262 lines
8.9 KiB
C++
262 lines
8.9 KiB
C++
#ifndef YAPT_HH
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#define YAPT_HH 1
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class YAPAtomTerm;
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/**
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* @brief Generic Prolog Term
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*/
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class 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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protected:
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yhandle_t t; /// handle to term, equivalent to term_t
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void mk(Term t0); /// internal method to convert from term to handle
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Term gt(); /// get handle and obtain term
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public:
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virtual ~YAPTerm() {};
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YAPTerm(Term tn) { mk( tn ); } /// private method to convert from Term (internal YAP representation) to YAPTerm
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// do nothing constructor
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YAPTerm() { mk(TermNil); }
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/// integer to term
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YAPTerm(intptr_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) { Term tp ; mk( YAP_ReadBuffer(s,&tp) ); }
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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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YAPTerm deepCopy();
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inline Term term() { return gt(); } /// from YAPTerm to Term (internal YAP representation)
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//const YAPTerm *vars();
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/// this term is == to t1
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bool exactlyEqual(YAPTerm t1);
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bool unify(YAPTerm t1); /// t = t1
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bool unifiable(YAPTerm t1); /// we can unify t and t1
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bool variant(YAPTerm t1); /// t =@= t1, the two terms are equal up to variable renaming
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intptr_t hashTerm(size_t sz, size_t depth, bool variant); /// term hash,
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virtual bool isVar() { return IsVarTerm( gt() ); } /// type check for unbound
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virtual bool isAtom() { return IsAtomTerm( gt() ); } /// type check for atom
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virtual bool isInteger() { return IsIntegerTerm( gt() ); } /// type check for integer
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virtual bool isFloat() { return IsFloatTerm( gt() ); } /// type check for floating-point
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virtual bool isString() { return IsStringTerm( gt() ); } /// type check for a string " ... "
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virtual bool isCompound() { return !(IsVarTerm( gt() ) || IsNumTerm( gt() )); } /// 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...arity
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inline YAPTerm getArg(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))
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tf = YAPTerm(ArgOfTerm(i, t0));
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else if (IsPairTerm(t0)) {
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if (i==1)
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tf = YAPTerm(HeadOfTerm(t0));
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else if (i==2)
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tf = YAPTerm(TailOfTerm(t0));
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} else {
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tf = YAPTerm((Term)0);
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}
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RECOVER_MACHINE_REGS();
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REGS_LOG( "after getArg H= %p, i=%d", HR, tf.gt()) ;
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return tf;
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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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};
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/**
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* @brief Variable Term
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*/
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class YAPVarTerm: public YAPTerm {
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YAPVarTerm(Term t) { if (IsVarTerm(t)) mk( t ); }
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public:
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/// constructor
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YAPVarTerm();
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/// get the internal representation
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CELL *getVar() { return VarOfTerm( gt() ); }
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/// is the variable bound to another one
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bool unbound() { return IsUnboundVar(VarOfTerm( gt() )); }
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virtual bool isVar() { return true; } /// 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 false; } /// is a primitive term
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virtual bool isAppl() { return false; } /// 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 false; } /// term is ground
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virtual bool isList() { return false; } /// term is a list
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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 YAPAtomTerm: public YAPTerm {
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friend class YAPModule;
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// Constructor: receives a C-atom;
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YAPAtomTerm(Atom a) { mk( MkAtomTerm(a) ); }
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YAPAtomTerm(Term t): YAPTerm(t) { IsAtomTerm(t); }
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// Getter for Prolog atom
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Term getTerm() { return t; }
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public:
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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 ISO-LATIN1 codes;
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YAPAtomTerm(char *s) ;
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// Constructor: receives a sequence of up to n ISO-LATIN1 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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virtual bool isVar() { return false; } /// type check for unbound
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virtual bool isAtom() { return true; } /// 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 false; } /// is a primitive term
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virtual bool isAppl() { return false; } /// 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 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 AtomOfTerm( gt() )->StrOfAE; }
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};
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/**
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* @brief Compound Term
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*/
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class YAPApplTerm: public YAPTerm {
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friend class YAPTerm;
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YAPApplTerm(Term t0) { mk(t0); }
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public:
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~YAPApplTerm() { }
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YAPApplTerm(YAPFunctor f, YAPTerm ts[]);
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YAPApplTerm(YAPFunctor f);
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YAPFunctor getFunctor();
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YAPTerm getArg(int i);
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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 YAPPairTerm: public YAPTerm {
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friend class YAPTerm;
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YAPPairTerm(Term t0) { if (IsPairTerm(t0)) mk( t0 ); else mk(0); }
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public:
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YAPPairTerm(YAPTerm hd, YAPTerm tl);
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YAPPairTerm();
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YAPTerm getHead() { return YAPTerm(HeadOfTerm( gt() )); }
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YAPTerm getTail() { return YAPTerm(TailOfTerm( gt() )); }
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};
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/**
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* @brief Number Term
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*/
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class 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 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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class 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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*/
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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() { Term *tailp; Term t1 = gt(); return Yap_SkipList(&t1, &tailp); }
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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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YAPTerm 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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YAPListTerm cdr()
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{
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Term to = gt();
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if (IsPairTerm( to ))
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return YAPListTerm(TailOfTerm( to ));
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else if ( to == TermNil)
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return YAPListTerm( );
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/* error */
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throw YAPError::YAP_TYPE_ERROR;
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}
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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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{ LOG( "II %x %x", gt(), TermNil) ; }
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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 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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#endif /* YAPT_HH */
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