From 07b78716af6a9d7c9fd1e94d9baf94a52c873947 Mon Sep 17 00:00:00 2001 From: Andrew Haley Date: Fri, 30 Sep 2016 16:24:48 +0000 Subject: Makefile.def: Remove libjava. 2016-09-30 Andrew Haley * Makefile.def: Remove libjava. * Makefile.tpl: Likewise. * Makefile.in: Regenerate. * configure.ac: Likewise. * configure: Likewise. * gcc/java: Remove. * libjava: Likewise. From-SVN: r240662 --- libjava/classpath/java/beans/EventHandler.java | 604 ------------------------- 1 file changed, 604 deletions(-) delete mode 100644 libjava/classpath/java/beans/EventHandler.java (limited to 'libjava/classpath/java/beans/EventHandler.java') diff --git a/libjava/classpath/java/beans/EventHandler.java b/libjava/classpath/java/beans/EventHandler.java deleted file mode 100644 index 967ba82..0000000 --- a/libjava/classpath/java/beans/EventHandler.java +++ /dev/null @@ -1,604 +0,0 @@ -/* java.beans.EventHandler - Copyright (C) 2004, 2005 Free Software Foundation, Inc. - -This file is part of GNU Classpath. - -GNU Classpath is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 2, or (at your option) -any later version. - -GNU Classpath is distributed in the hope that it will be useful, but -WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU -General Public License for more details. - -You should have received a copy of the GNU General Public License -along with GNU Classpath; see the file COPYING. If not, write to the -Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA -02110-1301 USA. - -Linking this library statically or dynamically with other modules is -making a combined work based on this library. Thus, the terms and -conditions of the GNU General Public License cover the whole -combination. - -As a special exception, the copyright holders of this library give you -permission to link this library with independent modules to produce an -executable, regardless of the license terms of these independent -modules, and to copy and distribute the resulting executable under -terms of your choice, provided that you also meet, for each linked -independent module, the terms and conditions of the license of that -module. An independent module is a module which is not derived from -or based on this library. If you modify this library, you may extend -this exception to your version of the library, but you are not -obligated to do so. If you do not wish to do so, delete this -exception statement from your version. */ - - -package java.beans; - -import java.lang.reflect.InvocationHandler; -import java.lang.reflect.InvocationTargetException; -import java.lang.reflect.Method; -import java.lang.reflect.Proxy; - -/** - *

EventHandler forms a bridge between dynamically created listeners and - * arbitrary properties and methods.

- * - *

You can use this class to easily create listener implementations for - * some basic interactions between an event source and its target. Using - * the three static methods named create you can create - * these listener implementations.

- * - *

See the documentation of each method for usage examples.

- * - * @author Jerry Quinn (jlquinn@optonline.net) - * @author Robert Schuster (thebohemian@gmx.net) - * @since 1.4 - */ -public class EventHandler implements InvocationHandler -{ - // The name of the method that will be implemented. If null, any method. - private String listenerMethod; - - // The object to call action on. - private Object target; - - // The name of the method or property setter in target. - private String action; - - // The property to extract from an event passed to listenerMethod. - private String property; - - // The target objects Class. - private Class targetClass; - - // String class doesn't already have a capitalize routine. - private String capitalize(String s) - { - return s.substring(0, 1).toUpperCase() + s.substring(1); - } - - /** - * Creates a new EventHandler instance. - * - *

Typical creation is done with the create method, not by knewing an - * EventHandler.

- * - *

This constructs an EventHandler that will connect the method - * listenerMethodName to target.action, extracting eventPropertyName from - * the first argument of listenerMethodName. and sending it to action.

