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package org.codehaus.plexus.util.introspection;

/*
 * Copyright The Codehaus Foundation.
 *
 * Licensed 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
 *
 * 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.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.Hashtable;
import java.util.Map;

/**
 * A cache of introspection information for a specific class instance. Keys {@link java.lang.reflect.Method} objects by
 * a concatenation of the method name and the names of classes that make up the parameters.
 *
 * @author Jason van Zyl
 * @author Bob McWhirter
 * @author Attila Szegedi
 * @author Geir Magnusson Jr.
 *
 */
public class ClassMap
{
    private static final class CacheMiss
    {
    }

    private static final CacheMiss CACHE_MISS = new CacheMiss();

    private static final Object OBJECT = new Object();

    /**
     * Class passed into the constructor used to as the basis for the Method map.
     */

    private final Class clazz;

    /**
     * Cache of Methods, or CACHE_MISS, keyed by method name and actual arguments used to find it.
     */
    private Map methodCache = new Hashtable<>();

    private final MethodMap methodMap = new MethodMap();

    /**
     * Standard constructor
     * @param clazz the Class
     */
    public ClassMap( Class clazz )
    {
        this.clazz = clazz;
        populateMethodCache();
    }

    /**
     * @return the class object whose methods are cached by this map.
     */
    Class getCachedClass()
    {
        return clazz;
    }

    /**
     * 

Find a Method using the methodKey provided.

* *

Look in the methodMap for an entry. If found, it'll either be a CACHE_MISS, in which case we simply give up, or * it'll be a Method, in which case, we return it.

* *

If nothing is found, then we must actually go and introspect the method from the MethodMap.

