/************************************************************************* * * * YAP Prolog %W% %G% * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: c_interface.c * * Last rev: 19/2/88 * * mods: * * comments: c_interface primitives definition * * * *************************************************************************/ #define Bool int #define flt double #define C_INTERFACE #include "Yap.h" #include "Yatom.h" #include "Heap.h" #include "yapio.h" #define HAS_YAP_H 1 #include "yap_structs.h" #ifdef YAPOR #include "or.macros.h" #endif /* YAPOR */ #define YAP_BOOT_FROM_PROLOG 0 #define YAP_BOOT_FROM_SAVED_CODE 1 #define YAP_BOOT_FROM_SAVED_STACKS 2 #define YAP_BOOT_FROM_SAVED_ERROR -1 #if defined(_MSC_VER) && defined(YAP_EXPORTS) #define X_API __declspec(dllexport) #else #define X_API #endif X_API Term STD_PROTO(YapA,(int)); X_API Term STD_PROTO(YapMkVarTerm,(void)); X_API Bool STD_PROTO(YapIsVarTerm,(Term)); X_API Bool STD_PROTO(YapIsNonVarTerm,(Term)); X_API Bool STD_PROTO(YapIsIntTerm,(Term)); X_API Bool STD_PROTO(YapIsFloatTerm,(Term)); X_API Bool STD_PROTO(YapIsDbRefTerm,(Term)); X_API Bool STD_PROTO(YapIsAtomTerm,(Term)); X_API Bool STD_PROTO(YapIsPairTerm,(Term)); X_API Bool STD_PROTO(YapIsApplTerm,(Term)); X_API Term STD_PROTO(YapMkIntTerm,(Int)); X_API Int STD_PROTO(YapIntOfTerm,(Term)); X_API Term STD_PROTO(YapMkFloatTerm,(flt)); X_API flt STD_PROTO(YapFloatOfTerm,(Term)); X_API Term STD_PROTO(YapMkAtomTerm,(Atom)); X_API Atom STD_PROTO(YapAtomOfTerm,(Term)); X_API Atom STD_PROTO(YapLookupAtom,(char *)); X_API Atom STD_PROTO(YapFullLookupAtom,(char *)); X_API char *STD_PROTO(YapAtomName,(Atom)); X_API Term STD_PROTO(YapMkPairTerm,(Term,Term)); X_API Term STD_PROTO(YapMkNewPairTerm,(void)); X_API Term STD_PROTO(YapHeadOfTerm,(Term)); X_API Term STD_PROTO(YapTailOfTerm,(Term)); X_API Term STD_PROTO(YapMkApplTerm,(Functor,unsigned int,Term *)); X_API Term STD_PROTO(YapMkNewApplTerm,(Functor,unsigned int)); X_API Functor STD_PROTO(YapFunctorOfTerm,(Term)); X_API Term STD_PROTO(YapArgOfTerm,(Int,Term)); X_API Functor STD_PROTO(YapMkFunctor,(Atom,Int)); X_API Atom STD_PROTO(YapNameOfFunctor,(Functor)); X_API Int STD_PROTO(YapArityOfFunctor,(Functor)); X_API void *STD_PROTO(YapExtraSpace,(void)); X_API Int STD_PROTO(Yapcut_fail,(void)); X_API Int STD_PROTO(Yapcut_succeed,(void)); X_API Int STD_PROTO(YapUnify,(Term,Term)); X_API Int STD_PROTO(YapUnify,(Term,Term)); X_API int STD_PROTO(YapReset,(void)); X_API Int STD_PROTO(YapInit,(yap_init_args *)); X_API Int STD_PROTO(YapFastInit,(char *)); X_API Int STD_PROTO(YapCallProlog,(Term)); X_API void *STD_PROTO(YapAllocSpaceFromYap,(unsigned int)); X_API void STD_PROTO(YapFreeSpaceFromYap,(void *)); X_API void STD_PROTO(YapFreeSpaceFromYap,(void *)); X_API int STD_PROTO(YapStringToBuffer, (Term, char *, unsigned int)); X_API Term STD_PROTO(YapBufferToString, (char *)); X_API Term STD_PROTO(YapBufferToAtomList, (char *)); X_API void STD_PROTO(YapError,(char *)); X_API int STD_PROTO(YapRunGoal,(Term)); X_API int STD_PROTO(YapRestartGoal,(void)); X_API int STD_PROTO(YapGoalHasException,(Term *)); X_API int STD_PROTO(YapContinueGoal,(void)); X_API void STD_PROTO(YapPruneGoal,(void)); X_API void STD_PROTO(YapInitConsult,(int, char *)); X_API void STD_PROTO(YapEndConsult,(void)); X_API Term STD_PROTO(YapRead, (int (*)(void))); X_API void STD_PROTO(YapWrite, (Term, void (*)(int), int)); X_API char *STD_PROTO(YapCompileClause, (Term)); X_API void STD_PROTO(YapPutValue, (Atom,Term)); X_API Term STD_PROTO(YapGetValue, (Atom)); X_API int STD_PROTO(YapReset, (void)); X_API void STD_PROTO(YapExit, (int)); X_API void STD_PROTO(YapInitSocks, (char *, long)); X_API void STD_PROTO(YapSetOutputMessage, (void)); X_API int STD_PROTO(YapStreamToFileNo, (Term)); X_API void STD_PROTO(YapCloseAllOpenStreams,(void)); X_API Term STD_PROTO(YapOpenStream,(void *, char *, Term, int)); X_API long STD_PROTO(YapNewSlots,(int)); X_API long STD_PROTO(YapInitSlot,(Term)); X_API Term STD_PROTO(YapGetFromSlot,(long)); X_API Term *STD_PROTO(YapAddressFromSlot,(long)); X_API void STD_PROTO(YapPutInSlot,(long, Term)); X_API void STD_PROTO(YapRecoverSlots,(int)); X_API void STD_PROTO(YapThrow,(Term)); X_API int STD_PROTO(YapLookupModule,(Term)); X_API Term STD_PROTO(YapModuleName,(int)); X_API void STD_PROTO(YapHalt,(int)); X_API Term *STD_PROTO(YapTopOfLocalStack,(void)); X_API void *STD_PROTO(YapPredicate,(Atom,Int,Int)); X_API void STD_PROTO(YapPredicateInfo,(void *,Atom *,Int *,Int *)); X_API void STD_PROTO(YapUserCPredicateWithArgs,(char *,CPredicate,Int,Int)); X_API Int STD_PROTO(YapCurrentModule,(void)); static int (*do_getf)(void); static int do_yap_getc(int streamno) { return(do_getf()); } static void (*do_putcf)(int); static int do_yap_putc(int streamno,int ch) { do_putcf(ch); return(ch); } X_API Term YapA(int i) { return(Deref(XREGS[i])); } X_API Bool YapIsIntTerm(Term t) { return (IsIntegerTerm(t)); } X_API Bool YapIsVarTerm(Term t) { return (IsVarTerm(t)); } X_API Bool YapIsNonVarTerm(Term t) { return (IsNonVarTerm(t)); } X_API Bool YapIsFloatTerm(Term t) { return (IsFloatTerm(t)); } X_API Bool YapIsDbRefTerm(Term t) { return (IsDBRefTerm(t)); } X_API Bool YapIsAtomTerm(Term t) { return (IsAtomTerm(t)); } X_API Bool YapIsPairTerm(Term t) { return (IsPairTerm(t)); } X_API Bool YapIsApplTerm(Term t) { return (IsApplTerm(t) && !IsExtensionFunctor(FunctorOfTerm(t))); } X_API Term YapMkIntTerm(Int n) { Term I; BACKUP_H(); I = MkIntegerTerm(n); RECOVER_H(); return(I); } X_API Int YapIntOfTerm(Term t) { if (!IsApplTerm(t)) return (IntOfTerm(t)); else return(LongIntOfTerm(t)); } X_API