- * - *

Throws a NullPointerException if the target - * argument is null. - * - * @param target Object that will perform the action. - * @param action A property or method of the target. - * @param eventPropertyName A readable property of the inbound event. - * @param listenerMethodName The listener method name triggering the action. - */ - public EventHandler(Object target, String action, String eventPropertyName, - String listenerMethodName) - { - this.target = target; - - // Retrieving the class is done for two reasons: - // 1) The class object is needed very frequently in the invoke() method. - // 2) The constructor should throw a NullPointerException if target is null. - targetClass = target.getClass(); - - this.action = action; // Turn this into a method or do we wait till - // runtime - property = eventPropertyName; - listenerMethod = listenerMethodName; - } - - /** - * Returns the event property name. - */ - public String getEventPropertyName() - { - return property; - } - - /** - * Returns the listener's method name. - */ - public String getListenerMethodName() - { - return listenerMethod; - } - - /** - * Returns the target object. - */ - public Object getTarget() - { - return target; - } - - /** - * Returns the action method name. - */ - public String getAction() - { - return action; - } - - // Fetch a qualified property like a.b.c from object o. The properties can - // be boolean isProp or object getProp properties. - // - // Returns a length 2 array with the first entry containing the value - // extracted from the property, and the second entry contains the class of - // the method return type. - // - // We play this game because if the method returns a native type, the return - // value will be a wrapper. If we then take the type of the wrapper and use - // it to locate the action method that takes the native type, it won't match. - private Object[] getProperty(Object o, String prop) - { - // Isolate the first property name from a.b.c. - int pos; - String rest = null; - if ((pos = prop.indexOf('.')) != -1) - { - rest = prop.substring(pos + 1); - prop = prop.substring(0, pos); - } - - // Find a method named getProp. It could be isProp instead. - Method getter; - try - { - // Look for boolean property getter isProperty - getter = o.getClass().getMethod("is" + capitalize(prop)); - } - catch (NoSuchMethodException nsme1) - { - try { - // Look for regular property getter getProperty - getter = o.getClass().getMethod("get" + capitalize(prop)); - } catch(NoSuchMethodException nsme2) { - try { - // Finally look for a method of the name prop - getter = o.getClass().getMethod(prop); - } catch(NoSuchMethodException nsme3) { - // Ok, give up with an intelligent hint for the user. - throw new RuntimeException("Method not called: Could not find a property or method '" + prop - + "' in " + o.getClass() + " while following the property argument '" + property + "'."); - } - } - } - try { - Object val = getter.invoke(o); - - if (rest != null) - return getProperty(val, rest); - - return new Object[] {val, getter.getReturnType()}; - } catch(InvocationTargetException ite) { - throw new RuntimeException("Method not called: Property or method '" + prop + "' has thrown an exception.", ite); - } catch(IllegalAccessException iae) { - // This cannot happen because we looked up method with Class.getMethod() - // which returns public methods only. - throw (InternalError) new InternalError("Non-public method was invoked.").initCause(iae); - } - } - - /** - * Invokes the EventHandler. - * - *

This method is normally called by the listener's proxy implementation.

- * - * @param proxy The listener interface that is implemented using - * the proxy mechanism. - * @param method The method that was called on the proxy instance. - * @param arguments The arguments which where given to the method. - * @throws Throwable NoSuchMethodException is thrown when the EventHandler's - * action method or property cannot be found. - */ - public Object invoke(Object proxy, Method method, Object[] arguments) - { - try { - // The method instance of the target object. We have to find out which - // one we have to invoke. - Method actionMethod = null; - - // Listener methods that weren't specified are ignored. If listenerMethod - // is null, then all listener methods are processed. - if (listenerMethod != null && !method.getName().equals(listenerMethod)) - return null; - - // If a property is defined we definitely need a valid object at - // arguments[0] that can be used to retrieve a value to which the - // property of the target gets set. - if(property != null) { - // Extracts the argument. We will let it fail with a NullPointerException - // the caller used a listener method that has no arguments. - Object event = arguments[0]; - - // Obtains the property XXX propertyType keeps showing up null - why? - // because the object inside getProperty changes, but the ref variable - // can't change this way, dolt! need a better way to get both values out - // - need method and object to do the invoke and get return type - Object v[] = getProperty(event, property); - Object[] args = new Object[] { v[0] }; - - // Changes the class array that controls which method signature we are going - // to look up in the target object. - Class[] argTypes = new Class[] { initClass((Class) v[1]) }; - - // Tries to find a setter method to which we can apply the - while(argTypes[0] != null) { - try - { - // Look for a property setter for action. - actionMethod = targetClass.getMethod("set" + capitalize(action), argTypes); - - return actionMethod.invoke(target, args); - } - catch (NoSuchMethodException e) - { - // If action as property didn't work, try as method later. - } - - argTypes[0] = nextClass(argTypes[0]); - } - - // We could not find a suitable setter method. Now we try again interpreting - // action as the method name itself. - // Since we probably have changed the block local argTypes array - // we need to rebuild it. - argTypes = new Class[] { initClass((Class) v[1]) }; - - // Tries to find a setter method to which we can apply the - while(argTypes[0] != null) { - try - { - actionMethod = targetClass.getMethod(action, argTypes); - - return actionMethod.invoke(target, args); - } - catch (NoSuchMethodException e) - { - } - - argTypes[0] = nextClass(argTypes[0]); - } - - throw new RuntimeException("Method not called: Could not find a public method named '" - + action + "' in target " + targetClass + " which takes a '" - + v[1] + "' argument or a property of this type."); - } - - // If property was null we will search for a no-argument method here. - // Note: The ordering of method lookups is important because we want to prefer no-argument - // calls like the JDK does. This means if we have actionMethod() and actionMethod(Event) we will - // call the first *EVEN* if we have a valid argument for the second method. This is behavior compliant - // to the JDK. - // If actionMethod() is not available but there is a actionMethod(Event) we take this. That makes us - // more specification compliant than the JDK itself because this one will fail in such a case. - try - { - actionMethod = targetClass.getMethod(action); - } - catch(NoSuchMethodException nsme) - { - // Note: If we want to be really strict the specification says that a no-argument method should - // accept an EventObject (or subclass I guess). However since the official implementation is broken - // anyways, it's more flexible without the EventObject restriction and we are compatible on everything - // else this can stay this way. - if(arguments != null && arguments.length >= 1/* && arguments[0] instanceof EventObject*/) { - Class[] targetArgTypes = new Class[] { initClass(arguments[0].getClass()) }; - - while(targetArgTypes[0] != null) { - try - { - // If no property exists we expect the first element of the arguments to be - // an EventObject which is then applied to the target method. - - actionMethod = targetClass.getMethod(action, targetArgTypes); - - return actionMethod.invoke(target, new Object[] { arguments[0] }); - } - catch(NoSuchMethodException nsme2) - { - - } - - targetArgTypes[0] = nextClass(targetArgTypes[0]); - } - - } - } - - // If we do not have a Method instance at this point this means that all our tries - // failed. The JDK throws an ArrayIndexOutOfBoundsException in this case. - if(actionMethod == null) - throw new ArrayIndexOutOfBoundsException(0); - - // Invoke target.action(property) - return actionMethod.invoke(target); - } catch(InvocationTargetException ite) { - throw new RuntimeException(ite.getCause()); - } catch(IllegalAccessException iae) { - // Cannot happen because we always use getMethod() which returns public - // methods only. Otherwise there is something seriously broken in - // GNU Classpath. - throw (InternalError) new InternalError("Non-public method was invoked.").initCause(iae); - } - } - - /** - *

