package org.eclipse.persistence.internal.jpa.metadata.accessors.objects;
/*******************************************************************************
* Copyright (c) 1998, 2010 Oracle, Hans Harz, Andrew Rustleund. All rights reserved.
* This program and the accompanying materials are made available under the
* terms of the Eclipse Public License v1.0 and Eclipse Distribution License v. 1.0
* which accompanies this distribution.
* The Eclipse Public License is available at http://www.eclipse.org/legal/epl-v10.html
* and the Eclipse Distribution License is available at
* http://www.eclipse.org/org/documents/edl-v10.php.
*
* Contributors:
* James Sutherland - initial impl
* 05/14/2010-2.1 Guy Pelletier
* - 253083: Add support for dynamic persistence using ORM.xml/eclipselink-orm.xml
* Hans Harz, Andrew Rustleund - Bug 324862 - IndexOutOfBoundsException in
* DatabaseSessionImpl.initializeDescriptors because @MapKey Annotation is not found.
* 04/21/2011-2.3 dclarke: Upgraded to support ASM 3.3.1
******************************************************************************/
import java.io.IOException;
import java.io.InputStream;
import java.util.ArrayList;
import java.util.List;
import org.eclipse.persistence.internal.helper.Helper;
import org.eclipse.persistence.internal.jpa.metadata.MetadataDescriptor;
import org.eclipse.persistence.internal.jpa.metadata.MetadataLogger;
import org.eclipse.persistence.internal.libraries.asm.AnnotationVisitor;
import org.eclipse.persistence.internal.libraries.asm.Attribute;
import org.eclipse.persistence.internal.libraries.asm.ClassReader;
import org.eclipse.persistence.internal.libraries.asm.ClassVisitor;
import org.eclipse.persistence.internal.libraries.asm.FieldVisitor;
import org.eclipse.persistence.internal.libraries.asm.MethodVisitor;
import org.eclipse.persistence.internal.libraries.asm.Type;
import org.eclipse.persistence.internal.libraries.asm.commons.EmptyVisitor;
/**
* INTERNAL: A metadata factory that uses ASM technology and no reflection
* whatsoever to process the metadata model.
*
* @author James Sutherland
* @since EclipseLink 1.2
*/
public class MetadataAsmFactory extends MetadataFactory {
/** Set of primitive type codes. */
public static final String PRIMITIVES = "VJIBZCSFD";
/** Set of desc token characters. */
public static final String TOKENS = "()<>;";
/**
* INTERNAL:
*/
public MetadataAsmFactory(MetadataLogger logger, ClassLoader loader) {
super(logger, loader);
addMetadataClass("I", new MetadataClass(this, int.class));
addMetadataClass("J", new MetadataClass(this, long.class));
addMetadataClass("S", new MetadataClass(this, short.class));
addMetadataClass("Z", new MetadataClass(this, boolean.class));
addMetadataClass("F", new MetadataClass(this, float.class));
addMetadataClass("D", new MetadataClass(this, double.class));
addMetadataClass("C", new MetadataClass(this, char.class));
addMetadataClass("B", new MetadataClass(this, byte.class));
}
/**
* Build the class metadata for the class name using ASM to read the class
* byte codes.
*/
protected void buildClassMetadata(String className) {
ClassMetadataVisitor visitor = new ClassMetadataVisitor();
InputStream stream = null;
try {
String resourceString = className.replace('.', '/') + ".class";
stream = m_loader.getResourceAsStream(resourceString);
ClassReader reader = new ClassReader(stream);
reader.accept(visitor, 0);
} catch (Exception exception) {
// Some basic types can't be found, so can just be registered
// (i.e. arrays). Also, VIRTUAL classes may also not exist,
// therefore, tag the MetadataClass as loadable false. This will be
// used to determine if a class will be dynamically created or not.
MetadataClass metadataClass = new MetadataClass(this, className);
metadataClass.setIsAccessible(false);
addMetadataClass(metadataClass);
} finally {
try {
if (stream != null) {
stream.close();
}
} catch (IOException ignore) {
// Ignore.
