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PropertyFactory.java
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PropertyFactory.java
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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 <http://www.gnu.org/licenses/lgpl-2.1.html>.
*/
package org.hibernate.tuple;
import java.lang.reflect.Constructor;
import org.hibernate.EntityMode;
import org.hibernate.HibernateException;
import org.hibernate.bytecode.enhance.spi.interceptor.EnhancementHelper;
import org.hibernate.engine.internal.UnsavedValueFactory;
import org.hibernate.engine.spi.IdentifierValue;
import org.hibernate.engine.spi.SessionFactoryImplementor;
import org.hibernate.engine.spi.VersionValue;
import org.hibernate.id.IdentifierGenerator;
import org.hibernate.internal.util.ReflectHelper;
import org.hibernate.mapping.KeyValue;
import org.hibernate.mapping.PersistentClass;
import org.hibernate.mapping.Property;
import org.hibernate.persister.entity.EntityPersister;
import org.hibernate.property.access.spi.Getter;
import org.hibernate.property.access.spi.PropertyAccess;
import org.hibernate.property.access.spi.PropertyAccessStrategy;
import org.hibernate.property.access.spi.PropertyAccessStrategyResolver;
import org.hibernate.tuple.entity.EntityBasedAssociationAttribute;
import org.hibernate.tuple.entity.EntityBasedBasicAttribute;
import org.hibernate.tuple.entity.EntityBasedCompositionAttribute;
import org.hibernate.tuple.entity.VersionProperty;
import org.hibernate.type.AssociationType;
import org.hibernate.type.CompositeType;
import org.hibernate.type.Type;
import org.hibernate.type.VersionType;
/**
* Responsible for generation of runtime metamodel {@link Property} representations.
* Makes distinction between identifier, version, and other (standard) properties.
*
* @author Steve Ebersole
*/
public final class PropertyFactory {
private PropertyFactory() {
}
/**
* Generates the attribute representation of the identifier for a given entity mapping.
*
* @param mappedEntity The mapping definition of the entity.
* @param generator The identifier value generator to use for this identifier.
*
* @return The appropriate IdentifierProperty definition.
*/
public static IdentifierProperty buildIdentifierAttribute(
PersistentClass mappedEntity,
IdentifierGenerator generator) {
String mappedUnsavedValue = mappedEntity.getIdentifier().getNullValue();
Type type = mappedEntity.getIdentifier().getType();
Property property = mappedEntity.getIdentifierProperty();
IdentifierValue unsavedValue = UnsavedValueFactory.getUnsavedIdentifierValue(
mappedUnsavedValue,
getGetter( property ),
type,
getConstructor( mappedEntity )
);
if ( property == null ) {
// this is a virtual id property...
return new IdentifierProperty(
type,
mappedEntity.hasEmbeddedIdentifier(),
mappedEntity.hasIdentifierMapper(),
unsavedValue,
generator
);
}
else {
return new IdentifierProperty(
property.getName(),
type,
mappedEntity.hasEmbeddedIdentifier(),
unsavedValue,
generator
);
}
}
/**
* Generates a VersionProperty representation for an entity mapping given its
* version mapping Property.
*
* @param property The version mapping Property.
* @param lazyAvailable Is property lazy loading currently available.
*
* @return The appropriate VersionProperty definition.
*/
public static VersionProperty buildVersionProperty(
EntityPersister persister,
SessionFactoryImplementor sessionFactory,
int attributeNumber,
Property property,
boolean lazyAvailable) {
String mappedUnsavedValue = ( (KeyValue) property.getValue() ).getNullValue();
VersionValue unsavedValue = UnsavedValueFactory.getUnsavedVersionValue(
mappedUnsavedValue,
getGetter( property ),
(VersionType) property.getType(),
getConstructor( property.getPersistentClass() )
);
boolean lazy = lazyAvailable && property.isLazy();
return new VersionProperty(
persister,
sessionFactory,
attributeNumber,
property.getName(),
property.getValue().getType(),
new BaselineAttributeInformation.Builder()
.setLazy( lazy )
.setInsertable( property.isInsertable() )
.setUpdateable( property.isUpdateable() )
.setValueGenerationStrategy( property.getValueGenerationStrategy() )
.setNullable( property.isOptional() )
.setDirtyCheckable( property.isUpdateable() && !lazy )
.setVersionable( property.isOptimisticLocked() )
.setCascadeStyle( property.getCascadeStyle() )
.createInformation(),
unsavedValue
);
}
public static enum NonIdentifierAttributeNature {
BASIC,
COMPOSITE,
ANY,
ENTITY,
COLLECTION
}
/**
* Generate a non-identifier (and non-version) attribute based on the given mapped property from the given entity
*
* @param property The mapped property.
* @param lazyAvailable Is property lazy loading currently available.
*
* @return The appropriate NonIdentifierProperty definition.
