543 lines
16 KiB
C++
543 lines
16 KiB
C++
/**
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* @file yapt.hh
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*/
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/**
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* @defgroup yap-cplus-term-handling Term Handling in the YAP interface.
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*
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* @{
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*
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* @ingroup yap-cplus-interface
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* @tableofcontents
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*
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*
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* These classes offer term construction and access. Terms are seens
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* as objects that inherit from a virtual class, Currently, all
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* terms must reside in the stack and may be moved around during
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* garbage collection. Term objects use an handle, in the SWI-Prolog style.
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*
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* Notice that terms are forcefully destroyed during backtracking.
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*
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*/
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#include <vector>
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#ifndef YAPT_HH
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#define YAPT_HH 1
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class YAPError;
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extern "C" {
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X_API extern Term YAP_MkCharPTerm(char *n);
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}
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/**
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* @brief Generic Prolog Term
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*/
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class X_API YAPTerm {
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friend class YAPPredicate;
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friend class YAPPrologPredicate;
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friend class YAPQuery;
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friend class YAPModule;
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friend class YAPModuleProp;
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friend class YAPApplTerm;
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friend class YAPListTerm;
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protected:
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yhandle_t t; /// handle to term, equivalent to term_t
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public:
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Term gt() {
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CACHE_REGS
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// fprintf(stderr,"?%d,%lx,%p\n",t,LOCAL_HandleBase[t], HR);
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// Yap_DebugPlWriteln(LOCAL_HandleBase[t]);
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return Yap_GetFromSlot(t);
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};
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void mk(Term t0) {
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CACHE_REGS t = Yap_InitSlot(t0);
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// fprintf(stderr,"+%d,%lx,%p,%p",t,t0,HR,ASP); Yap_DebugPlWriteln(t0);
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};
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void put(Term t0) {
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Yap_PutInHandle(t, t0);
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// fprintf(stderr,"+%d,%lx,%p,%p",t,t0,HR,ASP); Yap_DebugPlWriteln(t0);
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};
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YAPTerm(Term tn) { mk(tn); };
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#ifdef SWIGPYTHON
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// YAPTerm(struct _object *inp) {
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// Term tinp = pythonToYAP(inp);
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// t = Yap_InitSlot(tinp);
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//}
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#endif
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/// private method to convert from Term (internal YAP representation) to
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/// YAPTerm
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// do nothing constructor
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YAPTerm() { t = 0; };
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// YAPTerm(yhandle_t i) { t = i; };
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/// pointer to term
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YAPTerm(void *ptr);
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/// parse string s and construct a term.
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YAPTerm(char *s) {
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Term tp = 0;
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mk(YAP_ReadBuffer(s, &tp));
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}
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#if 1
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/// Term destructor, tries to recover slot
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virtual ~YAPTerm(){
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// fprintf(stderr,"-%d,%lx,%p ",t,LOCAL_HandleBase[t] ,HR);
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/* if (!t)
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return;
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// Yap_DebugPlWriteln(LOCAL_HandleBase[t]);
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LOCAL_HandleBase[t] = TermFreeTerm;
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while (LOCAL_HandleBase[LOCAL_CurSlot - 1] == TermFreeTerm) {
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LOCAL_CurSlot--;
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}
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*/
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};
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#endif
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/// construct a term out of an integer (if you know object type use
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/// YAPIntegerTerm)
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/// YAPTerm(long int num) { mk(MkIntegerTerm(num)); }
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/// construct a term out of an integer (if you know object type use
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/// YAPIntegerTerm)
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/// YAPTerm(double num) { mk(MkFloatTerm(num)); }
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/// parse string s and construct a term.
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/// YAPTerm(YAPFunctor f, YAPTerm ts[]);
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/// extract the tag of a term, after dereferencing.
