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/*
* Hibernate, Relational Persistence for Idiomatic Java
*
* License: GNU Lesser General Public License (LGPL), version 2.1 or later.
* See the lgpl.txt file in the root directory or .
*/
package org.hibernate.internal.util;
import java.beans.Introspector;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.Member;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.Locale;
import java.util.regex.Pattern;
import org.hibernate.AssertionFailure;
import org.hibernate.MappingException;
import org.hibernate.PropertyNotFoundException;
import org.hibernate.boot.registry.classloading.spi.ClassLoaderService;
import org.hibernate.boot.registry.classloading.spi.ClassLoadingException;
import org.hibernate.engine.spi.SessionFactoryImplementor;
import org.hibernate.property.access.internal.PropertyAccessStrategyMixedImpl;
import org.hibernate.property.access.spi.Getter;
import org.hibernate.type.PrimitiveType;
import org.hibernate.type.Type;
/**
* Utility class for various reflection operations.
*
* @author Gavin King
* @author Steve Ebersole
* @author Chris Cranford
*/
@SuppressWarnings("unchecked")
public final class ReflectHelper {
private static final Pattern JAVA_CONSTANT_PATTERN = Pattern.compile(
"[a-z\\d]+\\.([A-Z]{1}[a-z\\d]+)+\\$?([A-Z]{1}[a-z\\d]+)*\\.[A-Z_\\$]+", Pattern.UNICODE_CHARACTER_CLASS);
public static final Class[] NO_PARAM_SIGNATURE = new Class[0];
public static final Object[] NO_PARAMS = new Object[0];
public static final Class[] SINGLE_OBJECT_PARAM_SIGNATURE = new Class[] { Object.class };
private static final Method OBJECT_EQUALS;
private static final Method OBJECT_HASHCODE;
static {
Method eq;
Method hash;
try {
eq = extractEqualsMethod( Object.class );
hash = extractHashCodeMethod( Object.class );
}
catch ( Exception e ) {
throw new AssertionFailure( "Could not find Object.equals() or Object.hashCode()", e );
}
OBJECT_EQUALS = eq;
OBJECT_HASHCODE = hash;
}
/**
* Disallow instantiation of ReflectHelper.
*/
private ReflectHelper() {
}
/**
* Encapsulation of getting hold of a class's {@link Object#equals equals} method.
*
* @param clazz The class from which to extract the equals method.
* @return The equals method reference
* @throws NoSuchMethodException Should indicate an attempt to extract equals method from interface.
*/
public static Method extractEqualsMethod(Class clazz) throws NoSuchMethodException {
return clazz.getMethod( "equals", SINGLE_OBJECT_PARAM_SIGNATURE );
}
/**
* Encapsulation of getting hold of a class's {@link Object#hashCode hashCode} method.
*
* @param clazz The class from which to extract the hashCode method.
* @return The hashCode method reference
* @throws NoSuchMethodException Should indicate an attempt to extract hashCode method from interface.
*/
public static Method extractHashCodeMethod(Class clazz) throws NoSuchMethodException {
return clazz.getMethod( "hashCode", NO_PARAM_SIGNATURE );
}
/**
* Determine if the given class defines an {@link Object#equals} override.
*
* @param clazz The class to check
* @return True if clazz defines an equals override.
*/
public static boolean overridesEquals(Class clazz) {
Method equals;
try {
equals = extractEqualsMethod( clazz );
}
catch ( NoSuchMethodException nsme ) {
return false; //its an interface so we can't really tell anything...
}
return !OBJECT_EQUALS.equals( equals );
}
/**
* Determine if the given class defines a {@link Object#hashCode} override.
*
* @param clazz The class to check
* @return True if clazz defines an hashCode override.
*/
public static boolean overridesHashCode(Class clazz) {
Method hashCode;
try {
hashCode = extractHashCodeMethod( clazz );
}
catch ( NoSuchMethodException nsme ) {
return false; //its an interface so we can't really tell anything...
}
return !OBJECT_HASHCODE.equals( hashCode );
}
/**
* Determine if the given class implements the given interface.
*
* @param clazz The class to check
* @param intf The interface to check it against.
* @return True if the class does implement the interface, false otherwise.
*/
public static boolean implementsInterface(Class clazz, Class intf) {
assert intf.isInterface() : "Interface to check was not an interface";
return intf.isAssignableFrom( clazz );
}
/**
* Perform resolution of a class name.
*
* Here we first check the context classloader, if one, beforeQuery delegating to
* {@link Class#forName(String, boolean, ClassLoader)} using the caller's classloader
*
* @param name The class name
* @param caller The class from which this call originated (in order to access that class's loader).