* @param name method name * @param params method params * @return the find Method or null * @throws org.codehaus.plexus.util.introspection.MethodMap.AmbiguousException if ambiguous name */ public Method findMethod( String name, Object[] params ) throws MethodMap.AmbiguousException { String methodKey = makeMethodKey( name, params ); Object cacheEntry = methodCache.get( methodKey ); if ( cacheEntry == CACHE_MISS ) { return null; } if ( cacheEntry == null ) { try { cacheEntry = methodMap.find( name, params ); } catch ( MethodMap.AmbiguousException ae ) { /* * that's a miss :) */ methodCache.put( methodKey, CACHE_MISS ); throw ae; } if ( cacheEntry == null ) { methodCache.put( methodKey, CACHE_MISS ); } else { methodCache.put( methodKey, cacheEntry ); } } // Yes, this might just be null. return (Method) cacheEntry; } /** * Populate the Map of direct hits. These are taken from all the public methods that our class provides. */ private void populateMethodCache() { StringBuffer methodKey; /* * get all publicly accessible methods */ Method[] methods = getAccessibleMethods( clazz ); /* * map and cache them */ for ( Method method : methods ) { /* * now get the 'public method', the method declared by a public interface or class. (because the actual * implementing class may be a facade... */ Method publicMethod = getPublicMethod( method ); /* * it is entirely possible that there is no public method for the methods of this class (i.e. in the facade, * a method that isn't on any of the interfaces or superclass in which case, ignore it. Otherwise, map and * cache */ if ( publicMethod != null ) { methodMap.add( publicMethod ); methodCache.put( makeMethodKey( publicMethod ), publicMethod ); } } } /** * Make a methodKey for the given method using the concatenation of the name and the types of the method parameters. */ private String makeMethodKey( Method method ) { Class[] parameterTypes = method.getParameterTypes(); StringBuilder methodKey = new StringBuilder( method.getName() ); for ( Class parameterType : parameterTypes ) { /* * If the argument type is primitive then we want to convert our primitive type signature to the * corresponding Object type so introspection for methods with primitive types will work correctly. */ if ( parameterType.isPrimitive() ) { if ( parameterType.equals( Boolean.TYPE ) ) { methodKey.append( "java.lang.Boolean" ); } else if ( parameterType.equals( Byte.TYPE ) ) { methodKey.append( "java.lang.Byte" ); } else if ( parameterType.equals( Character.TYPE ) ) { methodKey.append( "java.lang.Character" ); } else if ( parameterType.equals( Double.TYPE ) ) { methodKey.append( "java.lang.Double" ); } else if ( parameterType.equals( Float.TYPE ) ) { methodKey.append( "java.lang.Float" ); } else if ( parameterType.equals( Integer.TYPE ) ) { methodKey.append( "java.lang.Integer" ); } else if ( parameterType.equals( Long.TYPE ) ) { methodKey.append( "java.lang.Long" ); } else if ( parameterType.equals( Short.TYPE ) ) { methodKey.append( "java.lang.Short" ); } } else { methodKey.append( parameterType.getName() ); } } return methodKey.toString(); } private static String makeMethodKey( String method, Object[] params ) { StringBuilder methodKey = new StringBuilder().append( method ); for ( Object param : params ) { Object arg = param; if ( arg == null ) { arg = OBJECT; } methodKey.append( arg.getClass().getName() ); } return methodKey.toString(); } /** * Retrieves public methods for a class. In case the class is not public, retrieves methods with same signature as * its public methods from public superclasses and interfaces (if they exist). Basically upcasts every method to the * nearest accessible method. */ private static Method[] getAccessibleMethods( Class clazz ) { Method[] methods = clazz.getMethods(); /* * Short circuit for the (hopefully) majority of cases where the clazz is public */ if ( Modifier.isPublic( clazz.getModifiers() ) ) { return methods; } /* * No luck - the class is not public, so we're going the longer way. */ MethodInfo[] methodInfos = new MethodInfo[methods.length]; for ( int i = methods.length; i-- > 0; ) { methodInfos[i] = new MethodInfo( methods[i] ); } int upcastCount = getAccessibleMethods( clazz, methodInfos, 0 ); /* * Reallocate array in case some method had no accessible counterpart. */ if ( upcastCount < methods.length ) { methods = new Method[upcastCount]; } int j = 0; for ( MethodInfo methodInfo : methodInfos ) { if ( methodInfo.upcast ) { methods[j++] = methodInfo.method; } } return methods; } /** * Recursively finds a match for each method, starting with the class, and then searching the superclass and * interfaces. * * @param clazz Class to check * @param methodInfos array of methods we are searching to match * @param upcastCount current number of methods we have matched * @return count of matched methods */ private static int getAccessibleMethods( Class clazz, MethodInfo[] methodInfos, int upcastCount ) { int l = methodInfos.length; /* * if this class is public, then check each of the currently 'non-upcasted' methods to see if we have a match */ if ( Modifier.isPublic( clazz.getModifiers() ) ) { for ( int i = 0; i < l && upcastCount < l; ++i ) { try { MethodInfo methodInfo = methodInfos[i]; if ( !methodInfo.upcast ) { methodInfo.tryUpcasting( clazz ); upcastCount++; } } catch ( NoSuchMethodException e ) { /* * Intentionally ignored - it means it wasn't found in the current class */ } } /* * Short circuit if all methods were upcast */ if ( upcastCount == l ) { return upcastCount; } } /* * Examine superclass */ Class superclazz = clazz.getSuperclass(); if ( superclazz != null ) { upcastCount = getAccessibleMethods( superclazz, methodInfos, upcastCount ); /* * Short circuit if all methods were upcast */ if ( upcastCount == l ) { return upcastCount; } } /* * Examine interfaces. Note we do it even if superclazz == null. This is redundant as currently java.lang.Object * does not implement any interfaces, however nothing guarantees it will not in future. */ Class[] interfaces = clazz.getInterfaces(); for ( int i = interfaces.length; i-- > 0; ) { upcastCount = getAccessibleMethods( interfaces[i], methodInfos, upcastCount ); /* * Short circuit if all methods were upcast */ if ( upcastCount == l ) { return upcastCount; } } return upcastCount; } /** * For a given method, retrieves its publicly accessible counterpart. This method will look for a method with same * name and signature declared in a public superclass or implemented interface of this method's declaring class. * This counterpart method is publicly callable. * * @param method a method whose publicly callable counterpart is requested. * @return the publicly callable counterpart method. Note that if the parameter method is itself declared by a * public class, this method is an identity function. */ public static Method getPublicMethod( Method method ) { Class clazz = method.getDeclaringClass(); /* * Short circuit for (hopefully the majority of) cases where the declaring class is public. */ if ( ( clazz.getModifiers() & Modifier.PUBLIC ) != 0 ) { return method; } return getPublicMethod( clazz, method.getName(), method.getParameterTypes() ); } /** * Looks up the method with specified name and signature in the first public superclass or implemented interface of * the class. * * @param clazz the class whose method is sought * @param name the name of the method * @param paramTypes the classes of method parameters */ private static Method getPublicMethod( Class clazz, String name, Class[] paramTypes ) { /* * if this class is public, then try to get it */ if ( ( clazz.getModifiers() & Modifier.PUBLIC ) != 0 ) { try { return clazz.getMethod( name, paramTypes ); } catch ( NoSuchMethodException e ) { /* * If the class does not have the method, then neither its superclass nor any of its interfaces has it * so quickly return null. */ return null; } } /* * try the superclass */ Class superclazz = clazz.getSuperclass(); if ( superclazz != null ) { Method superclazzMethod = getPublicMethod( superclazz, name, paramTypes ); if ( superclazzMethod != null ) { return superclazzMethod; } } /* * and interfaces */ Class[] interfaces = clazz.getInterfaces(); for ( Class anInterface : interfaces ) { Method interfaceMethod = getPublicMethod( anInterface, name, paramTypes ); if ( interfaceMethod != null ) { return interfaceMethod; } } return null; } /** * Used for the iterative discovery process for public methods. */ private static final class MethodInfo { Method method; String name; Class[] parameterTypes; boolean upcast; MethodInfo( Method method ) { this.method = null; name = method.getName(); parameterTypes = method.getParameterTypes(); upcast = false; } void tryUpcasting( Class clazz ) throws NoSuchMethodException { method = clazz.getMethod( name, parameterTypes ); name = null; parameterTypes = null; upcast = true; } } }




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