Returns the primitive type for every wrapper class or the - * class itself if it is no wrapper class.

- * - *

This is needed because to be able to find both kinds of methods: - * One that takes a wrapper class as the first argument and one that - * accepts a primitive instead.

- */ - private Class initClass(Class klass) { - if(klass == Boolean.class) { - return Boolean.TYPE; - } else if(klass == Byte.class) { - return Byte.TYPE; - } else if(klass == Short.class) { - return Short.TYPE; - } else if(klass == Integer.class) { - return Integer.TYPE; - } else if(klass == Long.class) { - return Long.TYPE; - } else if(klass == Float.class) { - return Float.TYPE; - } else if(klass == Double.class) { - return Double.TYPE; - } else { - return klass; - } - } - - /** - * - * - * @param klass - * @return - */ - private Class nextClass(Class klass) { - if(klass == Boolean.TYPE) { - return Boolean.class; - } else if(klass == Byte.TYPE) { - return Byte.class; - } else if(klass == Short.TYPE) { - return Short.class; - } else if(klass == Integer.TYPE) { - return Integer.class; - } else if(klass == Long.TYPE) { - return Long.class; - } else if(klass == Float.TYPE) { - return Float.class; - } else if(klass == Double.TYPE) { - return Double.class; - } else { - return klass.getSuperclass(); - } - } - - /** - *

Constructs an implementation of listenerInterface - * to dispatch events.

- * - *

You can use such an implementation to simply call a public - * no-argument method of an arbitrary target object or to forward - * the first argument of the listener method to the target method.

- * - *

Call this method like:

- * - * button.addActionListener((ActionListener) - * EventHandler.create(ActionListener.class, target, "dispose")); - * - * - *

to achieve the following behavior:

- * - * button.addActionListener(new ActionListener() { - * public void actionPerformed(ActionEvent ae) { - * target.dispose(); - * } - * }); - * - * - *

That means if you need a listener implementation that simply calls a - * a no-argument method on a given instance for each - * method of the listener interface.

- * - *

Note: The action is interpreted as a method name. If your target object - * has no no-argument method of the given name the EventHandler tries to find - * a method with the same name but which can accept the first argument of the - * listener method. Usually this will be an event object but any other object - * will be forwarded, too. Keep in mind that using a property name instead of a - * real method here is wrong and will throw an ArrayIndexOutOfBoundsException - * whenever one of the listener methods is called.

- * - *

The EventHandler will automatically convert primitives - * to their wrapper class and vice versa. Furthermore it will call - * a target method if it accepts a superclass of the type of the - * first argument of the listener method.

- * - *

In case that the method of the target object throws an exception - * it will be wrapped in a RuntimeException and thrown out - * of the listener method.

