#define _EXPORT_KERNEL 1 #include "yapi.hh" extern "C" { #if __ANDROID__ #include "android/log.h" #endif #if YAP_PYTHON #include "Python.h" #endif #include "YapBlobs.h" #include "YapInterface.h" #include "iopreds.h" X_API char *Yap_TermToBuffer(Term t, encoding_t encodingp, int flags); X_API void YAP_UserCPredicate(const char *, YAP_UserCPred, arity_t arity); X_API void YAP_UserCPredicateWithArgs(const char *, YAP_UserCPred, arity_t, YAP_Term); X_API void YAP_UserBackCPredicate(const char *, YAP_UserCPred, YAP_UserCPred, YAP_Arity, YAP_Arity); #if YAP_PYTHON X_API bool do_init_python(void); #endif } static void YAPCatchError() { if (false && LOCAL_CommittedError != nullptr && LOCAL_CommittedError->errorNo != YAP_NO_ERROR ) { // Yap_PopTermFromDB(info->errorTerm); // throw throw YAPError( ); Term es[2]; es[0] = TermError; es[1] = MkErrorTerm(LOCAL_CommittedError); Functor f = Yap_MkFunctor(Yap_LookupAtom("print_message"), 2); YAP_RunGoalOnce(Yap_MkApplTerm(f, 2, es)); // Yap_PopTermFromDB(info->errorTerm); // throw throw YAPError( SOURCE(), ); } } YAPPredicate::YAPPredicate(Term &t, Term &tmod, CELL *&ts, const char *pname) { Term t0 = t; ap = nullptr; restart: if (IsVarTerm(t)) { throw YAPError(SOURCE(), INSTANTIATION_ERROR, t0, pname); } else if (IsAtomTerm(t)) { ap = RepPredProp(Yap_GetPredPropByAtom(AtomOfTerm(t), tmod)); ts = nullptr; } else if (IsIntegerTerm(t) && tmod == IDB_MODULE) { ts = nullptr; ap = Yap_FindLUIntKey(IntegerOfTerm(t)); } else if (IsPairTerm(t)) { t = Yap_MkApplTerm(FunctorCsult, 1, &t); goto restart; } else if (IsApplTerm(t)) { Functor fun = FunctorOfTerm(t); if (IsExtensionFunctor(fun)) { throw YAPError(SOURCE(), TYPE_ERROR_CALLABLE, Yap_PredicateIndicator(t, tmod), pname); } if (fun == FunctorModule) { tmod = ArgOfTerm(1, t); if (IsVarTerm(tmod)) { throw YAPError(SOURCE(), INSTANTIATION_ERROR, t0, pname); } if (!IsAtomTerm(tmod)) { throw YAPError(SOURCE(), TYPE_ERROR_ATOM, t0, pname); } t = ArgOfTerm(2, t); goto restart; } ap = RepPredProp(Yap_GetPredPropByFunc(fun, tmod)); ts = RepAppl(t) + 1; } else { throw YAPError(SOURCE(), TYPE_ERROR_CALLABLE, t0, pname); } } Term YAPTerm::getArg(arity_t i) { BACKUP_MACHINE_REGS(); Term tf = 0; Term t0 = gt(); if (IsApplTerm(t0)) { if (i > ArityOfFunctor(FunctorOfTerm(t0))) throw YAPError(SOURCE(), DOMAIN_ERROR_OUT_OF_RANGE, t0, "t0.getArg()"); tf = (ArgOfTerm(i, t0)); } else if (IsPairTerm(t0)) { if (i == 1) tf = (HeadOfTerm(t0)); else if (i == 2) tf = (TailOfTerm(t0)); else throw YAPError(SOURCE(), DOMAIN_ERROR_OUT_OF_RANGE, t0, "t0.getArg()"); } else { throw YAPError(SOURCE(), TYPE_ERROR_COMPOUND, t0, "t0.getArg()"); } RECOVER_MACHINE_REGS(); return tf; } YAPAtomTerm::YAPAtomTerm(char s[]) { // build string BACKUP_H(); CACHE_REGS seq_tv_t inp, out; inp.val.c = s; inp.type = YAP_STRING_CHARS; out.type = YAP_STRING_ATOM; if (Yap_CVT_Text(&inp, &out PASS_REGS)) mk(MkAtomTerm(out.val.a)); else t = 0L; RECOVER_H(); } YAPAtomTerm::YAPAtomTerm(char *s, size_t len) { // build string BACKUP_H(); CACHE_REGS seq_tv_t inp, out; inp.val.c = s; inp.type = YAP_STRING_CHARS; out.type = YAP_STRING_ATOM | YAP_STRING_NCHARS | YAP_STRING_TRUNC; out.max = len; if (Yap_CVT_Text(&inp, &out PASS_REGS)) mk(MkAtomTerm(out.val.a)); else t = 0L; RECOVER_H(); } YAPAtomTerm::YAPAtomTerm(wchar_t *s) : YAPTerm() { // build string BACKUP_H(); CACHE_REGS seq_tv_t inp, out; inp.val.w = s; inp.type = YAP_STRING_WCHARS; out.type = YAP_STRING_ATOM; if (Yap_CVT_Text(&inp, &out PASS_REGS)) mk(MkAtomTerm(out.val.a)); else t = 0L; RECOVER_H(); } YAPAtomTerm::YAPAtomTerm(wchar_t *s, size_t len) : YAPTerm() { // build string BACKUP_H(); CACHE_REGS seq_tv_t inp, out; inp.val.w = s; inp.type = YAP_STRING_WCHARS; out.type = YAP_STRING_ATOM | YAP_STRING_NCHARS | YAP_STRING_TRUNC; out.max = len; if (Yap_CVT_Text(&inp, &out PASS_REGS)) mk(MkAtomTerm(out.val.a)); else t = 0L; RECOVER_H(); } YAPStringTerm::YAPStringTerm(char *s) { // build string BACKUP_H(); CACHE_REGS seq_tv_t inp, out; inp.val.c = s; inp.type = YAP_STRING_CHARS; out.type = YAP_STRING_STRING; if (Yap_CVT_Text(&inp, &out PASS_REGS)) mk(out.val.t); else t = 0L; RECOVER_H(); } YAPStringTerm::YAPStringTerm(char *s, size_t len) { // build string BACKUP_H(); CACHE_REGS seq_tv_t inp, out; inp.val.c = s; inp.type = YAP_STRING_CHARS; out.type = YAP_STRING_STRING | YAP_STRING_NCHARS | YAP_STRING_TRUNC; out.max = len; if (Yap_CVT_Text(&inp, &out PASS_REGS)) mk(out.val.t); else t = 0L; RECOVER_H(); } YAPStringTerm::YAPStringTerm(wchar_t *s) : YAPTerm() { // build string BACKUP_H(); CACHE_REGS seq_tv_t inp, out; inp.val.w = s; inp.type = YAP_STRING_WCHARS; out.type = YAP_STRING_STRING; if (Yap_CVT_Text(&inp, &out PASS_REGS)) mk(out.val.t); else t = 0L; RECOVER_H(); } YAPStringTerm::YAPStringTerm(wchar_t *s, size_t len) : YAPTerm() { // build string BACKUP_H(); CACHE_REGS seq_tv_t inp, out; inp.val.w = s; inp.type = YAP_STRING_WCHARS; out.type = YAP_STRING_STRING | YAP_STRING_NCHARS | YAP_STRING_TRUNC; out.max = len; if (Yap_CVT_Text(&inp, &out PASS_REGS)) mk(out.val.t); else t = 0L; RECOVER_H(); } YAPApplTerm::YAPApplTerm(YAPFunctor f, YAPTerm ts[]) { BACKUP_H(); arity_t arity = ArityOfFunctor(f.f); Term o = Yap_MkNewApplTerm(f.f, arity); Term *tt = RepAppl(o) + 1; for (arity_t i = 0; i < arity; i++) tt[i] = ts[i].term(); mk(o); RECOVER_H(); } YAPApplTerm::YAPApplTerm(std::string f, std::vector ts) { BACKUP_H(); arity_t arity = ts.size(); Functor ff = Yap_MkFunctor(Yap_LookupAtom(f.c_str()), arity); Term o = Yap_MkNewApplTerm(ff, arity); Term *tt = RepAppl(o) + 1; for (arity_t i = 0; i < arity; i++) tt[i] = ts[i].term(); mk(o); } YAPApplTerm::YAPApplTerm(YAPFunctor f) : YAPTerm() { BACKUP_H(); arity_t arity = ArityOfFunctor(f.f); mk(Yap_MkNewApplTerm(f.f, arity)); RECOVER_H(); } Term &YAPTerm::operator[](arity_t i) { BACKUP_MACHINE_REGS(); Term t0 = gt(); Term *tf = nullptr; if (IsApplTerm(t0)) { // Functor f = FunctorOfTerm(t0); // if (IsExtensionFunctor(f)) // return 0; tf = RepAppl(t0) + (i + 1); } else if (IsPairTerm(t0)) { if (i == 0) tf = RepPair(t0); else if (i == 1) tf = RepPair(t0) + 1; RECOVER_MACHINE_REGS(); } else { throw YAPError(SOURCE(), TYPE_ERROR_COMPOUND, t0, ""); } RECOVER_MACHINE_REGS(); return *tf; } Term &YAPListTerm::operator[](arity_t i) { BACKUP_MACHINE_REGS(); Term t0 = gt(); Term tf = 0; while (IsPairTerm(t0)) { if (i == 0) { tf = HeadOfTerm(t0); break; } else { t0 = TailOfTerm(t0); i--; } } RECOVER_MACHINE_REGS(); return RepPair(tf)[i]; } YAPPairTerm::YAPPairTerm(YAPTerm th, YAPTerm tl) { CACHE_REGS BACKUP_H(); mk(MkPairTerm(th.term(), tl.term())); RECOVER_H(); } YAPPairTerm::YAPPairTerm() { BACKUP_H(); mk(TermNil); RECOVER_H(); } std::vector YAPPairTerm::listToArray() { Term *tailp; Term t1 = gt(); Int l = Yap_SkipList(&t1, &tailp); if (l < 0) { throw YAPError(SOURCE(), TYPE_ERROR_LIST, (t), nullptr); } std::vector o = std::vector(l); int i = 0; Term t = gt(); while (t != TermNil) { o[i++] = HeadOfTerm(t); t = TailOfTerm(t); } return o; } YAP_tag_t YAPTerm::tag() { Term tt = gt(); if (IsVarTerm(tt)) { CELL *pt = VarOfTerm(tt); if (IsUnboundVar(pt)) { CACHE_REGS if (IsAttVar(pt)) return YAP_TAG_ATT; return YAP_TAG_UNBOUND; } return YAP_TAG_REF; } if (IsPairTerm(tt)) return YAP_TAG_PAIR; if (IsAtomOrIntTerm(tt)) { if (IsAtomTerm(tt)) return YAP_TAG_ATOM; return YAP_TAG_INT; } else { Functor f = FunctorOfTerm(tt); if (IsExtensionFunctor(f)) { if (f == FunctorDBRef) { return YAP_TAG_DBREF; } if (f == FunctorLongInt) { return YAP_TAG_LONG_INT; } if (f == FunctorBigInt) { big_blob_type bt = (big_blob_type)RepAppl(tt)[1]; switch (bt) { case BIG_INT: return YAP_TAG_BIG_INT; case BIG_RATIONAL: return YAP_TAG_RATIONAL; default: return YAP_TAG_OPAQUE; } } } return YAP_TAG_APPL; } } Term YAPTerm::deepCopy() { yhandle_t tn; BACKUP_MACHINE_REGS(); tn = Yap_CopyTerm(gt()); RECOVER_MACHINE_REGS(); return (tn); } Term YAPListTerm::cdr() { Term to = gt(); if (IsPairTerm(to)) return (TailOfTerm(to)); else if (to == TermNil) return TermNil; /* error */ throw YAPError(SOURCE(), TYPE_ERROR_LIST, to, ""); } Term YAPListTerm::dup() { yhandle_t tn; BACKUP_MACHINE_REGS(); tn = Yap_CopyTerm(gt()); RECOVER_MACHINE_REGS(); return tn; } intptr_t YAPTerm::numberVars(intptr_t i0, bool skip_singletons) { BACKUP_MACHINE_REGS(); intptr_t i = Yap_NumberVars(gt(), i0, skip_singletons); RECOVER_MACHINE_REGS(); return i; } const char *YAPQuery::text() { return YAPTerm(goal).text(); } YAPIntegerTerm::YAPIntegerTerm(intptr_t i) { CACHE_REGS Term tn = MkIntegerTerm(i); mk(tn); } /* YAPTerm *YAPTerm::vars() { BACKUP_MACHINE_REGS(); CACHE_REGS YAPPairTerm lv = YAPPairTerm(Yap_TermVariables(gt(), 0 PASS_REGS)); RECOVER_MACHINE_REGS(); return lv; } */ YAPTerm::YAPTerm(void *ptr) { CACHE_REGS mk(MkIntegerTerm((Int)ptr)); } Term YAPListTerm::car() { Term to = gt(); if (IsPairTerm(to)) return (HeadOfTerm(to)); else { throw YAPError(SOURCE(), TYPE_ERROR_LIST, to, ""); return TermUnique; } } YAPListTerm::YAPListTerm(YAPTerm ts[], arity_t n) { CACHE_REGS BACKUP_H(); if (n == 0) t = TermNil; while (HR + n * 2 > ASP - 1024) { RECOVER_H(); if (!Yap_dogc(0, NULL PASS_REGS)) { t = TermNil; } BACKUP_H(); } t = AbsPair(HR); for (arity_t i = 0; i < n; i++) { HR[2 * i] = ts[i].gt(); HR[2 * i + 1] = AbsPair(HR + (2 * i + 2)); } } const char *YAPAtom::getName(void) { return Yap_AtomToUTF8Text(a); } void YAPQuery::openQuery() { CACHE_REGS if (ap == NULL || ap->OpcodeOfPred == UNDEF_OPCODE) { ap = rewriteUndefQuery(); } setNext(); } bool YAPEngine::call(YAPPredicate ap, YAPTerm ts[]) { CACHE_REGS if (ap.ap == NULL) return false; BACKUP_MACHINE_REGS(); arity_t arity = ap.getArity(); bool result; YAP_dogoalinfo q; for (arity_t i = 0; i < arity; i++) XREGS[i + 1] = ts[i].term(); q.CurSlot = Yap_StartSlots(); q.p = P; q.cp = CP; // allow Prolog style exceotion handling // don't forget, on success these bindings will still be there); result = YAP_LeaveGoal(true, &q); YAPCatchError(); Yap_CloseHandles(q.CurSlot); RECOVER_MACHINE_REGS(); return result; } bool YAPEngine::mgoal(Term t, Term tmod, bool release) { #if YAP_PYTHON // PyThreadState *_save; // _save = PyEval_SaveThread(); #endif CACHE_REGS BACKUP_MACHINE_REGS(); Term *ts = nullptr; try { if (IsStringTerm(tmod)) tmod = MkAtomTerm(Yap_LookupAtom(StringOfTerm(tmod))); YAPPredicate *p = new YAPPredicate(t, tmod, ts, "C++"); PredEntry *ap = nullptr; if (p == nullptr || (ap = p->ap) == nullptr || ap->OpcodeOfPred == UNDEF_OPCODE) { ap = rewriteUndefEngineQuery(ap, t, tmod); } if (IsApplTerm(t)) ts = RepAppl(t) + 1; else if (IsPairTerm(t)) ts = RepPair(t); /* legal ap */ arity_t arity = ap->ArityOfPE; for (arity_t i = 0; i < arity; i++) { XREGS[i + 1] = ts[i]; } ts = nullptr; bool result; q.CurSlot = Yap_StartSlots(); q.p = P; q.cp = CP; // allow Prolog style exception handling // don't forget, on success these guys may create slots __android_log_print(ANDROID_LOG_INFO, "YAPDroid", "exec "); result = (bool)YAP_EnterGoal(ap, nullptr, &q); YAP_LeaveGoal(result && !release, &q); // PyEval_RestoreThread(_save); RECOVER_MACHINE_REGS(); return result; } catch (...) { YAPCatchError(); // free(LOCAL_CommittedError); return false; } } /** * called when a query must be terminated and its state fully recovered, * @type {[type]} */ void YAPEngine::release() { BACKUP_MACHINE_REGS(); YAP_LeaveGoal(FALSE, &q); RECOVER_MACHINE_REGS(); } Term YAPEngine::fun(Term t) { CACHE_REGS