jpl stuff
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LGPL/JPL/java/jpl/Compound.java
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324
LGPL/JPL/java/jpl/Compound.java
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//*****************************************************************************/
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// Project: jpl
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//
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// File: $Id: Compound.java,v 1.1 2004-08-27 20:27:56 vsc Exp $
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// Date: $Date: 2004-08-27 20:27:56 $
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// Author: Fred Dushin <fadushin@syr.edu>
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//
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//
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// Description:
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//
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//
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// -------------------------------------------------------------------------
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// Copyright (c) 2004 Paul Singleton
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// Copyright (c) 1998 Fred Dushin
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// All rights reserved.
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Library Public License
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// as published by the Free Software Foundation; either version 2
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// of the License, or (at your option) any later version.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Library Public License for more details.
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//*****************************************************************************/
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package jpl;
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import java.util.Map;
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import jpl.fli.IntHolder;
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import jpl.fli.Prolog;
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import jpl.fli.StringHolder;
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import jpl.fli.term_t;
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//----------------------------------------------------------------------/
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// Compound
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/**
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* A Compound represents a structured term,
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* comprising a functor and arguments (Terms).
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* Atom is a subclass of Compound, whose instances have zero arguments.
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* Direct instances of Compound must have one or more arguments
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* (it is an error to attempt to construct a Compound with zero args;
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* a JPLException will be thrown).
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* For example, this Java expression yields
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* a representation of the term f(a):
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* <pre>
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* new Compound( "f", new Term[] { new Atom("a") } )
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* </pre>
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* Note the use of the "anonymous array" notation to denote the arguments
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* (an anonymous array of Term).
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* <br>
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* Alternatively, construct the Term from Prolog source syntax:
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* <pre>
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* Util.textToTerm("f(a)")
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* </pre>
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* The <i>arity</i> of a Compound is the quantity of its arguments.
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* Once constructed, neither the name, arity nor any argument of a Compound can be altered.
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* <hr><i>
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* Copyright (C) 2004 Paul Singleton<p>
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* Copyright (C) 1998 Fred Dushin<p>
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Library Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.<p>
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Library Public License for more details.<p>
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* </i><hr>
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* @author Fred Dushin <fadushin@syr.edu>
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* @version $Revision: 1.1 $
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* @see jpl.Term
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* @see jpl.Atom
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*/
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public class Compound extends Term {
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//==================================================================/
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// Attributes
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//==================================================================/
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/**
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* the name of this Compound
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*/
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protected final String name;
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/**
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* the arguments of this Compound
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*/
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protected final Term[] args;
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//==================================================================/
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// Constructors
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//==================================================================/
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/**
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* Creates a Compound with name but no args (i.e. an Atom).
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*
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* @param name the name of this Compound
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* @param args the arguments of this Compound
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*/
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protected Compound(String name) {
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if (name == null) {
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throw new JPLException("jpl.Atom: cannot construct with null name");
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}
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this.name = name;
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this.args = new Term[] {
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};
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}
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/**
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* Creates a Compound with name and args.
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*
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* @param name the name of this Compound
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* @param args the arguments of this Compound
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*/
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public Compound(String name, Term[] args) {
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if (name == null) {
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throw new JPLException("jpl.Compound: cannot construct with null name");
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}
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if (args == null) {
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throw new JPLException("jpl.Compound: cannot construct with null args");
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}
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if (args.length == 0) {
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throw new JPLException("jpl.Compound: cannot construct with zero args");
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}
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this.name = name;
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this.args = args;
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}
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//==================================================================/
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// Methods (common)
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//==================================================================/
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/**
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* Returns the ith argument (counting from 1) of this Compound;
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* throws an ArrayIndexOutOfBoundsException if i is inappropriate.
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*
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* @return the ith argument (counting from 1) of this Compound
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*/
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public final Term arg(int i) {
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return args[i - 1];
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}
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/**
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* Tests whether this Compound's functor has (String) 'name' and 'arity'.
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*
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* @return whether this Compound's functor has (String) 'name' and 'arity'
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*/
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public final boolean hasFunctor(String name, int arity) {
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return name.equals(name) && arity == args.length;
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}
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/**
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* Returns the name (unquoted) of this Compound.
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*
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* @return the name (unquoted) of this Compound
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*/
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public final String name() {
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return name;
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}
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/**
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* Returns the arity (1+) of this Compound.
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*
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* @return the arity (1+) of this Compound
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*/
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public final int arity() {
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return args.length;
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}
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/**
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* Returns a prefix functional representation of a Compound of the form name(arg1,...),
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* where each argument is represented according to its toString() method.
