sample/vector/VectorAssistant.java - platform/external/javassist - Git at Google

 package sample.vector;

 import java.io.IOException;
 import javassist.*;
 import sample.preproc.Assistant;

 /**
  * This is a Javassist program which produce a new class representing
  * vectors of a given type.  For example,
  *
  * <ul>import java.util.Vector by sample.vector.VectorAssistant(int)</ul>
  *
  * <p>requests the Javassist preprocessor to substitute the following
  * lines for the original import declaration:
  *
  * <ul><pre>
  * import java.util.Vector;
  * import sample.vector.intVector;
  * </pre></ul>
  *
  * <p>The Javassist preprocessor calls <code>VectorAssistant.assist()</code>
  * and produces class <code>intVector</code> equivalent to:
  *
  * <ul><pre>
  * package sample.vector;
  *
  * public class intVector extends Vector {
  *   pubilc void add(int value) {
  *     addElement(new Integer(value));
  *   }
  *
  *   public int at(int index) {
  *     return elementAt(index).intValue();
  *   }
  * }
  * </pre></ul>
  *
  * <p><code>VectorAssistant.assist()</code> uses
  * <code>sample.vector.Sample</code> and <code>sample.vector.Sample2</code>
  * as a template to produce the methods <code>add()</code> and
  * <code>at()</code>.
  */
 public class VectorAssistant implements Assistant {
     public final String packageName = "sample.vector.";

     /**
      * Calls <code>makeSubclass()</code> and produces a new vector class.
      * This method is called by a <code>sample.preproc.Compiler</code>.
      *
      * @see sample.preproc.Compiler
      */
     public CtClass[] assist(ClassPool pool, String vec, String[] args)
 	throws CannotCompileException
     {
 	if (args.length != 1)
 	    throw new CannotCompileException(
 			"VectorAssistant receives a single argument.");

 	try {
 	    CtClass subclass;
 	    CtClass elementType = pool.get(args[0]);
 	    if (elementType.isPrimitive())
 		subclass = makeSubclass2(pool, elementType);
 	    else
 		subclass = makeSubclass(pool, elementType);

 	    CtClass[] results = { subclass, pool.get(vec) };
 	    return results;
 	}
 	catch (NotFoundException e) {
 	    throw new CannotCompileException(e);
 	}
 	catch (IOException e) {
 	    throw new CannotCompileException(e);
 	}
     }

     /**
      * Produces a new vector class.  This method does not work if
      * the element type is a primitive type.
      *
      * @param type	the type of elements
      */
     public CtClass makeSubclass(ClassPool pool, CtClass type)
 	throws CannotCompileException, NotFoundException, IOException
     {
 	CtClass vec = pool.makeClass(makeClassName(type));
 	vec.setSuperclass(pool.get("java.util.Vector"));

 	CtClass c = pool.get("sample.vector.Sample");
 	CtMethod addmethod = c.getDeclaredMethod("add");
 	CtMethod atmethod = c.getDeclaredMethod("at");

 	ClassMap map = new ClassMap();
 	map.put("sample.vector.X", type.getName());

 	vec.addMethod(CtNewMethod.copy(addmethod, "add", vec, map));
 	vec.addMethod(CtNewMethod.copy(atmethod, "at", vec, map));
 	vec.writeFile();
 	return vec;
     }

     /**
      * Produces a new vector class.  This uses wrapped methods so that
      * the element type can be a primitive type.
      *
      * @param type	the type of elements
      */
     public CtClass makeSubclass2(ClassPool pool, CtClass type)
 	throws CannotCompileException, NotFoundException, IOException
     {
 	CtClass vec = pool.makeClass(makeClassName(type));
 	vec.setSuperclass(pool.get("java.util.Vector"));

 	CtClass c = pool.get("sample.vector.Sample2");
 	CtMethod addmethod = c.getDeclaredMethod("add");
 	CtMethod atmethod = c.getDeclaredMethod("at");

 	CtClass[] args1 = { type };
 	CtClass[] args2 = { CtClass.intType };
 	CtMethod m
 	    = CtNewMethod.wrapped(CtClass.voidType, "add", args1,
 				  null, addmethod, null, vec);
 	vec.addMethod(m);
 	m = CtNewMethod.wrapped(type, "at", args2,
 				null, atmethod, null, vec);
 	vec.addMethod(m);
 	vec.writeFile();
 	return vec;
     }

     private String makeClassName(CtClass type) {
 	return packageName + type.getSimpleName() + "Vector";
     }
 }
	package sample.vector;

	import java.io.IOException;
	import javassist.*;
	import sample.preproc.Assistant;

