/*
* Hibernate, Relational Persistence for Idiomatic Java
*
* Copyright (c) 2010, Red Hat, Inc. and/or its affiliates or third-party contributors as
* indicated by the @author tags or express copyright attribution
* statements applied by the authors. All third-party contributions are
* distributed under license by Red Hat, Inc.
*
* This copyrighted material is made available to anyone wishing to use, modify,
* copy, or redistribute it subject to the terms and conditions of the GNU
* Lesser General Public License, as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License
* for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this distribution; if not, write to:
* Free Software Foundation, Inc.
* 51 Franklin Street, Fifth Floor
* Boston, MA 02110-1301 USA
*/
package org.hibernate.search.engine.spi;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeSet;
import org.apache.lucene.analysis.Analyzer;
import org.apache.lucene.document.Field;
import org.apache.lucene.search.Similarity;
import org.hibernate.annotations.common.AssertionFailure;
import org.hibernate.annotations.common.reflection.ReflectionManager;
import org.hibernate.annotations.common.reflection.XAnnotatedElement;
import org.hibernate.annotations.common.reflection.XClass;
import org.hibernate.annotations.common.reflection.XMember;
import org.hibernate.annotations.common.reflection.XProperty;
import org.hibernate.annotations.common.util.StringHelper;
import org.hibernate.search.SearchException;
import org.hibernate.search.analyzer.Discriminator;
import org.hibernate.search.annotations.AnalyzerDef;
import org.hibernate.search.annotations.AnalyzerDefs;
import org.hibernate.search.annotations.AnalyzerDiscriminator;
import org.hibernate.search.annotations.Boost;
import org.hibernate.search.annotations.ClassBridge;
import org.hibernate.search.annotations.ClassBridges;
import org.hibernate.search.annotations.ContainedIn;
import org.hibernate.search.annotations.DocumentId;
import org.hibernate.search.annotations.DynamicBoost;
import org.hibernate.search.annotations.Index;
import org.hibernate.search.annotations.IndexedEmbedded;
import org.hibernate.search.annotations.NumericField;
import org.hibernate.search.annotations.NumericFields;
import org.hibernate.search.annotations.Store;
import org.hibernate.search.annotations.TermVector;
import org.hibernate.search.backend.LuceneWork;
import org.hibernate.search.bridge.builtin.impl.NullEncodingTwoWayFieldBridge;
import org.hibernate.search.bridge.impl.BridgeFactory;
import org.hibernate.search.bridge.FieldBridge;
import org.hibernate.search.bridge.LuceneOptions;
import org.hibernate.search.bridge.TwoWayFieldBridge;
import org.hibernate.search.engine.BoostStrategy;
import org.hibernate.search.engine.DocumentBuilder;
import org.hibernate.search.engine.impl.DefaultBoostStrategy;
import org.hibernate.search.engine.impl.LuceneOptionsImpl;
import org.hibernate.search.engine.impl.WorkPlan;
import org.hibernate.search.impl.ConfigContext;
import org.hibernate.search.util.impl.ClassLoaderHelper;
import org.hibernate.search.util.impl.PassThroughAnalyzer;
import org.hibernate.search.util.impl.ReflectionHelper;
import org.hibernate.search.util.impl.ScopedAnalyzer;
import org.hibernate.search.util.logging.impl.Log;
import org.hibernate.search.util.logging.impl.LoggerFactory;
/**
* Abstract base class for the document builders.
*
* @author Hardy Ferentschik
*/
public abstract class AbstractDocumentBuilder<T> implements DocumentBuilder {
private static final Log log = LoggerFactory.make();
private final XClass beanXClass;
protected final String beanXClassName;
protected final Class<?> beanClass;
private Set<Class<?>> mappedSubclasses = new HashSet<Class<?>>();
private int level = 0;
private int maxLevel = Integer.MAX_VALUE;
private final ScopedAnalyzer analyzer = new ScopedAnalyzer();
private Similarity similarity; //there is only 1 similarity per class hierarchy, and only 1 per index
private boolean isRoot;
private Analyzer passThroughAnalyzer = new PassThroughAnalyzer();
protected final Set<String> indexedEmbeddedCollectionRoles = new TreeSet<String>();
protected final Set<String> containedInCollectionRoles = new TreeSet<String>();
protected final PropertiesMetadata metadata = new PropertiesMetadata();
protected EntityState entityState;
protected ReflectionManager reflectionManager; //available only during initialization and post-initialization
private boolean stateInspectionOptimizationsEnabled = true;
/**
* Constructor used on contained entities not annotated with {@code @Indexed} themselves.
