#ifndef PL_YAP_H #define PL_YAP_H #ifdef __YAP_PROLOG__ #include "Yatom.h" #include /* depends on tag schema, but 4 should always do */ #define LMASK_BITS 4 /* total # mask bits */ #if HAVE_CTYPE_H #include #endif #if HAVE_SYS_STAT_H #include #endif #define SIZE_VOIDP SIZEOF_INT_P #if SIZEOF_LONG_INT == 4 #define INT64_FORMAT "%lld" #else #define INT64_FORMAT "%ld" #endif #define INTBITSIZE (sizeof(int) * 8) typedef module_t Module; typedef Term (*Func)(term_t); /* foreign functions */ extern const char *Yap_GetCurrentPredName(void); extern Int Yap_GetCurrentPredArity(void); extern term_t Yap_fetch_module_for_format(term_t args, Term *modp); extern void Yap_setCurrentSourceLocation(void *rd); extern void *Yap_GetStreamHandle(Atom at); extern void Yap_WriteAtom(IOSTREAM *s, Atom atom); extern atom_t codeToAtom(int chrcode); #define valTermRef(t) ((Word)Yap_AddressFromSlot(t)) #include "pl-codelist.h" // move this to SWI #define GP_CREATE 2 /* create (in this module) */ #ifndef HAVE_MBSCOLL COMMON(int) mbscoll(const char *s1, const char *s2); #endif #ifndef HAVE_MBSCASECOLL COMMON(int) mbscasecoll(const char *s1, const char *s2); #endif COMMON(atom_t) TemporaryFile(const char *id, int *fdp); COMMON(char *) Getenv(const char *, char *buf, size_t buflen); /*** memory allocation stuff: SWI wraps around malloc */ #define stopItimer() COMMON(word) pl_print(term_t term); COMMON(word) pl_write(term_t term); COMMON(word) pl_write_canonical(term_t term); COMMON(word) pl_write_term(term_t term, term_t options); COMMON(word) pl_writeq(term_t term); static inline int get_procedure(term_t descr, predicate_t *proc, term_t he, int f) { CACHE_REGS Term t = Yap_GetFromSlot(descr); if (IsVarTerm(t)) return FALSE; if (IsAtomTerm(t)) *proc = RepPredProp(Yap_GetPredPropByAtom(AtomOfTerm(t), CurrentModule)); else if (IsApplTerm(t)) { Functor f = FunctorOfTerm(t); if (IsExtensionFunctor(f)) { return FALSE; } *proc = RepPredProp(Yap_GetPredPropByFunc(f, CurrentModule)); } return TRUE; } /* TBD */ extern word globalString(size_t size, char *s); extern word globalWString(size_t size, wchar_t *s); #define allocHeap(n) allocHeap__LD(n PASS_LD) #define valHandle(r) valHandle__LD(r PASS_LD) Int YAP_PLArityOfSWIFunctor(functor_t f); struct PL_blob_t *YAP_find_blob_type(Atom at); void PL_license(const char *license, const char *module); #define arityFunctor(f) YAP_PLArityOfSWIFunctor(f) #define stringAtom(w) (YAP_AtomFromSWIAtom(w)->StrOfAE) #define isInteger(A) \ (!IsVarTerm(A) && (IsIntegerTerm((A)) || YAP_IsBigNumTerm((A)))) #define isString(A) (!IsVarTerm(A) && IsStringTerm(A)) #define isAtom(A) (!IsVarTerm(A) && IsAtomTerm((A))) #define isList(A) (!IsVarTerm(A) && IsPairTerm((A))) #define isNil(A) ((A) == TermNil) #define isReal(A) (!IsVarTerm(A) && IsFloatTerm((A))) #define isFloat(A) (!IsVarTerm(A) && IsFloatTerm((A))) #define isVar(A) IsVarTerm((A)) #define valReal(w) FloatOfTerm((w)) #define