*));
htb->factor = factor;
htb->scale[QSE_HTB_KEY] = (kscale < 1)? 1: kscale;
htb->scale[QSE_HTB_VAL] = (vscale < 1)? 1: vscale;
htb->size = 0;
htb->capa = capa;
htb->threshold = htb->capa * htb->factor / 100;
if (htb->capa > 0 && htb->threshold <= 0) htb->threshold = 1;
htb->style = &style[0];
return 0;
}
void qse_htb_fini (htb_t* htb)
{
qse_htb_clear (htb);
QSE_MMGR_FREE (htb->mmgr, htb->bucket);
}
qse_mmgr_t* qse_htb_getmmgr (qse_htb_t* htb)
{
return htb->mmgr;
}
void* qse_htb_getxtn (qse_htb_t* htb)
{
return QSE_XTN (htb);
}
const style_t* qse_htb_getstyle (const htb_t* htb)
{
return htb->style;
}
void qse_htb_setstyle (htb_t* htb, const style_t* style)
{
QSE_ASSERT (style != QSE_NULL);
htb->style = style;
}
size_t qse_htb_getsize (const htb_t* htb)
{
return htb->size;
}
size_t qse_htb_getcapa (const htb_t* htb)
{
return htb->capa;
}
pair_t* qse_htb_search (const htb_t* htb, const void* kptr, size_t klen)
{
pair_t* pair;
size_t hc;
hc = htb->style->hasher(htb,kptr,klen) % htb->capa;
pair = htb->bucket[hc];
while (pair != QSE_NULL)
{
if (htb->style->comper (htb, KPTR(pair), KLEN(pair), kptr, klen) == 0)
{
return pair;
}
pair = NEXT(pair);
}
return QSE_NULL;
}
static QSE_INLINE_ALWAYS int reorganize (htb_t* htb)
{
size_t i, hc, new_capa;
pair_t** new_buck;
if (htb->style->sizer)
{
new_capa = htb->style->sizer (htb, htb->capa + 1);
/* if no change in capacity, return success
* without reorganization */
if (new_capa == htb->capa) return 0;
/* adjust to 1 if the new capacity is not reasonable */
if (new_capa <= 0) new_capa = 1;
}
else
{
/* the bucket is doubled until it grows up to 65536 slots.
* once it has reached it, it grows by 65536 slots */
new_capa = (htb->capa >= 65536)? (htb->capa + 65536): (htb->capa << 1);
}
new_buck = (pair_t**) QSE_MMGR_ALLOC (
htb->mmgr, new_capa*SIZEOF(pair_t*));
if (new_buck == QSE_NULL)
{
/* reorganization is disabled once it fails */
htb->threshold = 0;
return -1;
}
/*for (i = 0; i < new_capa; i++) new_buck[i] = QSE_NULL;*/
QSE_MEMSET (new_buck, 0, new_capa*SIZEOF(pair_t*));
for (i = 0; i < htb->capa; i++)
{
pair_t* pair = htb->bucket[i];
while (pair != QSE_NULL)
{
pair_t* next = NEXT(pair);
hc = htb->style->hasher (htb,
KPTR(pair),
KLEN(pair)) % new_capa;
NEXT(pair) = new_buck[hc];
new_buck[hc] = pair;
pair = next;
}
}
QSE_MMGR_FREE (htb->mmgr, htb->bucket);
htb->bucket = new_buck;
htb->capa = new_capa;
htb->threshold = htb->capa * htb->factor / 100;
return 0;
}
/* insert options */
#define UPSERT 1
#define UPDATE 2
#define ENSERT 3
#define INSERT 4
static pair_t* insert (
htb_t* htb, void* kptr, size_t klen, void* vptr, size_t vlen, int opt)
{
pair_t* pair, * p, * prev, * next;
size_t hc;
hc = htb->style->hasher(htb,kptr,klen) % htb->capa;
pair = htb->bucket[hc];
prev = QSE_NULL;
while (pair != QSE_NULL)
{
next = NEXT(pair);
if (htb->style->comper (htb, KPTR(pair), KLEN(pair), kptr, klen) == 0)
{
/* found a pair with a matching key */
switch (opt)
{
case UPSERT:
case UPDATE:
p = change_pair_val (htb, pair, vptr, vlen);
if (p == QSE_NULL)
{
/* error in changing the value */
return QSE_NULL;
}
if (p != pair)
{
/* old pair destroyed. new pair reallocated.