*
* @param xClass The class for which to build a {@code}DocumentBuilderContainedEntity}
* @param context Handle to default configuration settings
* @param similarity The index level similarity
* @param reflectionManager Reflection manager to use for processing the annotations
*/
public AbstractDocumentBuilder(XClass xClass, ConfigContext context, Similarity similarity, ReflectionManager reflectionManager, Set<XClass> optimizationBlackList) {
if ( xClass == null ) {
throw new AssertionFailure( "Unable to build a DocumentBuilderContainedEntity with a null class" );
}
this.entityState = EntityState.CONTAINED_IN_ONLY;
this.beanXClass = xClass;
this.beanXClassName = xClass.getName();
this.reflectionManager = reflectionManager;
this.beanClass = reflectionManager.toClass( xClass );
this.similarity = similarity; //set the index similarity before the class level one to detect conflict
metadata.boost = getBoost( xClass );
metadata.classBoostStrategy = getDynamicBoost( xClass );
metadata.analyzer = context.getDefaultAnalyzer();
Set<XClass> processedClasses = new HashSet<XClass>();
processedClasses.add( xClass );
initializeClass( xClass, metadata, true, "", processedClasses, context, optimizationBlackList, false );
this.analyzer.setGlobalAnalyzer( metadata.analyzer );
// set the default similarity in case that after processing all classes there is still no similarity set
if ( this.similarity == null ) {
this.similarity = context.getDefaultSimilarity();
}
}
public abstract void addWorkToQueue(Class<T> entityClass, T entity, Serializable id, boolean delete, boolean add, List<LuceneWork> queue);
abstract protected void documentBuilderSpecificChecks(XProperty member, PropertiesMetadata propertiesMetadata, boolean isRoot, String prefix, ConfigContext context);
/**
* In case of an indexed entity, return the value of it's identifier: what is marked as @Id or @DocumentId;
* in case the entity uses @ProvidedId, it's illegal to call this method.
*
* @param entity the instance for which to retrieve the id
*
* @return the value, or null if it's not an indexed entity
*
* @throws IllegalStateException when used with a @ProvidedId annotated entity
*/
abstract public Serializable getId(Object entity);
public boolean isRoot() {
return isRoot;
}
public Class<?> getBeanClass() {
return beanClass;
}
public XClass getBeanXClass() {
return beanXClass;
}
public PropertiesMetadata getMetadata() {
return metadata;
}
public Similarity getSimilarity() {
return similarity;
}
public ScopedAnalyzer getAnalyzer() {
return analyzer;
}
public EntityState getEntityState() {
return entityState;
}
public Set<Class<?>> getMappedSubclasses() {
return mappedSubclasses;
}
public void postInitialize(Set<Class<?>> indexedClasses) {
//we initialize only once because we no longer have a reference to the reflectionManager
//in theory
Class<?> plainClass = beanClass;
if ( entityState == EntityState.NON_INDEXABLE ) {
throw new AssertionFailure( "A non indexed entity is post processed" );
}
Set<Class<?>> tempMappedSubclasses = new HashSet<Class<?>>();
//together with the caller this creates a o(2), but I think it's still faster than create the up hierarchy for each class
for ( Class<?> currentClass : indexedClasses ) {
if ( plainClass != currentClass && plainClass.isAssignableFrom( currentClass ) ) {
tempMappedSubclasses.add( currentClass );
}
}
this.mappedSubclasses = Collections.unmodifiableSet( tempMappedSubclasses );
Class<?> superClass = plainClass.getSuperclass();
this.isRoot = true;
while ( superClass != null ) {
if ( indexedClasses.contains( superClass ) ) {
this.isRoot = false;
break;
}
superClass = superClass.getSuperclass();
}
this.reflectionManager = null;
}
protected Analyzer getAnalyzer(XAnnotatedElement annotatedElement, ConfigContext context) {
org.hibernate.search.annotations.Analyzer analyzerAnn =
annotatedElement.getAnnotation( org.hibernate.search.annotations.Analyzer.class );
return getAnalyzer( analyzerAnn, context );
}
protected void addToScopedAnalyzer(String fieldName, Analyzer analyzer, Index index) {
if ( index == Index.TOKENIZED ) {
if ( analyzer != null ) {
this.analyzer.addScopedAnalyzer( fieldName, analyzer );
}
}
else {
//no analyzer is used, add a fake one for queries
this.analyzer.addScopedAnalyzer( fieldName, passThroughAnalyzer );
}
}
protected Float getBoost(XProperty member, org.hibernate.search.annotations.Field fieldAnn) {
float computedBoost = 1.0f;
Boost boostAnn = member.getAnnotation( Boost.class );
if ( boostAnn != null ) {
computedBoost = boostAnn.value();
}
if ( fieldAnn != null ) {
computedBoost *= fieldAnn.boost().value();
}
return computedBoost;
}
protected BoostStrategy getDynamicBoost(XProperty member) {
