/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1985-2009 AT&T Intellectual Property * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Intellectual Property * * * * A copy of the License is available at * * http://www.opensource.org/licenses/cpl1.0.txt * * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * * * * Information and Software Systems Research * * AT&T Research * * Florham Park NJ * * * * Glenn Fowler * * David Korn * * Phong Vo * * * ***********************************************************************/ #include "dthdr.h" /* Hash table. ** dt: dictionary ** obj: what to look for ** type: type of search ** ** Written by Kiem-Phong Vo (05/25/96) */ /* resize the hash table */ #if __STD_C static void dthtab(Dt_t* dt) #else static void dthtab(dt) Dt_t* dt; #endif { reg Dtlink_t *t, *r, *p, **s, **hs, **is, **olds; int n, k; if(dt->data->minp > 0 && dt->data->ntab > 0) /* fixed table size */ return; dt->data->minp = 0; n = dt->data->ntab; if(dt->disc && dt->disc->eventf && (*dt->disc->eventf)(dt, DT_HASHSIZE, &n, dt->disc) > 0 ) { if(n < 0) /* fix table size */ { dt->data->minp = 1; if(dt->data->ntab > 0 ) return; } else /* set a particular size */ { for(k = 2; k < n; k *= 2) ; n = k; } } else n = 0; /* compute new table size */ if(n <= 0) { if((n = dt->data->ntab) == 0) n = HSLOT; while(dt->data->size > HLOAD(n)) n = HRESIZE(n); } if(n == dt->data->ntab) return; /* allocate new table */ olds = dt->data->ntab == 0 ? NIL(Dtlink_t**) : dt->data->htab; if(!(s = (Dtlink_t**)(*dt->memoryf)(dt,olds,n*sizeof(Dtlink_t*),dt->disc)) ) return; olds = s + dt->data->ntab; dt->data->htab = s; dt->data->ntab = n; /* rehash elements */ for(hs = s+n-1; hs >= olds; --hs) *hs = NIL(Dtlink_t*); for(hs = s; hs < olds; ++hs) { for(p = NIL(Dtlink_t*), t = *hs; t; t = r) { r = t->right; if((is = s + HINDEX(n,t->hash)) == hs) p = t; else /* move to a new chain */ { if(p) p->right = r; else *hs = r; t->right = *is; *is = t; } } } } #if __STD_C static Void_t* dthash(Dt_t* dt, reg Void_t* obj, int type) #else static Void_t* dthash(dt,obj,type) Dt_t* dt; reg Void_t* obj; int type; #endif { reg Dtlink_t *t, *r, *p; reg Void_t *k, *key; reg uint hsh; reg int lk, sz, ky; reg Dtcompar_f cmpf; reg Dtdisc_t* disc; reg Dtlink_t **s, **ends; UNFLATTEN(dt); /* initialize discipline data */ disc = dt->disc; _DTDSC(disc,ky,sz,lk,cmpf); dt->type &= ~DT_FOUND; if(!obj) { if(type&(DT_NEXT|DT_PREV)) goto end_walk; if(dt->data->size <= 0 || !(type&(DT_CLEAR|DT_FIRST|DT_LAST)) ) return NIL(Void_t*); ends = (s = dt->data->htab) + dt->data->ntab; if(type&DT_CLEAR) { /* clean out all objects */ for(; s < ends; ++s) { t = *s; *s = NIL(Dtlink_t*); if(!disc->freef && disc->link >= 0) continue; while(t) { r = t->right; if(disc->freef) (*disc->freef)(dt,_DTOBJ(t,lk),disc); if(disc->link < 0) (*dt->memoryf)(dt,(Void_t*)t,0,disc); t = r; } } dt->data->here = NIL(Dtlink_t*); dt->data->size = 0; dt->data->loop = 0; return NIL(Void_t*); } else /* computing the first/last object */ { t = NIL(Dtlink_t*); while(s < ends && !t ) t = (type&DT_LAST) ? *--ends : *s++; if(t && (type&DT_LAST)) for(; t->right; t = t->right) ; dt->data->loop += 1; dt->data->here = t; return t ? _DTOBJ(t,lk) : NIL(Void_t*); } } /* allow apps to delete an object "actually" in the dictionary */ if(dt->meth->type == DT_BAG && (type&(DT_DELETE|DT_DETACH)) ) { if(!dtsearch(dt,obj) ) return NIL(Void_t*); s = dt->data->htab + HINDEX(dt->data->ntab,dt->data->here->hash); r = NIL(Dtlink_t*); for(p = NIL(Dtlink_t*), t = *s; t; p = t, t = t->right) { if(_DTOBJ(t,lk) == obj) /* delete this specific object */ goto do_delete; if(t == dt->data->here) r = p; } /* delete some matching object */ p = r; t = dt->data->here; goto do_delete; } if(type&(DT_MATCH|DT_SEARCH|DT_INSERT|DT_ATTACH) ) { key = (type&DT_MATCH) ? obj : _DTKEY(obj,ky,sz); hsh = _DTHSH(dt,key,disc,sz); goto do_search; } else if(type&(DT_RENEW|DT_VSEARCH) ) { r = (Dtlink_t*)obj; obj = _DTOBJ(r,lk); key = _DTKEY(obj,ky,sz); hsh = r->hash; goto do_search; } else /*if(type&(DT_DELETE|DT_DETACH|DT_NEXT|DT_PREV))*/ { if((t = dt->data->here) && _DTOBJ(t,lk) == obj) { hsh = t->hash; s = dt->data->htab + HINDEX(dt->data->ntab,hsh); p = NIL(Dtlink_t*); } else { key = _DTKEY(obj,ky,sz); hsh = _DTHSH(dt,key,disc,sz); do_search: t = dt->data->ntab <= 0 ? NIL(Dtlink_t*) : *(s = dt->data->htab + HINDEX(dt->data->ntab,hsh)); for(p = NIL(Dtlink_t*); t; p = t, t = t->right) { if(hsh == t->hash) { k = _DTOBJ(t,lk); k = _DTKEY(k,ky,sz); if(_DTCMP(dt,key,k,disc,cmpf,sz) == 0) break; } } } } if(t) /* found matching object */ dt->type |= DT_FOUND; if(type&(DT_MATCH|DT_SEARCH|DT_VSEARCH)) { if(!t) return NIL(Void_t*); if(p && (dt->data->type&DT_SET) && dt->data->loop <= 0) { /* move-to-front heuristic */ p->right = t->right; t->right = *s; *s = t; } dt->data->here = t; return _DTOBJ(t,lk); } else if(type&(DT_INSERT|DT_ATTACH)) { if(t && (dt->data->type&DT_SET) ) { dt->data->here = t; return _DTOBJ(t,lk); } if(disc->makef && (type&DT_INSERT) && !(obj = (*disc->makef)(dt,obj,disc)) ) return NIL(Void_t*); if(lk >= 0) r = _DTLNK(obj,lk); else { r = (Dtlink_t*)(*dt->memoryf) (dt,NIL(Void_t*),sizeof(Dthold_t),disc); if(r) ((Dthold_t*)r)->obj = obj; else { if(disc->makef && disc->freef && (type&DT_INSERT)) (*disc->freef)(dt,obj,disc); return NIL(Void_t*); } } r->hash = hsh; /* insert object */ do_insert: if((dt->data->size += 1) > HLOAD(dt->data->ntab) && dt->data->loop <= 0 ) dthtab(dt); if(dt->data->ntab == 0) { dt->data->size -= 1; if(disc->freef && (type&DT_INSERT)) (*disc->freef)(dt,obj,disc); if(disc->link < 0) (*disc->memoryf)(dt,(Void_t*)r,0,disc); return NIL(Void_t*); } s = dt->data->htab + HINDEX(dt->data->ntab,hsh); if(t) { r->right = t->right; t->right = r; } else { r->right = *s; *s = r; } dt->data->here = r; return obj; } else if(type&DT_NEXT) { if(t && !(p = t->right) ) { for(ends = dt->data->htab+dt->data->ntab, s += 1; s < ends; ++s) if((p = *s) ) break; } goto done_adj; } else if(type&DT_PREV) { if(t && !p) { if((p = *s) != t) { while(p->right != t) p = p->right; } else { p = NIL(Dtlink_t*); for(s -= 1, ends = dt->data->htab; s >= ends; --s) { if((p = *s) ) { while(p->right) p = p->right; break; } } } } done_adj: if(!(dt->data->here = p) ) { end_walk: if((dt->data->loop -= 1) < 0) dt->data->loop = 0; if(dt->data->size > HLOAD(dt->data->ntab) && dt->data->loop <= 0) dthtab(dt); return NIL(Void_t*); } else { dt->data->type |= DT_WALK; return _DTOBJ(p,lk); } } else if(type&DT_RENEW) { if(!t || (dt->data->type&DT_BAG) ) goto do_insert; else { if(disc->freef) (*disc->freef)(dt,obj,disc); if(disc->link < 0) (*dt->memoryf)(dt,(Void_t*)r,0,disc); return t ? _DTOBJ(t,lk) : NIL(Void_t*); } } else /*if(type&(DT_DELETE|DT_DETACH))*/ { /* take an element out of the dictionary */ do_delete: if(!t) return NIL(Void_t*); else if(p) p->right = t->right; else if((p = *s) == t) p = *s = t->right; else { while(p->right != t) p = p->right; p->right = t->right; } obj = _DTOBJ(t,lk); dt->data->size -= 1; dt->data->here = p; if(disc->freef && (type&DT_DELETE)) (*disc->freef)(dt,obj,disc); if(disc->link < 0) (*dt->memoryf)(dt,(Void_t*)t,0,disc); return obj; } } static Dtmethod_t _Dtset = { dthash, DT_SET }; static Dtmethod_t _Dtbag = { dthash, DT_BAG }; __DEFINE__(Dtmethod_t*,Dtset,&_Dtset); __DEFINE__(Dtmethod_t*,Dtbag,&_Dtbag); #ifndef KPVDEL /* for backward compatibility - remove next time */ Dtmethod_t _Dthash = { dthash, DT_SET }; __DEFINE__(Dtmethod_t*,Dthash,&_Dthash); #endif #ifdef NoF NoF(dthash) #endif