valFloat(w) FloatOfTerm((w)) #define atomValue(atom) AtomOfTerm(atom) #define atomFromTerm(term) YAP_SWIAtomFromAtom(AtomOfTerm(term)) inline static char *atomName(Atom atom) { if (IsWideAtom(atom)) return (char *)(atom->WStrOfAE); return atom->StrOfAE; } #define nameOfAtom(atom) nameOfAtom(atom) #define atomBlobType(at) YAP_find_blob_type(at) #define argTermP(w, i) ((Word)((YAP_ArgsOfTerm(w) + (i)))) #define deRef(t) \ while (IsVarTerm(*(t)) && !IsUnboundVar(t)) { \ t = (CELL *)(*(t)); \ } #define canBind(t) FALSE // VSC: to implement #define _PL_predicate(A, B, C, D) PL_predicate(A, B, C) #define predicateHasClauses(pe) ((pe)->cs.p_code.NOfClauses != 0) #define lookupModule(A) Yap_GetModuleEntry(MkAtomTerm(YAP_AtomFromSWIAtom(A))) Procedure resolveProcedure(functor_t f, Module module); #define charEscapeWriteOption(A) FALSE // VSC: to implement #define wordToTermRef(A) Yap_InitSlot(*(A)) #define isTaggedInt(A) IsIntegerTerm(A) #define valInt(A) IntegerOfTerm(A) #define MODULE_user Yap_GetModuleEntry(MkAtomTerm(Yap_LookupAtom("user"))) #define MODULE_system Yap_GetModuleEntry(MkAtomTerm(Yap_LookupAtom("system"))) #define MODULE_parse Yap_GetModuleEntry(LOCAL_SourceModule) extern term_t Yap_CvtTerm(term_t ts); #define clearNumber(n) wchar_t *nameOfWideAtom(atom_t atom); int isWideAtom(atom_t atom); inline static int charCode(Term w) { if (IsAtomTerm(w)) { Atom a = atomValue(w); if (IsWideAtom(a)) { if (wcslen(a->WStrOfAE) == 1) return a->WStrOfAE[0]; return -1; } if (strlen(a->StrOfAE) == 1) return ((unsigned char *)(a->StrOfAE))[0]; return -1; } return -1; } #define PL_get_atom(t, a) PL_get_atom__LD(t, a PASS_LD) #define PL_get_atom_ex(t, a) PL_get_atom_ex__LD(t, a PASS_LD) #define PL_get_text(l, t, f) PL_get_text__LD(l, t, f PASS_LD) #define PL_is_atom(t) PL_is_atom__LD(t PASS_LD) #define PL_is_variable(t) PL_is_variable__LD(t PASS_LD) #define PL_new_term_ref() PL_new_term_ref__LD(PASS_LD1) #define PL_put_atom(t, a) PL_put_atom__LD(t, a PASS_LD) #define PL_put_term(t1, t2) PL_put_term__LD(t1, t2 PASS_LD) #define PL_unify_atom(t, a) PL_unify_atom__LD(t, a PASS_LD) #define PL_unify_integer(t, i) PL_unify_integer__LD(t, i PASS_LD) #define _PL_get_arg(i, t, a) _PL_get_arg__LD(i, t, a PASS_LD); #endif /* __YAP_PROLOG__ */ unsigned int getUnknownModule(module_t m); #if IN_PL_OS_C static int stripostfix(const char *s, const char *e) { size_t ls = strlen(s); size_t le = strlen(e); if (ls >= le) return strcasecmp(&s[ls - le], e) == 0; return FALSE; } #endif #if HAVE_SIGPROCMASK #if HAVE_SIGNAL_H #include #endif static inline void unblockSignal(int sig) { sigset_t set; sigemptyset(&set); sigaddset(&set, sig); sigprocmask(SIG_UNBLOCK, &set, NULL); // DEBUG(1, Sdprintf("Unblocked signal %d\n", sig)); } #else static inline void unblockSignal(int sig) {} #endif #define suspendTrace(x) atom_t ATOM_; #if THREADS intptr_t system_thread_id(void); #endif #endif /* PL_YAP_H */