DynamicBoost boostAnnotation = member.getAnnotation( DynamicBoost.class );
if ( boostAnnotation == null ) {
return new DefaultBoostStrategy();
}
Class<? extends BoostStrategy> boostStrategyClass = boostAnnotation.impl();
BoostStrategy strategy;
try {
strategy = boostStrategyClass.newInstance();
}
catch ( Exception e ) {
throw new SearchException(
"Unable to instantiate boost strategy implementation: " + boostStrategyClass.getName()
);
}
return strategy;
}
protected Field.TermVector getTermVector(TermVector vector) {
switch ( vector ) {
case NO:
return Field.TermVector.NO;
case YES:
return Field.TermVector.YES;
case WITH_OFFSETS:
return Field.TermVector.WITH_OFFSETS;
case WITH_POSITIONS:
return Field.TermVector.WITH_POSITIONS;
case WITH_POSITION_OFFSETS:
return Field.TermVector.WITH_POSITIONS_OFFSETS;
default:
throw new AssertionFailure( "Unexpected TermVector: " + vector );
}
}
protected Field.Index getIndex(Index index) {
switch ( index ) {
case NO:
return Field.Index.NO;
case NO_NORMS:
return Field.Index.NOT_ANALYZED_NO_NORMS;
case TOKENIZED:
return Field.Index.ANALYZED;
case UN_TOKENIZED:
return Field.Index.NOT_ANALYZED;
default:
throw new AssertionFailure( "Unexpected Index: " + index );
}
}
/**
* If we have a work instance we have to check whether the instance to be indexed is contained in any other indexed entities.
*/
public void appendContainedInWorkForInstance(Object instance, WorkPlan workplan) {
for ( int i = 0; i < metadata.containedInGetters.size(); i++ ) {
XMember member = metadata.containedInGetters.get( i );
Object value = ReflectionHelper.getMemberValue( instance, member );
if ( value == null ) {
continue;
}
if ( member.isArray() ) {
@SuppressWarnings("unchecked")
T[] array = (T[]) value;
for ( T arrayValue : array ) {
processSingleContainedInInstance( workplan, arrayValue );
}
}
else if ( member.isCollection() ) {
Collection<T> collection = null;
try {
collection = getActualCollection( member, value );
collection.size(); //load it
}
catch ( Exception e ) {
if ( e.getClass().getName().contains( "org.hibernate.LazyInitializationException" ) ) {
/* A deleted entity not having its collection initialized
* leads to a LIE because the collection is no longer attached to the session
*
* But that's ok as the collection update event has been processed before
* or the fk would have been cleared and thus triggering the cleaning
*/
collection = null;
}
}
if ( collection != null ) {
for ( T collectionValue : collection ) {
processSingleContainedInInstance( workplan, collectionValue );
}
}
}
else {
processSingleContainedInInstance( workplan, value );
}
}
}
private void initializeClass(XClass clazz, PropertiesMetadata propertiesMetadata, boolean isRoot, String prefix,
Set<XClass> processedClasses, ConfigContext context, Set<XClass> optimizationBlackList, boolean disableOptimizationsArg) {
List<XClass> hierarchy = new LinkedList<XClass>();
XClass next = null;
for ( XClass previousClass = clazz; previousClass != null; previousClass = next ) {
next = previousClass.getSuperclass();
if ( next != null ) {
hierarchy.add( 0, previousClass ); // append to head to create a list in top-down iteration order
}
}
// Iterate the class hierarchy top down. This allows to override the default analyzer for the properties if the class holds one
for ( XClass currentClass : hierarchy ) {
initializeClassLevelAnnotations( currentClass, propertiesMetadata, isRoot, prefix, context );
}
// if optimizations are enabled, we allow for state in indexedEmbedded objects which are not
// explicitly indexed (Field or indexedembedded) to skip index update triggering.
// we don't allow this if the reference is reachable via a custom fieldbridge or classbridge,
// as state changes from values out of our control could affect the index.
boolean disableOptimizations = disableOptimizationsArg || ! stateInspectionOptimizationsEnabled();
// iterate again for the properties and fields
for ( XClass currentClass : hierarchy ) {
// rejecting non properties (ie regular methods) because the object is loaded from Hibernate,
// so indexing a non property does not make sense
List<XProperty> methods = currentClass.getDeclaredProperties( XClass.ACCESS_PROPERTY );
for ( XProperty method : methods ) {
initializeMemberLevelAnnotations(
currentClass, method, propertiesMetadata, isRoot, prefix, processedClasses, context, optimizationBlackList, disableOptimizations
);
}
List<XProperty> fields = currentClass.getDeclaredProperties( XClass.ACCESS_FIELD );
for ( XProperty field : fields ) {
initializeMemberLevelAnnotations(
currentClass, field, propertiesMetadata, isRoot, prefix, processedClasses, context, optimizationBlackList, disableOptimizations
);
}
}
}
/**
* Check and initialize class level annotations.
