/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: attvar.c * * Last rev: * * mods: * * comments: YAP support for attributed vars * * * *************************************************************************/ #ifdef SCCS static char SccsId[]="%W% %G%"; #endif #include "Yap.h" #ifdef COROUTINING #include "Yatom.h" #include "Heap.h" #include "heapgc.h" #include "attvar.h" #ifndef NULL #define NULL (void *)0 #endif STATIC_PROTO(Term InitVarTime, (void)); STATIC_PROTO(Int PutAtt, (attvar_record *,Int,Term)); STATIC_PROTO(Int BuildNewAttVar, (Term,Int,Term)); static CELL * AddToQueue(attvar_record *attv) { Term t[2]; sus_record *WGs; sus_record *new; t[0] = (CELL)&(attv->Done); t[1] = attv->Value; /* follow the chain */ WGs = (sus_record *)ReadTimedVar(WokenGoals); new = (sus_record *)H; H = (CELL *)(new+1); new->NR = (sus_record *)(&(new->NR)); new->SG = MkApplTerm(FunctorAttGoal, 2, t); new->NS = new; if ((Term)WGs == TermNil) { UpdateTimedVar(WokenGoals, (CELL)new); /* from now on, we have to start waking up goals */ if (CreepFlag != Unsigned(LCL0) - Unsigned(H0)) CreepFlag = Unsigned(LCL0); } else { /* add to the end of the current list of suspended goals */ CELL *where_to = (CELL *)Deref((CELL)WGs); Bind_Global(where_to, (CELL)new); } return(RepAppl(new->SG)+2); } static CELL * AddFailToQueue(void) { sus_record *WGs; sus_record *new; /* follow the chain */ WGs = (sus_record *)ReadTimedVar(WokenGoals); new = (sus_record *)H; H = (CELL *)(new+1); new->NR = (sus_record *)(&(new->NR)); new->SG = MkAtomTerm(AtomFail); new->NS = new; if ((Term)WGs == TermNil) { UpdateTimedVar(WokenGoals, (CELL)new); /* from now on, we have to start waking up goals */ if (CreepFlag != Unsigned(LCL0) - Unsigned(H0)) CreepFlag = Unsigned(LCL0); } else { /* add to the end of the current list of suspended goals */ CELL *where_to = (CELL *)Deref((CELL)WGs); Bind_Global(where_to, (CELL)new); } return(RepAppl(new->SG)+2); } static int CopyAttVar(CELL *orig, CELL ***to_visit_ptr, CELL *res) { register attvar_record *attv = (attvar_record *)orig; register attvar_record *newv; CELL **to_visit = *to_visit_ptr; Term time = InitVarTime(); Int j; /* add a new attributed variable */ newv = (attvar_record *)ReadTimedVar(DelayedVars); if (H0 - (CELL *)newv < 1024+(2*NUM_OF_ATTS)) return(FALSE); RESET_VARIABLE(&(newv->Done)); newv->sus_id = attvars_ext; RESET_VARIABLE(&(newv->Value)); newv->NS = UpdateTimedVar(AttsMutableList, (CELL)&(newv->Done)); for (j = 0; j < NUM_OF_ATTS; j++) { Term t = Deref(attv->Atts[2*j+1]); newv->Atts[2*j] = time; if (IsVarTerm(t)) { RESET_VARIABLE(newv->Atts+(2*j+1)); } else if (IsAtomicTerm(t)) { newv->Atts[2*j+1] = t; } else { #ifdef RATIONAL_TREES to_visit[0] = attv->Atts+2*j; to_visit[1] = attv->Atts+2*j+1; to_visit[2] = newv->Atts+2*j+1; to_visit[3] = (CELL *)(attv->Atts[2*j]); /* fool the system into thinking we had a variable there */ attv->Atts[2*j+1] = AbsAppl(H); to_visit += 4; #else to_visit[0] = attv->Atts+2*j; to_visit[1] = attv->Atts+2*j+1; to_visit[2] = newv->Atts+2*j+1; to_visit += 3; #endif } } *to_visit_ptr = to_visit; *res = (CELL)&(newv->Done); UpdateTimedVar(DelayedVars, (CELL)(newv->Atts+2*j)); return(TRUE); } static Term AttVarToTerm(CELL *orig) { register attvar_record *attv = (attvar_record *)orig; Term list = TermNil; int j; for (j = 0; j < NUM_OF_ATTS; j++) { Term t = attv->Atts[2*(NUM_OF_ATTS-j-1)+1]; if (IsVarTerm(t)) list = MkPairTerm(MkVarTerm(),list); else list = MkPairTerm(t,list); } return(list); } static int TermToAttVar(Term attvar, Term to) { return(BuildNewAttVar(to, -1, attvar)); } static void WakeAttVar(CELL* pt1, CELL reg2) { /* if bound to someone else, follow until we find the last one */ attvar_record *attv = (attvar_record *)pt1; CELL *myH = H; CELL *bind_ptr; if (IsVarTerm(reg2)) { if (IsAttachedTerm(reg2)) { attvar_record *susp2 = (attvar_record *)VarOfTerm(reg2); /* binding two suspended variables, be careful */ if (susp2->sus_id != attvars_ext) { /* joining two different kinds of suspensions */ Error(SYSTEM_ERROR, TermNil, "joining two different suspensions not implemented"); return; } if (susp2 >= attv) { if (susp2 == attv) return; if (!IsVarTerm(susp2->Value) || !IsUnboundVar(susp2->Value)) { /* oops, our goal is on the queue to be woken */ if (!unify(susp2->Value, (CELL)pt1)) { AddFailToQueue(); } } Bind_Global(&(susp2->Value), (CELL)pt1); AddToQueue(susp2); return; } } else { Bind(VarOfTerm(reg2), (CELL)pt1); return; } } if (!IsVarTerm(attv->Value) || !IsUnboundVar(attv->Value)) { /* oops, our goal is on the queue to be woken */ if (!unify(attv->Value, reg2)) { AddFailToQueue(); } return; } bind_ptr = AddToQueue(attv); if (IsNonVarTerm(reg2)) { if (IsPairTerm(reg2) && RepPair(reg2) == myH) reg2 = AbsPair(H); else if (IsApplTerm(reg2) && RepAppl(reg2) == myH) reg2 = AbsAppl(H); } *bind_ptr = reg2; Bind_Global(&(attv->Value), reg2); } #ifndef FIXED_STACKS static void mark_attvar(CELL *orig) { register attvar_record *attv = (attvar_record *)orig; Int i; mark_external_reference(&(attv->Value)); mark_external_reference(&(attv->Done)); for (i = 0; i < NUM_OF_ATTS; i++) { mark_external_reference(attv->Atts+2*i+1); } } #endif /* FIXED_STACKS */ #if FROZEN_STACKS static Term CurrentTime(void) { return(MkIntegerTerm(TR-(tr_fr_ptr)TrailBase)); } #endif static Term InitVarTime(void) { #if FROZEN_STACKS if (B->cp_tr == TR) { /* we run the risk of not making non-determinate bindings before the end of the night */ /* so we just init a TR cell that will not harm anyone */ Bind((CELL *)(TR+1),AbsAppl(H-1)); } return(MkIntegerTerm(B->cp_tr-(tr_fr_ptr)TrailBase)); #else Term t = (CELL)H; *H++ = TermFoundVar; return(t); #endif } static Int PutAtt(attvar_record *attv, Int i, Term tatt) { Int pos = i*2; #if FROZEN_STACKS tr_fr_ptr timestmp = (tr_fr_ptr)TrailBase+IntegerOfTerm(attv->Atts[pos]); if (B->cp_tr <= timestmp && timestmp <= TR) { #if defined(SBA) if (Unsigned((Int)(attv)-(Int)(H_FZ)) > Unsigned((Int)(B_FZ)-(Int)(H_FZ))) { CELL *ptr = STACK_TO_SBA(attv->Atts+pos+1); *ptr = tatt; } else #endif attv->Atts[pos+1] = tatt; if (Unsigned((Int)(attv)-(Int)(HBREG)) > Unsigned(BBREG)-(Int)(HBREG)) TrailVal(timestmp-1) = tatt; } else { Term tnewt; MaBind(attv->Atts+pos+1, tatt); tnewt = CurrentTime(); MaBind(attv->Atts+pos, tnewt); } #else CELL *timestmp = (CELL *)(attv->Atts[pos]); if (B->cp_h <= timestmp) { attv->Atts[pos+1] = tatt; } else { Term tnewt; MaBind(attv->Atts+pos+1, tatt); tnewt = (Term)H; *H++ = TermFoundVar; MaBind(attv->Atts+pos, tnewt); } #endif return(TRUE); } static Int RmAtt(attvar_record *attv, Int i) { Int pos = i *2; if (!IsVarTerm(attv->Atts[pos+1])) { #if FROZEN_STACKS