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YAP_tag_t tag();
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/// copy the term ( term copy )
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Term deepCopy();
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/// numbervars ( int start, bool process=false )
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intptr_t numberVars(intptr_t start, bool skip_singletons = false);
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inline Term term() {
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return Deref(gt());
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} /// from YAPTerm to Term (internal YAP representation)
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YAPTerm arg(int i) {
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BACKUP_MACHINE_REGS();
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Term t0 = gt();
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YAPTerm tf;
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if (!IsApplTerm(t0) && !IsPairTerm(t))
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return (Term)0;
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tf = YAPTerm(ArgOfTerm(i, t0));
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RECOVER_MACHINE_REGS();
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return tf;
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};
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inline void bind(Term b) { LOCAL_HandleBase[t] = b; }
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inline void bind(YAPTerm *b) { LOCAL_HandleBase[t] = b->term(); }
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/// from YAPTerm to Term (internal YAP representation)
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/// fetch a sub-term
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Term &operator[](arity_t n);
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// const YAPTerm *vars();
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/// this term is == to t1
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virtual bool exactlyEqual(YAPTerm t1) {
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bool out;
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BACKUP_MACHINE_REGS();
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out = Yap_eq(gt(), t1.term());
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RECOVER_MACHINE_REGS();
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return out;
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};
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/// t = t1
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virtual bool unify(YAPTerm t1) {
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intptr_t out;
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BACKUP_MACHINE_REGS();
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out = Yap_unify(gt(), t1.term());
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RECOVER_MACHINE_REGS();
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return out;
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};
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/// we can unify t and t1
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virtual bool unifiable(YAPTerm t1) {
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bool out;
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BACKUP_MACHINE_REGS();
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out = Yap_eq(gt(), t1.term());
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RECOVER_MACHINE_REGS();
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return out;
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};
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/// t =@= t1, the two terms are equal up to variable renamingvirtual bool
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/// variant(
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inline virtual YAP_Term variant(YAPTerm t1) {
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intptr_t out;
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BACKUP_MACHINE_REGS();
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out = Yap_Variant(gt(), t1.term());
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RECOVER_MACHINE_REGS();
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return out;
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};
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virtual intptr_t hashTerm(size_t sz, size_t depth, bool variant) {
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intptr_t out;
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BACKUP_MACHINE_REGS();
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out = Yap_TermHash(gt(), sz, depth, variant);
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RECOVER_MACHINE_REGS();
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return out;
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};
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/// term hash,
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virtual bool isVar() { return IsVarTerm(gt()); } /// type check for unound
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virtual bool isAtom() { return IsAtomTerm(gt()); } /// type check for atom
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virtual bool isInteger() {
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return IsIntegerTerm(gt());
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} /// type check for integer
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virtual bool isFloat() {
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return IsFloatTerm(gt());
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} /// type check for floating-point
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virtual bool isString() {
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return IsStringTerm(gt());
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} /// type check for a string " ... "
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virtual bool isCompound() {
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return !(IsVarTerm(gt()) || IsNumTerm(gt()));
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} /// is a primitive term
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virtual bool isAppl() { return IsApplTerm(gt()); } /// is a structured term
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virtual bool isPair() { return IsPairTerm(gt()); } /// is a pair term
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virtual bool isGround() { return Yap_IsGroundTerm(gt()); } /// term is ground
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virtual bool isList() { return Yap_IsListTerm(gt()); } /// term is a list
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/// extract the argument i of the term, where i in 1...arityvoid
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/// *Yap_RepStreamFromId(int sno)
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virtual Term getArg(arity_t i);
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/// extract the arity of the term
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/// variables have arity 0
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virtual inline arity_t arity() {
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Term t0 = gt();
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if (IsApplTerm(t0)) {
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Functor f = FunctorOfTerm(t0);
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if (IsExtensionFunctor(f))
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return 0;
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return ArityOfFunctor(f);
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} else if (IsPairTerm(t0)) {
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return 2;
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}
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return 0;
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}
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/// return a string with a textual representation of the term
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virtual const char *text() {
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CACHE_REGS
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char *os;
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BACKUP_MACHINE_REGS();
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if (!(os = Yap_TermToBuffer(Yap_GetFromSlot(t), Handle_vars_f))) {
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RECOVER_MACHINE_REGS();
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return 0;
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}
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RECOVER_MACHINE_REGS();
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return os;
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};
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/// return a handle to the term
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inline yhandle_t handle() { return t; };
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/// whether the term actually refers to a live object
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inline bool initialized() { return t != 0; };
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};
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/**
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* @brief YAPFunctor represents Prolog functors Name/Arity
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*/
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class X_API YAPFunctor : public YAPProp {
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friend class YAPApplTerm;
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friend class YAPTerm;
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friend class YAPPredicate;
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friend class YAPQuery;
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Functor f;
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/// Constructor: receives Prolog functor and casts it to YAPFunctor
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///
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/// Notice that this is designed for internal use only.
