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 * and Distribution License("CDDL") (collectively, the "License").  You
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package com.sun.jersey.core.reflection;

import java.lang.reflect.AccessibleObject;
import java.lang.reflect.Array;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.GenericArrayType;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.lang.reflect.ParameterizedType;
import java.lang.reflect.Type;
import java.lang.reflect.TypeVariable;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.HashMap;
import java.util.Map;

import com.sun.jersey.core.osgi.OsgiRegistry;
import com.sun.jersey.impl.ImplMessages;

/**
 * Utility methods for Java reflection.
 *
 * @author [email protected]
 */
public class ReflectionHelper {

    /**
     *
     */
    public static Class getDeclaringClass(AccessibleObject ao) {
        if (ao instanceof Method) {
            return ((Method)ao).getDeclaringClass();
        } else if (ao instanceof Field) {
            return ((Field)ao).getDeclaringClass();
        } else if (ao instanceof Constructor) {
            return ((Constructor)ao).getDeclaringClass();
        } else {
            throw new RuntimeException();
        }
    }

    /**
     * Create a string representation of an object.
     * 

* Returns a string consisting of the name of the class of which the * object is an instance, the at-sign character '@', and * the unsigned hexadecimal representation of the hash code of the * object. In other words, this method returns a string equal to the * value of: *

*
     * o.getClass().getName() + '@' + Integer.toHexString(o.hashCode())
     * 
* * @param o the object. * @return the string representation of the object. */ public static String objectToString(Object o) { if (o == null) return "null"; StringBuffer sb = new StringBuffer(); sb.append(o.getClass().getName()). append('@').append(Integer.toHexString(o.hashCode())); return sb.toString(); } /** * Create a string representation of a method and an instance whose * class implements the method. *

* Returns a string consisting of the name of the class of which the object * is an instance, the at-sign character '@', * the unsigned hexadecimal representation of the hash code of the * object, the character '.', the name of the method, * the character '(', the list of method parameters, and * the character ')'. In other words, thos method returns a * string equal to the value of: *

*
     * o.getClass().getName() + '@' + Integer.toHexString(o.hashCode()) +
     * '.' + m.getName() + '(' + <parameters> + ')'.
     * 
* * @param o the object whose class implements m. * @param m the method. * @return the string representation of the method and instance. */ public static String methodInstanceToString(Object o, Method m) { StringBuffer sb = new StringBuffer(); sb.append(o.getClass().getName()). append('@').append(Integer.toHexString(o.hashCode())). append('.').append(m.getName()).append('('); Class[] params = m.getParameterTypes(); for (int i = 0; i < params.length; i++) { sb.append(getTypeName(params[i])); if (i < (params.length - 1)) sb.append(","); } sb.append(')'); return sb.toString(); } /** * * @param type * @return */ private static String getTypeName(Class type) { if (type.isArray()) { try { Class cl = type; int dimensions = 0; while (cl.isArray()) { dimensions++; cl = cl.getComponentType(); } StringBuffer sb = new StringBuffer(); sb.append(cl.getName()); for (int i = 0; i < dimensions; i++) { sb.append("[]"); } return sb.toString(); } catch (Throwable e) { /*FALLTHRU*/ } } return type.getName(); } /** * Get the Class from the class name. *

* The context class loader will be utilized if accessible and non-null. * Otherwise the defining class loader of this class will * be utilized. * * @param name the class name. * @return the Class, otherwise null if the class cannot be found. */ public static Class classForName(String name) { return classForName(name, getContextClassLoader()); } /** * Get the Class from the class name. * * @param name the class name. * @param cl the class loader to use, if null then the defining class loader * of this class will be utilized. * @return the Class, otherwise null if the class cannot be found. */ public static Class classForName(String name, ClassLoader cl) { if (cl != null) { try { return Class.forName(name, false, cl); } catch (ClassNotFoundException ex) { } } try { return Class.forName(name); } catch (ClassNotFoundException ex) { } return null; } /** * Get the Class from the class name. *