}
}
}
/**
* Return the class metadata for the class name.
*/
public MetadataClass getMetadataClass(String className) {
if (className == null) {
return null;
}
if (!metadataClassExists(className)) {
buildClassMetadata(className);
}
return getMetadataClasses().get(className);
}
/**
* INTERNAL: This method resolves generic types based on the ASM class
* metadata. Unless every other factory (e.g. APT mirror factory) respects
* the generic format as built from ASM this method will not work since it
* is very tied to it.
*/
public void resolveGenericTypes(MetadataClass child, List<String> genericTypes, MetadataClass parent, MetadataDescriptor descriptor) {
// If we have a generic parent we need to grab our generic types
// that may be used (and therefore need to be resolved) to map
// accessors correctly.
if (genericTypes != null) {
// The generic types provided map to its parents generic types. The
// generics also include the superclass, and interfaces. The parent
// generics include the type and ":" and class.
List<String> parentGenericTypes = parent.getGenericType();
if (parentGenericTypes != null) {
List genericParentTemp = new ArrayList(genericTypes);
genericParentTemp.removeAll(child.getInterfaces());
int size = genericParentTemp.size();
int parentIndex = 0;
for (int index = genericTypes.indexOf(parent.getName()) + 1; index < size; index++) {
String actualTypeArgument = genericTypes.get(index);
// Ignore extra types on the end of the child, such as
// interface generics.
if (parentIndex >= parentGenericTypes.size()) {
break;
}
String variable = parentGenericTypes.get(parentIndex);
parentIndex = parentIndex + 3;
// We are building bottom up and need to link up any
// TypeVariables with the actual class from the originating
// entity.
if (actualTypeArgument.length() == 1) {
index++;
actualTypeArgument = genericTypes.get(index);
descriptor.addGenericType(variable, descriptor.getGenericType(actualTypeArgument));
} else {
descriptor.addGenericType(variable, actualTypeArgument);
}
}
}
}
}
/**
* Walk the class byte codes and collect the class info.
*/
public class ClassMetadataVisitor implements ClassVisitor {
private MetadataClass classMetadata;
ClassMetadataVisitor() {
}
public void visit(int version, int access, String name, String signature, String superName, String[] interfaces) {
String className = toClassName(name);
classMetadata = new MetadataClass(MetadataAsmFactory.this, className);
addMetadataClass(classMetadata);
classMetadata.setName(className);
classMetadata.setSuperclassName(toClassName(superName));
classMetadata.setModifiers(access);
classMetadata.setGenericType(processDescription(signature, true));
for (String interfaceName : interfaces) {
classMetadata.addInterface(toClassName(interfaceName));
}
}
/**
* Reference to the inner class, the inner class must be processed
* independently
*/
public void visitInnerClass(String name, String outerName, String innerName, int access) {
}
public FieldVisitor visitField(int access, String name, String desc, String signature, Object value) {
if (classMetadata.isJDK()) {
return null;
}
return new MetadataFieldVisitor(this.classMetadata, access, name, desc, signature, value);
}
public MethodVisitor visitMethod(int access, String name, String desc, String signature, String[] exceptions) {
if (classMetadata.isJDK() || name.indexOf("init>") != -1) {
return null;
}
return new MetadataMethodVisitor(this.classMetadata, access, name, signature, desc, exceptions);
}
public AnnotationVisitor visitAnnotation(String desc, boolean visible) {
if (desc.startsWith("Ljavax/persistence") || desc.startsWith("Lorg/eclipse/persistence")) {
return new MetadataAnnotationVisitor(this.classMetadata, desc);
}
return null;
}
public void visitAttribute(Attribute attr) {
}
public void visitEnd() {
}
public void visitSource(String source, String debug) {
}
public void visitOuterClass(String owner, String name, String desc) {
}
}
/**
* {@link AnnotationVisitor} used to process class, field , and method
* annotations populating a {@link MetadataAnnotation} and its nested state.
