Please wait. This can take some minutes ...
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.
org.hibernate.hql.internal.classic.QueryTranslatorImpl Maven / Gradle / Ivy
/*
* Hibernate, Relational Persistence for Idiomatic Java
*
* Copyright (c) 2008, Red Hat Middleware LLC 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 Middleware LLC.
*
* 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.hql.internal.classic;
import java.io.Serializable;
import java.lang.reflect.Constructor;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.jboss.logging.Logger;
import org.hibernate.HibernateException;
import org.hibernate.LockMode;
import org.hibernate.LockOptions;
import org.hibernate.MappingException;
import org.hibernate.QueryException;
import org.hibernate.ScrollableResults;
import org.hibernate.dialect.Dialect;
import org.hibernate.engine.internal.JoinSequence;
import org.hibernate.engine.spi.QueryParameters;
import org.hibernate.engine.spi.SessionFactoryImplementor;
import org.hibernate.engine.spi.SessionImplementor;
import org.hibernate.event.spi.EventSource;
import org.hibernate.hql.internal.HolderInstantiator;
import org.hibernate.hql.internal.NameGenerator;
import org.hibernate.hql.spi.FilterTranslator;
import org.hibernate.hql.spi.ParameterTranslations;
import org.hibernate.internal.CoreMessageLogger;
import org.hibernate.internal.IteratorImpl;
import org.hibernate.internal.util.ReflectHelper;
import org.hibernate.internal.util.StringHelper;
import org.hibernate.internal.util.collections.ArrayHelper;
import org.hibernate.loader.BasicLoader;
import org.hibernate.persister.collection.CollectionPersister;
import org.hibernate.persister.collection.QueryableCollection;
import org.hibernate.persister.entity.Loadable;
import org.hibernate.persister.entity.PropertyMapping;
import org.hibernate.persister.entity.Queryable;
import org.hibernate.sql.JoinFragment;
import org.hibernate.sql.JoinType;
import org.hibernate.sql.QuerySelect;
import org.hibernate.transform.ResultTransformer;
import org.hibernate.type.AssociationType;
import org.hibernate.type.EntityType;
import org.hibernate.type.Type;
/**
* An instance of QueryTranslator translates a Hibernate
* query string to SQL.
*/
public class QueryTranslatorImpl extends BasicLoader implements FilterTranslator {
private static final CoreMessageLogger LOG = Logger.getMessageLogger(CoreMessageLogger.class, QueryTranslatorImpl.class.getName());
private static final String[] NO_RETURN_ALIASES = new String[] {};
private final String queryIdentifier;
private final String queryString;
private final Map typeMap = new LinkedHashMap();
private final Map collections = new LinkedHashMap();
private List returnedTypes = new ArrayList();
private final List fromTypes = new ArrayList();
private final List scalarTypes = new ArrayList();
private final Map namedParameters = new HashMap();
private final Map aliasNames = new HashMap();
private final Map oneToOneOwnerNames = new HashMap();
private final Map uniqueKeyOwnerReferences = new HashMap();
private final Map decoratedPropertyMappings = new HashMap();
private final List scalarSelectTokens = new ArrayList();
private final List whereTokens = new ArrayList();
private final List havingTokens = new ArrayList();
private final Map joins = new LinkedHashMap();
private final List orderByTokens = new ArrayList();
private final List groupByTokens = new ArrayList();
private final Set querySpaces = new HashSet();
private final Set entitiesToFetch = new HashSet();
private final Map pathAliases = new HashMap();
private final Map pathJoins = new HashMap();
private Queryable[] persisters;
private int[] owners;
private EntityType[] ownerAssociationTypes;
private String[] names;
private boolean[] includeInSelect;
private int selectLength;
private Type[] returnTypes;
private Type[] actualReturnTypes;
private String[][] scalarColumnNames;
private Map tokenReplacements;
private int nameCount = 0;
private int parameterCount = 0;
private boolean distinct = false;
private boolean compiled;
private String sqlString;
private Class holderClass;
private Constructor holderConstructor;
private boolean hasScalars;
private boolean shallowQuery;
private QueryTranslatorImpl superQuery;
private QueryableCollection collectionPersister;
private int collectionOwnerColumn = -1;
private String collectionOwnerName;
private String fetchName;
private String[] suffixes;
private Map enabledFilters;
/**
* Construct a query translator
*
* @param queryIdentifier A unique identifier for the query of which this
* translation is part; typically this is the original, user-supplied query string.