* The context class loader will be utilized if accessible and non-null. * Otherwise the defining class loader of this class will * be utilized. * * @param name the class name. * @return the Class, otherwise null if the class cannot be found. * @throws ClassNotFoundException if the class cannot be found. */ public static Class classForNameWithException(String name) throws ClassNotFoundException { return classForNameWithException(name, getContextClassLoader()); } /** * Get the Class from the class name. * * @param name the class name. * @param cl the class loader to use, if null then the defining class loader * of this class will be utilized. * @return the Class, otherwise null if the class cannot be found. * @throws ClassNotFoundException if the class cannot be found. */ public static Class classForNameWithException(String name, ClassLoader cl) throws ClassNotFoundException { if (cl != null) { try { return Class.forName(name, false, cl); } catch (ClassNotFoundException ex) { } } return Class.forName(name); } /** * Get the context class loader. * * @return the context class loader, otherwise null security privilages * are not set. */ public static ClassLoader getContextClassLoader() { return AccessController.doPrivileged( new PrivilegedAction() { public ClassLoader run() { ClassLoader cl = null; try { cl = Thread.currentThread().getContextClassLoader(); } catch (SecurityException ex) { } return cl; } }); } /** * Set a method to be accessible. * * @param m the method to be set as accessible */ public static void setAccessibleMethod(final Method m) { if (Modifier.isPublic(m.getModifiers())) return; AccessController.doPrivileged(new PrivilegedAction() { public Object run() { if (!m.isAccessible()) { m.setAccessible(true); } return m; } }); } /** * Get the class that is the type argument of a parameterized type. *