tr_fr_ptr timestmp = (tr_fr_ptr)TrailBase+IntegerOfTerm(attv->Atts[pos]); if (B->cp_tr <= timestmp && timestmp <= TR) { RESET_VARIABLE(attv->Atts+(pos+1)); if (Unsigned((Int)(attv)-(Int)(HBREG)) > Unsigned(BBREG)-(Int)(HBREG)) TrailVal(timestmp-1) = attv->Atts[pos+1]; } else { /* reset the variable */ Term tnewt; #ifdef SBA MaBind(attv->Atts+(pos+1), 0L); #else MaBind(attv->Atts+(pos+1), (CELL)(attv->Atts+(pos+1))); #endif tnewt = CurrentTime(); MaBind(attv->Atts+pos, tnewt); } } #else CELL *timestmp = (CELL *)(attv->Atts[pos]); if (B->cp_h <= timestmp) { RESET_VARIABLE(attv->Atts+(pos+1)); } else { /* reset the variable */ Term tnewt; #ifdef SBA MaBind(attv->Atts+(pos+1), 0L); #else MaBind(attv->Atts+(pos+1), (CELL)(attv->Atts+(pos+1))); #endif tnewt = (Term)H; *H++ = TermFoundVar; MaBind(attv->Atts+pos, tnewt); } } #endif return(TRUE); } static Int BuildNewAttVar(Term t, Int i, Term tatt) { /* allocate space in Heap */ Term time; int j; attvar_record *attv = (attvar_record *)ReadTimedVar(DelayedVars); if (H0 - (CELL *)attv < 1024+(2*NUM_OF_ATTS)) { H[0] = t; H[1] = tatt; H += 2; growglobal(); H -= 2; t = H[0]; tatt = H[1]; } time = InitVarTime(); RESET_VARIABLE(&(attv->Value)); RESET_VARIABLE(&(attv->Done)); attv->sus_id = attvars_ext; for (j = 0; j < NUM_OF_ATTS; j++) { attv->Atts[2*j] = time; RESET_VARIABLE(attv->Atts+2*j+1); } attv->NS = UpdateTimedVar(AttsMutableList, (CELL)&(attv->Done)); Bind((CELL *)t,(CELL)attv); UpdateTimedVar(DelayedVars,(CELL)(attv->Atts+2*j)); /* if i < 0 then we have the list of arguments */ if (i < 0) { Int j = 0; while (IsPairTerm(tatt)) { Term t = HeadOfTerm(tatt); /* I need to do this because BuildNewAttVar may shift the stacks */ if (!IsVarTerm(t)) { attv->Atts[2*j+1] = t; } j++; tatt = TailOfTerm(tatt); } return(TRUE); } else { return(PutAtt(attv, i, tatt)); } } static Int GetAtt(attvar_record *attv, int i) { Int pos = i *2; #if SBA if (IsUnboundVar(attv->Atts[pos+1])) return((CELL)&(attv->Atts[pos+1])); #endif return(attv->Atts[pos+1]); } static Int FreeAtt(attvar_record *attv, int i) { Int pos = i *2; return(IsVarTerm(attv->Atts[pos+1])); } static Int BindAttVar(attvar_record *attv) { if (IsVarTerm(attv->Done) && IsUnboundVar(attv->Done)) { Bind_Global(&(attv->Done), attv->Value); return(TRUE); } else { Error(SYSTEM_ERROR,(CELL)&(attv->Done),"attvar was bound when set"); return(FALSE); } } static Term GetAllAtts(attvar_record *attv) { Int i; Term t = TermNil; for (i = NUM_OF_ATTS-1; i >= 0; i --) { if (!IsVarTerm(attv->Atts[2*i+1])) t = MkPairTerm(MkPairTerm(MkIntegerTerm(i),attv->Atts[2*i+1]), t); } return(t); } static Term AllAttVars(Term t) { if (t == TermNil) { return(t); } else { attvar_record *attv = (attvar_record *)VarOfTerm(t); if (!IsVarTerm(attv->Done) || !IsUnboundVar(attv->Done)) return(AllAttVars(attv->NS)); else return(MkPairTerm(t,AllAttVars(attv->NS))); } } Term CurrentAttVars(void) { return(AllAttVars(ReadTimedVar(AttsMutableList))); } static Int p_put_att(void) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = (attvar_record *)VarOfTerm(inp); exts id = (exts)attv->sus_id; if (id != attvars_ext) { Error(TYPE_ERROR_VARIABLE,inp,"put_attributes/2"); return(FALSE); } return(PutAtt(attv, IntegerOfTerm(Deref(ARG2)), Deref(ARG3))); } return(BuildNewAttVar(inp, IntegerOfTerm(Deref(ARG2)), Deref(ARG3))); } else { Error(TYPE_ERROR_VARIABLE,inp,"put_attributes/2"); return(FALSE); } } static Int p_rm_att(void) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = (attvar_record *)VarOfTerm(inp); exts id = (exts)attv->sus_id; if (id != attvars_ext) { Error(TYPE_ERROR_VARIABLE,inp,"delete_attribute/2"); return(FALSE); } return(RmAtt(attv, IntegerOfTerm(Deref(ARG2)))); } return(TRUE); } else { Error(TYPE_ERROR_VARIABLE,inp,"delete_attribute/2"); return(FALSE); } } static Int p_get_att(void) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = (attvar_record *)VarOfTerm(inp); Term out; exts id = (exts)attv->sus_id; if (id != attvars_ext) { Error(TYPE_ERROR_VARIABLE,inp,"get_att/2"); return(FALSE); } out = GetAtt(attv,IntegerOfTerm(Deref(ARG2))); return(!IsVarTerm(out) && unify(ARG3,out)); } /* Error(INSTANTIATION_ERROR,inp,"get_att/2");*/ return(FALSE); } else { Error(TYPE_ERROR_VARIABLE,inp,"get_att/2"); return(FALSE); } } static Int p_free_att(void) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = (attvar_record *)VarOfTerm(inp); exts id = (exts)attv->sus_id; if (id != attvars_ext) { Error(TYPE_ERROR_VARIABLE,inp,"get_att/2"); return(FALSE); } return(FreeAtt(attv,IntegerOfTerm(Deref(ARG2)))); } return(TRUE); } else { Error(TYPE_ERROR_VARIABLE,inp,"free_att/2"); return(FALSE); } } static Int p_bind_attvar(void) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = (attvar_record *)VarOfTerm(inp); exts id = (exts)attv->sus_id; if (id != attvars_ext) { Error(TYPE_ERROR_VARIABLE,inp,"get_att/2"); return(FALSE); } return(BindAttVar(attv)); } return(TRUE); } else { Error(TYPE_ERROR_VARIABLE,inp,"bind_att/2"); return(FALSE); } } static Int p_get_all_atts(void) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = (attvar_record *)VarOfTerm(inp); exts id = (exts)(attv->sus_id); if (id != attvars_ext) { Error(TYPE_ERROR_VARIABLE,inp,"get_att/2"); return(FALSE); } return(unify(ARG2,GetAllAtts(attv))); } return(TRUE); } else { Error(TYPE_ERROR_VARIABLE,inp,"get_att/2"); return(FALSE); } } static Int p_inc_atts(void) { Term t = MkIntegerTerm(NUM_OF_ATTS); NUM_OF_ATTS++; return(unify(ARG1,t)); } static Int p_n_atts(void) { Term t = MkIntegerTerm(NUM_OF_ATTS); return(unify(ARG1,t)); } static Int p_all_attvars(void) { Term t = ReadTimedVar(AttsMutableList); return(unify(ARG1,AllAttVars(t))); } static Int p_is_attvar(void) { Term t = Deref(ARG1); return(IsVarTerm(t) && IsAttachedTerm(t) && ((attvar_record *)VarOfTerm(t))->sus_id == attvars_ext); } void InitAttVarPreds(void) { attas[attvars_ext].bind_op = WakeAttVar; attas[attvars_ext].copy_term_op = CopyAttVar; attas[attvars_ext].to_term_op = AttVarToTerm; attas[attvars_ext].term_to_op = TermToAttVar; #ifndef FIXED_STACKS attas[attvars_ext].mark_op = mark_attvar; #endif InitCPred("get_att", 3, p_get_att, SafePredFlag); InitCPred("get_all_atts", 2, p_get_all_atts, SafePredFlag); InitCPred("free_att", 2, p_free_att, SafePredFlag); InitCPred("put_att", 3, p_put_att, 0); InitCPred("rm_att", 2, p_rm_att, SafePredFlag); InitCPred("inc_n_of_atts", 1, p_inc_atts, SafePredFlag); InitCPred("n_of_atts", 1, p_n_atts, SafePredFlag); InitCPred("bind_attvar", 1, p_bind_attvar, SafePredFlag); InitCPred("$all_attvars", 1, p_all_attvars, SafePredFlag); InitCPred("$is_att_variable", 1, p_is_attvar, SafePredFlag); } #endif /* COROUTINING */