* @param queryString The "preprocessed" query string; at the very least
* already processed by {@link org.hibernate.hql.internal.QuerySplitter}.
* @param enabledFilters Any enabled filters.
* @param factory The session factory.
*/
public QueryTranslatorImpl(
String queryIdentifier,
String queryString,
Map enabledFilters,
SessionFactoryImplementor factory) {
super( factory );
this.queryIdentifier = queryIdentifier;
this.queryString = queryString;
this.enabledFilters = enabledFilters;
}
/**
* Construct a query translator; this form used internally.
*
* @param queryString The query string to process.
* @param enabledFilters Any enabled filters.
* @param factory The session factory.
*/
public QueryTranslatorImpl(
String queryString,
Map enabledFilters,
SessionFactoryImplementor factory) {
this( queryString, queryString, enabledFilters, factory );
}
/**
* Compile a subquery.
*
* @param superquery The containing query of the query to be compiled.
*
* @throws org.hibernate.MappingException Indicates problems resolving
* things referenced in the query.
* @throws org.hibernate.QueryException Generally some form of syntatic
* failure.
*/
void compile(QueryTranslatorImpl superquery) throws QueryException, MappingException {
this.tokenReplacements = superquery.tokenReplacements;
this.superQuery = superquery;
this.shallowQuery = true;
this.enabledFilters = superquery.getEnabledFilters();
compile();
}
/**
* Compile a "normal" query. This method may be called multiple
* times. Subsequent invocations are no-ops.
*/
public synchronized void compile(
Map replacements,
boolean scalar) throws QueryException, MappingException {
if ( !compiled ) {
this.tokenReplacements = replacements;
this.shallowQuery = scalar;
compile();
}
}
/**
* Compile a filter. This method may be called multiple
* times. Subsequent invocations are no-ops.
*/
public synchronized void compile(
String collectionRole,
Map replacements,
boolean scalar) throws QueryException, MappingException {
if ( !isCompiled() ) {
addFromAssociation( "this", collectionRole );
compile( replacements, scalar );
}
}
/**
* Compile the query (generate the SQL).
*
* @throws org.hibernate.MappingException Indicates problems resolving
* things referenced in the query.
* @throws org.hibernate.QueryException Generally some form of syntatic
* failure.
*/
private void compile() throws QueryException, MappingException {
LOG.trace( "Compiling query" );
try {
ParserHelper.parse( new PreprocessingParser( tokenReplacements ),
queryString,
ParserHelper.HQL_SEPARATORS,
this );
renderSQL();
}
catch ( QueryException qe ) {
qe.setQueryString( queryString );
throw qe;
}
catch ( MappingException me ) {
throw me;
}
catch ( Exception e ) {
LOG.debug( "Unexpected query compilation problem", e );
e.printStackTrace();
QueryException qe = new QueryException( "Incorrect query syntax", e );
qe.setQueryString( queryString );
throw qe;
}
postInstantiate();
compiled = true;
}
@Override
public String getSQLString() {
return sqlString;
}
public List collectSqlStrings() {
return ArrayHelper.toList( new String[] { sqlString } );
}
public String getQueryString() {
return queryString;
}
/**
* Persisters for the return values of a find() style query.
*
* @return an array of EntityPersister s.
*/
@Override
protected Loadable[] getEntityPersisters() {
return persisters;
}
/**
* Types of the return values of an iterate() style query.
*
* @return an array of Type s.
*/
public Type[] getReturnTypes() {
return actualReturnTypes;
}
public String[] getReturnAliases() {
// return aliases not supported in classic translator!
