461 lines
11 KiB
C++
461 lines
11 KiB
C++
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/**
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* @file yapq.hh
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*
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* @defgroup yap-cplus-query-handling Query Handling in the YAP interface.
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* @brief Engine and Query Management
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*
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* @ingroup yap-cplus-interface
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*
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* @{
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*
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* These classes wrap engine and query. An engine is an environment where we can rum
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* Prolog, that is, where we can run queries.
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*
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* Also, supports callbacks and engine configuration.
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*
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*/
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#ifndef YAPQ_HH
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#define YAPQ_HH 1
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class X_API YAPPredicate;
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/**
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Queries and engines
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*/
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/**
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* @brief Queries
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*
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* interface to a YAP Query;
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* uses an SWI-like status info internally.
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*/
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class X_API YAPQuery : public YAPPredicate
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{
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bool q_open;
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int q_state;
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yhandle_t q_g, q_handles;
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struct yami *q_p, *q_cp;
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sigjmp_buf q_env;
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int q_flags;
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YAP_dogoalinfo q_h;
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YAPQuery *oq;
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YAPPairTerm names;
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YAPTerm goal;
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// temporaries
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Term tnames, tgoal ;
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inline void setNext() { // oq = LOCAL_execution;
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// LOCAL_execution = this;
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q_open = true;
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q_state = 0;
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q_flags = true; // PL_Q_PASS_EXCEPTION;
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q_p = P;
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q_cp = CP;
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// make sure this is safe
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q_handles = LOCAL_CurSlot;
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};
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void openQuery( Term *ts);
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PredEntry *rewriteUndefQuery();
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public:
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YAPQuery() {
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goal = TermTrue;
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openQuery( nullptr);
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};
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/// main constructor, uses a predicate and an array of terms
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///
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/// It is given a YAPPredicate _p_ , and an array of terms that must have at
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/// least
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/// the same arity as the functor.
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YAPQuery(YAPPredicate p, YAPTerm t[]);
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/// full constructor,
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///
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///
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/// It is given a functor, module, and an array of terms that must have at
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/// least
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/// the same arity as the functor.
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YAPQuery(YAPFunctor f, YAPTerm mod, YAPTerm t[]);
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/// functor/term constructor,
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///
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/// It is given a functor, and an array of terms that must have at least
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/// the same arity as the functor. Works within the current module.
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//YAPQuery(YAPFunctor f, YAPTerm t[]);
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/// string constructor without varnames
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///
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/// It is given a string, calls the parser and obtains a Prolog term that
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/// should be a callable
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/// goal.
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inline YAPQuery(const char *s) : YAPPredicate(s, tgoal, tnames)
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{
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CELL *qt = nullptr;
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__android_log_print(ANDROID_LOG_INFO, "YAPDroid", "got game %ld",
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LOCAL_CurSlot);
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if (!ap)
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return;
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__android_log_print(ANDROID_LOG_INFO, "YAPDroid", "%s", vnames.text());
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goal = YAPTerm(tgoal);
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if (IsPairTerm(tgoal)) {
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qt = RepPair(tgoal);
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tgoal = Yap_MkApplTerm(Yap_MkFunctor(Yap_LookupAtom("consult"), 1),1,qt);
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} else if (IsApplTerm(tgoal)) {
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Functor f = FunctorOfTerm(tgoal);
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if (!IsExtensionFunctor(f)) {
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qt = RepAppl(tgoal)+1;
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}
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}
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names = YAPPairTerm(tnames);
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openQuery(qt);
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};
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// inline YAPQuery() : YAPPredicate(s, tgoal, tnames)
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// {
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// __android_log_print(ANDROID_LOG_INFO, "YAPDroid", "got game %ld",
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// LOCAL_CurSlot);
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// if (!ap)
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// return;
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// __android_log_print(ANDROID_LOG_INFO, "YAPDroid", "%s", vnames.text());
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// goal = YAPTerm(tgoal);
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// names = YAPPairTerm(tnames);
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// openQuery(tgoal);
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// };
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/// string constructor with just an atom
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///
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/// It i;
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///};
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YAPQuery(YAPTerm t);
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/// set flags for query execution, currently only for exception handling
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void setFlag(int flag) { q_flags |= flag; }
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/// reset flags for query execution, currently only for exception handling
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void resetFlag(int flag) { q_flags &= ~flag; }
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/// first query
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///
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/// actually implemented by calling the next();
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inline bool first() { return next(); }
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/// ask for the next solution of the current query
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/// same call for every solution
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bool next();
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/// does this query have open choice-points?