BACKUP_MACHINE_REGS(); Term tmod = CurrentModule, *ts = nullptr; PredEntry *ap; arity_t arity; Functor f; Atom name; if (IsApplTerm(t)) { ts = RepAppl(t) + 1; f = (Functor)ts[-1]; name = NameOfFunctor(f); arity = ArityOfFunctor(f); for (arity_t i = 0; i < arity; i++) XREGS[i + 1] = ts[i]; } else if (IsAtomTerm(t)) { name = AtomOfTerm(t); f = nullptr; arity = 0; } else if (IsPairTerm(t)) { XREGS[1] = ts[0]; XREGS[2] = ts[1]; arity = 2; name = AtomDot; f = FunctorDot; } else { throw YAPError(SOURCE(), TYPE_ERROR_CALLABLE, t, 0); return 0L; } XREGS[arity + 1] = MkVarTerm(); arity++; f = Yap_MkFunctor(name, arity); ap = (PredEntry *)(PredPropByFunc(f, tmod)); if (ap == nullptr || ap->OpcodeOfPred == UNDEF_OPCODE) { Term g = (Yap_MkApplTerm(f, arity, ts)); ap = rewriteUndefEngineQuery(ap, g, (ap->ModuleOfPred)); } q.CurSlot = Yap_StartSlots(); q.p = P; q.cp = CP; // make sure this is safe // allow Prolog style exception handling __android_log_print(ANDROID_LOG_INFO, "YAPDroid", "exec "); bool result = (bool)YAP_EnterGoal(ap, nullptr, &q); YAPCatchError(); { YAP_LeaveGoal(result, &q); // PyEval_RestoreThread(_save); RECOVER_MACHINE_REGS(); return result; } } YAPQuery::YAPQuery(YAPFunctor f, YAPTerm mod, YAPTerm ts[]) : YAPPredicate(f, mod) { /* ignore flags for now */ BACKUP_MACHINE_REGS(); Term *nts; Term goal; if (ts) { goal = YAPApplTerm(f, ts).term(); nts = RepAppl(goal) + 1; size_t arity = f.arity(); for (arity_t i = 0; i < arity; i++) XREGS[i + 1] = nts[i]; } else { goal = MkVarTerm(); } openQuery(); names = YAPPairTerm(TermNil); RECOVER_MACHINE_REGS(); } #if 0 YAPQuery::YAPQuery(YAPFunctor f, YAPTerm ts[]) : YAPPredicate(f) { /* ignore flags for now */ BACKUP_MACHINE_REGS(); CELL *nts; if (ts) { goal = YAPApplTerm(f, nts); } else { goal = YAPVarTerm(); nts = nullptr; } names = YAPPairTerm( TermNil ); openQuery(term(), nts); RECOVER_MACHINE_REGS(); } #endif YAPQuery::YAPQuery(YAPTerm t) : YAPPredicate(t) { BACKUP_MACHINE_REGS(); CELL *nts; Term tt = t.term(); if (IsPairTerm(tt)) { nts = RepPair(tt); tt = Yap_MkApplTerm(FunctorCsult, 1, nts); } goal = *new YAPTerm(tt); if (IsApplTerm(tt)) { Functor f = FunctorOfTerm(tt); if (!IsExtensionFunctor(f)) { nts = nullptr; arity_t arity = ArityOfFunctor(f); if (arity) { nts = RepAppl(tt) + 1; for (arity_t i = 0; i < arity; i++) XREGS[i + 1] = nts[i]; } } } openQuery(); names = YAPPairTerm(TermNil); } YAPQuery::YAPQuery(YAPPredicate p, YAPTerm ts[]) : YAPPredicate(p.ap) { BACKUP_MACHINE_REGS(); try { arity_t arity = p.ap->ArityOfPE; if (arity) { goal = YAPApplTerm(YAPFunctor(p.ap->FunctorOfPred), ts).term(); for (arity_t i = 0; i < arity; i++) XREGS[i + 1] = ts[i].term(); openQuery(); } else { goal = YAPAtomTerm((Atom)(p.ap->FunctorOfPred)); openQuery(); } names = TermNil; } catch (...) { } RECOVER_MACHINE_REGS(); } bool YAPQuery::next() { CACHE_REGS bool result = false; sigjmp_buf buf, *oldp = LOCAL_RestartEnv; e = nullptr; BACKUP_MACHINE_REGS(); if (!q_open) return false; LOCAL_RestartEnv = &buf; // don't forget, on success these guys may create slots __android_log_print(ANDROID_LOG_INFO, "YAPDroid", "exec "); if (q_state == 0) { result = (bool)YAP_EnterGoal(ap, nullptr, &q_h); } else { LOCAL_AllowRestart = q_open; result = (bool)YAP_RetryGoal(&q_h); } q_state = 1; __android_log_print(ANDROID_LOG_INFO, "YAPDroid", "out %d", result); YAP_LeaveGoal(result, &q_h); Yap_CloseHandles(q_handles); q_open = false; YAPCatchError(); RECOVER_MACHINE_REGS(); LOCAL_RestartEnv = oldp; return result; } PredEntry *YAPQuery::rewriteUndefQuery() { ARG1 = goal.term(); goal = YAPApplTerm(FunctorMetaCall, &ARG1); return ap = PredCall; } PredEntry *YAPEngine::rewriteUndefEngineQuery(PredEntry *a, Term &tgoal, Term mod) { Term ts[2]; ts[0] = mod; ts[1] = tgoal; ARG1 = tgoal = Yap_MkApplTerm(FunctorModule, 2, ts); // goal = YAPTerm(Yap_MkApplTerm(FunctorMetaCall, 1, &ARG1)); return PredCall; // return YAPApplTerm(FunctorUndefinedQuery, ts); } void YAPQuery::cut() { CACHE_REGS BACKUP_MACHINE_REGS(); if (!q_open || q_state == 0) return; YAP_LeaveGoal(true, &q_h); q_open = false; // LOCAL_execution = this; RECOVER_MACHINE_REGS(); } bool YAPQuery::deterministic() { CACHE_REGS BACKUP_MACHINE_REGS(); if (!q_open || q_state == 0) return false; choiceptr myB = (choiceptr)(LCL0 - q_h.b); return (B >= myB); RECOVER_MACHINE_REGS(); } YAPTerm YAPQuery::getTerm(yhandle_t t) { return YAPTerm(t); } void YAPQuery::close() { CACHE_REGS RECOVER_MACHINE_REGS(); Yap_ResetException(worker_id); /* need to implement backtracking here */ if (q_open != true || q_state == 0) { RECOVER_MACHINE_REGS(); return; } YAP_LeaveGoal(false, &q_h); q_open = 0; Yap_CloseHandles(q_handles); // LOCAL_execution = this; RECOVER_MACHINE_REGS(); } #if __ANDROID__ #include #include JNIEnv *Yap_jenv; extern JNIEXPORT jint JNICALL JNI_MySQLOnLoad(JavaVM *vm, void *reserved); JNIEXPORT jint JNICALL JNI_MySQLOnLoad(JavaVM *vm, void *reserved) { JNIEnv *env; if (vm->GetEnv(reinterpret_cast(&env), JNI_VERSION_1_6) != JNI_OK) { return -1; } Yap_jenv = env; return JNI_VERSION_1_6; } char *Yap_AndroidBufp; static size_t Yap_AndroidMax, Yap_AndroidSz; extern void (*Yap_DisplayWithJava)(int c); static YAPCallback *cb = new YAPCallback(); void Yap_displayWithJava(int c) { char *ptr = Yap_AndroidBufp; if (!ptr) ptr = Yap_AndroidBufp = (char *)malloc(Yap_AndroidSz); ptr[Yap_AndroidSz++] = c; if (Yap_AndroidMax - 1 == Yap_AndroidSz) { if (Yap_AndroidMax < 32 * 1024) { Yap_AndroidMax *= 2; } else { Yap_AndroidMax += 32 * 1024; } Yap_AndroidBufp = (char *)realloc(ptr, Yap_AndroidMax); } Yap_AndroidBufp[Yap_AndroidSz] = '\0'; if (c == '\n') { Yap_AndroidBufp[Yap_AndroidSz] = '\0'; cb->run(Yap_AndroidBufp); Yap_AndroidSz = 0; } } #endif void YAPEngine::doInit(YAP_file_type_t BootMode, YAPEngineArgs *engineArgs) { if (BootMode == YAP_FOUND_BOOT_ERROR) { std::cerr << "Exception received by " << __func__ << "( " << "while booting" << ").