*
* @see MetadataAnnotationArrayVisitor for population of array attributes
*/
class MetadataAnnotationVisitor implements AnnotationVisitor {
/**
* Element the annotation is being applied to. If this is null the
* {@link MetadataAnnotation} being constructed is a nested annotation
* and is already referenced from its parent.
*/
private MetadataAnnotatedElement element;
/**
* {@link MetadataAnnotation} being populated
*/
private MetadataAnnotation annotation;
MetadataAnnotationVisitor(MetadataAnnotatedElement element, String name) {
this.element = element;
this.annotation = new MetadataAnnotation();
this.annotation.setName(processDescription(name, false).get(0));
}
public MetadataAnnotationVisitor(MetadataAnnotation annotation) {
this.annotation = annotation;
}
public void visit(String name, Object value) {
this.annotation.addAttribute(name, annotationValue(null, value));
}
public void visitEnum(String name, String desc, String value) {
this.annotation.addAttribute(name, annotationValue(desc, value));
}
public AnnotationVisitor visitAnnotation(String name, String desc) {
MetadataAnnotation mda = new MetadataAnnotation();
mda.setName(processDescription(desc, false).get(0));
this.annotation.addAttribute(name, mda);
return new MetadataAnnotationVisitor(mda);
}
public AnnotationVisitor visitArray(String name) {
return new MetadataAnnotationArrayVisitor(this.annotation, name);
}
public void visitEnd() {
if (this.element != null) {
this.element.addAnnotation(this.annotation);
}
}
}
/**
* Specialized visitor to handle the population of arrays of annotation
* values.
*/
class MetadataAnnotationArrayVisitor implements AnnotationVisitor {
private MetadataAnnotation annotation;
private String attributeName;
private List<Object> values;
public MetadataAnnotationArrayVisitor(MetadataAnnotation annotation, String name) {
this.annotation = annotation;
this.attributeName = name;
this.values = new ArrayList<Object>();
}
public void visit(String name, Object value) {
this.values.add(annotationValue(null, value));
}
public void visitEnum(String name, String desc, String value) {
this.values.add(annotationValue(desc, value));
}
public AnnotationVisitor visitAnnotation(String name, String desc) {
MetadataAnnotation mda = new MetadataAnnotation();
mda.setName(processDescription(desc, false).get(0));
this.values.add(mda);
return new MetadataAnnotationVisitor(mda);
}
public AnnotationVisitor visitArray(String name) {
// Ignore nested array case?
return null;
}
public void visitEnd() {
this.annotation.addAttribute(this.attributeName, this.values.toArray());
}
}
/**
* Factory for the creation of {@link MetadataField} handling basic type,
* generics, and annotations.
*/
class MetadataFieldVisitor implements FieldVisitor {
private MetadataField field;
public MetadataFieldVisitor(MetadataClass classMetadata, int access, String name, String desc, String signature, Object value) {
this.field = new MetadataField(classMetadata);
this.field.setModifiers(access);
this.field.setName(name);
this.field.setAttributeName(name);
this.field.setGenericType(processDescription(signature, true));
this.field.setType(processDescription(desc, false).get(0));
}
public AnnotationVisitor visitAnnotation(String desc, boolean visible) {
if (desc.startsWith("Ljavax/persistence") || desc.startsWith("Lorg/eclipse/persistence")) {
return new MetadataAnnotationVisitor(this.field, desc);
}
return null;
}
public void visitAttribute(Attribute attr) {
}
public void visitEnd() {
this.field.getDeclaringClass().addField(this.field);
}
}
/**
* Factory for the creation of {@link MetadataMethod} handling basic type,
* generics, and annotations.
