src/builtin/Base/PRED_java_declared_constructor0_2.java - prolog-cafe - Git at Google

 package jp.ac.kobe_u.cs.prolog.builtin;
 import  jp.ac.kobe_u.cs.prolog.lang.*;
 import java.lang.reflect.*;
 /**
  * <code>java_declared_constructor0/2</code>
  * @author Mutsunori Banbara (banbara@kobe-u.ac.jp)
  * @author Naoyuki Tamura (tamura@kobe-u.ac.jp)
  * @version 1.1
  */
 public class PRED_java_declared_constructor0_2 extends JavaPredicate {
     Term arg1, arg2;

     public PRED_java_declared_constructor0_2(Term a1, Term a2, Predicate cont) {
 	arg1 = a1;
 	arg2 = a2;
 	this.cont = cont;
     }
     public PRED_java_declared_constructor0_2() {}

     public void setArgument(Term[] args, Predicate cont){
 	arg1 = args[0];
 	arg2 = args[1];
 	this.cont = cont;
     }

     public int arity() { return 2; }

     public String toString() { return "java_declared_constructor0(" + arg1 + "," + arg2 + ")"; }

     public Predicate exec(Prolog engine) {
         engine.setB0();
 	Term a1, a2;
 	a1 = arg1;
 	a2 = arg2;

 	Class clazz = null;
 	Object instance = null;
 	int arity;
 	Constructor[] constrs = null;
 	Term[] pArgs = null;
 	Object[] jArgs = null;
 	Constructor c = null;

 	// 2nd. argument (unbound variable)
 	a2 = a2.dereference();
 	if (! a2.isVariable())
 	    throw new IllegalTypeException(this, 2, "variable", a2);
 	// 1st. argument (atom or callable term)
 	try {
 	    a1 = a1.dereference();
 	    if (a1.isVariable())
 		throw new PInstantiationException(this, 1);
 	    if (!a1.isSymbol() && !a1.isStructure())
 		throw new IllegalTypeException(this, 1, "callable", a1);
 	    if (a1.isSymbol()) { // No argument constructor
 		clazz = Class.forName(((SymbolTerm)a1).name());
 		c = clazz.getDeclaredConstructor();
 		if (c == null)
 		    throw new ExistenceException(this, 1, "constructor", a1, "");
 		c.setAccessible(true);
 		instance = c.newInstance();
 		if (! a2.unify(toPrologTerm(instance), engine.trail))
 		    return engine.fail();
 		return cont;
 	    }
 	    // Parameterized constructor
 	    clazz = Class.forName(((StructureTerm)a1).name());
 	    arity  = ((StructureTerm)a1).arity();
 	    constrs = clazz.getDeclaredConstructors();
 	    if (constrs.length == 0)
 		throw new ExistenceException(this, 1, "constructor", a1, "");
 	    pArgs  = ((StructureTerm)a1).args();
 	    jArgs  = new Object[arity];
 	    for (int i=0; i<arity; i++) {
 		pArgs[i] = pArgs[i].dereference();
 		if (! pArgs[i].isJavaObject())
 		    pArgs[i] = new JavaObjectTerm(pArgs[i]);
 		jArgs[i] = pArgs[i].toJava();
 	    }
 	    for (int i=0; i<constrs.length; i++) {
 		if (checkParameterTypes(constrs[i].getParameterTypes(), pArgs)) {
 		    try {
 			c = constrs[i];
 			c.setAccessible(true);
 			instance = c.newInstance(jArgs);
 			break;    // Succeeds to create new instance
 		    } catch (Exception e) {
 			c = null; // Back to loop
 		    }
 		}
 	    }
 	    if (c == null)
 		throw new ExistenceException(this, 1, "constructor", a1, "");
 	    if (! a2.unify(toPrologTerm(instance), engine.trail))
 		return engine.fail();
 	    return cont;
 	} catch (ClassNotFoundException e) {    // Class.forName(..)
 	    throw new JavaException(this, 1, e);
 	} catch (InstantiationException e) {    // Class.forName(..) or Constructor.newInstance()
 	    throw new JavaException(this, 1, e);
 	} catch (IllegalAccessException e) {    // Class.forName(..) or Constructor.newInstance()
 	    throw new JavaException(this, 1, e);
 	} catch (NoSuchMethodException e) {     // Class.getDeclaredConstructor()
 	    throw new JavaException(this, 1, e);
 	} catch (SecurityException e) {         // Class.getDeclaredConstructors()
 	    throw new JavaException(this, 1, e);
 	} catch (IllegalArgumentException e) {  // Constructor.newInstance()
 	    throw new JavaException(this, 1, e);
 	} catch (InvocationTargetException e) { // Constructor.newInstance()
 	    throw new JavaException(this, 1, e);
 	}
     }