return NO_RETURN_ALIASES;
}
public String[][] getColumnNames() {
return scalarColumnNames;
}
private static void logQuery(String hql, String sql) {
if ( LOG.isDebugEnabled() ) {
LOG.debugf( "HQL: %s", hql );
LOG.debugf( "SQL: %s", sql );
}
}
void setAliasName(String alias, String name) {
aliasNames.put( alias, name );
}
public String getAliasName(String alias) {
String name = ( String ) aliasNames.get( alias );
if ( name == null ) {
if ( superQuery != null ) {
name = superQuery.getAliasName( alias );
}
else {
name = alias;
}
}
return name;
}
String unalias(String path) {
String alias = StringHelper.root( path );
String name = getAliasName( alias );
if (name != null) return name + path.substring(alias.length());
return path;
}
void addEntityToFetch(String name, String oneToOneOwnerName, AssociationType ownerAssociationType) {
addEntityToFetch( name );
if ( oneToOneOwnerName != null ) oneToOneOwnerNames.put( name, oneToOneOwnerName );
if ( ownerAssociationType != null ) uniqueKeyOwnerReferences.put( name, ownerAssociationType );
}
private void addEntityToFetch(String name) {
entitiesToFetch.add( name );
}
private int nextCount() {
return ( superQuery == null ) ? nameCount++ : superQuery.nameCount++;
}
String createNameFor(String type) {
return StringHelper.generateAlias( type, nextCount() );
}
String createNameForCollection(String role) {
return StringHelper.generateAlias( role, nextCount() );
}
private String getType(String name) {
String type = ( String ) typeMap.get( name );
if ( type == null && superQuery != null ) {
type = superQuery.getType( name );
}
return type;
}
private String getRole(String name) {
String role = ( String ) collections.get( name );
if ( role == null && superQuery != null ) {
role = superQuery.getRole( name );
}
return role;
}
boolean isName(String name) {
return aliasNames.containsKey( name ) ||
typeMap.containsKey( name ) ||
collections.containsKey( name ) || (
superQuery != null && superQuery.isName( name )
);
}
PropertyMapping getPropertyMapping(String name) throws QueryException {
PropertyMapping decorator = getDecoratedPropertyMapping( name );
if ( decorator != null ) return decorator;
String type = getType( name );
if ( type == null ) {
String role = getRole( name );
if ( role == null ) {
throw new QueryException( "alias not found: " + name );
}
return getCollectionPersister( role ); //.getElementPropertyMapping();
}
else {
Queryable persister = getEntityPersister( type );
if ( persister == null ) throw new QueryException( "persistent class not found: " + type );
return persister;
}
}
private PropertyMapping getDecoratedPropertyMapping(String name) {
return ( PropertyMapping ) decoratedPropertyMappings.get( name );
}
void decoratePropertyMapping(String name, PropertyMapping mapping) {
decoratedPropertyMappings.put( name, mapping );
}
private Queryable getEntityPersisterForName(String name) throws QueryException {
String type = getType( name );
Queryable persister = getEntityPersister( type );
if ( persister == null ) throw new QueryException( "persistent class not found: " + type );
return persister;
}
Queryable getEntityPersisterUsingImports(String className) {
final String importedClassName = getFactory().getImportedClassName( className );
if ( importedClassName == null ) {
return null;
}
try {
return ( Queryable ) getFactory().getEntityPersister( importedClassName );
}
catch ( MappingException me ) {
return null;
}
}
Queryable getEntityPersister(String entityName) throws QueryException {
try {
return ( Queryable ) getFactory().getEntityPersister( entityName );
}
catch ( Exception e ) {
throw new QueryException( "persistent class not found: " + entityName );
}
}
QueryableCollection getCollectionPersister(String role) throws QueryException {
try {
return ( QueryableCollection ) getFactory().getCollectionPersister( role );
}
catch ( ClassCastException cce ) {
throw new QueryException( "collection role is not queryable: " + role );
}
catch ( Exception e ) {
throw new QueryException( "collection role not found: " + role );
}
}
void addType(String name, String type) {
