/*
* Hibernate, Relational Persistence for Idiomatic Java
*
* Copyright (c) 2011, 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.impl;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import org.apache.lucene.analysis.Analyzer;
import org.apache.lucene.analysis.standard.StandardAnalyzer;
import org.apache.lucene.search.Similarity;
import org.apache.lucene.util.Version;
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.XPackage;
import org.hibernate.annotations.common.util.StringHelper;
import org.hibernate.search.Environment;
import org.hibernate.search.SearchException;
import org.hibernate.search.annotations.AnalyzerDef;
import org.hibernate.search.annotations.ClassBridge;
import org.hibernate.search.bridge.FieldBridge;
import org.hibernate.search.cfg.EntityDescriptor;
import org.hibernate.search.cfg.SearchMapping;
import org.hibernate.search.cfg.spi.SearchConfiguration;
import org.hibernate.search.util.impl.ClassLoaderHelper;
import org.hibernate.search.util.impl.DelegateNamedAnalyzer;
import org.hibernate.search.util.logging.impl.Log;
import org.hibernate.search.util.logging.impl.LoggerFactory;
/**
* Provides access to some default configuration settings (eg default {@code Analyzer} or default
* {@code Similarity}) and checks whether certain optional libraries are available.
*
* @author Emmanuel Bernard
* @author Hardy Ferentschik
*/
public final class ConfigContext {
private static final Log log = LoggerFactory.make();
/**
* The default token for indexing null values. See {@link org.hibernate.search.annotations.Field#indexNullAs()}
*/
private static final String DEFAULT_NULL_INDEX_TOKEN = "_null_";
/**
* Constant used as definition point for a global (programmatic) analyzer definition. In this case no annotated
* element is available to be used as definition point.
*/
private static final String PROGRAMMATIC_ANALYZER_DEFINITION = "PROGRAMMATIC_ANALYZER_DEFINITION";
/**
* Used to keep track of duplicated analyzer definitions. The key of the map is the analyzer definition
* name and the value is a string defining the location of the definition. In most cases the fully specified class
* name together with the annotated element name is used. See also {@link #PROGRAMMATIC_ANALYZER_DEFINITION}.
*/
private final Map<String, String> analyzerDefinitionPoints = new HashMap<String, String>();
/**
* Map of discovered analyzer definitions. The key of the map is the analyzer def name and the value is the
* {@code AnalyzerDef} annotation.
*/
private final Map<String, AnalyzerDef> analyzerDefs = new HashMap<String, AnalyzerDef>();
/**
* Set of field names used for faceting
*/
// todo - Check whether I have to take care about which class defines the name
private final Collection<String> facetFieldNames = new HashSet<String>();
private final List<DelegateNamedAnalyzer> lazyAnalyzers = new ArrayList<DelegateNamedAnalyzer>();
private final Analyzer defaultAnalyzer;
private final Similarity defaultSimilarity;
private final boolean solrPresent;
private final boolean jpaPresent;
private final Version luceneMatchVersion;
private final String nullToken;
private final boolean implicitProvidedId;
private final SearchMapping searchMapping;
public ConfigContext(SearchConfiguration cfg) {
this( cfg, null );
}
public ConfigContext(SearchConfiguration cfg, SearchMapping searchMapping) {
luceneMatchVersion = getLuceneMatchVersion( cfg );
defaultAnalyzer = initAnalyzer( cfg );
defaultSimilarity = initSimilarity( cfg );
solrPresent = isPresent( "org.apache.solr.analysis.TokenizerFactory" );
jpaPresent = isPresent( "javax.persistence.Id" );
nullToken = initNullToken( cfg );
implicitProvidedId = cfg.isIdProvidedImplicit();
this.searchMapping = searchMapping;
}
/**
* Add an analyzer definition which was defined as annotation.
*
* @param analyzerDef the analyzer definition annotation
* @param annotatedElement the annotated element it was defined on
*/
public void addAnalyzerDef(AnalyzerDef analyzerDef, XAnnotatedElement annotatedElement) {
if ( analyzerDef == null ) {
return;
}
addAnalyzerDef( analyzerDef, buildAnnotationDefinitionPoint( annotatedElement ) );
}
/**
* Add a facet field name.