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/// or is it deterministic?
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bool deterministic();
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/// represent the top-goal
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const char *text();
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/// remove alternatives in the current search space, and finish the current
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/// query
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/// finish the current query: undo all bindings.
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void close();
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/// query variables.
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void cut();
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Term namedVars() {return names.term(); };
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/// query variables, but copied out
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std::vector<Term> namedVarsVector() {
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return names.listToArray(); };
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/// convert a ref to a binding.
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YAPTerm getTerm(yhandle_t t);
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/// simple YAP Query;
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/// just calls YAP and reports success or failure, Useful when we just
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/// want things done, eg YAPCommand("load_files(library(lists), )")
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inline bool command()
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{
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bool rc = next();
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close();
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return rc;
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};
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};
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// Java support
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/// This class implements a callback Prolog-side. It will be inherited by the
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/// Java or Python
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/// class that actually implements the callback.
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class X_API YAPCallback
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{
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public:
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virtual ~YAPCallback() {}
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virtual void run() { LOG("callback"); }
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virtual void run(char *s) {}
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};
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/// @brief Setup all arguments to a new engine
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class X_API YAPEngineArgs {
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public:
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YAP_init_args init_args;
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inline void setEmbedded( bool fl )
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{
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init_args.Embedded = fl;
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};
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inline bool getEmbedded( )
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{
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return init_args.Embedded;
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};
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inline void setStackSize( bool fl )
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{
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init_args.StackSize = fl;
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};
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inline bool getStackSize( )
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{
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return init_args.StackSize;
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};
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inline void setTrailSize( bool fl )
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{
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init_args.TrailSize = fl;
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};
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inline bool getTrailSize( )
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{
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return init_args.TrailSize;
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};
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inline bool getMStackSize( )
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{
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return init_args.StackSize;
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};
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inline void setMaxTrailSize( bool fl )
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{
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init_args.MaxTrailSize = fl;
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};
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inline bool getMaxTrailSize( )
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{
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return init_args.MaxTrailSize;
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};
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inline void setYapLibDir( const char * fl )
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{
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init_args.YapLibDir = (const char *)malloc(strlen(fl)+1);
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strcpy((char *)init_args.YapLibDir, fl);
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};
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inline const char * getYapLibDir( )
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{
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return init_args.YapLibDir;
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};
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inline void setYapShareDir( const char * fl )
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{
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init_args.YapShareDir = (const char *)malloc(strlen(fl)+1);
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strcpy((char *)init_args.YapShareDir, fl);
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};
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inline const char * getYapShareDir( )
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{
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return init_args.YapShareDir;
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};
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inline void setSavedState( const char * fl )
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{
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init_args.SavedState = (const char *)malloc(strlen(fl)+1);
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strcpy((char *)init_args.SavedState, fl);
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};
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inline const char * getSavedState( )
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{
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return init_args.SavedState;
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};
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inline void setYapPrologBootFile( const char * fl )
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{
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init_args.YapPrologBootFile = (const char *)malloc(strlen(fl)+1);
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strcpy((char *)init_args.YapPrologBootFile, fl);
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};
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inline const char * getYapPrologBootFile( )
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{
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return init_args.YapPrologBootFile;
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};
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inline void setYapPrologGoal( const char * fl )
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{
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init_args.YapPrologGoal = fl;
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};
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inline const char * getYapPrologGoal( )
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{
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return init_args.YapPrologGoal;
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};
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inline void setYapPrologTopLevelGoal( const char * fl )
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{
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init_args.YapPrologTopLevelGoal = fl;
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};
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inline const char * getYapPrologTopLevelGoal( )
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{
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return init_args.YapPrologTopLevelGoal;
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};
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inline void setHaltAfterConsult( bool fl )
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{
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init_args.HaltAfterConsult = fl;
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};
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inline bool getHaltAfterConsult( )
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{
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return init_args.HaltAfterConsult;
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};
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inline void setFastBoot( bool fl )
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{
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init_args.FastBoot = fl;
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};
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inline bool getFastBoot( )
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{
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return init_args.FastBoot;
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};
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inline void setArgc( int fl )
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{
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init_args.Argc = fl;
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};
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inline int getArgc( )
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{
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return init_args.Argc;
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};
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inline void setArgv( char ** fl )
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{
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init_args.Argv = fl;
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};
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inline char ** getArgv( )
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{
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return init_args.Argv;
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};
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YAPEngineArgs() {
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Yap_InitDefaults(&init_args, NULL, 0, NULL);
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#if YAP_PYTHON
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init_args.Embedded = true;
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python_in_python = Py_IsInitialized();
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#endif
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};
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};
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/**
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* @brief YAP Engine: takes care of the execution environment
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where we can go executing goals.