Term YapMkFloatTerm(double n) { Term t; BACKUP_H(); t = MkFloatTerm(n); RECOVER_H(); return(t); } X_API flt YapFloatOfTerm(Term t) { return (FloatOfTerm(t)); } X_API Term YapMkAtomTerm(Atom n) { Term t; t = MkAtomTerm(n); return(t); } X_API Atom YapAtomOfTerm(Term t) { return (AtomOfTerm(t)); } X_API char * YapAtomName(Atom a) { char *o; o = AtomName(a); return(o); } X_API Atom YapLookupAtom(char *c) { return(LookupAtom(c)); } X_API Atom YapFullLookupAtom(char *c) { Atom at; at = FullLookupAtom(c); return(at); } X_API Term YapMkVarTerm(void) { CELL t; BACKUP_H(); t = MkVarTerm(); RECOVER_H(); return(t); } X_API Term YapMkPairTerm(Term t1, Term t2) { Term t; BACKUP_H(); t = MkPairTerm(t1, t2); RECOVER_H(); return(t); } X_API Term YapMkNewPairTerm() { Term t; BACKUP_H(); t = MkNewPairTerm(); RECOVER_H(); return(t); } X_API Term YapHeadOfTerm(Term t) { return (HeadOfTerm(t)); } X_API Term YapTailOfTerm(Term t) { return (TailOfTerm(t)); } X_API Term YapMkApplTerm(Functor f,unsigned int arity, Term args[]) { Term t; BACKUP_H(); t = MkApplTerm(f, arity, args); RECOVER_H(); return(t); } X_API Term YapMkNewApplTerm(Functor f,unsigned int arity) { Term t; BACKUP_H(); t = MkNewApplTerm(f, arity); RECOVER_H(); return(t); } X_API Functor YapFunctorOfTerm(Term t) { return (FunctorOfTerm(t)); } X_API Term YapArgOfTerm(Int n, Term t) { return (ArgOfTerm(n, t)); } X_API Functor YapMkFunctor(Atom a, Int n) { return (MkFunctor(a, n)); } X_API Atom YapNameOfFunctor(Functor f) { return (NameOfFunctor(f)); } X_API Int YapArityOfFunctor(Functor f) { return (ArityOfFunctor(f)); } X_API void * YapExtraSpace(void) { void *ptr; BACKUP_B(); /* find a pointer to extra space allocable */ ptr = (void *)((CELL *)(B+1)+P->u.lds.s); RECOVER_B(); return(ptr); } X_API Int Yapcut_fail(void) { BACKUP_B(); B = B->cp_b; /* cut_fail */ HB = B->cp_h; /* cut_fail */ RECOVER_B(); return(FALSE); } X_API Int Yapcut_succeed(void) { BACKUP_B(); B = B->cp_b; HB = B->cp_h; RECOVER_B(); return(TRUE); } X_API Int YapUnify(Term t1, Term t2) { Int out; BACKUP_MACHINE_REGS(); out = unify(t1, t2); RECOVER_MACHINE_REGS(); return(out); } X_API long YapNewSlots(int n) { Int old_slots = IntOfTerm(ASP[0]), oldn = n; while (n > 0) { RESET_VARIABLE(ASP); ASP--; n--; } ASP[0] = MkIntTerm(old_slots+oldn); return((ASP+1)-LCL0); } X_API long YapInitSlot(Term t) { Int old_slots = IntOfTerm(ASP[0]); *ASP = t; ASP--; ASP[0] = MkIntTerm(old_slots+1); return((ASP+1)-LCL0); } X_API void YapRecoverSlots(int n) { Int old_slots = IntOfTerm(ASP[0]); ASP += n; ASP[0] = MkIntTerm(old_slots-n); } X_API Term YapGetFromSlot(long slot) { return(Deref(LCL0[slot])); } X_API Term * YapAddressFromSlot(long slot) { return(LCL0+slot); } X_API void YapPutInSlot(long slot, Term t) { LCL0[slot] = t; } typedef Int (*CPredicate1)(long); typedef