/************************************************************************* * * * 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" #include "Yatom.h" #include "YapHeap.h" #include "heapgc.h" #include "attvar.h" #ifndef NULL #define NULL (void *)0 #endif /** @{ */ /** @defgroup Attribute_Variables_Builtins Implementation of Attribute Declarations @ingroup Attributed_Variables */ #ifdef COROUTINING #define TermVoidAtt TermFoundVar static CELL *AddToQueue(attvar_record *attv USES_REGS) { Term t[2]; Term WGs, ng; t[0] = (CELL) & (attv->Done); t[1] = attv->Value; /* follow the chain */ WGs = Yap_ReadTimedVar(LOCAL_WokenGoals); ng = Yap_MkApplTerm(FunctorAttGoal, 2, t); Yap_UpdateTimedVar(LOCAL_WokenGoals, MkPairTerm(ng, WGs)); if ((Term)WGs == TermNil) { /* from now on, we have to start waking up goals */ Yap_signal(YAP_WAKEUP_SIGNAL); } return (RepAppl(ng) + 2); } static void AddFailToQueue(USES_REGS1) { Term WGs; /* follow the chain */ WGs = Yap_ReadTimedVar(LOCAL_WokenGoals); Yap_UpdateTimedVar(LOCAL_WokenGoals, MkPairTerm(MkAtomTerm(AtomFail), WGs)); if ((Term)WGs == TermNil) { /* from now on, we have to start waking up goals */ Yap_signal(YAP_WAKEUP_SIGNAL); } } static attvar_record *BuildNewAttVar(USES_REGS1) { attvar_record *newv; /* add a new attributed variable */ newv = (attvar_record *)HR; HR = (CELL *)(newv + 1); newv->AttFunc = FunctorAttVar; RESET_VARIABLE(&(newv->Value)); RESET_VARIABLE(&(newv->Done)); RESET_VARIABLE(&(newv->Atts)); return newv; } static int CopyAttVar(CELL *orig, struct cp_frame **to_visit_ptr, CELL *res USES_REGS) { register attvar_record *attv = RepAttVar(orig); register attvar_record *newv; struct cp_frame *to_visit = *to_visit_ptr; CELL *vt; if (!(newv = BuildNewAttVar(PASS_REGS1))) return FALSE; vt = &(attv->Atts); to_visit->start_cp = vt - 1; to_visit->end_cp = vt; if (IsVarTerm(attv->Atts)) { Bind_Global_NonAtt(&newv->Atts, (CELL)HR); to_visit->to = HR; HR++; } else { to_visit->to = &(newv->Atts); } to_visit->oldv = vt[-1]; to_visit->ground = FALSE; *to_visit_ptr = to_visit + 1; *res = (CELL) & (newv->Done); return TRUE; } static Term AttVarToTerm(CELL *orig) { attvar_record *attv = RepAttVar(orig); return attv->Atts; } static int IsEmptyWakeUp(Term atts) { Atom name = NameOfFunctor(FunctorOfTerm(atts)); Atom *pt = EmptyWakeups; int i = 0; while (i < MaxEmptyWakeups) { if (pt[i++] == name) return TRUE; } return FALSE; } void Yap_MkEmptyWakeUp(Atom mod) { if (MaxEmptyWakeups == MAX_EMPTY_WAKEUPS) Yap_Error(SYSTEM_ERROR_INTERNAL, TermNil, "too many modules that do not wake up"); EmptyWakeups[MaxEmptyWakeups++] = mod; } static int TermToAttVar(Term attvar, Term to USES_REGS) { attvar_record *attv = BuildNewAttVar(PASS_REGS1); if (!attv) return FALSE; Bind_Global_NonAtt(&attv->Atts, attvar); *VarOfTerm(to) = AbsAttVar(attv); return TRUE; } static void WakeAttVar(CELL *pt1, CELL reg2 USES_REGS) { /* if bound to someone else, follow until we find the last one */ attvar_record *attv = RepAttVar(pt1); CELL *myH = HR; CELL *bind_ptr; if (IsVarTerm(Deref(attv->Atts))) { /* no attributes to wake */ return; } if (IsVarTerm(reg2)) { if (pt1 == VarOfTerm(reg2)) return; if (IsAttachedTerm(reg2)) { attvar_record *susp2 = RepAttVar(VarOfTerm(reg2)); /* binding two suspended variables, be careful */ if (susp2 >= attv) { if (!IsVarTerm(susp2->Value) || !IsUnboundVar(&susp2->Value)) { /* oops, our goal is on the queue to be woken */ if (!Yap_unify(susp2->Value, (CELL)pt1)) { AddFailToQueue(PASS_REGS1); } } Bind_Global_NonAtt(&(susp2->Value), (CELL)pt1); AddToQueue(susp2 PASS_REGS); return; } } else { Bind_NonAtt(VarOfTerm(reg2), (CELL)pt1); return; } } if (IsEmptyWakeUp(attv->Atts)) { Bind_Global_NonAtt(&(attv->Value), reg2); Bind_Global_NonAtt(&(attv->Done), attv->Value); return; } if (!IsVarTerm(attv->Value) || !IsUnboundVar(&attv->Value)) { /* oops, our goal is on the queue to be woken */ if (!Yap_unify(attv->Value, reg2)) { AddFailToQueue(PASS_REGS1); } return; } bind_ptr = AddToQueue(attv PASS_REGS); if (IsNonVarTerm(reg2)) { if (IsPairTerm(reg2) && RepPair(reg2) == myH) reg2 = AbsPair(HR); else if (IsApplTerm(reg2) && RepAppl(reg2) == myH) reg2 = AbsAppl(HR); } *bind_ptr = reg2; Bind_Global_NonAtt(&(attv->Value), reg2); } void Yap_WakeUp(CELL *pt0) { CACHE_REGS CELL d0 = *pt0; RESET_VARIABLE(pt0); WakeAttVar(pt0, d0 PASS_REGS); } static void mark_attvar(CELL *orig) { return; } static Term BuildAttTerm(Functor mfun, UInt ar USES_REGS) { CELL *h0 = HR; UInt i; if (HR + (1024 + ar) > ASP) { LOCAL_Error_Size = ar * sizeof(CELL); return 0L; } HR[0] = (CELL)mfun; RESET_VARIABLE(HR + 1); HR += 2; for (i = 1; i < ar; i++) { *HR = TermVoidAtt; HR++; } return AbsAppl(h0); } static Term SearchAttsForModule(Term start, Functor mfun) { do { if (IsVarTerm(start) || FunctorOfTerm(start) == mfun) return start; start = ArgOfTerm(1, start); } while (TRUE); } static Term SearchAttsForModuleName(Term start, Atom mname) { do { if (IsVarTerm(start) || NameOfFunctor(FunctorOfTerm(start)) == mname) return start; start = ArgOfTerm(1, start); } while (TRUE); } static void AddNewModule(attvar_record *attv, Term t, int new, int do_it USES_REGS) { CELL *newp = RepAppl(t) + 2; UInt i, ar = ArityOfFunctor((Functor)newp[-2]); for (i = 1; i < ar; i++) { Term n = Deref(*newp); if (n == TermFreeTerm) { *newp = TermVoidAtt; } else { if (n != TermVoidAtt) do_it = TRUE; } newp++; } if (!do_it) return; if (new) { attv->Atts = t; } else if (IsVarTerm(attv->Atts)) { MaBind(&(attv->Atts), t); } else { Term *wherep = &attv->Atts; do { if (IsVarTerm(*wherep)) { Bind_Global_NonAtt(wherep, t); return; } else { wherep = RepAppl(Deref(*wherep)) + 1; } } while (TRUE); } } static void ReplaceAtts(attvar_record *attv, Term oatt, Term att USES_REGS) { UInt ar = ArityOfFunctor(FunctorOfTerm(oatt)), i; CELL *oldp = RepAppl(oatt) + 1; CELL *newp; if (oldp > HB) { oldp++; newp = RepAppl(att) + 2; /* if deterministic */ for (i = 1; i < ar; i++) { Term n = Deref(*newp); if (n != TermFreeTerm) { *oldp = n; } oldp++; newp++; } return; } newp = RepAppl(att) + 1; *newp++ = *oldp++; for (i = 1; i < ar; i++) { Term n = Deref(*newp); if (n == TermFreeTerm) { *newp = Deref(*oldp); } oldp++; newp++; } if (attv->Atts == oatt) { if (RepAppl(attv->Atts) >= HB) attv->Atts = att; else MaBind(&(attv->Atts), att); } else { Term *wherep = &attv->Atts; do { if (*wherep == oatt) { MaBind(wherep, att); return; } else { wherep = RepAppl(Deref(*wherep)) + 1; } } while (TRUE); } } static void DelAllAtts(attvar_record *attv USES_REGS) { MaBind(&(attv->Done), attv->Value); } static void DelAtts(attvar_record *attv, Term oatt USES_REGS) { Term t = ArgOfTerm(1, oatt); if (attv->Atts == oatt) { if (IsVarTerm(t)) { DelAllAtts(attv PASS_REGS); return; } if (RepAppl(attv->Atts) >= HB) attv->Atts = t; else MaBind(&(attv->Atts), t); } else { Term *wherep = &attv->Atts; do { if (*wherep == oatt) { MaBind(wherep, t); return; } else { wherep = RepAppl(Deref(*wherep)) + 1; } } while (TRUE); } } static void PutAtt(Int pos, Term atts, Term att USES_REGS) { if (IsVarTerm(att) && VarOfTerm(att) > HR && VarOfTerm(att) < LCL0) { /* globalise locals */ Term tnew = MkVarTerm(); Bind_NonAtt(VarOfTerm(att), tnew); att = tnew; } MaBind(RepAppl(atts) + pos, att); } static Int BindAttVar(attvar_record *attv USES_REGS) { if (IsVarTerm(attv->Done) && IsUnboundVar(&attv->Done)) { /* make sure we are not trying to bind a variable against itself */ if (!IsVarTerm(attv->Value)) { Bind_Global_NonAtt(&(attv->Done), attv->Value); } else if (IsVarTerm(attv->Value)) { Term t = Deref(attv->Value); if (IsVarTerm(t)) { if (IsAttachedTerm(t)) { attvar_record *attv2 = RepAttVar(VarOfTerm(t)); if (attv2 < attv) { Bind_Global_NonAtt(&(attv->Done), t); } else { Bind_Global_NonAtt(&(attv2->Done), AbsAttVar(attv)); } } else { Yap_Error(SYSTEM_ERROR_INTERNAL, (CELL) & (attv->Done), "attvar was bound when unset"); return (FALSE); } } else { Bind_Global_NonAtt(&(attv->Done), t); } } return (TRUE); } else { Yap_Error(SYSTEM_ERROR_INTERNAL, (CELL) & (attv->Done), "attvar was bound when set"); return (FALSE); } } static Int UnBindAttVar(attvar_record *attv) { RESET_VARIABLE(&(attv->Value)); return (TRUE); } static Term GetAllAtts(attvar_record *attv) { /* check if we are already there */ return attv->Atts; } static Int p_put_att(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { attvar_record *attv; Atom modname = AtomOfTerm(Deref(ARG2)); UInt ar = IntegerOfTerm(Deref(ARG3)); Functor mfun; Term tatts; int new = FALSE; if (IsAttachedTerm(inp)) { attv = RepAttVar(VarOfTerm(inp)); } else { while (!(attv = BuildNewAttVar(PASS_REGS1))) { LOCAL_Error_Size = sizeof(attvar_record); if (!Yap_gcl(LOCAL_Error_Size, 5, ENV, gc_P(P, CP))) { Yap_Error(RESOURCE_ERROR_STACK, TermNil, LOCAL_ErrorMessage); return FALSE; } } new = TRUE; } mfun = Yap_MkFunctor(modname, ar); if (IsVarTerm(tatts = SearchAttsForModule(attv->Atts, mfun))) { while (!(tatts = BuildAttTerm(mfun, ar PASS_REGS))) { if (!Yap_gcl(LOCAL_Error_Size, 5, ENV, gc_P(P, CP))) { Yap_Error(RESOURCE_ERROR_STACK, TermNil, LOCAL_ErrorMessage); return FALSE; } } { CELL *ptr = VarOfTerm(Deref(ARG1)); CELL d0 = AbsAttVar(attv); Bind_NonAtt(ptr, d0); } AddNewModule(attv, tatts, new, TRUE PASS_REGS); } PutAtt(IntegerOfTerm(Deref(ARG4)), tatts, Deref(ARG5) PASS_REGS); return TRUE; } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of put_attributes/2"); return FALSE; } } static Int p_put_att_term(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { attvar_record *attv; if (IsAttachedTerm(inp)) { attv = RepAttVar(VarOfTerm(inp)); MaBind(&(attv->Atts), Deref(ARG2)); } else { while (!