*
* @param facetFieldName the name of the faceted field
*/
public void addFacetFieldName(String facetFieldName) {
facetFieldNames.add( facetFieldName );
}
public Collection<String> getFacetFieldNames() {
return facetFieldNames;
}
public void addGlobalAnalyzerDef(AnalyzerDef analyzerDef) {
addAnalyzerDef( analyzerDef, PROGRAMMATIC_ANALYZER_DEFINITION );
}
private void addAnalyzerDef(AnalyzerDef analyzerDef, String annotationDefinitionPoint) {
String analyzerDefinitionName = analyzerDef.name();
if ( analyzerDefinitionPoints.containsKey( analyzerDefinitionName ) ) {
if ( !analyzerDefinitionPoints.get( analyzerDefinitionName ).equals( annotationDefinitionPoint ) ) {
throw new SearchException( "Multiple analyzer definitions with the same name: " + analyzerDef.name() );
}
}
else {
analyzerDefs.put( analyzerDefinitionName, analyzerDef );
analyzerDefinitionPoints.put( analyzerDefinitionName, annotationDefinitionPoint );
}
}
public Analyzer buildLazyAnalyzer(String name) {
final DelegateNamedAnalyzer delegateNamedAnalyzer = new DelegateNamedAnalyzer( name );
lazyAnalyzers.add( delegateNamedAnalyzer );
return delegateNamedAnalyzer;
}
public List<DelegateNamedAnalyzer> getLazyAnalyzers() {
return lazyAnalyzers;
}
/**
* Initializes the Lucene analyzer to use by reading the analyzer class from the configuration and instantiating it.
*
* @param cfg The current configuration.
*
* @return The Lucene analyzer to use for tokenization.
*/
private Analyzer initAnalyzer(SearchConfiguration cfg) {
Class analyzerClass;
String analyzerClassName = cfg.getProperty( Environment.ANALYZER_CLASS );
if ( analyzerClassName != null ) {
try {
// Use the same class loader used to load the SearchConfiguration implementation class ...
analyzerClass = ClassLoaderHelper.classForName( analyzerClassName, cfg.getClass().getClassLoader() );
}
catch (Exception e) {
return buildLazyAnalyzer( analyzerClassName );
}
}
else {
analyzerClass = StandardAnalyzer.class;
}
return ClassLoaderHelper.analyzerInstanceFromClass( analyzerClass, luceneMatchVersion );
}
/**
* Initializes the Lucene similarity to use.
*
* @param cfg the search configuration.
*
* @return returns the default similarity class.
*/
private Similarity initSimilarity(SearchConfiguration cfg) {
String similarityClassName = cfg.getProperty( Environment.SIMILARITY_CLASS );
Similarity defaultSimilarity;
if ( StringHelper.isEmpty( similarityClassName ) ) {
defaultSimilarity = Similarity.getDefault();
}
else {
defaultSimilarity = ClassLoaderHelper.instanceFromName(
Similarity.class, similarityClassName, ConfigContext.class, "default similarity"
);
}
log.debugf( "Using default similarity implementation: %s", defaultSimilarity.getClass().getName() );
return defaultSimilarity;
}
private String initNullToken(SearchConfiguration cfg) {
String defaultNullIndexToken = cfg.getProperty( Environment.DEFAULT_NULL_TOKEN );
if ( StringHelper.isEmpty( defaultNullIndexToken ) ) {
defaultNullIndexToken = DEFAULT_NULL_INDEX_TOKEN;
}
return defaultNullIndexToken;
}
public String getDefaultNullToken() {
return nullToken;
}
public Analyzer getDefaultAnalyzer() {
return defaultAnalyzer;
}
public Similarity getDefaultSimilarity() {
return defaultSimilarity;
}
public Version getLuceneMatchVersion() {
return luceneMatchVersion;
}
public Map<String, Analyzer> initLazyAnalyzers() {
Map<String, Analyzer> initializedAnalyzers = new HashMap<String, Analyzer>( analyzerDefs.size() );
for ( DelegateNamedAnalyzer namedAnalyzer : lazyAnalyzers ) {
String name = namedAnalyzer.getName();
if ( initializedAnalyzers.containsKey( name ) ) {
namedAnalyzer.setDelegate( initializedAnalyzers.get( name ) );
}
else {
if ( analyzerDefs.containsKey( name ) ) {
final Analyzer analyzer = buildAnalyzer( analyzerDefs.get( name ) );
namedAnalyzer.setDelegate( analyzer );
initializedAnalyzers.put( name, analyzer );
}
else {
throw new SearchException( "Analyzer found with an unknown definition: " + name );
}
}
}
//initialize the remaining definitions
for ( Map.Entry<String, AnalyzerDef> entry : analyzerDefs.entrySet() ) {
if ( !initializedAnalyzers.containsKey( entry.getKey() ) ) {
final Analyzer analyzer = buildAnalyzer( entry.getValue() );
initializedAnalyzers.put( entry.getKey(), analyzer );
}
}
return Collections.unmodifiableMap( initializedAnalyzers );
}
private Analyzer buildAnalyzer(AnalyzerDef analyzerDef) {
if ( !solrPresent ) {
throw new SearchException(
"Use of @AnalyzerDef while Solr is not present in the classpath. Add apache-solr-analyzer.jar"
);
}
// SolrAnalyzerBuilder references Solr classes.