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*
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*
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*/
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class YAPEngine
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{
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private:
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YAPEngineArgs *engine_args;
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YAPCallback *_callback;
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YAPError yerror;
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void doInit(YAP_file_type_t BootMode);
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YAP_dogoalinfo q;
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PredEntry *rewriteUndefEngineQuery(PredEntry *ap, Term t, Term tmod);
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public :
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/// construct a new engine; may use a variable number of arguments
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YAPEngine(YAPEngineArgs *cargs)
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{
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engine_args = cargs;
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//doInit(cargs->init_args.boot_file_type);
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doInit(YAP_QLY);
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}; /// construct a new engine, including aaccess to callbacks
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/// construct a new engine using argc/argv list of arguments
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YAPEngine(int argc, char *argv[],
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YAPCallback *callback = (YAPCallback *)NULL);
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/// kill engine
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~YAPEngine() { delYAPCallback(); };
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/// remove current callback
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void delYAPCallback() { _callback = 0; };
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/// set a new callback
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void setYAPCallback(YAPCallback *cb)
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{
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delYAPCallback();
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_callback = cb;
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};
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/// execute the callback.
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////void run() { if (_callback) _callback.run(); }
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/// execute the callback with a text argument.
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void run(char *s)
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{
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if (_callback)
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_callback->run(s);
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}
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/// stop yap
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void close() { Yap_exit(0); }
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/// execute the callback with a text argument.
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bool hasError() { return LOCAL_Error_TYPE != YAP_NO_ERROR; }
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/// build a query on the engine
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YAPQuery *query(const char *s) { return new YAPQuery(s); };
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/// build a query from a term
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YAPQuery *query(YAPTerm t) { return new YAPQuery(t); };
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/// build a query from a Prolog term (internal)
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YAPQuery *qt(Term t) { return new YAPQuery(YAPTerm(t)); };
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/// current module for the engine
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YAPModule currentModule() { return YAPModule(); }
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/// given a handle, fetch a term from the engine
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inline YAPTerm getTerm(yhandle_t h) { return YAPTerm(h); }
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/// current directory for the engine
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bool call(YAPPredicate ap, YAPTerm ts[]);
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/// current directory for the engine
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bool goalt(YAPTerm Yt) { return Yt.term(); };
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/// current directory for the engine
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bool mgoal(Term t, Term tmod);
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/// current directory for the engine
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bool goal(Term t)
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{
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return mgoal(t, CurrentModule);
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}
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/// reset Prolog state
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void reSet();
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/// assune that there are no stack pointers, just release memory
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// for last execution
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void release();
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const char *currentDir()
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{
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char dir[1024];
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std::string s = Yap_getcwd(dir, 1024 - 1);
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return s.c_str();
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};
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/// report YAP version as a string
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const char *version()
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{
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std::string s = Yap_version();
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return s.c_str();
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};
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//> call a deterninistic predicate: the user will construct aterm of
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//> arity N-1. YAP adds an extra variable which will have the
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//> output.
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YAPTerm funCall(YAPTerm t) { return YAPTerm(fun(t.term())); };
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Term fun(Term t);
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Term fun(YAPTerm t) { return fun(t.term()); };
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//> set a StringFlag, usually a path
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//>
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bool setStringFlag(std::string arg, std::string path)
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{
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return setYapFlag(MkAtomTerm(Yap_LookupAtom(arg.data())), MkAtomTerm(Yap_LookupAtom(path.data())));
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};
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Term top_level( std::string s);
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Term next_answer(YAPQuery * &Q);
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};
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#endif /* YAPQ_HH */
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/// @}
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