Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance. Project price only 1 $
You can buy this project and download/modify it how often you want.
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with 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
*
* 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.
*/
package org.apache.openjpa.enhance;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.lang.reflect.Field;
import java.lang.reflect.Method;
import org.apache.openjpa.conf.OpenJPAConfiguration;
import org.apache.openjpa.kernel.OpenJPAStateManager;
import org.apache.openjpa.kernel.StateManagerImpl;
import org.apache.openjpa.meta.AccessCode;
import org.apache.openjpa.meta.ClassMetaData;
import org.apache.openjpa.meta.FieldMetaData;
import org.apache.openjpa.meta.JavaTypes;
import org.apache.openjpa.util.ApplicationIds;
import org.apache.openjpa.util.ImplHelper;
import org.apache.openjpa.util.InternalException;
import org.apache.openjpa.util.ObjectId;
/**
* Implementation of the {@link PersistenceCapable} interface that can handle
* the persistence-capable contract for instances that were not enhanced
* before class load time.
*
* @since 1.0.0
*/
public class ReflectingPersistenceCapable
implements PersistenceCapable, ManagedInstanceProvider, Serializable {
private Object o;
private StateManager sm;
// this will be reconstituted in readObject()
private transient PersistenceCapable pcSubclassInstance;
// this will reconstituted by a call to pcReplaceStateManager() by the
// instance that has a reference to the deserialized data
private transient ClassMetaData meta;
private boolean serializationUserVisible = true;
public ReflectingPersistenceCapable(Object o, OpenJPAConfiguration conf) {
this.o = o;
Class type = o.getClass();
pcSubclassInstance = PCRegistry.newInstance(type, null, false);
meta = conf.getMetaDataRepositoryInstance()
.getMetaData(type, null, true);
}
public int pcGetEnhancementContractVersion() {
return PCEnhancer.ENHANCER_VERSION;
}
public Object pcGetGenericContext() {
if (sm == null)
return null;
else
return sm.getGenericContext();
}
public StateManager pcGetStateManager() {
return sm;
}
public void pcReplaceStateManager(StateManager sm) {
this.sm = sm;
if (meta == null && sm instanceof OpenJPAStateManager)
meta = ((OpenJPAStateManager) sm).getMetaData();
}
public void pcProvideField(int i) {
Object value = getValue(i, o);
switch (meta.getField(i).getDeclaredTypeCode()) {
case JavaTypes.BOOLEAN:
sm.providedBooleanField(this, i, value == null ? false :
((Boolean) value).booleanValue());
break;
case JavaTypes.BYTE:
sm.providedByteField(this, i, value == null ? 0 :
((Byte) value).byteValue());
break;
case JavaTypes.CHAR:
sm.providedCharField(this, i, value == null ? 0 :
((Character) value).charValue());
break;
case JavaTypes.DOUBLE:
sm.providedDoubleField(this, i, value == null ? 0 :
((Double) value).doubleValue());
break;
case JavaTypes.FLOAT:
sm.providedFloatField(this, i, value == null ? 0 :
((Float) value).floatValue());
break;
case JavaTypes.INT:
sm.providedIntField(this, i, value == null ? 0 :
((Integer) value).intValue());
break;
case JavaTypes.LONG:
sm.providedLongField(this, i, value == null ? 0 :
((Long) value).longValue());
break;
case JavaTypes.SHORT:
sm.providedShortField(this, i, value == null ? 0 :
((Short) value).shortValue());
break;
case JavaTypes.STRING:
sm.providedStringField(this, i, (String) value);
break;
default:
sm.providedObjectField(this, i, value);
break;
}
}
public void pcProvideFields(int[] fieldIndices) {
for(int i = 0; i < fieldIndices.length; i++)
pcProvideField(fieldIndices[i]);
}
public void pcReplaceField(int i) {
switch(meta.getField(i).getDeclaredTypeCode()) {
case JavaTypes.BOOLEAN:
setValue(i, o, Boolean.valueOf(
sm.replaceBooleanField(this, i)));
break;
case JavaTypes.BYTE:
setValue(i, o, new Byte(sm.replaceByteField(this, i)));
break;
case JavaTypes.CHAR:
setValue(i, o, new Character(sm.replaceCharField(this, i)));
break;
case JavaTypes.DOUBLE:
setValue(i, o, new Double(sm.replaceDoubleField(this, i)));
break;
case JavaTypes.FLOAT:
setValue(i, o, new Float(sm.replaceFloatField(this, i)));
break;
case JavaTypes.INT:
setValue(i, o, new Integer(sm.replaceIntField(this, i)));
break;
case JavaTypes.LONG:
setValue(i, o, new Long(sm.replaceLongField(this, i)));
break;
case JavaTypes.SHORT:
setValue(i, o, new Short(sm.replaceShortField(this, i)));
break;
case JavaTypes.STRING:
setValue(i, o, sm.replaceStringField(this, i));
break;
default:
setValue(i, o, sm.replaceObjectField(this, i));
break;
}
}
public void pcReplaceFields(int[] fieldIndices) {
for(int i = 0; i < fieldIndices.length; i++)
pcReplaceField(fieldIndices[i]);
}
public void pcCopyField(Object fromObject, int i) {
// this doesn't need switch treatment because we're just
// reflecting on both sides, bypassing field managers.