typeMap.put( name, type );
}
void addCollection(String name, String role) {
collections.put( name, role );
}
void addFrom(String name, String type, JoinSequence joinSequence)
throws QueryException {
addType( name, type );
addFrom( name, joinSequence );
}
void addFromCollection(String name, String collectionRole, JoinSequence joinSequence)
throws QueryException {
//register collection role
addCollection( name, collectionRole );
addJoin( name, joinSequence );
}
void addFrom(String name, JoinSequence joinSequence)
throws QueryException {
fromTypes.add( name );
addJoin( name, joinSequence );
}
void addFromClass(String name, Queryable classPersister)
throws QueryException {
JoinSequence joinSequence = new JoinSequence( getFactory() )
.setRoot( classPersister, name );
//crossJoins.add(name);
addFrom( name, classPersister.getEntityName(), joinSequence );
}
void addSelectClass(String name) {
returnedTypes.add( name );
}
void addSelectScalar(Type type) {
scalarTypes.add( type );
}
void appendWhereToken(String token) {
whereTokens.add( token );
}
void appendHavingToken(String token) {
havingTokens.add( token );
}
void appendOrderByToken(String token) {
orderByTokens.add( token );
}
void appendGroupByToken(String token) {
groupByTokens.add( token );
}
void appendScalarSelectToken(String token) {
scalarSelectTokens.add( token );
}
void appendScalarSelectTokens(String[] tokens) {
scalarSelectTokens.add( tokens );
}
void addFromJoinOnly(String name, JoinSequence joinSequence) throws QueryException {
addJoin( name, joinSequence.getFromPart() );
}
void addJoin(String name, JoinSequence joinSequence) throws QueryException {
if ( !joins.containsKey( name ) ) joins.put( name, joinSequence );
}
void addNamedParameter(String name) {
if ( superQuery != null ) superQuery.addNamedParameter( name );
Integer loc = parameterCount++;
Object o = namedParameters.get( name );
if ( o == null ) {
namedParameters.put( name, loc );
}
else if ( o instanceof Integer ) {
ArrayList list = new ArrayList( 4 );
list.add( o );
list.add( loc );
namedParameters.put( name, list );
}
else {
( ( ArrayList ) o ).add( loc );
}
}
@Override
public int[] getNamedParameterLocs(String name) throws QueryException {
Object o = namedParameters.get( name );
if ( o == null ) {
QueryException qe = new QueryException( ERROR_NAMED_PARAMETER_DOES_NOT_APPEAR + name );
qe.setQueryString( queryString );
throw qe;
}
if ( o instanceof Integer ) {
return new int[]{ ( ( Integer ) o ).intValue() };
}
else {
return ArrayHelper.toIntArray( ( ArrayList ) o );
}
}
private void renderSQL() throws QueryException, MappingException {
final int rtsize;
if ( returnedTypes.size() == 0 && scalarTypes.size() == 0 ) {
//ie no select clause in HQL
returnedTypes = fromTypes;
rtsize = returnedTypes.size();
}
else {
rtsize = returnedTypes.size();
Iterator iter = entitiesToFetch.iterator();
while ( iter.hasNext() ) {
returnedTypes.add( iter.next() );
}
}
int size = returnedTypes.size();
persisters = new Queryable[size];
names = new String[size];
owners = new int[size];
ownerAssociationTypes = new EntityType[size];
suffixes = new String[size];
includeInSelect = new boolean[size];
for ( int i = 0; i < size; i++ ) {
String name = ( String ) returnedTypes.get( i );
//if ( !isName(name) ) throw new QueryException("unknown type: " + name);
persisters[i] = getEntityPersisterForName( name );
// TODO: cannot use generateSuffixes() - it handles the initial suffix differently.
suffixes[i] = ( size == 1 ) ? "" : Integer.toString( i ) + '_';
names[i] = name;
includeInSelect[i] = !entitiesToFetch.contains( name );
if ( includeInSelect[i] ) selectLength++;
if ( name.equals( collectionOwnerName ) ) collectionOwnerColumn = i;
String oneToOneOwner = ( String ) oneToOneOwnerNames.get( name );
owners[i] = ( oneToOneOwner == null ) ? -1 : returnedTypes.indexOf( oneToOneOwner );
ownerAssociationTypes[i] = (EntityType) uniqueKeyOwnerReferences.get( name );
}
if ( ArrayHelper.isAllNegative( owners ) ) owners = null;
String scalarSelect = renderScalarSelect(); //Must be done here because of side-effect! yuck...