*
* @param clazz The class to process.
* @param propertiesMetadata The meta data holder.
* @param isRoot Flag indicating if the specified class is a root entity, meaning the start of a chain of indexed
* entities.
* @param prefix The current prefix used for the <code>Document</code> field names.
* @param context Handle to default configuration settings.
*/
private void initializeClassLevelAnnotations(XClass clazz, PropertiesMetadata propertiesMetadata, boolean isRoot, String prefix, ConfigContext context) {
// check for a class level specified analyzer
Analyzer analyzer = getAnalyzer( clazz, context );
if ( analyzer != null ) {
propertiesMetadata.analyzer = analyzer;
}
// check for AnalyzerDefs annotations
checkForAnalyzerDefs( clazz, context );
// Check for any ClassBridges annotation.
ClassBridges classBridgesAnn = clazz.getAnnotation( ClassBridges.class );
if ( classBridgesAnn != null ) {
ClassBridge[] classBridges = classBridgesAnn.value();
for ( ClassBridge cb : classBridges ) {
bindClassBridgeAnnotation( prefix, propertiesMetadata, cb, clazz, context );
}
}
// Check for any ClassBridge style of annotations.
ClassBridge classBridgeAnn = clazz.getAnnotation( ClassBridge.class );
if ( classBridgeAnn != null ) {
bindClassBridgeAnnotation( prefix, propertiesMetadata, classBridgeAnn, clazz, context );
}
checkForAnalyzerDiscriminator( clazz, propertiesMetadata );
// Get similarity
if ( isRoot ) {
checkForSimilarity( clazz );
}
}
private void initializeMemberLevelAnnotations(XClass classHostingMember, XProperty member, PropertiesMetadata propertiesMetadata, boolean isRoot,
String prefix, Set<XClass> processedClasses, ConfigContext context, Set<XClass> optimizationBlackList, boolean disableOptimizations) {
checkForField( member, propertiesMetadata, prefix, context );
checkForFields( member, propertiesMetadata, prefix, context );
checkForAnalyzerDefs( member, context );
checkForAnalyzerDiscriminator( member, propertiesMetadata );
checkForIndexedEmbedded( classHostingMember, member, propertiesMetadata, prefix, processedClasses, context, optimizationBlackList, disableOptimizations );
checkForContainedIn( classHostingMember, member, propertiesMetadata );
documentBuilderSpecificChecks( member, propertiesMetadata, isRoot, prefix, context );
}
private Analyzer getAnalyzer(org.hibernate.search.annotations.Analyzer analyzerAnn, ConfigContext context) {
Class<?> analyzerClass = analyzerAnn == null ? void.class : analyzerAnn.impl();
if ( analyzerClass == void.class ) {
String definition = analyzerAnn == null ? "" : analyzerAnn.definition();
if ( StringHelper.isEmpty( definition ) ) {
return null;
}
else {
return context.buildLazyAnalyzer( definition );
}
}
else {
try {
return ClassLoaderHelper.analyzerInstanceFromClass( analyzerClass, context.getLuceneMatchVersion() );
}
catch ( ClassCastException e ) {
throw new SearchException(
"Lucene analyzer does not extend " + Analyzer.class.getName() + ": " + analyzerClass.getName(),
e
);
}
catch ( Exception e ) {
throw new SearchException(
"Failed to instantiate lucene analyzer with type " + analyzerClass.getName(), e
);
}
}
}
private void checkForAnalyzerDefs(XAnnotatedElement annotatedElement, ConfigContext context) {
AnalyzerDefs defs = annotatedElement.getAnnotation( AnalyzerDefs.class );
if ( defs != null ) {
for ( AnalyzerDef def : defs.value() ) {
context.addAnalyzerDef( def, annotatedElement );
}
}
AnalyzerDef def = annotatedElement.getAnnotation( AnalyzerDef.class );
context.addAnalyzerDef( def, annotatedElement );
}
private void checkForAnalyzerDiscriminator(XAnnotatedElement annotatedElement, PropertiesMetadata propertiesMetadata) {
AnalyzerDiscriminator discriminatorAnn = annotatedElement.getAnnotation( AnalyzerDiscriminator.class );
if ( discriminatorAnn != null ) {
if ( propertiesMetadata.discriminator != null ) {
throw new SearchException(
"Multiple AnalyzerDiscriminator defined in the same class hierarchy: " + beanXClass.getName()
);
}
Class<? extends Discriminator> discriminatorClass = discriminatorAnn.impl();
try {
propertiesMetadata.discriminator = discriminatorClass.newInstance();
}
catch ( Exception e ) {
throw new SearchException(
"Unable to instantiate analyzer discriminator implementation: " + discriminatorClass.getName()
);
}
if ( annotatedElement instanceof XMember ) {
propertiesMetadata.discriminatorGetter = (XMember) annotatedElement;
}
}
}
private void checkForFields(XProperty member, PropertiesMetadata propertiesMetadata, String prefix, ConfigContext context) {
org.hibernate.search.annotations.Fields fieldsAnn =
member.getAnnotation( org.hibernate.search.annotations.Fields.class );
NumericFields numericAnns = member.getAnnotation( NumericFields.class );
if ( fieldsAnn != null ) {