Int (*CPredicate2)(long,long); typedef Int (*CPredicate3)(long,long,long); typedef Int (*CPredicate4)(long,long,long,long); typedef Int (*CPredicate5)(long,long,long,long,long); typedef Int (*CPredicate6)(long,long,long,long,long,long); typedef Int (*CPredicate7)(long,long,long,long,long,long,long); typedef Int (*CPredicate8)(long,long,long,long,long,long,long,long); Int YapExecute(PredEntry *pe, CPredicate exec_code) { if (pe->PredFlags & CArgsPredFlag) { switch (pe->ArityOfPE) { case 0: { CPredicate code0 = exec_code; return ((code0)()); } case 1: { CPredicate1 code1 = (CPredicate1)exec_code; return ((code1)(YapInitSlot(Deref(ARG1)))); } case 2: { CPredicate2 code2 = (CPredicate2)exec_code; return ((code2)(YapInitSlot(Deref(ARG1)), YapInitSlot(Deref(ARG2)))); } case 3: { CPredicate3 code3 = (CPredicate3)exec_code; return ((code3)(YapInitSlot(Deref(ARG1)), YapInitSlot(Deref(ARG2)), YapInitSlot(Deref(ARG3)))); } case 4: { CPredicate4 code4 = (CPredicate4)exec_code; return ((code4)(YapInitSlot(Deref(ARG1)), YapInitSlot(Deref(ARG2)), YapInitSlot(Deref(ARG3)), YapInitSlot(Deref(ARG4)))); } case 5: { CPredicate5 code5 = (CPredicate5)exec_code; return ((code5)(YapInitSlot(Deref(ARG1)), YapInitSlot(Deref(ARG2)), YapInitSlot(Deref(ARG3)), YapInitSlot(Deref(ARG4)),YapInitSlot(Deref(ARG5)))); } case 6: { CPredicate6 code6 = (CPredicate6)exec_code; return ((code6)(YapInitSlot(Deref(ARG1)), YapInitSlot(Deref(ARG2)), YapInitSlot(Deref(ARG3)), YapInitSlot(Deref(ARG4)), YapInitSlot(Deref(ARG5)), YapInitSlot(Deref(ARG6)))); } case 7: { CPredicate7 code7 = (CPredicate7)exec_code; return ((code7)(YapInitSlot(Deref(ARG1)), YapInitSlot(Deref(ARG2)), YapInitSlot(Deref(ARG3)), YapInitSlot(Deref(ARG4)), YapInitSlot(Deref(ARG5)), YapInitSlot(Deref(ARG6)), YapInitSlot(Deref(ARG7)))); } case 8: { CPredicate8 code8 = (CPredicate8)exec_code; return ((code8)(YapInitSlot(Deref(ARG1)), YapInitSlot(Deref(ARG2)), YapInitSlot(Deref(ARG3)), YapInitSlot(Deref(ARG4)), YapInitSlot(Deref(ARG5)), YapInitSlot(Deref(ARG6)), YapInitSlot(Deref(ARG7)), YapInitSlot(Deref(ARG8)))); } default: return(FALSE); } } else { return((exec_code)()); } } X_API Int YapCallProlog(Term t) { Int out; SMALLUNSGN mod = CurrentModule; BACKUP_MACHINE_REGS(); while (!IsVarTerm(t) && IsApplTerm(t) && FunctorOfTerm(t) == FunctorModule) { Term tmod = ArgOfTerm(1,t); if (IsVarTerm(tmod)) return(FALSE); if (!IsAtomTerm(tmod)) return(FALSE); mod = LookupModule(tmod); t = ArgOfTerm(2,t); } out = execute_goal(t, 0, mod); RECOVER_MACHINE_REGS(); return(out); } X_API void * YapAllocSpaceFromYap(unsigned int size) { void *ptr; BACKUP_MACHINE_REGS(); if ((ptr = AllocCodeSpace(size)) == NULL) { if (!growheap(FALSE)) { Error(SYSTEM_ERROR, TermNil, "YAP failed to reserve space in growheap"); return(NULL); } } RECOVER_MACHINE_REGS(); return(ptr); } X_API