     private Term toPrologTerm(Object obj) {
 	if (Term.instanceOfTerm(obj))
 	    return (Term)obj;
 	else
 	    return new JavaObjectTerm(obj);
     }
 }
	package jp.ac.kobe_u.cs.prolog.builtin;
	import jp.ac.kobe_u.cs.prolog.lang.*;
	import java.lang.reflect.*;
	/**
	* <code>java_declared_constructor0/2</code>
	* @author Mutsunori Banbara (banbara@kobe-u.ac.jp)
	* @author Naoyuki Tamura (tamura@kobe-u.ac.jp)
	* @version 1.1
	*/
	public class PRED_java_declared_constructor0_2 extends JavaPredicate {
	Term arg1, arg2;

	public PRED_java_declared_constructor0_2(Term a1, Term a2, Predicate cont) {
	arg1 = a1;
	arg2 = a2;
	this.cont = cont;
	}
	public PRED_java_declared_constructor0_2() {}

	public void setArgument(Term[] args, Predicate cont){
	arg1 = args[0];
	arg2 = args[1];
	this.cont = cont;
	}

	public int arity() { return 2; }

	public String toString() { return "java_declared_constructor0(" + arg1 + "," + arg2 + ")"; }

	public Predicate exec(Prolog engine) {
	engine.setB0();
	Term a1, a2;
	a1 = arg1;
	a2 = arg2;

	Class clazz = null;
	Object instance = null;
	int arity;
	Constructor[] constrs = null;
	Term[] pArgs = null;
	Object[] jArgs = null;
	Constructor c = null;

	// 2nd. argument (unbound variable)
	a2 = a2.dereference();
	if (! a2.isVariable())
	throw new IllegalTypeException(this, 2, "variable", a2);
	// 1st. argument (atom or callable term)
	try {
	a1 = a1.dereference();
	if (a1.isVariable())
	throw new PInstantiationException(this, 1);
	if (!a1.isSymbol() && !a1.isStructure())
	throw new IllegalTypeException(this, 1, "callable", a1);
	if (a1.isSymbol()) { // No argument constructor
	clazz = Class.forName(((SymbolTerm)a1).name());
	c = clazz.getDeclaredConstructor();
	if (c == null)
	throw new ExistenceException(this, 1, "constructor", a1, "");
	c.setAccessible(true);
	instance = c.newInstance();
	if (! a2.unify(toPrologTerm(instance), engine.trail))
	return engine.fail();
	return cont;
	}
	// Parameterized constructor
	clazz = Class.forName(((StructureTerm)a1).name());
	arity = ((StructureTerm)a1).arity();
	constrs = clazz.getDeclaredConstructors();
	if (constrs.length == 0)
	throw new ExistenceException(this, 1, "constructor", a1, "");
	pArgs = ((StructureTerm)a1).args();
	jArgs = new Object[arity];
	for (int i=0; i<arity; i++) {
	pArgs[i] = pArgs[i].dereference();
	if (! pArgs[i].isJavaObject())
	pArgs[i] = new JavaObjectTerm(pArgs[i]);
	jArgs[i] = pArgs[i].toJava();
	}
	for (int i=0; i<constrs.length; i++) {
	if (checkParameterTypes(constrs[i].getParameterTypes(), pArgs)) {
	try {
	c = constrs[i];
	c.setAccessible(true);
	instance = c.newInstance(jArgs);
	break; // Succeeds to create new instance
	} catch (Exception e) {
	c = null; // Back to loop
	}
	}
	}
	if (c == null)
	throw new ExistenceException(this, 1, "constructor", a1, "");
	if (! a2.unify(toPrologTerm(instance), engine.trail))
	return engine.fail();
	return cont;
	} catch (ClassNotFoundException e) { // Class.forName(..)
	throw new JavaException(this, 1, e);
	} catch (InstantiationException e) { // Class.forName(..) or Constructor.newInstance()
	throw new JavaException(this, 1, e);
	} catch (IllegalAccessException e) { // Class.forName(..) or Constructor.newInstance()
	throw new JavaException(this, 1, e);
	} catch (NoSuchMethodException e) { // Class.getDeclaredConstructor()
	throw new JavaException(this, 1, e);
	} catch (SecurityException e) { // Class.getDeclaredConstructors()
	throw new JavaException(this, 1, e);
	} catch (IllegalArgumentException e) { // Constructor.newInstance()
	throw new JavaException(this, 1, e);
	} catch (InvocationTargetException e) { // Constructor.newInstance()
	throw new JavaException(this, 1, e);
	}
	}

	private Term toPrologTerm(Object obj) {
	if (Term.instanceOfTerm(obj))
	return (Term)obj;
	else
	return new JavaObjectTerm(obj);
	}
	}