* @param parameterizedType must be an instance of ParameterizedType * and have exactly one type argument. * @return the class of the actual type argument. If the type argument * is a class then the class is returned. If the type argument * is a generic array type and the generic component type is a * class then class of the array is returned. if the type argument * is a parameterized type and it's raw type is a class then * that class is returned. * If the parameterizedType is not an instance of ParameterizedType * or contains more than one type argument null is returned. * @throws IllegalArgumentException if the single type argument is not of * a class, or a generic array type, or the generic component type * of the generic array type is not class, or not a parameterized * type with a raw type that is not a class. */ public static Class getGenericClass(Type parameterizedType) throws IllegalArgumentException { final Type t = getTypeArgumentOfParameterizedType(parameterizedType); if (t == null) return null; final Class c = getClassOfType(t); if (c == null) { throw new IllegalArgumentException(ImplMessages.GENERIC_TYPE_NOT_SUPPORTED( t, parameterizedType)); } return c; } public static final class TypeClassPair { public final Type t; public final Class c; public TypeClassPair(Type t, Class c) { this.t = t; this.c = c; } } public static TypeClassPair getTypeArgumentAndClass(Type parameterizedType) throws IllegalArgumentException { final Type t = getTypeArgumentOfParameterizedType(parameterizedType); if (t == null) return null; final Class c = getClassOfType(t); if (c == null) { throw new IllegalArgumentException(ImplMessages.GENERIC_TYPE_NOT_SUPPORTED( t, parameterizedType)); } return new TypeClassPair(t, c); } private static Type getTypeArgumentOfParameterizedType(Type parameterizedType) { if (!(parameterizedType instanceof ParameterizedType)) return null; ParameterizedType type = (ParameterizedType)parameterizedType; Type[] genericTypes = type.getActualTypeArguments(); if (genericTypes.length != 1) return null; return genericTypes[0]; } private static Class getClassOfType(Type type) { if (type instanceof Class) { return (Class)type; } else if (type instanceof GenericArrayType) { GenericArrayType arrayType = (GenericArrayType)type; Type t = arrayType.getGenericComponentType(); if (t instanceof Class) { return getArrayClass((Class)t); } } else if (type instanceof ParameterizedType) { ParameterizedType subType = (ParameterizedType)type; Type t = subType.getRawType(); if (t instanceof Class) { return (Class)t; } } return null; } /** * Get Array class of component class. * * @param c the component class of the array * @return the array class. */ public static Class getArrayClass(Class c) { try { Object o = Array.newInstance(c, 0); return o.getClass(); } catch (Exception e) { throw new IllegalArgumentException(e); } } /** * Get the static valueOf(String ) method. * * @param c The class to obtain the method. * @return the method, otherwise null if the method is not present. */ @SuppressWarnings("unchecked") public static Method getValueOfStringMethod(Class c) { try { Method m = c.getDeclaredMethod("valueOf", String.class); if (!Modifier.isStatic(m.getModifiers()) && m.getReturnType() == c) { return null; } return m; } catch (Exception e) { return null; } } /** * Get the static fromString(String ) method. * * @param c The class to obtain the method. * @return the method, otherwise null if the method is not present. */ @SuppressWarnings("unchecked") public static Method getFromStringStringMethod(Class c) { try { Method m = c.getDeclaredMethod("fromString", String.class); if (!Modifier.isStatic(m.getModifiers()) && m.getReturnType() == c) { return null; } return m; } catch (Exception e) { return null; } } /** * Get the constructor that has a single parameter of String. * * @param c The class to obtain the constructor. * @return the constructor, otherwise null if the constructor is not present. */ @SuppressWarnings("unchecked") public static Constructor getStringConstructor(Class c) { try { return c.getConstructor(String.class); } catch (Exception e) { return null; } } /** * A tuple consisting of a concrete class, declaring class that declares a * generic interface type. */ public static class DeclaringClassInterfacePair { public final Class concreteClass; public final Class declaringClass; public final Type genericInterface; private DeclaringClassInterfacePair(Class concreteClass, Class declaringClass, Type genericInteface) { this.concreteClass = concreteClass; this.declaringClass = declaringClass; this.genericInterface = genericInteface; } } /** * Get the parameterized class arguments for a declaring class that * declares a generic interface type. * * @param p the declaring class * @return the parameterized class arguments, or null if the generic * interface type is not a parameterized type. */ public static Class[] getParameterizedClassArguments(DeclaringClassInterfacePair p) { if (p.genericInterface instanceof ParameterizedType) { ParameterizedType pt = (ParameterizedType)p.genericInterface; Type[] as = pt.getActualTypeArguments(); Class[] cas = new Class[as.length]; for (int i = 0; i < as.length; i++) { Type a = as[i]; if (a instanceof Class) { cas[i] = (Class)a; } else if (a instanceof ParameterizedType) { pt = (ParameterizedType)a; cas[i] = (Class)pt.getRawType(); } else if (a instanceof TypeVariable) { ClassTypePair ctp = resolveTypeVariable(p.concreteClass, p.declaringClass, (TypeVariable)a); cas[i] = (ctp != null) ? ctp.c : Object.class; } } return cas; } else { return null; } } /** * Get the parameterized type arguments for a declaring class that * declares a generic interface type. * * @param p the declaring class * @return the parameterized type arguments, or null if the generic * interface type is not a parameterized type. */ public static Type[] getParameterizedTypeArguments(DeclaringClassInterfacePair p) { if (p.genericInterface instanceof ParameterizedType) { ParameterizedType pt = (ParameterizedType)p.genericInterface; Type[] as = pt.getActualTypeArguments(); Type[] ras = new Type[as.length]; for (int i = 0; i < as.length; i++) { Type a = as[i]; if (a instanceof Class) { ras[i] = a; } else if (a instanceof ParameterizedType) { pt = (ParameterizedType)a; ras[i] = a; } else if (a instanceof TypeVariable) { ClassTypePair ctp = resolveTypeVariable(p.concreteClass, p.declaringClass, (TypeVariable)a); ras[i] = ctp.t; } } return ras; } else { return null; } } /** * Find the declaring class that implements or extends an interface. * * @param concrete the concrete class than directly or indirectly * implements or extends an interface class. * @param iface the interface class. * @return the tuple of the declaring class and the generic interface * type. */ public static DeclaringClassInterfacePair getClass(Class concrete, Class iface) { return getClass(concrete, iface, concrete); } private static DeclaringClassInterfacePair getClass(Class concrete, Class iface, Class c) { Type[] gis = c.getGenericInterfaces(); DeclaringClassInterfacePair p = getType(concrete, iface, c, gis); if (p != null) return p; c = c.getSuperclass(); if (c == null || c == Object.class) return null; return getClass(concrete, iface, c); } private static DeclaringClassInterfacePair getType(Class concrete, Class iface, Class c, Type[] ts) { for (Type t : ts) { DeclaringClassInterfacePair p = getType(concrete, iface, c, t); if (p != null) return p; } return null; } private static DeclaringClassInterfacePair getType(Class concrete, Class iface, Class c, Type t) { if (t instanceof Class) { if (t == iface) { return new DeclaringClassInterfacePair(concrete, c, t); } else { return getClass(concrete, iface, (Class)t); } } else if (t instanceof ParameterizedType) { ParameterizedType pt = (ParameterizedType)t; if (pt.getRawType() == iface) { return new DeclaringClassInterfacePair(concrete, c, t); } else { return getClass(concrete, iface, (Class)pt.getRawType()); } } return null; } /** * A tuple consisting of a class and type of the class. */ public static class ClassTypePair { /** * The class. */ public final Class c; /** * The type of the class. */ public final Type t; public ClassTypePair(Class c) { this(c, c); } public ClassTypePair(Class c, Type t) { this.c = c; this.t = t; } } /** * Given a type variable resolve the Java class of that variable. * * @param c the concrete class from which all type variables are resolved * @param dc the declaring class where the type variable was defined * @param tv the type variable * @return the resolved Java class and type, otherwise null if the type variable * could not be resolved */ public static ClassTypePair resolveTypeVariable(Class c, Class dc, TypeVariable tv) { return resolveTypeVariable(c, dc, tv, new HashMap()); } private static ClassTypePair resolveTypeVariable(Class c, Class dc, TypeVariable tv, Map map) { Type[] gis = c.getGenericInterfaces(); for (Type gi : gis) { if (gi instanceof ParameterizedType) { // process pt of interface ParameterizedType pt = (ParameterizedType)gi; ClassTypePair ctp = resolveTypeVariable(pt, (Class)pt.getRawType(), dc, tv, map); if (ctp != null) return ctp; } } Type gsc = c.getGenericSuperclass(); if (gsc instanceof ParameterizedType) { // process pt of class ParameterizedType pt = (ParameterizedType)gsc; return resolveTypeVariable(pt, c.getSuperclass(), dc, tv, map); } else if (gsc instanceof Class) { return resolveTypeVariable(c.getSuperclass(), dc, tv, map); } return null; } private static ClassTypePair resolveTypeVariable(ParameterizedType pt, Class c, Class dc, TypeVariable tv, Map map) { Type[] typeArguments = pt.getActualTypeArguments(); TypeVariable[] typeParameters = c.getTypeParameters(); Map submap = new HashMap(); for (int i = 0; i < typeArguments.length; i++) { // Substitute a type variable with the Java class if (typeArguments[i] instanceof TypeVariable) { Type t = map.get(typeArguments[i]); submap.put(typeParameters[i], t); } else { submap.put(typeParameters[i], typeArguments[i]); } } if (c == dc) { Type t = submap.get(tv); if (t instanceof Class) { return new ClassTypePair((Class)t); } else if (t instanceof GenericArrayType) { t = ((GenericArrayType)t).getGenericComponentType(); if (t instanceof Class) { c = (Class)t; try { return new ClassTypePair(getArrayClass(c)); } catch (Exception e) { } return null; } else if (t instanceof ParameterizedType) { Type rt = ((ParameterizedType) t).getRawType(); if (rt instanceof Class) { c = (Class) rt; } else { return null; } try { return new ClassTypePair(getArrayClass(c), t); } catch (Exception e) { return null; } } else { return null; } } else if (t instanceof ParameterizedType) { pt = (ParameterizedType)t; if (pt.getRawType() instanceof Class) { return new ClassTypePair((Class)pt.getRawType(), pt); } else return null; } else { return null; } } else { return resolveTypeVariable(c, dc, tv, submap); } } /** * Find a method on a class given an existing method. *