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inline YAPFunctor(Functor ff) { f = ff; }
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public:
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/// Constructor: receives name as an atom, plus arity
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///
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/// This is the default method, and the most popular
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YAPFunctor(YAPAtom at, uintptr_t arity) { f = Yap_MkFunctor(at.a, arity); }
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/// Constructor: receives name as a string plus arity
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///
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/// Notice that this is designed for ISO-LATIN-1 right now
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/// Note: Python confuses the 3 constructors,
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/// use YAPFunctorFromString
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inline YAPFunctor(const char *s, uintptr_t arity, bool isutf8 = true) {
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f = Yap_MkFunctor(Yap_LookupAtom(s), arity);
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}
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/// Constructor: receives name as a wide string plus arity
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///
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/// Notice that this is designed for UNICODE right now
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///
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/// Note: Python confuses the 3 constructors,
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/// use YAPFunctorFromWideString
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inline YAPFunctor(const wchar_t *s, uintptr_t arity) {
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CACHE_REGS f = Yap_MkFunctor(UTF32ToAtom(s PASS_REGS), arity);
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}
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/// Getter: extract name of functor as an atom
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///
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/// this is for external usage.
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YAPAtom name(void) { return YAPAtom(NameOfFunctor(f)); }
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/// Getter: extract arity of functor as an unsigned integer
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///
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/// this is for external usage.
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uintptr_t arity(void) { return ArityOfFunctor(f); }
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};
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/**
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* @brief Compound Term
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*/
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class X_API YAPApplTerm : public YAPTerm {
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friend class YAPTerm;
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public:
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YAPApplTerm(Term t0) { mk(t0); }
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YAPApplTerm(Functor f, Term ts[]) {
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BACKUP_MACHINE_REGS();
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Term t0 = Yap_MkApplTerm(f, f->ArityOfFE, ts);
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mk(t0);
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RECOVER_MACHINE_REGS();
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};
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YAPApplTerm(YAPFunctor f, YAPTerm ts[]);
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YAPApplTerm(const std::string s, unsigned int arity) {
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mk(Yap_MkNewApplTerm(Yap_MkFunctor(Yap_LookupAtom(s.c_str()), arity),
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arity));
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};
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YAPApplTerm(const std::string s, std::vector<Term> ts);
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YAPApplTerm(const std::string s, std::vector<YAPTerm> ts);
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YAPApplTerm(YAPFunctor f);
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inline Functor functor() { return FunctorOfTerm(gt()); }
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inline YAPFunctor getFunctor() { return YAPFunctor(FunctorOfTerm(gt())); }
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YAPApplTerm(const std::string f, YAPTerm a1);
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YAPApplTerm(const std::string f, YAPTerm a1, YAPTerm a2);
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YAPApplTerm(const std::string f, YAPTerm a1, YAPTerm a2, YAPTerm a3);
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YAPApplTerm(const std::string f, YAPTerm a1, YAPTerm a2, YAPTerm a3, YAPTerm a4);
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Term getArg(arity_t i) {
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BACKUP_MACHINE_REGS();
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Term t0 = gt();
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Term tf;
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tf = ArgOfTerm(i, t0);
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RECOVER_MACHINE_REGS();
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return tf;
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};
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void putArg(int i, Term targ) {
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// BACKUP_MACHINE_REGS();
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Term t0 = gt();
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RepAppl(t0)[i] = Deref(targ);
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// RECOVER_MACHINE_REGS();
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};
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void putArg(int i, YAPTerm t) {
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// BACKUP_MACHINE_REGS();
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Term t0 = gt();
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RepAppl(t0)[i] = t.term();
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// RECOVER_MACHINE_REGS();
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};
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virtual bool isVar() { return false; } /// type check for unbound
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virtual bool isAtom() { return false; } /// type check for atom
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virtual bool isInteger() { return false; } /// type check for integer
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virtual bool isFloat() { return false; } /// type check for floating-point