// InitContext should not (directly or indirectly) load a Solr class to avoid hard dependency
// unless necessary
// the current mechanism (check Solr class presence and call SolrAnalyzerBuilder if needed
// seems to be sufficient on Apple VM (derived from Sun's
return SolrAnalyzerBuilder.buildAnalyzer( analyzerDef, luceneMatchVersion );
}
public boolean isJpaPresent() {
return jpaPresent;
}
private boolean isPresent(String className) {
try {
ClassLoaderHelper.classForName( className, ConfigContext.class.getClassLoader() );
return true;
}
catch (Exception e) {
return false;
}
}
private Version getLuceneMatchVersion(SearchConfiguration cfg) {
Version version;
String tmp = cfg.getProperty( Environment.LUCENE_MATCH_VERSION );
if ( StringHelper.isEmpty( tmp ) ) {
log.recommendConfiguringLuceneVersion();
version = Environment.DEFAULT_LUCENE_MATCH_VERSION;
}
else {
try {
version = Version.valueOf( tmp );
if ( log.isDebugEnabled() ) {
log.debug( "Setting Lucene compatibility to Version " + version.name() );
}
}
catch (IllegalArgumentException e) {
StringBuilder msg = new StringBuilder( tmp );
msg.append( " is a invalid value for the Lucene match version. Possible values are: " );
for ( Version v : Version.values() ) {
msg.append( v.toString() );
msg.append( ", " );
}
msg.delete( msg.lastIndexOf( "," ), msg.length() - 1 );
throw new SearchException( msg.toString() );
}
}
return version;
}
/**
* @param annotatedElement an annotated element
*
* @return a string which identifies the location/point the annotation was placed on. Something of the
* form package.[[className].[field|member]]
*/
private String buildAnnotationDefinitionPoint(XAnnotatedElement annotatedElement) {
if ( annotatedElement instanceof XClass ) {
return ( (XClass) annotatedElement ).getName();
}
else if ( annotatedElement instanceof XMember ) {
XMember member = (XMember) annotatedElement;
return member.getType().getName() + '.' + member.getName();
}
else if ( annotatedElement instanceof XPackage ) {
return ( (XPackage) annotatedElement ).getName();
}
else {
throw new SearchException( "Unknown XAnnoatedElement: " + annotatedElement );
}
}
/**
* @return true if we have to assume entities are annotated with @ProvidedId implicitly
*/
public boolean isProvidedIdImplicit() {
return implicitProvidedId;
}
/**
* Returns class bridge instances configured via the programmatic API, if any. The returned map's values are
* {@code @ClassBridge} annotations representing the corresponding analyzer etc. configuration.
*
* @param type the type for which to return the configured class bridge instances
* @return a map with class bridge instances and their configuration; May be empty but never {@code null}
*/
public Map<FieldBridge, ClassBridge> getClassBridgeInstances(Class<?> type) {
Map<FieldBridge, ClassBridge> classBridgeInstances = null;
if ( searchMapping != null ) {
EntityDescriptor entityDescriptor = searchMapping.getEntityDescriptor( type );
if ( entityDescriptor != null ) {
classBridgeInstances = entityDescriptor.getClassBridgeConfigurations();
}
}
return classBridgeInstances != null ? classBridgeInstances : Collections.<FieldBridge, ClassBridge>emptyMap();
}
}