for ( org.hibernate.search.annotations.Field fieldAnn : fieldsAnn.value() ) {
bindFieldAnnotation(
member,
propertiesMetadata,
prefix,
fieldAnn,
getNumericExtension( fieldAnn, numericAnns ),
context
);
}
}
}
private NumericField getNumericExtension(org.hibernate.search.annotations.Field fieldAnn, NumericFields numericFields) {
if ( numericFields == null ) {
return null;
}
for ( NumericField numericField : numericFields.value() ) {
if ( numericField.forField().equals( fieldAnn.name() ) ) {
return numericField;
}
}
return null;
}
private void checkForSimilarity(XClass currClass) {
org.hibernate.search.annotations.Similarity similarityAnn = currClass.getAnnotation( org.hibernate.search.annotations.Similarity.class );
if ( similarityAnn != null ) {
if ( similarity != null ) {
throw new SearchException(
"Multiple similarities defined in the same class hierarchy or on the index settings: " + beanXClass
.getName()
);
}
Class<?> similarityClass = similarityAnn.impl();
try {
similarity = (Similarity) similarityClass.newInstance();
}
catch ( Exception e ) {
log.similarityInstantiationException(similarityClass.getName(), beanXClass.getName());
}
}
}
private void checkForField(XProperty member, PropertiesMetadata propertiesMetadata, String prefix, ConfigContext context) {
org.hibernate.search.annotations.Field fieldAnn =
member.getAnnotation( org.hibernate.search.annotations.Field.class );
NumericField numericFieldAnn = member.getAnnotation( NumericField.class );
DocumentId idAnn = member.getAnnotation( DocumentId.class );
if ( fieldAnn != null ) {
bindFieldAnnotation( member, propertiesMetadata, prefix, fieldAnn, numericFieldAnn, context );
}
if ( ( fieldAnn == null && idAnn == null ) && numericFieldAnn != null ) {
throw new SearchException( "@NumericField without a @Field on property '" + member.getName() + "'" );
}
}
private void checkForContainedIn(XClass classHostingMember, XProperty member, PropertiesMetadata propertiesMetadata) {
ContainedIn containedAnn = member.getAnnotation( ContainedIn.class );
if ( containedAnn != null ) {
ReflectionHelper.setAccessible( member );
propertiesMetadata.containedInGetters.add( member );
//collection role in Hibernate is made of the actual hosting class of the member (see HSEARCH-780)
this.containedInCollectionRoles.add( StringHelper.qualify( classHostingMember.getName(), member.getName() ) );
}
}
private void checkForIndexedEmbedded(XClass classHostingMember, XProperty member, PropertiesMetadata propertiesMetadata, String prefix,
Set<XClass> processedClasses, ConfigContext context, Set<XClass> optimizationBlackList, boolean disableOptimizations) {
IndexedEmbedded embeddedAnn = member.getAnnotation( IndexedEmbedded.class );
if ( embeddedAnn != null ) {
//collection role in Hibernate is made of the actual hosting class of the member (see HSEARCH-780)
this.indexedEmbeddedCollectionRoles.add( StringHelper.qualify( classHostingMember.getName(), member.getName() ) );
int oldMaxLevel = maxLevel;
int potentialLevel = embeddedAnn.depth() + level;
if ( potentialLevel < 0 ) {
potentialLevel = Integer.MAX_VALUE;
}
maxLevel = potentialLevel > maxLevel ? maxLevel : potentialLevel;
level++;
XClass elementClass;
if ( void.class == embeddedAnn.targetElement() ) {
elementClass = member.getElementClass();
}
else {
elementClass = reflectionManager.toXClass( embeddedAnn.targetElement() );
}
if ( maxLevel == Integer.MAX_VALUE //infinite
&& processedClasses.contains( elementClass ) ) {
throw new SearchException(
"Circular reference. Duplicate use of "
+ elementClass.getName()
+ " in root entity " + beanXClass.getName()
+ "#" + buildEmbeddedPrefix( prefix, embeddedAnn, member )
);
}
if ( level <= maxLevel ) {
processedClasses.add( elementClass ); //push
ReflectionHelper.setAccessible( member );
propertiesMetadata.embeddedGetters.add( member );
PropertiesMetadata metadata = new PropertiesMetadata();
propertiesMetadata.embeddedPropertiesMetadata.add( metadata );
metadata.boost = getBoost( member, null );
//property > entity analyzer
Analyzer analyzer = getAnalyzer( member, context );
metadata.analyzer = analyzer != null ? analyzer : propertiesMetadata.analyzer;
String localPrefix = buildEmbeddedPrefix( prefix, embeddedAnn, member );
if ( disableOptimizations ) {
optimizationBlackList.add( elementClass );
}
initializeClass( elementClass, metadata, false, localPrefix, processedClasses, context, optimizationBlackList, disableOptimizations );
/**
* We will only index the "expected" type but that's OK, HQL cannot do down-casting either
*/
if ( member.isArray() ) {
propertiesMetadata.embeddedContainers.add( PropertiesMetadata.Container.ARRAY );
}
else if ( member.isCollection() ) {
if ( Map.class.equals( member.getCollectionClass() ) ) {
//hum subclasses etc etc??