*/
public static NonIdentifierAttribute buildEntityBasedAttribute(
EntityPersister persister,
SessionFactoryImplementor sessionFactory,
int attributeNumber,
Property property,
boolean lazyAvailable) {
final Type type = property.getValue().getType();
final NonIdentifierAttributeNature nature = decode( type );
// we need to dirty check collections, since they can cause an owner
// version number increment
// we need to dirty check many-to-ones with not-found="ignore" in order
// to update the cache (not the database), since in this case a null
// entity reference can lose information
boolean alwaysDirtyCheck = type.isAssociationType() &&
( (AssociationType) type ).isAlwaysDirtyChecked();
final boolean lazy = ! EnhancementHelper.includeInBaseFetchGroup(
property,
lazyAvailable,
sessionFactory.getSessionFactoryOptions().isEnhancementAsProxyEnabled()
);
switch ( nature ) {
case BASIC: {
return new EntityBasedBasicAttribute(
persister,
sessionFactory,
attributeNumber,
property.getName(),
type,
new BaselineAttributeInformation.Builder()
.setLazy( lazy )
.setInsertable( property.isInsertable() )
.setUpdateable( property.isUpdateable() )
.setValueGenerationStrategy( property.getValueGenerationStrategy() )
.setNullable( property.isOptional() )
.setDirtyCheckable( alwaysDirtyCheck || property.isUpdateable() )
.setVersionable( property.isOptimisticLocked() )
.setCascadeStyle( property.getCascadeStyle() )
.setFetchMode( property.getValue().getFetchMode() )
.createInformation()
);
}
case COMPOSITE: {
return new EntityBasedCompositionAttribute(
persister,
sessionFactory,
attributeNumber,
property.getName(),
(CompositeType) type,
new BaselineAttributeInformation.Builder()
.setLazy( lazy )
.setInsertable( property.isInsertable() )
.setUpdateable( property.isUpdateable() )
.setValueGenerationStrategy( property.getValueGenerationStrategy() )
.setNullable( property.isOptional() )
.setDirtyCheckable( alwaysDirtyCheck || property.isUpdateable() )
.setVersionable( property.isOptimisticLocked() )
.setCascadeStyle( property.getCascadeStyle() )
.setFetchMode( property.getValue().getFetchMode() )
.createInformation()
);
}
case ENTITY:
case ANY:
case COLLECTION: {
return new EntityBasedAssociationAttribute(
persister,
sessionFactory,
attributeNumber,
property.getName(),
(AssociationType) type,
new BaselineAttributeInformation.Builder()
.setLazy( lazy )
.setInsertable( property.isInsertable() )
.setUpdateable( property.isUpdateable() )
.setValueGenerationStrategy( property.getValueGenerationStrategy() )
.setNullable( property.isOptional() )
.setDirtyCheckable( alwaysDirtyCheck || property.isUpdateable() )
.setVersionable( property.isOptimisticLocked() )
.setCascadeStyle( property.getCascadeStyle() )
.setFetchMode( property.getValue().getFetchMode() )
.createInformation()
);
}
default: {
throw new HibernateException( "Internal error" );
}
}
}
private static NonIdentifierAttributeNature decode(Type type) {
if ( type.isAssociationType() ) {
AssociationType associationType = (AssociationType) type;
if ( type.isComponentType() ) {
// an any type is both an association and a composite...
return NonIdentifierAttributeNature.ANY;
}
return type.isCollectionType()
? NonIdentifierAttributeNature.COLLECTION
: NonIdentifierAttributeNature.ENTITY;
}
else {
if ( type.isComponentType() ) {
return NonIdentifierAttributeNature.COMPOSITE;
}
return NonIdentifierAttributeNature.BASIC;
}
}
/**
* @deprecated See mainly {@link #buildEntityBasedAttribute}
*/
@Deprecated
public static StandardProperty buildStandardProperty(Property property, boolean lazyAvailable) {
final Type type = property.getValue().getType();
// we need to dirty check collections, since they can cause an owner
// version number increment
// we need to dirty check many-to-ones with not-found="ignore" in order
// to update the cache (not the database), since in this case a null
// entity reference can lose information
boolean alwaysDirtyCheck = type.isAssociationType() &&
( (AssociationType) type ).isAlwaysDirtyChecked();
return new StandardProperty(
property.getName(),
type,
// only called for embeddable sub-attributes which are never (yet) lazy
//lazyAvailable && property.isLazy(),
false,
property.isInsertable(),
property.isUpdateable(),
property.getValueGenerationStrategy(),
property.isOptional(),
alwaysDirtyCheck || property.isUpdateable(),
property.isOptimisticLocked(),
property.getCascadeStyle(),
property.getValue().getFetchMode()
);
}
private static Constructor getConstructor(PersistentClass persistentClass) {
if ( persistentClass == null || !persistentClass.hasPojoRepresentation() ) {
return null;
}
try {
return ReflectHelper.getDefaultConstructor( persistentClass.getMappedClass() );
}
catch (Throwable t) {
return null;
}
}
private static Getter getGetter(Property mappingProperty) {
if ( mappingProperty == null || !mappingProperty.getPersistentClass().hasPojoRepresentation() ) {
return null;
}
final PropertyAccessStrategyResolver propertyAccessStrategyResolver =
mappingProperty.getPersistentClass().getServiceRegistry().getService( PropertyAccessStrategyResolver.class );
final PropertyAccessStrategy propertyAccessStrategy = propertyAccessStrategyResolver.resolvePropertyAccessStrategy(
mappingProperty.getClass(),
mappingProperty.getPropertyAccessorName(),
EntityMode.POJO
);
final PropertyAccess propertyAccess = propertyAccessStrategy.buildPropertyAccess(
mappingProperty.getPersistentClass().getMappedClass(),
mappingProperty.getName()
);
return propertyAccess.getGetter();
}
}