* @return The class reference.
* @throws ClassNotFoundException From {@link Class#forName(String, boolean, ClassLoader)}.
*/
public static Class classForName(String name, Class caller) throws ClassNotFoundException {
try {
ClassLoader classLoader = Thread.currentThread().getContextClassLoader();
if ( classLoader != null ) {
return classLoader.loadClass( name );
}
}
catch ( Throwable ignore ) {
}
return Class.forName( name, true, caller.getClassLoader() );
}
/**
* Perform resolution of a class name.
*
* Same as {@link #classForName(String, Class)} except that here we delegate to
* {@link Class#forName(String)} if the context classloader lookup is unsuccessful.
*
* @param name The class name
* @return The class reference.
*
* @throws ClassNotFoundException From {@link Class#forName(String)}.
*
* @deprecated Depending on context, either {@link org.hibernate.boot.registry.classloading.spi.ClassLoaderService}
* or {@link org.hibernate.boot.spi.ClassLoaderAccess} should be preferred
*/
@Deprecated
public static Class classForName(String name) throws ClassNotFoundException {
try {
ClassLoader classLoader = Thread.currentThread().getContextClassLoader();
if ( classLoader != null ) {
return classLoader.loadClass(name);
}
}
catch ( Throwable ignore ) {
}
return Class.forName( name );
}
/**
* Is this member publicly accessible.
*
* @param clazz The class which defines the member
* @param member The memeber.
* @return True if the member is publicly accessible, false otherwise.
*/
public static boolean isPublic(Class clazz, Member member) {
return Modifier.isPublic( member.getModifiers() ) && Modifier.isPublic( clazz.getModifiers() );
}
/**
* Attempt to resolve the specified property type through reflection.
*
* @param className The name of the class owning the property.
* @param name The name of the property.
* @param classLoaderService ClassLoader services
*
* @return The type of the property.
*
* @throws MappingException Indicates we were unable to locate the property.
*/
public static Class reflectedPropertyClass(
String className,
String name,
ClassLoaderService classLoaderService) throws MappingException {
try {
Class clazz = classLoaderService.classForName( className );
return getter( clazz, name ).getReturnType();
}
catch ( ClassLoadingException e ) {
throw new MappingException( "class " + className + " not found while looking for property: " + name, e );
}
}
/**
* Attempt to resolve the specified property type through reflection.
*
* @param clazz The class owning the property.
* @param name The name of the property.
* @return The type of the property.
* @throws MappingException Indicates we were unable to locate the property.
*/
public static Class reflectedPropertyClass(Class clazz, String name) throws MappingException {
return getter( clazz, name ).getReturnType();
}
private static Getter getter(Class clazz, String name) throws MappingException {
return PropertyAccessStrategyMixedImpl.INSTANCE.buildPropertyAccess( clazz, name ).getGetter();
}
public static Object getConstantValue(String name, SessionFactoryImplementor factory) {
boolean conventionalJavaConstants = factory.getSessionFactoryOptions().isConventionalJavaConstants();
Class clazz;
try {
if ( conventionalJavaConstants &&
!JAVA_CONSTANT_PATTERN.matcher( name ).find() ) {
return null;
}
ClassLoaderService classLoaderService = factory.getServiceRegistry().getService( ClassLoaderService.class );
clazz = classLoaderService.classForName( StringHelper.qualifier( name ) );
}
catch ( Throwable t ) {
return null;
}
try {
return clazz.getField( StringHelper.unqualify( name ) ).get( null );
}
catch ( Throwable t ) {
return null;
}
}
/**
* Retrieve the default (no arg) constructor from the given class.
*
* @param clazz The class for which to retrieve the default ctor.
* @return The default constructor.
* @throws PropertyNotFoundException Indicates there was not publicly accessible, no-arg constructor (todo : why PropertyNotFoundException???)
*/
public static Constructor getDefaultConstructor(Class clazz) throws PropertyNotFoundException {
if ( isAbstractClass( clazz ) ) {
return null;
}
try {
Constructor constructor = clazz.getDeclaredConstructor( NO_PARAM_SIGNATURE );
constructor.setAccessible( true );
return constructor;
}
catch ( NoSuchMethodException nme ) {
throw new PropertyNotFoundException(
"Object class [" + clazz.getName() + "] must declare a default (no-argument) constructor"
);
}
}
/**
* Determine if the given class is declared abstract.
*
* @param clazz The class to check.
* @return True if the class is abstract, false otherwise.