propertiesMetadata.embeddedContainers.add( PropertiesMetadata.Container.MAP );
}
else {
propertiesMetadata.embeddedContainers.add( PropertiesMetadata.Container.COLLECTION );
}
}
else {
propertiesMetadata.embeddedContainers.add( PropertiesMetadata.Container.OBJECT );
}
processedClasses.remove( elementClass ); //pop
}
else if ( log.isTraceEnabled() ) {
String localPrefix = buildEmbeddedPrefix( prefix, embeddedAnn, member );
log.tracef( "depth reached, ignoring %s", localPrefix );
}
level--;
maxLevel = oldMaxLevel; //set back the the old max level
}
}
private void bindClassBridgeAnnotation(String prefix, PropertiesMetadata propertiesMetadata, ClassBridge ann, XClass clazz, ConfigContext context) {
String fieldName = prefix + ann.name();
propertiesMetadata.classNames.add( fieldName );
propertiesMetadata.classStores.add( ann.store() );
propertiesMetadata.classIndexes.add( getIndex( ann.index() ) );
propertiesMetadata.classTermVectors.add( getTermVector( ann.termVector() ) );
propertiesMetadata.classBridges.add( BridgeFactory.extractType( ann, clazz ) );
propertiesMetadata.classBoosts.add( ann.boost().value() );
Analyzer analyzer = getAnalyzer( ann.analyzer(), context );
if ( analyzer == null ) {
analyzer = propertiesMetadata.analyzer;
}
if ( analyzer == null ) {
throw new AssertionFailure( "Analyzer should not be undefined" );
}
addToScopedAnalyzer( fieldName, analyzer, ann.index() );
}
private void bindFieldAnnotation(XProperty member, PropertiesMetadata propertiesMetadata, String prefix, org.hibernate.search.annotations.Field fieldAnn, NumericField numericFieldAnn, ConfigContext context) {
ReflectionHelper.setAccessible( member );
propertiesMetadata.fieldGetters.add( member );
String fieldName = prefix + ReflectionHelper.getAttributeName( member, fieldAnn.name() );
propertiesMetadata.fieldNames.add( fieldName );
propertiesMetadata.fieldNameToPositionMap.put(
member.getName(), Integer.valueOf( propertiesMetadata.fieldNames.size() )
);
propertiesMetadata.fieldStore.add( fieldAnn.store() );
propertiesMetadata.fieldIndex.add( getIndex( fieldAnn.index() ) );
propertiesMetadata.fieldBoosts.add( getBoost( member, fieldAnn ) );
propertiesMetadata.dynamicFieldBoosts.add( getDynamicBoost( member ) );
propertiesMetadata.fieldTermVectors.add( getTermVector( fieldAnn.termVector() ) );
propertiesMetadata.precisionSteps.add( getPrecisionStep( numericFieldAnn ) );
// null token
String indexNullAs = fieldAnn.indexNullAs();
if ( indexNullAs.equals( org.hibernate.search.annotations.Field.DO_NOT_INDEX_NULL ) ) {
indexNullAs = null;
}
else if ( indexNullAs.equals( org.hibernate.search.annotations.Field.DEFAULT_NULL_TOKEN ) ) {
indexNullAs = context.getDefaultNullToken();
}
propertiesMetadata.fieldNullTokens.add( indexNullAs );
FieldBridge fieldBridge = BridgeFactory.guessType( fieldAnn, numericFieldAnn, member, reflectionManager );
if ( indexNullAs != null && fieldBridge instanceof TwoWayFieldBridge ) {
fieldBridge = new NullEncodingTwoWayFieldBridge( (TwoWayFieldBridge) fieldBridge, indexNullAs );
}
propertiesMetadata.fieldBridges.add( fieldBridge );
// Field > property > entity analyzer
Analyzer analyzer = getAnalyzer( fieldAnn.analyzer(), context );
if ( analyzer == null ) {
analyzer = getAnalyzer( member, context );
}
addToScopedAnalyzer( fieldName, analyzer, fieldAnn.index() );
}
protected Integer getPrecisionStep(NumericField numericFieldAnn) {
return numericFieldAnn == null ? NumericField.PRECISION_STEP_DEFAULT : numericFieldAnn.precisionStep();
}
private String buildEmbeddedPrefix(String prefix, IndexedEmbedded embeddedAnn, XProperty member) {
String localPrefix = prefix;
if ( ".".equals( embeddedAnn.prefix() ) ) {
//default to property name