	/**
	* This is a Javassist program which produce a new class representing
	* vectors of a given type. For example,
	*
	* <ul>import java.util.Vector by sample.vector.VectorAssistant(int)</ul>
	*
	* <p>requests the Javassist preprocessor to substitute the following
	* lines for the original import declaration:
	*
	* <ul><pre>
	* import java.util.Vector;
	* import sample.vector.intVector;
	* </pre></ul>
	*
	* <p>The Javassist preprocessor calls <code>VectorAssistant.assist()</code>
	* and produces class <code>intVector</code> equivalent to:
	*
	* <ul><pre>
	* package sample.vector;
	*
	* public class intVector extends Vector {
	* pubilc void add(int value) {
	* addElement(new Integer(value));
	* }
	*
	* public int at(int index) {
	* return elementAt(index).intValue();
	* }
	* }
	* </pre></ul>
	*
	* <p><code>VectorAssistant.assist()</code> uses
	* <code>sample.vector.Sample</code> and <code>sample.vector.Sample2</code>
	* as a template to produce the methods <code>add()</code> and
	* <code>at()</code>.
	*/
	public class VectorAssistant implements Assistant {
	public final String packageName = "sample.vector.";

	/**
	* Calls <code>makeSubclass()</code> and produces a new vector class.
	* This method is called by a <code>sample.preproc.Compiler</code>.
	*
	* @see sample.preproc.Compiler
	*/
	public CtClass[] assist(ClassPool pool, String vec, String[] args)
	throws CannotCompileException
	{
	if (args.length != 1)
	throw new CannotCompileException(
	"VectorAssistant receives a single argument.");

	try {
	CtClass subclass;
	CtClass elementType = pool.get(args[0]);
	if (elementType.isPrimitive())
	subclass = makeSubclass2(pool, elementType);
	else
	subclass = makeSubclass(pool, elementType);

	CtClass[] results = { subclass, pool.get(vec) };
	return results;
	}
	catch (NotFoundException e) {
	throw new CannotCompileException(e);
	}
	catch (IOException e) {
	throw new CannotCompileException(e);
	}
	}

	/**
	* Produces a new vector class. This method does not work if
	* the element type is a primitive type.
	*
	* @param type the type of elements
	*/
	public CtClass makeSubclass(ClassPool pool, CtClass type)
	throws CannotCompileException, NotFoundException, IOException
	{
	CtClass vec = pool.makeClass(makeClassName(type));
	vec.setSuperclass(pool.get("java.util.Vector"));

	CtClass c = pool.get("sample.vector.Sample");
	CtMethod addmethod = c.getDeclaredMethod("add");
	CtMethod atmethod = c.getDeclaredMethod("at");

	ClassMap map = new ClassMap();
	map.put("sample.vector.X", type.getName());

	vec.addMethod(CtNewMethod.copy(addmethod, "add", vec, map));
	vec.addMethod(CtNewMethod.copy(atmethod, "at", vec, map));
	vec.writeFile();
	return vec;
	}

	/**
	* Produces a new vector class. This uses wrapped methods so that
	* the element type can be a primitive type.
	*
	* @param type the type of elements
	*/
	public CtClass makeSubclass2(ClassPool pool, CtClass type)
	throws CannotCompileException, NotFoundException, IOException
	{
	CtClass vec = pool.makeClass(makeClassName(type));
	vec.setSuperclass(pool.get("java.util.Vector"));

	CtClass c = pool.get("sample.vector.Sample2");
	CtMethod addmethod = c.getDeclaredMethod("add");
	CtMethod atmethod = c.getDeclaredMethod("at");

	CtClass[] args1 = { type };
	CtClass[] args2 = { CtClass.intType };
	CtMethod m
	= CtNewMethod.wrapped(CtClass.voidType, "add", args1,
	null, addmethod, null, vec);
	vec.addMethod(m);
	m = CtNewMethod.wrapped(type, "at", args2,
	null, atmethod, null, vec);
	vec.addMethod(m);
	vec.writeFile();
	return vec;
	}

	private String makeClassName(CtClass type) {
	return packageName + type.getSimpleName() + "Vector";
	}
	}