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 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
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 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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package org.apache.lucene.util;


import java.lang.reflect.Method;
import java.util.Collections;
import java.util.HashSet;
import java.util.Set;

A utility for keeping backwards compatibility on previously abstract methods (or similar replacements).

Before the replacement method can be made abstract, the old method must kept deprecated. If somebody still overrides the deprecated method in a non-final class, you must keep track, of this and maybe delegate to the old method in the subclass. The cost of reflection is minimized by the following usage of this class:

Define static final fields in the base class (BaseClass), where the old and new method are declared:

 static final VirtualMethod<BaseClass> newMethod =
  new VirtualMethod<BaseClass>(BaseClass.class, "newName", parameters...);
 static final VirtualMethod<BaseClass> oldMethod =
  new VirtualMethod<BaseClass>(BaseClass.class, "oldName", parameters...);

This enforces the singleton status of these objects, as the maintenance of the cache would be too costly else. If you try to create a second instance of for the same method/baseClass combination, an exception is thrown.

To detect if e.g. the old method was overridden by a more far subclass on the inheritance path to the current instance's class, use a non-static field:

 final boolean isDeprecatedMethodOverridden =
  oldMethod.getImplementationDistance(this.getClass()) > newMethod.getImplementationDistance(this.getClass());
 // alternatively (more readable):
 final boolean isDeprecatedMethodOverridden =
  VirtualMethod.compareImplementationDistance(this.getClass(), oldMethod, newMethod) > 0

getImplementationDistance returns the distance of the subclass that overrides this method. The one with the larger distance should be used preferable. This way also more complicated method rename scenarios can be handled (think of 2.9 TokenStream deprecations).

@lucene.internal
/** * A utility for keeping backwards compatibility on previously abstract methods * (or similar replacements). * <p>Before the replacement method can be made abstract, the old method must kept deprecated. * If somebody still overrides the deprecated method in a non-final class, * you must keep track, of this and maybe delegate to the old method in the subclass. * The cost of reflection is minimized by the following usage of this class:</p> * <p>Define <strong>static final</strong> fields in the base class ({@code BaseClass}), * where the old and new method are declared:</p> * <pre class="prettyprint"> * static final VirtualMethod&lt;BaseClass&gt; newMethod = * new VirtualMethod&lt;BaseClass&gt;(BaseClass.class, "newName", parameters...); * static final VirtualMethod&lt;BaseClass&gt; oldMethod = * new VirtualMethod&lt;BaseClass&gt;(BaseClass.class, "oldName", parameters...); * </pre> * <p>This enforces the singleton status of these objects, as the maintenance of the cache would be too costly else. * If you try to create a second instance of for the same method/{@code baseClass} combination, an exception is thrown. * <p>To detect if e.g. the old method was overridden by a more far subclass on the inheritance path to the current * instance's class, use a <strong>non-static</strong> field:</p> * <pre class="prettyprint"> * final boolean isDeprecatedMethodOverridden = * oldMethod.getImplementationDistance(this.getClass()) &gt; newMethod.getImplementationDistance(this.getClass()); * * <em>// alternatively (more readable):</em> * final boolean isDeprecatedMethodOverridden = * VirtualMethod.compareImplementationDistance(this.getClass(), oldMethod, newMethod) &gt; 0 * </pre> * <p>{@link #getImplementationDistance} returns the distance of the subclass that overrides this method. * The one with the larger distance should be used preferable. * This way also more complicated method rename scenarios can be handled * (think of 2.9 {@code TokenStream} deprecations).</p> * * @lucene.internal */
public final class VirtualMethod<C> { private static final Set<Method> singletonSet = Collections.synchronizedSet(new HashSet<Method>()); private final Class<C> baseClass; private final String method; private final Class<?>[] parameters; private final ClassValue<Integer> distanceOfClass = new ClassValue<Integer>() { @Override protected Integer computeValue(Class<?> subclazz) { return Integer.valueOf(reflectImplementationDistance(subclazz)); } };
Creates a new instance for the given baseClass and method declaration.
Throws:
/** * Creates a new instance for the given {@code baseClass} and method declaration. * @throws UnsupportedOperationException if you create a second instance of the same * {@code baseClass} and method declaration combination. This enforces the singleton status. * @throws IllegalArgumentException if {@code baseClass} does not declare the given method. */
public VirtualMethod(Class<C> baseClass, String method, Class<?>... parameters) { this.baseClass = baseClass; this.method = method; this.parameters = parameters; try { if (!singletonSet.add(baseClass.getDeclaredMethod(method, parameters))) throw new UnsupportedOperationException( "VirtualMethod instances must be singletons and therefore " + "assigned to static final members in the same class, they use as baseClass ctor param." ); } catch (NoSuchMethodException nsme) { throw new IllegalArgumentException(baseClass.getName() + " has no such method: "+nsme.getMessage()); } }
Returns the distance from the baseClass in which this method is overridden/implemented in the inheritance path between baseClass and the given subclass subclazz.
Returns:0 iff not overridden, else the distance to the base class
/** * Returns the distance from the {@code baseClass} in which this method is overridden/implemented * in the inheritance path between {@code baseClass} and the given subclass {@code subclazz}. * @return 0 iff not overridden, else the distance to the base class */
public int getImplementationDistance(final Class<? extends C> subclazz) { return distanceOfClass.get(subclazz).intValue(); }
Returns, if this method is overridden/implemented in the inheritance path between baseClass and the given subclass subclazz.

You can use this method to detect if a method that should normally be final was overridden by the given instance's class.

Returns:false iff not overridden
/** * Returns, if this method is overridden/implemented in the inheritance path between * {@code baseClass} and the given subclass {@code subclazz}. * <p>You can use this method to detect if a method that should normally be final was overridden * by the given instance's class. * @return {@code false} iff not overridden */
public boolean isOverriddenAsOf(final Class<? extends C> subclazz) { return getImplementationDistance(subclazz) > 0; } int reflectImplementationDistance(final Class<?> subclazz) { if (!baseClass.isAssignableFrom(subclazz)) throw new IllegalArgumentException(subclazz.getName() + " is not a subclass of " + baseClass.getName()); boolean overridden = false; int distance = 0; for (Class<?> clazz = subclazz; clazz != baseClass && clazz != null; clazz = clazz.getSuperclass()) { // lookup method, if success mark as overridden if (!overridden) { try { clazz.getDeclaredMethod(method, parameters); overridden = true; } catch (NoSuchMethodException nsme) { } } // increment distance if overridden if (overridden) distance++; } return distance; }
Utility method that compares the implementation/override distance of two methods.
Returns:
  • > 1, iff m1 is overridden/implemented in a subclass of the class overriding/declaring m2
  • < 1, iff m2 is overridden in a subclass of the class overriding/declaring m1
  • 0, iff both methods are overridden in the same class (or are not overridden at all)
/** * Utility method that compares the implementation/override distance of two methods. * @return <ul> * <li>&gt; 1, iff {@code m1} is overridden/implemented in a subclass of the class overriding/declaring {@code m2} * <li>&lt; 1, iff {@code m2} is overridden in a subclass of the class overriding/declaring {@code m1} * <li>0, iff both methods are overridden in the same class (or are not overridden at all) * </ul> */
public static <C> int compareImplementationDistance(final Class<? extends C> clazz, final VirtualMethod<C> m1, final VirtualMethod<C> m2) { return Integer.compare(m1.getImplementationDistance(clazz), m2.getImplementationDistance(clazz)); } }