localPrefix += member.getName() + '.';
}
else {
localPrefix += embeddedAnn.prefix();
}
return localPrefix;
}
private float getBoost(XClass element) {
float boost = 1.0f;
if ( element == null ) {
return boost;
}
Boost boostAnnotation = element.getAnnotation( Boost.class );
if ( boostAnnotation != null ) {
boost = boostAnnotation.value();
}
return boost;
}
private BoostStrategy getDynamicBoost(XClass element) {
if ( element == null ) {
return null;
}
DynamicBoost boostAnnotation = element.getAnnotation( DynamicBoost.class );
if ( boostAnnotation == null ) {
return new DefaultBoostStrategy();
}
Class<? extends BoostStrategy> boostStrategyClass = boostAnnotation.impl();
BoostStrategy strategy;
try {
strategy = boostStrategyClass.newInstance();
}
catch ( Exception e ) {
throw new SearchException(
"Unable to instantiate boost strategy implementation: " + boostStrategyClass.getName()
);
}
return strategy;
}
/**
* A {@code XMember } instance treats a map as a collection as well in which case the map values are returned as
* collection.
*
* @param member The member instance
* @param value The value
*
* @return The {@code value} cast to collection or in case of {@code value} being a map the map values as collection.
*/
private <T> Collection<T> getActualCollection(XMember member, Object value) {
Collection<T> collection;
if ( Map.class.equals( member.getCollectionClass() ) ) {
//hum
@SuppressWarnings("unchecked")
Collection<T> tmpCollection = ( (Map<?, T>) value ).values();
collection = tmpCollection;
}
else {
@SuppressWarnings("unchecked")
Collection<T> tmpCollection = (Collection<T>) value;
collection = tmpCollection;
}
return collection;
}
private <T> void processSingleContainedInInstance(WorkPlan workplan, T value) {
workplan.recurseContainedIn( value );
}
/**
* Hibernate entities might be considered dirty, but still have only changes that
* don't affect indexing. So this isDirty() implementation will return true only
* if the proposed change is possibly affecting the index.
*
* @param dirtyPropertyNames Contains the property name of each value which changed, or null for everything.
*
* @return true if it can't make sure the index doesn't need an update
*
* @since 3.4
*/
public boolean isDirty(String[] dirtyPropertyNames) {
if ( dirtyPropertyNames == null || dirtyPropertyNames.length == 0 ) {
return true; // it appears some collection work has no oldState -> reindex
}
if ( ! stateInspectionOptimizationsEnabled() ) {
return true;
}
for ( String dirtyPropertyName : dirtyPropertyNames ) {
// Hibernate core will do an in-depth comparison of collections, taking care of creating new values,
// so it looks like we can rely on reference equality comparisons, or at least that seems a safe way:
Integer propertyIndexInteger = metadata.fieldNameToPositionMap.get( dirtyPropertyName );
if ( propertyIndexInteger != null ) {
int propertyIndex = propertyIndexInteger.intValue() - 1;
// take care of indexed fields:
if ( metadata.fieldIndex.get( propertyIndex ).isIndexed() ) {
return true;
}
// take care of stored fields:
Store store = metadata.fieldStore.get( propertyIndex );
if ( store.equals( Store.YES ) || store.equals( Store.COMPRESS ) ) {
// unless Store.NO, which doesn't affect the index
return true;
}
}
// consider IndexedEmbedded:
for ( XMember embeddedMember : metadata.embeddedGetters ) {
String name = embeddedMember.getName();
if ( name.equals( dirtyPropertyName ) ) {
return true;
}
}
}
return false;
}
/**
* Wrapper class containing all the meta data extracted out of a single entity.
* All field/property related properties are kept in lists. Retrieving all metadata for a given
* property/field means accessing all the lists with the same index.