(attv = BuildNewAttVar(PASS_REGS1))) { LOCAL_Error_Size = sizeof(attvar_record); if (!Yap_gcl(LOCAL_Error_Size, 5, ENV, gc_P(P, CP))) { Yap_Error(RESOURCE_ERROR_STACK, TermNil, LOCAL_ErrorMessage); return FALSE; } inp = Deref(ARG1); } Bind_NonAtt(VarOfTerm(inp), AbsAttVar(attv)); attv->Atts = Deref(ARG2); } return TRUE; } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of put_att_term/2"); return (FALSE); } } static Int p_rm_att(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { attvar_record *attv; Atom modname = AtomOfTerm(Deref(ARG2)); UInt ar = IntegerOfTerm(Deref(ARG3)); Functor mfun; Term tatts; int new = FALSE; if (IsAttachedTerm(inp)) { attv = RepAttVar(VarOfTerm(inp)); } else { while (!(attv = BuildNewAttVar(PASS_REGS1))) { LOCAL_Error_Size = sizeof(attvar_record); if (!Yap_gcl(LOCAL_Error_Size, 5, ENV, gc_P(P, CP))) { Yap_Error(RESOURCE_ERROR_STACK, TermNil, LOCAL_ErrorMessage); return FALSE; } } new = TRUE; Yap_unify(ARG1, AbsAttVar(attv)); } mfun = Yap_MkFunctor(modname, ar); if (IsVarTerm(tatts = SearchAttsForModule(attv->Atts, mfun))) { while (!(tatts = BuildAttTerm(mfun, ar PASS_REGS))) { if (!Yap_gcl(LOCAL_Error_Size, 4, ENV, gc_P(P, CP))) { Yap_Error(RESOURCE_ERROR_STACK, TermNil, LOCAL_ErrorMessage); return FALSE; } } AddNewModule(attv, tatts, new, FALSE PASS_REGS); } else { PutAtt(IntegerOfTerm(Deref(ARG4)), tatts, TermVoidAtt PASS_REGS); } return TRUE; } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of rm_att/2"); return (FALSE); } } static Int p_put_atts(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { attvar_record *attv; Term otatts; Term tatts = Deref(ARG2); Functor mfun = FunctorOfTerm(tatts); int new = FALSE; if (IsAttachedTerm(inp)) { attv = RepAttVar(VarOfTerm(inp)); } else { while (!(attv = BuildNewAttVar(PASS_REGS1))) { LOCAL_Error_Size = sizeof(attvar_record); if (!Yap_gcl(LOCAL_Error_Size, 2, ENV, gc_P(P, CP))) { Yap_Error(RESOURCE_ERROR_STACK, TermNil, LOCAL_ErrorMessage); return FALSE; } } new = TRUE; Yap_unify(ARG1, AbsAttVar(attv)); } /* we may have a stack shift meanwhile!! */ tatts = Deref(ARG2); if (IsVarTerm(tatts)) { Yap_Error(INSTANTIATION_ERROR, tatts, "second argument of put_att/2"); return FALSE; } else if (!IsApplTerm(tatts)) { Yap_Error(TYPE_ERROR_COMPOUND, tatts, "second argument of put_att/2"); return FALSE; } if (IsVarTerm(otatts = SearchAttsForModule(attv->Atts, mfun))) { AddNewModule(attv, tatts, new, FALSE PASS_REGS); } else { ReplaceAtts(attv, otatts, tatts PASS_REGS); } return TRUE; } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of put_att/2"); return FALSE; } } static Int p_del_atts(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); Term otatts; /* if this is unbound, ok */ if (IsVarTerm(inp)) { attvar_record *attv; Term tatts = Deref(ARG2); Functor mfun = FunctorOfTerm(tatts); if (IsAttachedTerm(inp)) { attv = RepAttVar(VarOfTerm(inp)); } else { return TRUE; } if (IsVarTerm(otatts = SearchAttsForModule(attv->Atts, mfun))) { return TRUE; } else { DelAtts(attv, otatts PASS_REGS); } return TRUE; } else { return TRUE; } } static Int p_del_all_atts(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp) && IsAttachedTerm(inp)) { attvar_record *attv; attv = RepAttVar(VarOfTerm(inp)); DelAllAtts(attv PASS_REGS); } return TRUE; } static Int p_get_att(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { Atom modname = AtomOfTerm(Deref(ARG2)); if (IsAttachedTerm(inp)) { attvar_record *attv; Term tout, tatts; attv = RepAttVar(VarOfTerm(inp)); if (IsVarTerm(tatts = SearchAttsForModuleName(attv->Atts, modname))) return FALSE; tout = ArgOfTerm(IntegerOfTerm(Deref(ARG3)), tatts); if (tout == TermVoidAtt) return FALSE; return Yap_unify(tout, ARG4); } else { /* Yap_Error(INSTANTIATION_ERROR,inp,"get_att/2"); */ return FALSE; } } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of get_att/2"); return (FALSE); } } static Int p_free_att(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { Atom modname = AtomOfTerm(Deref(ARG2)); if (IsAttachedTerm(inp)) { attvar_record *attv; Term tout, tatts; attv = RepAttVar(VarOfTerm(inp)); if (IsVarTerm(tatts = SearchAttsForModuleName(attv->Atts, modname))) return TRUE; tout = ArgOfTerm(IntegerOfTerm(Deref(ARG3)), tatts); return (tout == TermVoidAtt); } else { /* Yap_Error(INSTANTIATION_ERROR,inp,"get_att/2"); */ return TRUE; } } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of free_att/2"); return (FALSE); } } static Int p_get_atts(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv; Term tatts; Term access = Deref(ARG2); Functor mfun = FunctorOfTerm(access); UInt ar, i; CELL *old, *new; attv = RepAttVar(VarOfTerm(inp)); if (IsVarTerm(tatts = SearchAttsForModule(attv->Atts, mfun))) return FALSE; ar = ArityOfFunctor(mfun); new = RepAppl(access) + 2; old = RepAppl(tatts) + 2; for (i = 1; i < ar; i++, new ++, old++) { if (*new != TermFreeTerm) { if (*old == TermVoidAtt && *new != TermVoidAtt) return FALSE; if (*new == TermVoidAtt &&*old != TermVoidAtt) return FALSE; if (!Yap_unify(*new, *old)) return FALSE; } } return TRUE; } else { /* Yap_Error(INSTANTIATION_ERROR,inp,"get_att/2"); */ return FALSE; } } else { return (FALSE); } } static Int p_has_atts(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv; Term tatts; Term access = Deref(ARG2); Functor mfun = FunctorOfTerm(access); attv = RepAttVar(VarOfTerm(inp)); return !IsVarTerm(tatts = SearchAttsForModule(attv->Atts, mfun)); } else { /* Yap_Error(INSTANTIATION_ERROR,inp,"get_att/2"); */ return FALSE; } } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of has_atts/2"); return (FALSE); } } static Int p_bind_attvar(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = RepAttVar(VarOfTerm(inp)); return (BindAttVar(attv PASS_REGS)); } return (true); } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of bind_attvar/2"); return (false); } } static Int p_unbind_attvar(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = RepAttVar(VarOfTerm(inp)); return (UnBindAttVar(attv)); } return (TRUE); } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of bind_attvar/2"); return (FALSE); } } static Int p_get_all_atts(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = RepAttVar(VarOfTerm(inp)); return Yap_unify(ARG2, GetAllAtts(attv)); } return TRUE; } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of get_all_atts/2"); return FALSE; } } static int ActiveAtt(Term tatt, UInt ar) { CELL *cp = RepAppl(tatt) + 1; UInt i; for (i = 1; i < ar; i++) { if (cp[i] != TermVoidAtt) return TRUE; } return FALSE; } static Int p_modules_with_atts(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = RepAttVar(VarOfTerm(inp)); CELL *h0 = HR; Term tatt; if (IsVarTerm(tatt = attv->Atts)) return Yap_unify(ARG2, TermNil); while (!IsVarTerm(tatt)) { Functor f = FunctorOfTerm(tatt); if (HR != h0) HR[-1] = AbsPair(HR); if (ActiveAtt(tatt, ArityOfFunctor(f))) { *HR = MkAtomTerm(NameOfFunctor(f)); HR += 2; } tatt = ArgOfTerm(1, tatt); } if (h0 != HR) { HR[-1] = TermNil; return Yap_unify(ARG2, AbsPair(h0)); } } return Yap_unify(ARG2, TermNil); } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of modules_with_attributes/2"); return FALSE; } } static Int p_swi_all_atts(USES_REGS1) { /* receive a variable in ARG1 */ Term inp = Deref(ARG1); Functor attf = FunctorAtt1; /* if this is unbound, ok */ if (IsVarTerm(inp)) { if (IsAttachedTerm(inp)) { attvar_record *attv = RepAttVar(VarOfTerm(inp)); CELL *h0 = HR; Term tatt; if (IsVarTerm(tatt = attv->Atts)) return Yap_unify(ARG2, TermNil); while (!IsVarTerm(tatt)) { Functor f = FunctorOfTerm(tatt); UInt ar = ArityOfFunctor(f); if (HR != h0) HR[-1] = AbsAppl(HR); HR[0] = (CELL)attf; HR[1] = MkAtomTerm(NameOfFunctor(f)); /* SWI */ if (ar == 2) HR[2] = ArgOfTerm(2, tatt); else HR[2] = tatt; HR += 4; HR[-1] = AbsAppl(HR); tatt = ArgOfTerm(1, tatt); } if (h0 != HR) { HR[-1] = TermNil; return Yap_unify(ARG2, AbsAppl(h0)); } } return Yap_unify(ARG2, TermNil); } else { Yap_Error(REPRESENTATION_ERROR_VARIABLE, inp, "first argument of get_all_swi_atts/2"); return FALSE; } } static Term AllAttVars(USES_REGS1) { CELL *pt = H0; CELL *myH = HR; while (pt < myH) { switch (*pt) { case (CELL) FunctorAttVar: if (IsUnboundVar(pt + 1)) { if (ASP - myH < 1024) { LOCAL_Error_Size = (ASP - HR) * sizeof(CELL); return 0L; } if (myH != HR) { myH[-1] = AbsPair(myH); } myH[0] = AbsAttVar((attvar_record *)pt); myH += 2; } pt += (1 + ATT_RECORD_ARITY); break; case (CELL) FunctorDouble: #if SIZEOF_DOUBLE == 2 * SIZEOF_INT_P pt += 4; #else pt += 3; #endif break; case (CELL) FunctorString: pt += 3 + pt[1]; break; case (CELL) FunctorBigInt: { Int sz = 3 + (sizeof(MP_INT) + (((MP_INT *)(pt + 2))->_mp_alloc * sizeof(mp_limb_t))) / sizeof(CELL); pt += sz; } break; case (CELL) FunctorLongInt: pt += 3; break; default: pt++; } } if (myH != HR) { Term out = AbsPair(HR); myH[-1] = TermNil; HR = myH; return out; } else { return TermNil; } } static Int p_all_attvars(USES_REGS1) { do { Term out; if (!