void YapFreeSpaceFromYap(void *ptr) { FreeCodeSpace(ptr); } /* copy a string to a buffer */ X_API int YapStringToBuffer(Term t, char *buf, unsigned int bufsize) { unsigned int j = 0; while (t != TermNil) { register Term Head; register Int i; Head = HeadOfTerm(t); if (IsVarTerm(Head)) { Error(INSTANTIATION_ERROR,Head,"user defined procedure"); return(FALSE); } else if (!IsIntTerm(Head)) { Error(REPRESENTATION_ERROR_CHARACTER_CODE,Head,"user defined procedure"); return(FALSE); } i = IntOfTerm(Head); if (i < 0 || i > 255) { Error(REPRESENTATION_ERROR_CHARACTER_CODE,Head,"user defined procedure"); return(FALSE); } buf[j++] = i; if (j > bufsize) { buf[j-1] = '\0'; return(FALSE); } t = TailOfTerm(t); if (IsVarTerm(t)) { Error(INSTANTIATION_ERROR,t,"user defined procedure"); return(FALSE); } else if (!IsPairTerm(t) && t != TermNil) { Error(TYPE_ERROR_LIST, t, "user defined procedure"); return(FALSE); } } buf[j] = '\0'; return(TRUE); } /* copy a string to a buffer */ X_API Term YapBufferToString(char *s) { Term t; BACKUP_H(); t = StringToList(s); RECOVER_H(); return(t); } /* copy a string to a buffer */ X_API Term YapBufferToAtomList(char *s) { Term t; BACKUP_H(); t = StringToListOfAtoms(s); RECOVER_H(); return(t); } X_API void YapError(char *buf) { Error(SYSTEM_ERROR,TermNil,buf); } static void myputc (int ch) { putc(ch,stderr); } X_API int YapRunGoal(Term t) { int out; yamop *old_CP = CP; BACKUP_MACHINE_REGS(); out = RunTopGoal(t); if (out) { P = (yamop *)ENV[E_CP]; ENV = (CELL *)ENV[E_E]; CP = old_CP; } else { B = B->cp_b; } RECOVER_MACHINE_REGS(); return(out); } X_API int YapRestartGoal(void) { int out; BACKUP_MACHINE_REGS(); P = (yamop *)FAILCODE; do_putcf = myputc; out = exec_absmi(TRUE); if (out == FALSE) { /* cleanup */ trust_last(); } RECOVER_MACHINE_REGS(); return(out); } X_API int YapContinueGoal(void) { int out; BACKUP_MACHINE_REGS(); out = exec_absmi(TRUE); RECOVER_MACHINE_REGS(); return(out); } X_API void YapPruneGoal(void) { BACKUP_B(); while (B->cp_ap != NOCODE) { B = B->cp_b; } B = B->cp_b; RECOVER_B(); } X_API int YapGoalHasException(Term *t) { int out = FALSE; BACKUP_MACHINE_REGS(); if (EX) { *t = EX; out = TRUE; } RECOVER_MACHINE_REGS(); return(out); } X_API void YapInitConsult(int mode, char *filename) { BACKUP_MACHINE_REGS(); if (mode == YAP_CONSULT_MODE) init_consult(FALSE, filename); else init_consult(TRUE, filename); RECOVER_MACHINE_REGS(); } X_API void YapEndConsult(void) { BACKUP_MACHINE_REGS(); end_consult(); RECOVER_MACHINE_REGS(); } X_API Term YapRead(int (*mygetc)(void)) { Term t; tr_fr_ptr old_TR; BACKUP_MACHINE_REGS(); do_getf = mygetc; old_TR = TR; tokptr = toktide = tokenizer(do_yap_getc, do_yap_getc); if (ErrorMessage) { TR = old_TR; save_machine_regs(); return(0); } t = Parse(); TR = old_TR; RECOVER_MACHINE_REGS(); return(t); } X_API void YapWrite(Term t, void (*myputc)(int), int flags) { BACKUP_MACHINE_REGS(); do_putcf = myputc; plwrite (t, do_yap_putc, flags); RECOVER_MACHINE_REGS(); } X_API char * YapCompileClause(Term t) { char *ErrorMessage; CODEADDR codeaddr; int mod = CurrentModule; BACKUP_MACHINE_REGS(); ErrorMessage = NULL; ARG1 = t; codeaddr = cclause (t,0, mod); if (codeaddr != NULL) { t = Deref(ARG1); /* just in case there was an heap overflow */ addclause (t, codeaddr, TRUE, mod); } RECOVER_MACHINE_REGS(); return(ErrorMessage); } /* this routine is supposed to be called from an external program that wants to control Yap */ X_API Int YapInit(yap_init_args *yap_init) { int restore_result; int Trail = 0, Stack = 0, Heap = 0; BACKUP_MACHINE_REGS(); yap_args = yap_init->Argv; yap_argc = yap_init->Argc; if (yap_init->SavedState != NULL) { if (SavedInfo (yap_init->SavedState, &Trail, &Stack, &Heap, yap_init->YapLibDir) != 1) { return(YAP_BOOT_FROM_SAVED_ERROR); } } if (yap_init->TrailSize == 0) { if (Trail == 0) Trail = DefTrailSpace; } else { Trail = yap_init->TrailSize; } if (yap_init->StackSize == 0) { if (Stack == 0) Stack = DefStackSpace; } else { Stack = yap_init->StackSize; } if (yap_init->HeapSize == 0) { if (Heap == 0) Heap = DefHeapSpace; } else { Heap = yap_init->HeapSize; } InitStacks (Heap, Stack, Trail, yap_init->NumberWorkers, yap_init->SchedulerLoop, yap_init->DelayedReleaseLoad ); InitYaamRegs(); #if HAVE_MPI InitMPI (); #endif #if HAVE_MPE InitMPE (); #endif if (yap_init->YapPrologBootFile != NULL) { /* This must be done before restore, otherwise restore will print out messages .... */ yap_flags[HALT_AFTER_CONSULT_FLAG] = yap_init->HaltAfterConsult; } if (yap_init->SavedState != NULL) { restore_result = Restore(yap_init->SavedState); } else { restore_result = FAIL_RESTORE; } yap_flags[FAST_BOOT_FLAG] = yap_init->FastBoot; #if defined(YAPOR) || defined(TABLING) make_root_frames(); #ifdef YAPOR init_workers(); #endif /* YAPOR */ init_local(); #ifdef YAPOR if (worker_id != 0) { #if SBA /* In the SBA we cannot just happily inherit registers from the other workers */ InitYaamRegs(); #endif /* slaves, waiting for work */ CurrentModule = 1; P = GETWORK_FIRST_TIME; exec_absmi(FALSE); abort_optyap("abstract machine unexpected exit"); } #endif /* YAPOR */ #endif /* YAPOR || TABLING */ RECOVER_MACHINE_REGS(); if (yap_init->YapPrologBootFile != NULL) { PutValue(FullLookupAtom("$consult_on_boot"), MkAtomTerm(LookupAtom(yap_init->YapPrologBootFile))); /* This must be done again after restore, as yap_flags has been overwritten .... */ yap_flags[HALT_AFTER_CONSULT_FLAG] = yap_init->HaltAfterConsult; } if (yap_init->SavedState != NULL) { if (restore_result == FAIL_RESTORE) return(YAP_BOOT_FROM_SAVED_ERROR); if (restore_result == DO_ONLY_CODE) { return(YAP_BOOT_FROM_SAVED_CODE); } else { return(YAP_BOOT_FROM_SAVED_STACKS); } } return(YAP_BOOT_FROM_PROLOG); } X_API Int YapFastInit(char saved_state[]) { yap_init_args init_args; init_args.SavedState = saved_state; init_args.HeapSize = 0; init_args.StackSize = 0; init_args.TrailSize = 0; init_args.YapLibDir = NULL; init_args.YapPrologBootFile = NULL; init_args.HaltAfterConsult = FALSE; init_args.FastBoot = FALSE; init_args.NumberWorkers = 1; init_args.SchedulerLoop = 10; init_args.DelayedReleaseLoad = 3; init_args.Argc = 0; init_args.Argv = NULL; return(YapInit(&init_args)); } X_API void YapPutValue(Atom at, Term t) { PutValue(at, t); } X_API Term YapGetValue(Atom at) { return(GetValue(at)); } X_API int YapReset(void) { BACKUP_MACHINE_REGS(); /* first, backtrack to the root */ if (B != NULL) { while (B->cp_b != NULL) B = B->cp_b; P = (yamop *)FAILCODE; if (exec_absmi(0) != 0) return(FALSE); } /* reinitialise the engine */ InitYaamRegs(); RECOVER_MACHINE_REGS(); return(TRUE); } X_API void YapExit(int retval) { exit_yap(retval); } X_API void YapInitSocks(char *host, long port) { #if USE_SOCKET init_socks(host, port); #endif } X_API void YapSetOutputMessage(void) { #if DEBUG output_msg = TRUE; #endif } X_API int YapStreamToFileNo(Term t) { return(StreamToFileNo(t)); } X_API void YapCloseAllOpenStreams(void) { BACKUP_H(); CloseStreams(FALSE); RECOVER_H(); } X_API Term YapOpenStream(void *fh, char *name, Term nm, int flags) { Term retv; BACKUP_H(); retv = OpenStream((FILE *)fh, name, nm, flags); RECOVER_H(); return retv; } X_API void YapThrow(Term t) { BACKUP_MACHINE_REGS(); JumpToEnv(t); RECOVER_MACHINE_REGS(); } X_API int YapLookupModule(Term t) { return(LookupModule(t)); } X_API Term YapModuleName(int i) { return(ModuleName[i]); } X_API void YapHalt(int i) { exit_yap(i); } X_API CELL * YapTopOfLocalStack(void) { return(ASP); } X_API void * YapPredicate(Atom a, Int arity, Int m) { if (arity == 0) { return((void *)RepPredProp(PredPropByAtom(a,m))); } else { Functor f = MkFunctor(a, arity); return((void *)RepPredProp(PredPropByFunc(f,m))); } } X_API void YapPredicateInfo(void *p, Atom* a, Int* arity, Int* m) { PredEntry *pd = (PredEntry *)p; if (pd->ArityOfPE) { *arity = pd->ArityOfPE; *a = NameOfFunctor(pd->FunctorOfPred); } else { *arity = 0; *a = (Atom)(pd->FunctorOfPred); } *m = pd->ModuleOfPred; } X_API void YapUserCPredicateWithArgs(char *a, CPredicate f, Int arity, Int mod) { PredEntry *pe; SMALLUNSGN cm = CurrentModule; CurrentModule = mod; UserCPredicate(a,f,arity); if (arity == 0) { pe = RepPredProp(PredPropByAtom(LookupAtom(a),mod)); } else { Functor f = MkFunctor(LookupAtom(a), arity); pe = RepPredProp(PredPropByFunc(f,mod)); } pe->PredFlags |= CArgsPredFlag; CurrentModule = cm; } X_API Int YapCurrentModule(void) { return(CurrentModule); }