*/
public static class PropertiesMetadata {
public float boost;
public Analyzer analyzer;
public Discriminator discriminator;
public XMember discriminatorGetter;
public BoostStrategy classBoostStrategy;
public final Map<String, Integer> fieldNameToPositionMap = new HashMap<String, Integer>();
public final List<String> fieldNames = new ArrayList<String>();
public final List<XMember> fieldGetters = new ArrayList<XMember>();
public final List<FieldBridge> fieldBridges = new ArrayList<FieldBridge>();
public final List<Store> fieldStore = new ArrayList<Store>();
public final List<Field.Index> fieldIndex = new ArrayList<Field.Index>();
public final List<Float> fieldBoosts = new ArrayList<Float>();
public final List<BoostStrategy> dynamicFieldBoosts = new ArrayList<BoostStrategy>();
public final List<Integer> precisionSteps = new ArrayList<Integer>();
public final List<String> fieldNullTokens = new LinkedList<String>();
public final List<Field.TermVector> fieldTermVectors = new ArrayList<Field.TermVector>();
public final List<XMember> embeddedGetters = new ArrayList<XMember>();
public final List<PropertiesMetadata> embeddedPropertiesMetadata = new ArrayList<PropertiesMetadata>();
public final List<Container> embeddedContainers = new ArrayList<Container>();
public final List<XMember> containedInGetters = new ArrayList<XMember>();
public final List<String> classNames = new ArrayList<String>();
public final List<Store> classStores = new ArrayList<Store>();
public final List<Field.Index> classIndexes = new ArrayList<Field.Index>();
public final List<FieldBridge> classBridges = new ArrayList<FieldBridge>();
public final List<Field.TermVector> classTermVectors = new ArrayList<Field.TermVector>();
public final List<Float> classBoosts = new ArrayList<Float>();
public enum Container {
OBJECT,
COLLECTION,
MAP,
ARRAY
}
protected LuceneOptions getClassLuceneOptions(int i) {
return new LuceneOptionsImpl(
classStores.get( i ),
classIndexes.get( i ),
classTermVectors.get( i ),
classBoosts.get( i )
);
}
protected LuceneOptions getFieldLuceneOptions(int i, Object value) {
LuceneOptions options;
options = new LuceneOptionsImpl(
fieldStore.get( i ),
fieldIndex.get( i ),
fieldTermVectors.get( i ),
fieldBoosts.get( i ) * dynamicFieldBoosts.get( i ).defineBoost( value ),
fieldNullTokens.get( i ),
precisionSteps.get( i )
);
return options;
}
protected float getClassBoost(Object value) {
return boost * classBoostStrategy.defineBoost( value );
}
}
/**
* To be removed, see org.hibernate.search.engine.DocumentBuilderIndexedEntity.isIdMatchingJpaId()
*
* @return true if a providedId needs to be provided for indexing
*/
public boolean requiresProvidedId() {
return false;
}
/**
* To be removed, see org.hibernate.search.engine.DocumentBuilderIndexedEntity.isIdMatchingJpaId()
*
* @return true if @DocumentId and @Id are found on the same property
*/
public boolean isIdMatchingJpaId() {
return true;
}
/**
* Returns true if the collection event is not going to affect the index state,
* so that the indexing event can be skipped.
* @param collectionRole
* @return true if the collection Role does not affect index state
* @since 3.4
*/
public boolean isCollectionRoleExcluded(String collectionRole) {
if ( collectionRole == null ) {
return false;
}
else {
// don't check stateInspectionOptimizationsEnabled() as it might ignore depth limit:
// it will disable optimization even if we have classbridges, but we're too deep
// to be reachable. The evaluation of stateInspectionOptimizationsEnabled() was
// actually stored in stateInspectionOptimizationsEnabled, but limiting to depth recursion.
if ( stateInspectionOptimizationsEnabled ) {
return ! ( this.indexedEmbeddedCollectionRoles.contains( collectionRole )
|| this.containedInCollectionRoles.contains( collectionRole ) );
}
else {
return false;
}
}
}
/**
* Verifies entity level preconditions to know if it's safe to skip index updates based
* on specific field or collection updates.
* @return true if it seems safe to apply such optimizations
*/
boolean stateInspectionOptimizationsEnabled() {
if ( ! stateInspectionOptimizationsEnabled ) {
return false;
}
if ( metadata.classBridges.size() > 0 ) {
log.tracef( "State inspection optimization disabled as ClassBridges are enabled on entity %s", this.beanXClassName );
return false; // can't know what a classBridge is going to look at -> reindex //TODO nice new feature to have?
}
if ( !( metadata.classBoostStrategy instanceof DefaultBoostStrategy ) ) {
log.tracef( "State inspection optimization disabled as DynamicBoost is enabled on entity %s", this.beanXClassName );
return false; // as with classbridge: might be affected by any field //TODO nice new feature to have?
}
return true;
}
/**
* Makes sure isCollectionRoleExcluded will always return false, so that
* collection update events are always processed.
* @see #isCollectionRoleExcluded(String)
*/
public void forceStateInspectionOptimizationsDisabled() {
this.stateInspectionOptimizationsEnabled = false;
}
}