- * - *

In case that the method of the target object cannot be found an - * ArrayIndexOutOfBoundsException will be thrown when the - * listener method is invoked.

- * - *

A call to this method is equivalent to: - * create(listenerInterface, target, action, null, null)

- * - * @param listenerInterface Listener interface to implement. - * @param target Object to invoke action on. - * @param action Target property or method to invoke. - * @return A constructed proxy object. - */ - public static T create(Class listenerInterface, Object target, - String action) - { - return create(listenerInterface, target, action, null, null); - } - - /** - *

Constructs an implementation of listenerInterface - * to dispatch events.

- * - *

Use this method if you want to create an implementation that retrieves - * a property value from the first argument of the listener method - * and applies it to the target's property or method. This first argument - * of the listener is usually an event object but any other object is - * valid, too.

- * - *

You can set the value of eventPropertyName to "prop" - * to denote the retrieval of a property named "prop" from the event - * object. In case that no such property exists the EventHandler - * will try to find a method with that name.

- * - *

If you set eventPropertyName to a value like this "a.b.c" - * EventHandler will recursively evaluate the properties "a", "b" - * and "c". Again if no property can be found the EventHandler - * tries a method name instead. This allows mixing the names, too: "a.toString" - * will retrieve the property "a" from the event object and will then call - * the method "toString" on it.

- * - *

An exception thrown in any of these methods will provoke a - * RuntimeException to be thrown which contains an - * InvocationTargetException containing the triggering exception.

- * - *

If you set eventPropertyName to a non-null value the - * action parameter will be interpreted as a property name - * or a method name of the target object.

- * - *

Any object retrieved from the event object and applied to the - * target will converted from primitives to their wrapper class or - * vice versa or applied to a method that accepts a superclass - * of the object.

- * - *

Examples:

- *

The following code:

- * button.addActionListener( - * new ActionListener() { - * public void actionPerformed(ActionEvent ae) { - * Object o = ae.getSource().getClass().getName(); - * textField.setText((String) o); - * } - * }); - * - * - *

Can be expressed using the EventHandler like this:

- *

- * button.addActionListener((ActionListener) - * EventHandler.create(ActionListener.class, textField, "text", "source.class.name"); - * - *

- * - *

As said above you can specify the target as a method, too:

- *

- * button.addActionListener((ActionListener) - * EventHandler.create(ActionListener.class, textField, "setText", "source.class.name"); - * - *

- * - *

Furthermore you can use method names in the property:

- *

- * button.addActionListener((ActionListener) - * EventHandler.create(ActionListener.class, textField, "setText", "getSource.getClass.getName"); - * - *

- * - *

Finally you can mix names:

- *

- * button.addActionListener((ActionListener) - * EventHandler.create(ActionListener.class, textField, "setText", "source.getClass.name"); - * - *

- * - *

A call to this method is equivalent to: - * create(listenerInterface, target, action, null, null) - *

- * - * @param listenerInterface Listener interface to implement. - * @param target Object to invoke action on. - * @param action Target property or method to invoke. - * @param eventPropertyName Name of property to extract from event. - * @return A constructed proxy object. - */ - public static T create(Class listenerInterface, Object target, - String action, String eventPropertyName) - { - return create(listenerInterface, target, action, eventPropertyName, null); - } - - /** - *

Constructs an implementation of listenerInterface - * to dispatch events.

- * - *

Besides the functionality described for {@link create(Class, Object, String)} - * and {@link create(Class, Object, String, String)} this method allows you - * to filter the listener method that should have an effect. Look at these - * method's documentation for more information about the EventHandler's - * usage.

- * - *

If you want to call dispose on a JFrame instance - * when the WindowListener.windowClosing() method was invoked use - * the following code:

- *

- * - * EventHandler.create(WindowListener.class, jframeInstance, "dispose", null, "windowClosing"); - * - *

- * - *

A NullPointerException is thrown if the listenerInterface - * or target argument are null. - * - * @param listenerInterface Listener interface to implement. - * @param target Object to invoke action on. - * @param action Target method name to invoke. - * @param eventPropertyName Name of property to extract from event. - * @param listenerMethodName Listener method to implement. - * @return A constructed proxy object. - */ - public static T create(Class listenerInterface, Object target, - String action, String eventPropertyName, - String listenerMethodName) - { - // Create EventHandler instance - EventHandler eh = new EventHandler(target, action, eventPropertyName, - listenerMethodName); - - // Create proxy object passing in the event handler - Object proxy = Proxy.newProxyInstance(listenerInterface.getClassLoader(), - new Class[] {listenerInterface}, - eh); - - return (T) proxy; - } -} -- cgit v1.1