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virtual bool isString() { return false; } /// type check for a string " ... "
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virtual bool isCompound() { return true; } /// is a primitive term
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virtual bool isAppl() { return true; } /// is a structured term
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virtual bool isPair() { return false; } /// is a pair term
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virtual bool isGround() { return true; } /// term is ground
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virtual bool isList() { return false; } /// [] is a list
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};
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/**
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* @brief List Constructor Term
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*/
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class X_API YAPPairTerm : public YAPTerm {
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friend class YAPTerm;
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public:
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YAPPairTerm(Term t0) {
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t0 = Deref(t0);
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if (IsPairTerm(t0) || t0 == TermNil)
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mk(t0);
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else
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Yap_ThrowError(TYPE_ERROR_LIST, t0, "YAPPairTerms");
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}
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YAPPairTerm(YAPTerm hd, YAPTerm tl);
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YAPPairTerm();
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Term getHead() { return (HeadOfTerm(gt())); }
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Term getTail() { return (TailOfTerm(gt())); }
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YAPTerm car() { return YAPTerm(HeadOfTerm(gt())); }
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bool nil() { return gt() == TermNil; }
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YAPPairTerm cdr() { return YAPPairTerm(TailOfTerm(gt())); }
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std::vector<Term> listToArray();
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};
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/**
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* @brief Number Term
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*/
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class X_API YAPNumberTerm : public YAPTerm {
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public:
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YAPNumberTerm(){};
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bool isTagged() { return IsIntTerm(gt()); }
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};
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/**
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* @brief Integer Term
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*/
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class X_API YAPIntegerTerm : public YAPNumberTerm {
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public:
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YAPIntegerTerm(intptr_t i);
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intptr_t getInteger() { return IntegerOfTerm(gt()); };
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};
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/**
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* @brief Floating Point Term
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*/
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class X_API YAPFloatTerm : public YAPNumberTerm {
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public:
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YAPFloatTerm(double dbl) { mk(MkFloatTerm(dbl)); };
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double getFl() { return FloatOfTerm(gt()); };
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};
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class X_API YAPListTerm : public YAPTerm {
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public:
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/// Create a list term out of a standard term. Check if a valid operation.
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///
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/// @param[in] the term
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YAPListTerm() { mk(TermNil); /* else type_error */ }
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/// Create an empty list term.
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///
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/// @param[in] the term
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YAPListTerm(Term t0) { mk(t0); /* else type_error */ }
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/// Create a list term out of an array of terms.
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///
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/// @param[in] the array of terms
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/// @param[in] the length of the array
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YAPListTerm(YAPTerm ts[], size_t n);
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// YAPListTerm( vector<YAPTerm> v );
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/// Return the number of elements in a list term.
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size_t length() {
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Term *tailp;
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Term t1 = gt();
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return Yap_SkipList(&t1, &tailp);
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}
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/// Extract the nth element.
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Term &operator[](size_t n);
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/// Extract the first element of a list.
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///
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/// @param[in] the list
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Term car();
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/// Extract the tail elements of a list.
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///
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/// @param[in] the list
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Term cdr();
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/// copy a list.
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///
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/// @param[in] the list
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Term dup();
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/// Check if the list is empty.