* relink to include the new pair but to drop
* the old pair. */
if (prev == QSE_NULL)
htb->bucket[hc] = p;
else NEXT(prev) = p;
NEXT(p) = next;
}
return p;
case ENSERT:
/* return existing pair */
return pair;
case INSERT:
/* return failure */
return QSE_NULL;
}
}
prev = pair;
pair = next;
}
if (opt == UPDATE) return QSE_NULL;
if (htb->threshold > 0 && htb->size >= htb->threshold)
{
/* ingore reorganization error as it simply means
* more bucket collision and performance penalty. */
if (reorganize(htb) == 0)
{
hc = htb->style->hasher(htb,kptr,klen) % htb->capa;
}
}
QSE_ASSERT (pair == QSE_NULL);
pair = qse_htb_allocpair (htb, kptr, klen, vptr, vlen);
if (pair == QSE_NULL) return QSE_NULL; /* error */
NEXT(pair) = htb->bucket[hc];
htb->bucket[hc] = pair;
htb->size++;
return pair; /* new key added */
}
pair_t* qse_htb_upsert (
htb_t* htb, void* kptr, size_t klen, void* vptr, size_t vlen)
{
return insert (htb, kptr, klen, vptr, vlen, UPSERT);
}
pair_t* qse_htb_ensert (
htb_t* htb, void* kptr, size_t klen, void* vptr, size_t vlen)
{
return insert (htb, kptr, klen, vptr, vlen, ENSERT);
}
pair_t* qse_htb_insert (
htb_t* htb, void* kptr, size_t klen, void* vptr, size_t vlen)
{
return insert (htb, kptr, klen, vptr, vlen, INSERT);
}
pair_t* qse_htb_update (
htb_t* htb, void* kptr, size_t klen, void* vptr, size_t vlen)
{
return insert (htb, kptr, klen, vptr, vlen, UPDATE);
}
pair_t* qse_htb_cbsert (
htb_t* htb, void* kptr, size_t klen, cbserter_t cbserter, void* ctx)
{
pair_t* pair, * p, * prev, * next;
size_t hc;
hc = htb->style->hasher(htb,kptr,klen) % htb->capa;
pair = htb->bucket[hc];
prev = QSE_NULL;
while (pair != QSE_NULL)
{
next = NEXT(pair);
if (htb->style->comper (htb, KPTR(pair), KLEN(pair), kptr, klen) == 0)
{
/* found a pair with a matching key */
p = cbserter (htb, pair, kptr, klen, ctx);
if (p == QSE_NULL)
{
/* error returned by the callback function */
return QSE_NULL;
}
if (p != pair)
{
/* old pair destroyed. new pair reallocated.
* relink to include the new pair but to drop
* the old pair. */
if (prev == QSE_NULL)
htb->bucket[hc] = p;
else NEXT(prev) = p;
NEXT(p) = next;
}
return p;
}
prev = pair;
pair = next;
}
if (htb->threshold > 0 && htb->size >= htb->threshold)
{
/* ingore reorganization error as it simply means
* more bucket collision and performance penalty. */
if (reorganize(htb) == 0)
{
hc = htb->style->hasher(htb,kptr,klen) % htb->capa;
}
}
QSE_ASSERT (pair == QSE_NULL);
pair = cbserter (htb, QSE_NULL, kptr, klen, ctx);
if (pair == QSE_NULL) return QSE_NULL; /* error */
NEXT(pair) = htb->bucket[hc];
htb->bucket[hc] = pair;
htb->size++;
return pair; /* new key added */
}
int qse_htb_delete (htb_t* htb, const void* kptr, size_t klen)
{
pair_t* pair, * prev;
size_t hc;
hc = htb->style->hasher(htb,kptr,klen) % htb->capa;
pair = htb->bucket[hc];
prev = QSE_NULL;
while (pair != QSE_NULL)
{
if (htb->style->comper (htb, KPTR(pair), KLEN(pair), kptr, klen) == 0)
{
if (prev == QSE_NULL)
htb->bucket[hc] = NEXT(pair);
else NEXT(prev) = NEXT(pair);
qse_htb_freepair (htb, pair);
htb->size--;
return 0;
}
prev = pair;
pair = NEXT(pair);
}
return -1;
}
void qse_htb_clear (htb_t* htb)
{
size_t i;
pair_t* pair, * next;
for (i = 0; i < htb->capa; i++)
{
pair = htb->bucket[i];
while (pair != QSE_NULL)
{
next = NEXT(pair);
qse_htb_freepair (htb, pair);
htb->size--;
pair = next;
}
htb->bucket[i] = QSE_NULL;
}
}
void qse_htb_walk (htb_t* htb, walker_t walker, void* ctx)
{
size_t i;
pair_t* pair, * next;
for (i = 0; i < htb->capa; i++)
{
pair = htb->bucket[i];
while (pair != QSE_NULL)
{
next = NEXT(pair);
if (walker(htb, pair, ctx) == QSE_HTB_WALK_STOP) return;
pair = next;
}
}
}
pair_t* qse_htb_getfirstpair (htb_t* htb, size_t* buckno)
{
size_t i;
pair_t* pair;
for (i = 0; i < htb->capa; i++)
{
pair = htb->bucket[i];
if (pair != QSE_NULL)
{
*buckno = i;
return pair;
}
}
return QSE_NULL;
}
pair_t* qse_htb_getnextpair (htb_t* htb, pair_t* pair, size_t* buckno)
{
size_t i;
pair_t* next;
next = NEXT(pair);
if (next != QSE_NULL)
{
/* no change in bucket number */
return next;
}
for (i = (*buckno)+1; i < htb->capa; i++)
{
pair = htb->bucket[i];
if (pair != QSE_NULL)
{
*buckno = i;
return pair;
}
}
return QSE_NULL;
}
size_t qse_htb_dflhash (const htb_t* htb, const void* kptr, size_t klen)
{
size_t h;
QSE_HASH_BYTES (h, kptr, klen);
return h ;
}
int qse_htb_dflcomp (const htb_t* htb, const void* kptr1, size_t klen1, const void* kptr2, size_t klen2)
{
if (klen1 == klen2) return QSE_MEMCMP (kptr1, kptr2, KTOB(htb,klen1));
/* it just returns 1 to indicate that they are different. */
return 1;
}