*/
public static boolean isAbstractClass(Class clazz) {
int modifier = clazz.getModifiers();
return Modifier.isAbstract(modifier) || Modifier.isInterface(modifier);
}
/**
* Determine is the given class is declared final.
*
* @param clazz The class to check.
* @return True if the class is final, flase otherwise.
*/
public static boolean isFinalClass(Class clazz) {
return Modifier.isFinal( clazz.getModifiers() );
}
/**
* Retrieve a constructor for the given class, with arguments matching the specified Hibernate mapping
* {@link Type types}.
*
* @param clazz The class needing instantiation
* @param types The types representing the required ctor param signature
* @return The matching constructor.
* @throws PropertyNotFoundException Indicates we could not locate an appropriate constructor (todo : again with PropertyNotFoundException???)
*/
public static Constructor getConstructor(Class clazz, Type[] types) throws PropertyNotFoundException {
final Constructor[] candidates = clazz.getConstructors();
Constructor constructor = null;
int numberOfMatchingConstructors = 0;
for ( final Constructor candidate : candidates ) {
final Class[] params = candidate.getParameterTypes();
if ( params.length == types.length ) {
boolean found = true;
for ( int j = 0; j < params.length; j++ ) {
final boolean ok = types[j] == null || params[j].isAssignableFrom( types[j].getReturnedClass() ) || (
types[j] instanceof PrimitiveType &&
params[j] == ( (PrimitiveType) types[j] ).getPrimitiveClass()
);
if ( !ok ) {
found = false;
break;
}
}
if ( found ) {
numberOfMatchingConstructors ++;
candidate.setAccessible( true );
constructor = candidate;
}
}
}
if ( numberOfMatchingConstructors == 1 ) {
return constructor;
}
throw new PropertyNotFoundException( "no appropriate constructor in class: " + clazz.getName() );
}
public static Method getMethod(Class clazz, Method method) {
try {
return clazz.getMethod( method.getName(), method.getParameterTypes() );
}
catch (Exception e) {
return null;
}
}
public static Field findField(Class containerClass, String propertyName) {
if ( containerClass == null ) {
throw new IllegalArgumentException( "Class on which to find field [" + propertyName + "] cannot be null" );
}
else if ( containerClass == Object.class ) {
throw new IllegalArgumentException( "Illegal attempt to locate field [" + propertyName + "] on Object.class" );
}
Field field = locateField( containerClass, propertyName );
if ( field == null ) {
throw new PropertyNotFoundException(
String.format(
Locale.ROOT,
"Could not locate field name [%s] on class [%s]",
propertyName,
containerClass.getName()
)
);
}
field.setAccessible( true );
return field;
}
private static Field locateField(Class clazz, String propertyName) {
if ( clazz == null || Object.class.equals( clazz ) ) {
return null;
}
try {
return clazz.getDeclaredField( propertyName );
}
catch ( NoSuchFieldException nsfe ) {
return locateField( clazz.getSuperclass(), propertyName );
}
}
public static Method findGetterMethod(Class containerClass, String propertyName) {
Class checkClass = containerClass;
Method getter = null;
// check containerClass, and then its super types (if any)
while ( getter == null && checkClass != null ) {
if ( checkClass.equals( Object.class ) ) {
break;
}
getter = getGetterOrNull( checkClass, propertyName );
checkClass = checkClass.getSuperclass();
}
// if no getter found yet, check all implemented interfaces
if ( getter == null ) {
getter = getGetterOrNull( containerClass.getInterfaces(), propertyName );
}
if ( getter == null ) {
throw new PropertyNotFoundException(
String.format(
Locale.ROOT,
"Could not locate getter method for property [%s#%s]",
containerClass.getName(),
propertyName
)
);
}
getter.setAccessible( true );
return getter;
}
private static Method getGetterOrNull(Class[] interfaces, String propertyName) {
Method getter = null;
for ( int i = 0; getter == null && i < interfaces.length; ++i ) {
final Class anInterface = interfaces[i];
getter = getGetterOrNull( anInterface, propertyName );
if ( getter == null ) {
// if no getter found yet, check all implemented interfaces of interface
getter = getGetterOrNull( anInterface.getInterfaces(), propertyName );
}
}
return getter;
}
private static Method getGetterOrNull(Class containerClass, String propertyName) {
for ( Method method : containerClass.getDeclaredMethods() ) {
// if the method has parameters, skip it
if ( method.getParameterCount() != 0 ) {
continue;
}
// if the method is a "bridge", skip it
if ( method.isBridge() ) {
continue;
}
final String methodName = method.getName();
// try "get"
if ( methodName.startsWith( "get" ) ) {
final String stemName = methodName.substring( 3 );
final String decapitalizedStemName = Introspector.decapitalize( stemName );
if ( stemName.equals( propertyName ) || decapitalizedStemName.equals( propertyName ) ) {
verifyNoIsVariantExists( containerClass, propertyName, method, stemName );
return method;
}
}
// if not "get", then try "is"
if ( methodName.startsWith( "is" ) ) {
final String stemName = methodName.substring( 2 );
String decapitalizedStemName = Introspector.decapitalize( stemName );
if ( stemName.equals( propertyName ) || decapitalizedStemName.equals( propertyName ) ) {
verifyNoGetVariantExists( containerClass, propertyName, method, stemName );
return method;
}
}
}
return null;
}
private static void verifyNoIsVariantExists(
Class containerClass,
String propertyName,
Method getMethod,
String stemName) {
// verify that the Class does not also define a method with the same stem name with 'is'
try {
final Method isMethod = containerClass.getDeclaredMethod( "is" + stemName );
// No such method should throw the caught exception. So if we get here, there was
// such a method.