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///
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/// @param[in] the list
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inline bool nil() {
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return gt() == TermNil;
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}
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;
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};
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/**
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* @brief String Term
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*/
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class X_API YAPStringTerm : public YAPTerm {
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public:
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/// your standard constructor
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YAPStringTerm(char *s);
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/// use this one to construct length limited strings
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YAPStringTerm(char *s, size_t len);
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/// construct using wide chars
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YAPStringTerm(wchar_t *s);
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/// construct using length-limited wide chars
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YAPStringTerm(wchar_t *s, size_t len);
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const char *getString() { return StringOfTerm(gt()); }
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};
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/**
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* @brief Atom Term
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* Term Representation of an Atom
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*/
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class X_API YAPAtomTerm : public YAPTerm {
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friend class YAPModule;
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// Constructor: receives a C-atom;
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YAPAtomTerm(Term t) : YAPTerm(t) { IsAtomTerm(t); }
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public:
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YAPAtomTerm(Atom a) { mk(MkAtomTerm(a)); }
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//> Constructor: receives an atom;
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YAPAtomTerm(YAPAtom a) : YAPTerm() { mk(MkAtomTerm(a.a)); }
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//> Constructor: receives a sequence of UTF-8 codes;
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YAPAtomTerm(char s[]);
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// Constructor: receives a sequence of up to n UTF-8 codes;
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YAPAtomTerm(char *s, size_t len);
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// Constructor: receives a sequence of wchar_ts, whatever they may be;
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YAPAtomTerm(wchar_t *s);
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// Constructor: receives a sequence of n wchar_ts, whatever they may be;
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YAPAtomTerm(wchar_t *s, size_t len);
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// Constructor: receives a std::string;
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// YAPAtomTerm(std::string s) { mk(MkAtomTerm(Yap_LookupAtom(s.c_str())));
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// };
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bool isVar() { return false; } /// type check for unbound
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bool isAtom() { return true; } /// type check for atom
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bool isInteger() { return false; } /// type check for integer
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bool isFloat() { return false; } /// type check for floating-point
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bool isString() { return false; } /// type check for a string " ... "
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bool isCompound() { return false; } /// is a primitive term
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bool isAppl() { return false; } /// is a structured term
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bool isPair() { return false; } /// is a pair term
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virtual bool isGround() { return true; } /// term is ground
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virtual bool isList() { return gt() == TermNil; } /// [] is a list
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// Getter: outputs the atom;
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YAPAtom getAtom() { return YAPAtom(AtomOfTerm(gt())); }
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// Getter: outputs the name as a sequence of ISO-LATIN1 codes;
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|
const char *text() { return (const char *)AtomOfTerm(gt())->StrOfAE; }
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|
};
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|
#endif /* YAPT_HH */
|
|
|
|
/**
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|
* @brief Variable Term
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|
*/
|
|
class X_API YAPVarTerm : public YAPTerm {
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|
friend class YAPTerm;
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|
|
|
public:
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|
/// constructor
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|
YAPVarTerm() { mk(MkVarTerm()); };
|
|
/// get the internal representation
|
|
CELL *getVar() { return VarOfTerm(gt()); }
|
|
/// is the variable bound to another one
|
|
YAPVarTerm(Term t) {
|
|
if (IsVarTerm(t)) {
|
|
mk(t);
|
|
}
|
|
}
|
|
/// type check for unbound
|
|
bool unbound() { return IsUnboundVar(VarOfTerm(gt())); }
|
|
inline bool isVar() { return true; }
|
|
inline bool isAtom() { return false; } /// type check for atom
|
|
inline bool isInteger() { return false; } /// type check for integer
|
|
inline bool isFloat() { return false; } /// type check for floating-point
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|
inline bool isString() { return false; } /// type check for a string " ... "
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inline bool isCompound() { return false; } /// is a primitive term
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inline bool isAppl() { return false; } /// is a structured term
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inline bool isPair() { return false; } /// is a pair term
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|
inline bool isGround() { return false; } /// term is ground
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inline bool isList() { return false; } /// term is a list
|
|
};
|
|
|
|
/// @}
|