(out = AllAttVars(PASS_REGS1))) { if (!Yap_gcl(LOCAL_Error_Size, 1, ENV, gc_P(P, CP))) { Yap_Error(RESOURCE_ERROR_STACK, TermNil, LOCAL_ErrorMessage); return FALSE; } } else { return Yap_unify(ARG1, out); } } while (TRUE); } /** @pred attvar( _-Var_) Succeed if _Var_ is an attributed variable. */ static Int p_is_attvar(USES_REGS1) { Term t = Deref(ARG1); return (IsVarTerm(t) && IsAttVar(VarOfTerm(t))); } /* check if we are not redoing effort */ static Int p_attvar_bound(USES_REGS1) { Term t = Deref(ARG1); return IsVarTerm(t) && IsAttachedTerm(t) && !IsUnboundVar(&(RepAttVar(VarOfTerm(t))->Done)); } static Int p_void_term(USES_REGS1) { return Yap_unify(ARG1, TermVoidAtt); } static Int p_free_term(USES_REGS1) { return Yap_unify(ARG1, TermFreeTerm); } static Int p_fast_unify(USES_REGS1) { /* Case we want to unify two variables, but we do not think there is a point in waking them up */ Term t1, t2; CELL *a, *b; if (!IsVarTerm(t1 = Deref(ARG1))) return FALSE; if (!IsVarTerm(t2 = Deref(ARG2))) return FALSE; a = VarOfTerm(t1); b = VarOfTerm(t2); if (a > b) { Bind_Global_NonAtt(a, t2); } else if ((a) < (b)) { Bind_Global_NonAtt(b, t1); } return TRUE; } #else static Int p_all_attvars(USES_REGS1) { return FALSE; } static Int p_is_attvar(USES_REGS1) { return FALSE; } static Int p_attvar_bound(USES_REGS1) { return FALSE; } #endif /* COROUTINING */ void Yap_InitAttVarPreds(void) { CACHE_REGS Term OldCurrentModule = CurrentModule; CurrentModule = ATTRIBUTES_MODULE; #ifdef COROUTINING GLOBAL_attas[attvars_ext].bind_op = WakeAttVar; GLOBAL_attas[attvars_ext].copy_term_op = CopyAttVar; GLOBAL_attas[attvars_ext].to_term_op = AttVarToTerm; GLOBAL_attas[attvars_ext].term_to_op = TermToAttVar; GLOBAL_attas[attvars_ext].mark_op = mark_attvar; Yap_InitCPred("get_att", 4, p_get_att, SafePredFlag); Yap_InitCPred("get_module_atts", 2, p_get_atts, SafePredFlag); Yap_InitCPred("has_module_atts", 2, p_has_atts, SafePredFlag); Yap_InitCPred("get_all_atts", 2, p_get_all_atts, SafePredFlag); Yap_InitCPred("get_all_swi_atts", 2, p_swi_all_atts, SafePredFlag); Yap_InitCPred("free_att", 3, p_free_att, SafePredFlag); Yap_InitCPred("put_att", 5, p_put_att, 0); Yap_InitCPred("put_att_term", 2, p_put_att_term, 0); Yap_InitCPred("put_module_atts", 2, p_put_atts, 0); Yap_InitCPred("del_all_module_atts", 2, p_del_atts, 0); Yap_InitCPred("del_all_atts", 1, p_del_all_atts, 0); Yap_InitCPred("rm_att", 4, p_rm_att, 0); Yap_InitCPred("bind_attvar", 1, p_bind_attvar, SafePredFlag); Yap_InitCPred("unbind_attvar", 1, p_unbind_attvar, SafePredFlag); Yap_InitCPred("modules_with_attributes", 2, p_modules_with_atts, SafePredFlag); Yap_InitCPred("void_term", 1, p_void_term, SafePredFlag); Yap_InitCPred("free_term", 1, p_free_term, SafePredFlag); Yap_InitCPred("fast_unify_attributed", 2, p_fast_unify, 0); #endif /* COROUTINING */ Yap_InitCPred("all_attvars", 1, p_all_attvars, 0); CurrentModule = OldCurrentModule; Yap_InitCPred("attvar", 1, p_is_attvar, SafePredFlag | TestPredFlag); Yap_InitCPred("$att_bound", 1, p_attvar_bound, SafePredFlag | TestPredFlag); } /** @} */