\n Forwarded...\n\n"; return; } YAP_Init(engineArgs); /* Begin preprocessor code */ /* live */ // yerror = throw YAPError( SOURCE(), ); #if YAP_PYTHON do_init_python(); #endif // std::string s = "initialize_prolog"; // YAPPredicate p = YAPPredicate(MkAtomTerm(Yap_LookupAtom(s.c_str()))); // YAPQuery initq = YAPQuery(YAPPredicate(p), nullptr); // if (initq.next()) { // initq.cut(); // } CurrentModule = TermUser; } YAPEngine::YAPEngine(int argc, char *argv[], YAPCallback *cb) : _callback(0) { // a single engine can be active YAP_file_type_t BootMode; engine_args = new YAPEngineArgs(); BootMode = YAP_parse_yap_arguments(argc, argv, engine_args); // delYAPCallback()b // if (cb) // setYAPCallback(cb); doInit(BootMode, engine_args); } YAPPredicate::YAPPredicate(YAPAtom at) { CACHE_REGS ap = RepPredProp(PredPropByAtom(at.a, Yap_CurrentModule())); } YAPPredicate::YAPPredicate(YAPAtom at, uintptr_t arity) { CACHE_REGS if (arity) { Functor f = Yap_MkFunctor(at.a, arity); ap = RepPredProp(PredPropByFunc(f, Yap_CurrentModule())); } else { ap = RepPredProp(PredPropByAtom(at.a, Yap_CurrentModule())); } } /// auxiliary routine to find a predicate in the current module. PredEntry *YAPPredicate::getPred(YAPTerm &tt, CELL *&outp) { CACHE_REGS Term m = Yap_CurrentModule(), t = tt.term(); t = Yap_StripModule(t, &m); if (IsVarTerm(t) || IsNumTerm(t)) { if (IsVarTerm(t)) throw YAPError(SOURCE(), INSTANTIATION_ERROR, tt.term(), 0); else if (IsNumTerm(t)) throw YAPError(SOURCE(), TYPE_ERROR_CALLABLE, tt.term(), 0); } tt.put(t); if (IsAtomTerm(t)) { ap = RepPredProp(PredPropByAtom(AtomOfTerm(t), m)); outp = (Term *)NULL; return ap; } else if (IsPairTerm(t)) { Term ts[2]; Functor FunctorConsult = Yap_MkFunctor(Yap_LookupAtom("consult"), 1); ts[1] = t; ts[0] = m; t = Yap_MkApplTerm(FunctorModule, 2, ts); t = Yap_MkApplTerm(FunctorConsult, 1, &t); tt.put(t); outp = RepAppl(t) + 1; } Functor f = FunctorOfTerm(t); if (IsExtensionFunctor(f)) { throw YAPError(SOURCE(), TYPE_ERROR_CALLABLE, t, 0); } else { ap = RepPredProp(PredPropByFunc(f, m)); outp = RepAppl(t) + 1; } return ap; } bool YAPPrologPredicate::assertClause(YAPTerm cl, bool last, YAPTerm source) { CACHE_REGS RECOVER_MACHINE_REGS(); Term tt = cl.gt(); Term sourcet; Term ntt = cl.gt(); if (source.initialized()) sourcet = source.gt(); else sourcet = TermZERO; yamop *codeaddr = Yap_cclause(tt, ap->ArityOfPE, Yap_CurrentModule(), sourcet); /* vsc: give the number of arguments to cclause in case there is overflow */ if (LOCAL_ErrorMessage) { RECOVER_MACHINE_REGS(); return false; } Term *tref = &ntt; if (Yap_addclause(ntt, codeaddr, (last ? TermAssertz : TermAsserta), Yap_CurrentModule(), tref)) { RECOVER_MACHINE_REGS(); } return tref; } bool YAPPrologPredicate::assertFact(YAPTerm *cl, bool last) { CACHE_REGS arity_t i; RECOVER_MACHINE_REGS(); Term tt = AbsAppl(HR); *HR++ = (CELL)(ap->FunctorOfPred); for (i = 0; i < ap->ArityOfPE; i++, cl++) *HR++ = cl->gt(); yamop *codeaddr = Yap_cclause(tt, ap->ArityOfPE, Yap_CurrentModule(), tt); /* vsc: give the number of arguments to cclause in case there is overflow */ if (LOCAL_ErrorMessage) { RECOVER_MACHINE_REGS(); return false; } Term *tref = &tt; if (Yap_addclause(tt, codeaddr, (last ? TermAssertz : TermAsserta), Yap_CurrentModule(), tref)) { RECOVER_MACHINE_REGS(); } return tref; } void *YAPPrologPredicate::retractClause(YAPTerm skeleton, bool all) { return 0; } std::string YAPError::text() { return "Error"; #if 0 std::stringstream s; s << ""; if (info->errorNo == YAP_NO_ERROR) return 0; if (info->errorFunction) { s += info->errorFile; s += ":"; sprintf(buf, "%ld", (long int)info->errorLine); s += buf; s += ":0 in C-code"; } return s; if (info->prologPredLine) { s += "\n"; s += info->prologPredFile; s += ":"; s << info->prologPredLine; // YAPIntegerTerm(info->prologPredLine).text(); s += ":0 "; s += info->prologPredModule; s += ":"; s += (info->prologPredName); s += "/"; s << info->prologPredArity; } s += " error "; if (info->classAsText == nullptr) info->classAsText = Yap_errorClassName(info->errorClass); if (info->classAsText != nullptr) s += info->classAsText; s += "."; if (info->errorAsText == nullptr) info->errorAsText = Yap_errorName(info->errorNo); if (info->errorAsText != nullptr) s += info->errorAsText; s += ".\n"; // printf("%s\n", s.c_str()); return s.c_str(); #endif } void YAPEngine::reSet() { /* ignore flags for now */ BACKUP_MACHINE_REGS(); Yap_RebootHandles(worker_id); while (B && B->cp_b) B = B->cp_b; if (B) { P = FAILCODE; Yap_exec_absmi(true, YAP_EXEC_ABSMI); /* recover stack space */ HR = B->cp_h; TR = B->cp_tr; #ifdef DEPTH_LIMIT DEPTH = B->cp_depth; #endif /* DEPTH_LIMIT */ YENV = ENV = B->cp_env; } RECOVER_MACHINE_REGS(); } Term YAPEngine::top_level(std::string s) { /// parse string s and make term with var names /// available. Term tp; ARG1 = YAP_ReadBuffer(s.data(), &tp); ARG2 = tp; ARG3 = MkVarTerm(); if (ARG1 == 0) throw YAPError(SOURCE(), SYNTAX_ERROR, ARG1, "in input query"); YAPPredicate p = YAPPredicate(YAP_TopGoal()); YAPQuery *Q = new YAPQuery(p, 0); Term ts[2]; ts[0] = MkAddressTerm(Q); if (Q->next()) { ts[1] = ARG3; } else { ts[1] = TermNil; } return YAP_MkApplTerm(YAP_MkFunctor(YAP_LookupAtom("t"), 2), 2, ts); } Term YAPEngine::next_answer(YAPQuery *&Q) { /// parse string s and make term with var names /// available. Term ts[2]; ts[0] = MkAddressTerm(Q); if (Q->next()) { ts[1] = ARG3; } else { ts[1] = TermNil; } return YAP_MkApplTerm(YAP_MkFunctor(YAP_LookupAtom("t"), 2), 2, ts); }