int scalarSize = scalarTypes.size();
hasScalars = scalarTypes.size() != rtsize;
returnTypes = new Type[scalarSize];
for ( int i = 0; i < scalarSize; i++ ) {
returnTypes[i] = ( Type ) scalarTypes.get( i );
}
QuerySelect sql = new QuerySelect( getFactory().getDialect() );
sql.setDistinct( distinct );
if ( !shallowQuery ) {
renderIdentifierSelect( sql );
renderPropertiesSelect( sql );
}
if ( collectionPersister != null ) {
sql.addSelectFragmentString( collectionPersister.selectFragment( fetchName, "__" ) );
}
if ( hasScalars || shallowQuery ) sql.addSelectFragmentString( scalarSelect );
//TODO: for some dialects it would be appropriate to add the renderOrderByPropertiesSelect() to other select strings
mergeJoins( sql.getJoinFragment() );
sql.setWhereTokens( whereTokens.iterator() );
sql.setGroupByTokens( groupByTokens.iterator() );
sql.setHavingTokens( havingTokens.iterator() );
sql.setOrderByTokens( orderByTokens.iterator() );
if ( collectionPersister != null && collectionPersister.hasOrdering() ) {
sql.addOrderBy( collectionPersister.getSQLOrderByString( fetchName ) );
}
scalarColumnNames = NameGenerator.generateColumnNames( returnTypes, getFactory() );
// initialize the Set of queried identifier spaces (ie. tables)
Iterator iter = collections.values().iterator();
while ( iter.hasNext() ) {
CollectionPersister p = getCollectionPersister( ( String ) iter.next() );
addQuerySpaces( p.getCollectionSpaces() );
}
iter = typeMap.keySet().iterator();
while ( iter.hasNext() ) {
Queryable p = getEntityPersisterForName( ( String ) iter.next() );
addQuerySpaces( p.getQuerySpaces() );
}
sqlString = sql.toQueryString();
if ( holderClass != null ) holderConstructor = ReflectHelper.getConstructor( holderClass, returnTypes );
if ( hasScalars ) {
actualReturnTypes = returnTypes;
}
else {
actualReturnTypes = new Type[selectLength];
int j = 0;
for ( int i = 0; i < persisters.length; i++ ) {
if ( includeInSelect[i] ) {
actualReturnTypes[j++] = getFactory().getTypeResolver()
.getTypeFactory()
.manyToOne( persisters[i].getEntityName(), shallowQuery );
}
}
}
}
private void renderIdentifierSelect(QuerySelect sql) {
int size = returnedTypes.size();
for ( int k = 0; k < size; k++ ) {
String name = ( String ) returnedTypes.get( k );
String suffix = size == 1 ? "" : Integer.toString( k ) + '_';
sql.addSelectFragmentString( persisters[k].identifierSelectFragment( name, suffix ) );
}
}
/*private String renderOrderByPropertiesSelect() {
StringBuffer buf = new StringBuffer(10);
//add the columns we are ordering by to the select ID select clause
Iterator iter = orderByTokens.iterator();
while ( iter.hasNext() ) {
String token = (String) iter.next();
if ( token.lastIndexOf(".") > 0 ) {
//ie. it is of form "foo.bar", not of form "asc" or "desc"
buf.append(StringHelper.COMMA_SPACE).append(token);
}
}
return buf.toString();
}*/
private void renderPropertiesSelect(QuerySelect sql) {
int size = returnedTypes.size();
for ( int k = 0; k < size; k++ ) {
String suffix = size == 1 ? "" : Integer.toString( k ) + '_';
String name = ( String ) returnedTypes.get( k );
sql.addSelectFragmentString( persisters[k].propertySelectFragment( name, suffix, false ) );
}
}
/**
* WARNING: side-effecty
*/
private String renderScalarSelect() {
boolean isSubselect = superQuery != null;
StringBuilder buf = new StringBuilder( 20 );
if ( scalarTypes.size() == 0 ) {
//ie. no select clause
int size = returnedTypes.size();
for ( int k = 0; k < size; k++ ) {
scalarTypes.add(
getFactory().getTypeResolver().getTypeFactory().manyToOne( persisters[k].getEntityName(), shallowQuery )
);
String[] idColumnNames = persisters[k].getIdentifierColumnNames();
for ( int i = 0; i < idColumnNames.length; i++ ) {
buf.append( returnedTypes.get( k ) ).append( '.' ).append( idColumnNames[i] );
if ( !isSubselect ) buf.append( " as " ).append( NameGenerator.scalarName( k, i ) );
if ( i != idColumnNames.length - 1 || k != size - 1 ) buf.append( ", " );
}
}
}
else {
//there _was_ a select clause
Iterator iter = scalarSelectTokens.iterator();
int c = 0;
boolean nolast = false; //real hacky...
