/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1985-2007 AT&T Knowledge Ventures * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Knowledge Ventures * * * * 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" /* Set a view path from dict to view. ** ** Written by Kiem-Phong Vo (5/25/96) */ #if __STD_C static Void_t* dtvsearch(Dt_t* dt, reg Void_t* obj, reg int type) #else static Void_t* dtvsearch(dt,obj,type) Dt_t* dt; reg Void_t* obj; reg int type; #endif { Dt_t *d, *p; Void_t *o, *n, *ok, *nk; int cmp, lk, sz, ky; Dtcompar_f cmpf; /* these operations only happen at the top level */ if(type&(DT_INSERT|DT_DELETE|DT_CLEAR|DT_RENEW)) return (*(dt->meth->searchf))(dt,obj,type); if((type&(DT_MATCH|DT_SEARCH)) || /* order sets first/last done below */ ((type&(DT_FIRST|DT_LAST)) && !(dt->meth->type&(DT_OBAG|DT_OSET)) ) ) { for(d = dt; d; d = d->view) if((o = (*(d->meth->searchf))(d,obj,type)) ) break; dt->walk = d; return o; } if(dt->meth->type & (DT_OBAG|DT_OSET) ) { if(!(type & (DT_FIRST|DT_LAST|DT_NEXT|DT_PREV)) ) return NIL(Void_t*); n = nk = NIL(Void_t*); p = NIL(Dt_t*); for(d = dt; d; d = d->view) { if(!(o = (*d->meth->searchf)(d, obj, type)) ) continue; _DTDSC(d->disc,ky,sz,lk,cmpf); ok = _DTKEY(o,ky,sz); if(n) /* get the right one among all dictionaries */ { cmp = _DTCMP(d,ok,nk,d->disc,cmpf,sz); if(((type & (DT_NEXT|DT_FIRST)) && cmp < 0) || ((type & (DT_PREV|DT_LAST)) && cmp > 0) ) goto a_dj; } else /* looks good for now */ { a_dj: p = d; n = o; nk = ok; } } dt->walk = p; return n; } /* non-ordered methods */ if(!(type & (DT_NEXT|DT_PREV)) ) return NIL(Void_t*); if(!dt->walk || obj != _DTOBJ(dt->walk->data->here, dt->walk->disc->link) ) { for(d = dt; d; d = d->view) if((o = (*(d->meth->searchf))(d, obj, DT_SEARCH)) ) break; dt->walk = d; if(!(obj = o) ) return NIL(Void_t*); } for(d = dt->walk, obj = (*d->meth->searchf)(d, obj, type);; ) { while(obj) /* keep moving until finding an uncovered object */ { for(p = dt; ; p = p->view) { if(p == d) /* adjacent object is uncovered */ return obj; if((*(p->meth->searchf))(p, obj, DT_SEARCH) ) break; } obj = (*d->meth->searchf)(d, obj, type); } if(!(d = dt->walk = d->view) ) /* move on to next dictionary */ return NIL(Void_t*); else if(type&DT_NEXT) obj = (*(d->meth->searchf))(d,NIL(Void_t*),DT_FIRST); else obj = (*(d->meth->searchf))(d,NIL(Void_t*),DT_LAST); } } #if __STD_C Dt_t* dtview(reg Dt_t* dt, reg Dt_t* view) #else Dt_t* dtview(dt,view) reg Dt_t* dt; reg Dt_t* view; #endif { reg Dt_t* d; UNFLATTEN(dt); if(view) { UNFLATTEN(view); if(view->meth != dt->meth) /* must use the same method */ return NIL(Dt_t*); } /* make sure there won't be a cycle */ for(d = view; d; d = d->view) if(d == dt) return NIL(Dt_t*); /* no more viewing lower dictionary */ if((d = dt->view) ) d->nview -= 1; dt->view = dt->walk = NIL(Dt_t*); if(!view) { dt->searchf = dt->meth->searchf; return d; } /* ok */ dt->view = view; dt->searchf = dtvsearch; view->nview += 1; return view; }