*/
// Note: Subclassed EmptyListener to minimize signature requirements for
// ignored MethodVisitor API
class MetadataMethodVisitor extends EmptyVisitor {
private MetadataMethod method;
public MetadataMethodVisitor(MetadataClass classMetadata, int access, String name, String desc, String signature, String[] exceptions) {
this.method = new MetadataMethod(MetadataAsmFactory.this, classMetadata);
this.method.setName(name);
this.method.setAttributeName(Helper.getAttributeNameFromMethodName(name));
this.method.setModifiers(access);
this.method.setGenericType(processDescription(desc, true));
List<String> argumentNames = processDescription(signature, false);
if (argumentNames != null && !argumentNames.isEmpty()) {
this.method.setReturnType(argumentNames.get(argumentNames.size() - 1));
argumentNames.remove(argumentNames.size() - 1);
this.method.setParameters(argumentNames);
}
}
@Override
public AnnotationVisitor visitAnnotation(String desc, boolean visible) {
if (desc.startsWith("Ljavax/persistence") || desc.startsWith("Lorg/eclipse/persistence")) {
return new MetadataAnnotationVisitor(this.method, desc);
}
return null;
}
@Override
public AnnotationVisitor visitAnnotationDefault() {
return null;
}
@Override
public AnnotationVisitor visitParameterAnnotation(int parameter, String desc, boolean visible) {
return null;
}
@Override
public AnnotationVisitor visitAnnotation(String name, String desc) {
return null;
}
/**
* At the end of visiting this method add it to the
* {@link MetadataClass} and handle duplicate method names by chaining
* them.
*/
@Override
public void visitEnd() {
MetadataClass classMetadata = this.method.getMetadataClass();
MetadataMethod existing = classMetadata.getMethods().get(this.method.getName());
if (existing == null) {
classMetadata.getMethods().put(this.method.getName(), this.method);
} else {
// Handle methods with the same name.
while (existing.getNext() != null) {
existing = existing.getNext();
}
existing.setNext(this.method);
}
}
}
/**
* Process the byte-code argument description and return the array of Java
* class names. i.e.
* "(Lorg/foo/Bar;Z)Ljava/lang/Boolean;"=>[org.foo.Bar,boolean
* ,java.lang.Boolean]
*/
private static List<String> processDescription(String desc, boolean isGeneric) {
if (desc == null) {
return null;
}
List<String> arguments = new ArrayList<String>();
int index = 0;
while (index < desc.length()) {
char next = desc.charAt(index);
if (TOKENS.indexOf(next) == -1) {
if (next == 'L') {
index++;
int start = index;
next = desc.charAt(index);
while (TOKENS.indexOf(next) == -1) {
index++;
next = desc.charAt(index);
}
arguments.add(toClassName(desc.substring(start, index)));
} else if (!isGeneric && (PRIMITIVES.indexOf(next) != -1)) {
// Primitives.
arguments.add(getPrimitiveName(next));
} else if (next == '[') {
// Arrays.
int start = index;
index++;
next = desc.charAt(index);
// Nested arrays.
while (next == '[') {
index++;
next = desc.charAt(index);
}
if (PRIMITIVES.indexOf(next) == -1) {
while (next != ';') {
index++;
next = desc.charAt(index);
}
arguments.add(toClassName(desc.substring(start, index + 1)));
} else {
arguments.add(desc.substring(start, index + 1));
}
} else {
// Is a generic type variable.
arguments.add(new String(new char[] { next }));
}
}
index++;
}
return arguments;
}
/**
* Return the Java type name for the primitive code.
*/
private static String getPrimitiveName(char primitive) {
if (primitive == 'V') {
return "void";
} else if (primitive == 'I') {
return "int";
} else if (primitive == 'Z') {
return "boolean";
} else if (primitive == 'J') {
return "long";
} else if (primitive == 'F') {
return "float";
} else if (primitive == 'D') {
return "double";
} else if (primitive == 'B') {
return "byte";
} else if (primitive == 'C') {
return "char";
} else if (primitive == 'S') {
return "short";
} else {
return new String(new char[] { primitive });
}
}
private static String toClassName(String classDescription) {
if (classDescription == null) {
return "void";
}
return classDescription.replace('/', '.');
}
/**
* Convert the annotation value into the value used in the meta model
*/
private static Object annotationValue(String description, Object value) {
if (value instanceof Type) {
return ((Type) value).getClassName();
}
return value;
}
}