int parenCount = 0; // used to count the nesting of parentheses
while ( iter.hasNext() ) {
Object next = iter.next();
if ( next instanceof String ) {
String token = ( String ) next;
if ( "(".equals( token ) ) {
parenCount++;
}
else if ( ")".equals( token ) ) {
parenCount--;
}
String lc = token.toLowerCase();
if ( lc.equals( ", " ) ) {
if ( nolast ) {
nolast = false;
}
else {
if ( !isSubselect && parenCount == 0 ) {
int x = c++;
buf.append( " as " )
.append( NameGenerator.scalarName( x, 0 ) );
}
}
}
buf.append( token );
if ( lc.equals( "distinct" ) || lc.equals( "all" ) ) {
buf.append( ' ' );
}
}
else {
nolast = true;
String[] tokens = ( String[] ) next;
for ( int i = 0; i < tokens.length; i++ ) {
buf.append( tokens[i] );
if ( !isSubselect ) {
buf.append( " as " )
.append( NameGenerator.scalarName( c, i ) );
}
if ( i != tokens.length - 1 ) buf.append( ", " );
}
c++;
}
}
if ( !isSubselect && !nolast ) {
int x = c++;
buf.append( " as " )
.append( NameGenerator.scalarName( x, 0 ) );
}
}
return buf.toString();
}
private void mergeJoins(JoinFragment ojf) throws MappingException, QueryException {
Iterator iter = joins.entrySet().iterator();
while ( iter.hasNext() ) {
Map.Entry me = ( Map.Entry ) iter.next();
String name = ( String ) me.getKey();
JoinSequence join = ( JoinSequence ) me.getValue();
join.setSelector( new JoinSequence.Selector() {
public boolean includeSubclasses(String alias) {
boolean include = returnedTypes.contains( alias ) && !isShallowQuery();
return include;
}
} );
if ( typeMap.containsKey( name ) ) {
ojf.addFragment( join.toJoinFragment( enabledFilters, true ) );
}
else if ( collections.containsKey( name ) ) {
ojf.addFragment( join.toJoinFragment( enabledFilters, true ) );
}
else {
//name from a super query (a bit inelegant that it shows up here)
}
}
}
public final Set getQuerySpaces() {
return querySpaces;
}
/**
* Is this query called by scroll() or iterate()?
*
* @return true if it is, false if it is called by find() or list()
*/
boolean isShallowQuery() {
return shallowQuery;
}
void addQuerySpaces(Serializable[] spaces) {
for ( int i = 0; i < spaces.length; i++ ) {
querySpaces.add( spaces[i] );
}
if ( superQuery != null ) superQuery.addQuerySpaces( spaces );
}
void setDistinct(boolean distinct) {
this.distinct = distinct;
}
boolean isSubquery() {
return superQuery != null;
}
/**
* Overrides method from Loader
*/
@Override
public CollectionPersister[] getCollectionPersisters() {
return collectionPersister == null ? null : new CollectionPersister[] { collectionPersister };
}
@Override
protected String[] getCollectionSuffixes() {
return collectionPersister == null ? null : new String[] { "__" };
}
void setCollectionToFetch(String role, String name, String ownerName, String entityName)
throws QueryException {
fetchName = name;
collectionPersister = getCollectionPersister( role );
collectionOwnerName = ownerName;
if ( collectionPersister.getElementType().isEntityType() ) {
addEntityToFetch( entityName );
}
}
@Override
protected String[] getSuffixes() {
return suffixes;
}
@Override
protected String[] getAliases() {
return names;
}
/**
* Used for collection filters
*/
private void addFromAssociation(final String elementName, final String collectionRole)
throws QueryException {
//q.addCollection(collectionName, collectionRole);
QueryableCollection persister = getCollectionPersister( collectionRole );
Type collectionElementType = persister.getElementType();
if ( !collectionElementType.isEntityType() ) {
throw new QueryException( "collection of values in filter: " + elementName );
}
String[] keyColumnNames = persister.getKeyColumnNames();
//if (keyColumnNames.length!=1) throw new QueryException("composite-key collection in filter: " + collectionRole);
String collectionName;
JoinSequence join = new JoinSequence( getFactory() );
collectionName = persister.isOneToMany() ?