* If there exists a public method on the class that has the same name * and parameters as the existing method then that public method is * returned. *

* Otherwise, if there exists a public method on the class that has * the same name and the same number of parameters as the existing method, * and each generic parameter type, in order, of the public method is equal * to the generic parameter type, in the same order, of the existing method * or is an instance of {@link TypeVariable} then that public method is * returned. * * @param c the class to search for a public method * @param m the method to find * @return the found public method. */ public static Method findMethodOnClass(Class c, Method m) { try { return c.getMethod(m.getName(), m.getParameterTypes()); } catch (NoSuchMethodException ex) { for (Method _m : c.getMethods()) { if (_m.getName().equals(m.getName()) && _m.getParameterTypes().length == m.getParameterTypes().length) { if (compareParameterTypes(m.getGenericParameterTypes(), _m.getGenericParameterTypes())) { return _m; } } } } return null; } /** * Returns an {@link OsgiRegistry} instance. * * @return an {@link OsgiRegistry} instance or {@code null} if the class cannot be instantiated (not in OSGi environment). */ public static OsgiRegistry getOsgiRegistryInstance() { try { final Class bundleReferenceClass = Class.forName("org.osgi.framework.BundleReference"); if (bundleReferenceClass != null) { return OsgiRegistry.getInstance(); } } catch (Exception e) { // Do nothing - instance is null. } return null; } private static boolean compareParameterTypes(Type[] ts, Type[] _ts) { for (int i = 0; i < ts.length; i++) { if (!ts[i].equals(_ts[i])) { if (!(_ts[i] instanceof TypeVariable)) { return false; } } } return true; } }