setValue(i, o, getValue(i, fromObject));
}
public void pcCopyFields(Object fromObject, int[] fieldIndices) {
if (fromObject instanceof ReflectingPersistenceCapable)
fromObject = ((ReflectingPersistenceCapable) fromObject)
.getManagedInstance();
for(int i = 0; i < fieldIndices.length; i++)
pcCopyField(fromObject, fieldIndices[i]);
}
public void pcDirty(String fieldName) {
if (sm != null)
sm.dirty(fieldName);
}
public Object pcFetchObjectId() {
if (sm != null)
return sm.fetchObjectId();
else
return null;
}
public Object pcGetVersion() {
if (sm == null)
return null;
else
return sm.getVersion();
}
public boolean pcIsDirty() {
if (sm == null)
return false;
else {
if (sm instanceof StateManagerImpl)
((StateManagerImpl) sm).dirtyCheck();
return sm.isDirty();
}
}
public boolean pcIsTransactional() {
if (sm == null)
return false;
else
return sm.isTransactional();
}
public boolean pcIsPersistent() {
if (sm == null)
return false;
else
return sm.isPersistent();
}
public boolean pcIsNew() {
if (sm == null)
return false;
else
return sm.isNew();
}
public boolean pcIsDeleted() {
if (sm == null)
return false;
else
return sm.isDeleted();
}
// null == unknown
public Boolean pcIsDetached() {
if (sm != null)
return Boolean.valueOf(sm.isDetached());
// ##### we could do a lot more here if a detached state field
// ##### was specified.
return null;
}
public PersistenceCapable pcNewInstance(StateManager sm, boolean clear) {
return pcSubclassInstance.pcNewInstance(sm, clear);
}
public PersistenceCapable pcNewInstance(StateManager sm, Object oid,
boolean clear) {
return pcSubclassInstance.pcNewInstance(sm, oid, clear);
}
public Object pcNewObjectIdInstance() {
FieldMetaData[] pkFields = meta.getPrimaryKeyFields();
Object[] pks = new Object[pkFields.length];
for (int i = 0; i < pkFields.length; i++)
pks[i] = getValue(pkFields[i].getIndex(), o);
return ApplicationIds.fromPKValues(pks, meta);
}
public Object pcNewObjectIdInstance(Object oid) {
return pcSubclassInstance.pcNewObjectIdInstance(oid);
}
public void pcCopyKeyFieldsToObjectId(Object oid) {
Object target;
if (oid instanceof ObjectId)
target = ((ObjectId) oid).getId();
else
target = oid;
FieldMetaData[] pks = meta.getPrimaryKeyFields();
for (int i = 0; i < pks.length; i++) {
Object val = getValue(pks[i].getIndex(), o);
Field f = Reflection.findField(target.getClass(), pks[i].getName(),
true);
Reflection.set(target, f, val);
}
}
public void pcCopyKeyFieldsToObjectId(FieldSupplier supplier, Object obj) {
// This is only ever invoked against PCs in the PCRegistry. Such PCs
// will always be enhanced types or subtypes of user types, and will
// never be a ReflectingPersistenceCapable.
throw new InternalException();
}
public void pcCopyKeyFieldsFromObjectId(FieldConsumer consumer,
Object obj) {
// This is only ever invoked against PCs in the PCRegistry. Such PCs
// will always be enhanced types or subtypes of user types, and will
// never be a ReflectingPersistenceCapable.
throw new InternalException();
}
public Object pcGetDetachedState() {
// ##### we can implement this if a state field has been set
return null;
}
public void pcSetDetachedState(Object state) {
// StateManagerImpl will invoke this with null during instance
// initialization
if (state != null)
throw new UnsupportedOperationException();
// ##### we can implement this if a state field has been set
}
public void pcSetSerializationUserVisible(boolean userVisible) {
serializationUserVisible = userVisible;
}
public boolean pcIsSerializationUserVisible() {
return serializationUserVisible;
}
public Object getManagedInstance() {
return o;
}
private Object getValue(int i, Object o) {
FieldMetaData fmd = meta.getField(i);
if (AccessCode.isProperty(fmd.getAccessType())) {
Field field = Reflection.findField(meta.getDescribedType(),
toFieldName(i), true);
return Reflection.get(o, field);
} else {
Field field = (Field) meta.getField(i).getBackingMember();
return Reflection.get(o, field);
}
}
private String toFieldName(int i) {
if (pcSubclassInstance instanceof AttributeTranslator)
return ((AttributeTranslator) pcSubclassInstance)
.pcAttributeIndexToFieldName(i);
else
return meta.getField(i).getName();
}
private void setValue(int i, Object o, Object val) {
FieldMetaData fmd = meta.getField(i);
if (AccessCode.isProperty(fmd.getAccessType())) {
if (!meta.isIntercepting()) {
Method meth = Reflection.findSetter(meta.getDescribedType(),
meta.getField(i).getName(), true);
Reflection.set(o, meth, val);
} else {
Field field = Reflection.findField(meta.getDescribedType(),
toFieldName(i), true);
Reflection.set(o, field, val);
}
} else {
Field field = (Field) meta.getField(i).getBackingMember();
Reflection.set(o, field, val);
}
}
private void writeObject(ObjectOutputStream out) throws IOException {
out.defaultWriteObject();
out.writeObject(meta.getDescribedType());
}
private void readObject(ObjectInputStream in)
throws ClassNotFoundException, IOException {
in.defaultReadObject();
Class type = (Class) in.readObject();
pcSubclassInstance = PCRegistry.newInstance(type, null, false);
ImplHelper.registerPersistenceCapable(this);
}
}