elementName :
createNameForCollection( collectionRole );
join.setRoot( persister, collectionName );
if ( !persister.isOneToMany() ) {
//many-to-many
addCollection( collectionName, collectionRole );
try {
join.addJoin( ( AssociationType ) persister.getElementType(),
elementName,
JoinType.INNER_JOIN,
persister.getElementColumnNames(collectionName) );
}
catch ( MappingException me ) {
throw new QueryException( me );
}
}
join.addCondition( collectionName, keyColumnNames, " = ?" );
//if ( persister.hasWhere() ) join.addCondition( persister.getSQLWhereString(collectionName) );
EntityType elemType = ( EntityType ) collectionElementType;
addFrom( elementName, elemType.getAssociatedEntityName(), join );
}
String getPathAlias(String path) {
return ( String ) pathAliases.get( path );
}
JoinSequence getPathJoin(String path) {
return ( JoinSequence ) pathJoins.get( path );
}
void addPathAliasAndJoin(String path, String alias, JoinSequence joinSequence) {
pathAliases.put( path, alias );
pathJoins.put( path, joinSequence );
}
public List list(SessionImplementor session, QueryParameters queryParameters)
throws HibernateException {
return list( session, queryParameters, getQuerySpaces(), actualReturnTypes );
}
/**
* Return the query results as an iterator
*/
public Iterator iterate(QueryParameters queryParameters, EventSource session)
throws HibernateException {
boolean stats = session.getFactory().getStatistics().isStatisticsEnabled();
long startTime = 0;
if ( stats ) startTime = System.currentTimeMillis();
try {
final List afterLoadActions = new ArrayList();
final SqlStatementWrapper wrapper = executeQueryStatement( queryParameters, false, afterLoadActions, session );
final ResultSet rs = wrapper.getResultSet();
final PreparedStatement st = (PreparedStatement) wrapper.getStatement();
HolderInstantiator hi = HolderInstantiator.createClassicHolderInstantiator(holderConstructor, queryParameters.getResultTransformer());
Iterator result = new IteratorImpl( rs, st, session, queryParameters.isReadOnly( session ), returnTypes, getColumnNames(), hi );
if ( stats ) {
session.getFactory().getStatisticsImplementor().queryExecuted(
"HQL: " + queryString,
0,
System.currentTimeMillis() - startTime
);
}
return result;
}
catch ( SQLException sqle ) {
throw getFactory().getSQLExceptionHelper().convert(
sqle,
"could not execute query using iterate",
getSQLString()
);
}
}
public int executeUpdate(QueryParameters queryParameters, SessionImplementor session) throws HibernateException {
throw new UnsupportedOperationException( "Not supported! Use the AST translator...");
}
@Override
protected boolean[] includeInResultRow() {
boolean[] isResultReturned = includeInSelect;
if ( hasScalars ) {
isResultReturned = new boolean[ returnedTypes.size() ];
Arrays.fill( isResultReturned, true );
}
return isResultReturned;
}
@Override
protected ResultTransformer resolveResultTransformer(ResultTransformer resultTransformer) {
return HolderInstantiator.resolveClassicResultTransformer(
holderConstructor,
resultTransformer
);
}
@Override
protected Object getResultColumnOrRow(Object[] row, ResultTransformer transformer, ResultSet rs, SessionImplementor session)
throws SQLException, HibernateException {
Object[] resultRow = getResultRow( row, rs, session );
return ( holderClass == null && resultRow.length == 1 ?
resultRow[ 0 ] :
resultRow
);
}
@Override
protected Object[] getResultRow(Object[] row, ResultSet rs, SessionImplementor session)
throws SQLException, HibernateException {
Object[] resultRow;
if ( hasScalars ) {
String[][] scalarColumns = getColumnNames();
int queryCols = returnTypes.length;
resultRow = new Object[queryCols];
for ( int i = 0; i < queryCols; i++ ) {
resultRow[i] = returnTypes[i].nullSafeGet( rs, scalarColumns[i], session, null );
}
}
else {
resultRow = toResultRow( row );
}
return resultRow;
}
@Override
protected List getResultList(List results, ResultTransformer resultTransformer) throws QueryException {
if ( holderClass != null ) {
for ( int i = 0; i < results.size(); i++ ) {
Object[] row = ( Object[] ) results.get( i );
try {
results.set( i, holderConstructor.newInstance( row ) );
}
catch ( Exception e ) {
throw new QueryException( "could not instantiate: " + holderClass, e );
}
}
}
return results;
}
private Object[] toResultRow(Object[] row) {
if ( selectLength == row.length ) {
return row;
}
else {
Object[] result = new Object[selectLength];
int j = 0;
for ( int i = 0; i < row.length; i++ ) {