checkGetAndIsVariants( containerClass, propertyName, getMethod, isMethod );
}
catch (NoSuchMethodException ignore) {
}
}
private static void checkGetAndIsVariants(
Class containerClass,
String propertyName,
Method getMethod,
Method isMethod) {
// Check the return types. If they are the same, its ok. If they are different
// we are in a situation where we could not reasonably know which to use.
if ( !isMethod.getReturnType().equals( getMethod.getReturnType() ) ) {
throw new MappingException(
String.format(
Locale.ROOT,
"In trying to locate getter for property [%s], Class [%s] defined " +
"both a `get` [%s] and `is` [%s] variant",
propertyName,
containerClass.getName(),
getMethod.toString(),
isMethod.toString()
)
);
}
}
private static void verifyNoGetVariantExists(
Class containerClass,
String propertyName,
Method isMethod,
String stemName) {
// verify that the Class does not also define a method with the same stem name with 'is'
try {
final Method getMethod = containerClass.getDeclaredMethod( "get" + stemName );
// No such method should throw the caught exception. So if we get here, there was
// such a method.
checkGetAndIsVariants( containerClass, propertyName, getMethod, isMethod );
}
catch (NoSuchMethodException ignore) {
}
}
public static Method findSetterMethod(Class containerClass, String propertyName, Class propertyType) {
Class checkClass = containerClass;
Method setter = null;
// check containerClass, and then its super types (if any)
while ( setter == null && checkClass != null ) {
if ( checkClass.equals( Object.class ) ) {
break;
}
setter = setterOrNull( checkClass, propertyName, propertyType );
checkClass = checkClass.getSuperclass();
}
// if no setter found yet, check all implemented interfaces
if ( setter == null ) {
setter = setterOrNull( containerClass.getInterfaces(), propertyName, propertyType );
// for ( Class theInterface : containerClass.getInterfaces() ) {
// setter = setterOrNull( theInterface, propertyName, propertyType );
// if ( setter != null ) {
// break;
// }
// }
}
if ( setter == null ) {
throw new PropertyNotFoundException(
String.format(
Locale.ROOT,
"Could not locate setter method for property [%s#%s]",
containerClass.getName(),
propertyName
)
);
}
setter.setAccessible( true );
return setter;
}
private static Method setterOrNull(Class[] interfaces, String propertyName, Class propertyType) {
Method setter = null;
for ( int i = 0; setter == null && i < interfaces.length; ++i ) {
final Class anInterface = interfaces[i];
setter = setterOrNull( anInterface, propertyName, propertyType );
if ( setter == null ) {
// if no setter found yet, check all implemented interfaces of interface
setter = setterOrNull( anInterface.getInterfaces(), propertyName, propertyType );
}
}
return setter;
}
private static Method setterOrNull(Class theClass, String propertyName, Class propertyType) {
Method potentialSetter = null;
for ( Method method : theClass.getDeclaredMethods() ) {
final String methodName = method.getName();
if ( method.getParameterCount() == 1 && methodName.startsWith( "set" ) ) {
final String testOldMethod = methodName.substring( 3 );
final String testStdMethod = Introspector.decapitalize( testOldMethod );
if ( testStdMethod.equals( propertyName ) || testOldMethod.equals( propertyName ) ) {
potentialSetter = method;
if ( propertyType == null || method.getParameterTypes()[0].equals( propertyType ) ) {
break;
}
}
}
}
return potentialSetter;
}
}