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* <br>
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* NB 'name' should be quoted iff necessary, and Term.toString(Term[]) is not
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* really a Term method, more a utility...
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*
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* @return string representation of an Compound
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*/
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public String toString() {
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return quotedName() + (args.length > 0 ? "(" + Term.toString(args) + ")" : "");
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}
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/**
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* Two Compounds are equal if they are identical (same object) or their names and arities are equal and their
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* respective arguments are equal.
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*
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* @param obj the Object to compare (not necessarily another Compound)
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* @return true if the Object satisfies the above condition
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*/
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public final boolean equals(Object obj) {
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return (this == obj || (obj instanceof Compound && name.equals(((Compound) obj).name) && Term.terms_equals(args, ((Compound) obj).args)));
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}
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public int type() {
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return Prolog.COMPOUND;
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}
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public String typeName(){
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return "Compound";
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}
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//==================================================================/
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// Methods (protected)
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//==================================================================/
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/**
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* Returns a quoted (iff necessary) form of the Atom's name, as understood by Prolog read/1
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*
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* @return a quoted form of the Atom's name, as understood by Prolog read/1
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*/
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protected String quotedName() {
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return ((Atom) (new Query(new Compound("sformat", new Term[] { new Variable("S"), new Atom("~q"), new Compound(".", new Term[] { new Atom(this.name), new Atom("[]")})
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})))
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.oneSolution()
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.get(
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"S")).name;
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}
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//==================================================================/
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// Methods (deprecated)
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//==================================================================/
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/**
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* Returns the arguments of this Compound.
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*
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* @return the arguments of this Compound
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* @deprecated
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*/
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public final Term[] args() {
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return args;
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}
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/**
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* Returns the ith argument (counting from 0) of this Compound.
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*
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* @return the ith argument (counting from 0) of this Compound
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* @deprecated
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*/
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public final Term arg0(int i) {
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return args[i];
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}
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/**
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* Returns a debug-friendly representation of a Compound.
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*
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* @return a debug-friendly representation of a Compound
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* @deprecated
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*/
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public String debugString() {
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return "(Compound " + name + " " + Term.debugString(args) + ")";
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}
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//==================================================================/
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// Converting JPL Terms to Prolog terms
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//==================================================================/
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/**
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* To put a Compound in a term, we create a sequence of term_t
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* references from the Term.terms_to_term_ts() method, and then
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* use the Prolog.cons_functor_v() method to create a Prolog compound
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* term.
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*
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* @param varnames_to_vars A Map from variable names to Prolog variables
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* @param term A (previously created) term_t which is to be
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* set to a Prolog term corresponding to the Term subtype
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* (Atom, Variable, Compound, etc.) on which the method is invoked.
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*/
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protected final void put(Map varnames_to_vars, term_t term) {
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Prolog.cons_functor_v(term, Prolog.new_functor(Prolog.new_atom(name), args.length), Term.putTerms(varnames_to_vars, args));
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}
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//==================================================================/
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// Converting Prolog terms to JPL Terms
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//==================================================================/
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/**
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* Converts the Prolog term in term_t (known to be a compound) to a JPL Compound.
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* In this case, we create a list of Terms by calling Term.getTerm for each
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* term_t reference we get from Prolog.get_arg
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* (Not sure why we couldn't get a sequence from there, but...).<p>
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*
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* @param varnames_to_vars A Map from variable names to Prolog variables
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* @param term The Prolog term to convert
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* @return A new Compound
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*/
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protected static Term getTerm(Map varnames_to_vars, term_t term) {
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// we need holders to get the term's name and arity back from the FLI:
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StringHolder name_holder = new StringHolder();
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IntHolder arity_holder = new IntHolder();
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Prolog.get_name_arity(term, name_holder, arity_holder); // assume it succeeds
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Term args[] = new Term[arity_holder.value];
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for (int i = 1; i <= arity_holder.value; i++) {
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term_t termi = Prolog.new_term_ref();
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Prolog.get_arg(i, term, termi);
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args[i - 1] = Term.getTerm(varnames_to_vars, termi);
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}
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return new Compound(name_holder.value, args);
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}
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//==================================================================/
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// Computing Substitutions
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//==================================================================/
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/**
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* Nothing needs to be done except to pass the buck to this Compound's args.
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*
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* @param varnames_to_Terms A Map from variable names to JPL Terms
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* @param vars_to_Vars A Map from Prolog variables to JPL Variables
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*/
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protected final void getSubst(Map varnames_to_Terms, Map vars_to_Vars) {
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Term.getSubsts(varnames_to_Terms, vars_to_Vars, args);
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}
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}
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