if ( includeInSelect[i] ) result[j++] = row[i];
}
return result;
}
}
void setHolderClass(Class clazz) {
holderClass = clazz;
}
@Override
protected LockMode[] getLockModes(LockOptions lockOptions) {
// unfortunately this stuff can't be cached because
// it is per-invocation, not constant for the
// QueryTranslator instance
HashMap nameLockOptions = new HashMap();
if ( lockOptions == null) {
lockOptions = LockOptions.NONE;
}
if ( lockOptions.getAliasLockCount() > 0 ) {
Iterator iter = lockOptions.getAliasLockIterator();
while ( iter.hasNext() ) {
Map.Entry me = ( Map.Entry ) iter.next();
nameLockOptions.put( getAliasName( ( String ) me.getKey() ),
me.getValue() );
}
}
LockMode[] lockModesArray = new LockMode[names.length];
for ( int i = 0; i < names.length; i++ ) {
LockMode lm = ( LockMode ) nameLockOptions.get( names[i] );
//if ( lm == null ) lm = LockOptions.NONE;
if ( lm == null ) lm = lockOptions.getLockMode();
lockModesArray[i] = lm;
}
return lockModesArray;
}
@Override
protected String applyLocks(
String sql,
QueryParameters parameters,
Dialect dialect,
List afterLoadActions) throws QueryException {
// can't cache this stuff either (per-invocation)
final LockOptions lockOptions = parameters.getLockOptions();
final String result;
if ( lockOptions == null ||
( lockOptions.getLockMode() == LockMode.NONE && lockOptions.getAliasLockCount() == 0 ) ) {
return sql;
}
else {
LockOptions locks = new LockOptions();
locks.setLockMode(lockOptions.getLockMode());
locks.setTimeOut(lockOptions.getTimeOut());
locks.setScope(lockOptions.getScope());
Iterator iter = lockOptions.getAliasLockIterator();
while ( iter.hasNext() ) {
Map.Entry me = ( Map.Entry ) iter.next();
locks.setAliasSpecificLockMode( getAliasName( ( String ) me.getKey() ), (LockMode) me.getValue() );
}
Map keyColumnNames = null;
if ( dialect.forUpdateOfColumns() ) {
keyColumnNames = new HashMap();
for ( int i = 0; i < names.length; i++ ) {
keyColumnNames.put( names[i], persisters[i].getIdentifierColumnNames() );
}
}
result = dialect.applyLocksToSql( sql, locks, keyColumnNames );
}
logQuery( queryString, result );
return result;
}
@Override
protected boolean upgradeLocks() {
return true;
}
@Override
protected int[] getCollectionOwners() {
return new int[] { collectionOwnerColumn };
}
protected boolean isCompiled() {
return compiled;
}
@Override
public String toString() {
return queryString;
}
@Override
protected int[] getOwners() {
return owners;
}
@Override
protected EntityType[] getOwnerAssociationTypes() {
return ownerAssociationTypes;
}
public Class getHolderClass() {
return holderClass;
}
public Map getEnabledFilters() {
return enabledFilters;
}
public ScrollableResults scroll(final QueryParameters queryParameters,
final SessionImplementor session)
throws HibernateException {
HolderInstantiator hi = HolderInstantiator.createClassicHolderInstantiator(
holderConstructor, queryParameters.getResultTransformer()
);
return scroll( queryParameters, returnTypes, hi, session );
}
@Override
public String getQueryIdentifier() {
return queryIdentifier;
}
@Override
protected boolean isSubselectLoadingEnabled() {
return hasSubselectLoadableCollections();
}
public void validateScrollability() throws HibernateException {
// This is the legacy behaviour for HQL queries...
if ( getCollectionPersisters() != null ) {
throw new HibernateException( "Cannot scroll queries which initialize collections" );
}
}
public boolean containsCollectionFetches() {
return false;
}
public boolean isManipulationStatement() {
// classic parser does not support bulk manipulation statements
return false;
}
@Override
public Class getDynamicInstantiationResultType() {
return holderClass;
}
public ParameterTranslations getParameterTranslations() {
return new ParameterTranslations() {
public boolean supportsOrdinalParameterMetadata() {
// classic translator does not support collection of ordinal
// param metadata
return false;
}
public int getOrdinalParameterCount() {
return 0; // not known!
}
public int getOrdinalParameterSqlLocation(int ordinalPosition) {
return 0; // not known!
}
public Type getOrdinalParameterExpectedType(int ordinalPosition) {
return null; // not known!
}
public Set getNamedParameterNames() {
return namedParameters.keySet();
}
public int[] getNamedParameterSqlLocations(String name) {
return getNamedParameterLocs( name );
}
public Type getNamedParameterExpectedType(String name) {
return null; // not known!
}
};
}
}