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/*
* 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;
import java.io.Serializable;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.Calendar;
import java.util.Collection;
import java.util.Date;
import java.util.Iterator;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import org.hibernate.transform.ResultTransformer;
import org.hibernate.type.Type;
/**
* An object-oriented representation of a Hibernate query. A Query
* instance is obtained by calling Session.createQuery(). This
* interface exposes some extra functionality beyond that provided by
* Session.iterate() and Session.find():
*
*
a particular page of the result set may be selected by calling
* setMaxResults(), setFirstResult()
*
named query parameters may be used
*
the results may be returned as an instance of ScrollableResults
*
*
* Named query parameters are tokens of the form :name in the
* query string. A value is bound to the integer parameter
* :foo by calling
*
* setParameter("foo", foo, Hibernate.INTEGER);
*
* for example. A name may appear multiple times in the query string.
*
* JDBC-style ? parameters are also supported. To bind a
* value to a JDBC-style parameter use a set method that accepts an
* int positional argument (numbered from zero, contrary
* to JDBC).
*
* You may not mix and match JDBC-style parameters and named parameters
* in the same query.
*
* Queries are executed by calling list(), scroll() or
* iterate(). A query may be re-executed by subsequent invocations.
* Its lifespan is, however, bounded by the lifespan of the Session
* that created it.
*
* Implementors are not intended to be threadsafe.
*
* @see org.hibernate.Session#createQuery(java.lang.String)
* @see org.hibernate.ScrollableResults
* @author Gavin King
*/
public interface Query {
/**
* Get the query string.
*
* @return the query string
*/
public String getQueryString();
/**
* Return the Hibernate types of the query result set.
* @return an array of types
*/
public Type[] getReturnTypes() throws HibernateException;
/**
* Return the HQL select clause aliases (if any)
* @return an array of aliases as strings
*/
public String[] getReturnAliases() throws HibernateException;
/**
* Return the names of all named parameters of the query.
* @return the parameter names, in no particular order
*/
public String[] getNamedParameters() throws HibernateException;
/**
* Return the query results as an Iterator. If the query
* contains multiple results pre row, the results are returned in
* an instance of Object[].
*
* Entities returned as results are initialized on demand. The first
* SQL query returns identifiers only.
*
* @return the result iterator
* @throws HibernateException
*/
public Iterator iterate() throws HibernateException;
/**
* Return the query results as ScrollableResults. The
* scrollability of the returned results depends upon JDBC driver
* support for scrollable ResultSets.
*
* @see ScrollableResults
* @return the result iterator
* @throws HibernateException
*/
public ScrollableResults scroll() throws HibernateException;
/**
* Return the query results as ScrollableResults. The
* scrollability of the returned results depends upon JDBC driver
* support for scrollable ResultSets.
*
* @see ScrollableResults
* @see ScrollMode
* @return the result iterator
* @throws HibernateException
*/
public ScrollableResults scroll(ScrollMode scrollMode) throws HibernateException;
/**
* Return the query results as a List. If the query contains
* multiple results pre row, the results are returned in an instance
* of Object[].
*
* @return the result list
* @throws HibernateException
*/
public List list() throws HibernateException;
/**
* Convenience method to return a single instance that matches
* the query, or null if the query returns no results.
*
* @return the single result or null
* @throws NonUniqueResultException if there is more than one matching result
*/
public Object uniqueResult() throws HibernateException;
/**
* Execute the update or delete statement.
*
* The semantics are compliant with the ejb3 Query.executeUpdate()
* method.
*
* @return The number of entities updated or deleted.
* @throws HibernateException
*/
public int executeUpdate() throws HibernateException;
/**
* Set the maximum number of rows to retrieve. If not set,
* there is no limit to the number of rows retrieved.
* @param maxResults the maximum number of rows
*/
public Query setMaxResults(int maxResults);
/**
* Set the first row to retrieve. If not set, rows will be
* retrieved beginnning from row 0.
* @param firstResult a row number, numbered from 0
*/
public Query setFirstResult(int firstResult);
/**
* Should entities and proxies loaded by this Query be put in read-only mode? If the
* read-only/modifiable setting was not initialized, then the default
* read-only/modifiable setting for the persistence context is returned instead.
* @see Query#setReadOnly(boolean)
* @see org.hibernate.engine.PersistenceContext#isDefaultReadOnly()
*
* The read-only/modifiable setting has no impact on entities/proxies returned by the
* query that existed in the session before the query was executed.
*
* @return true, entities and proxies loaded by the query will be put in read-only mode
* false, entities and proxies loaded by the query will be put in modifiable mode
*/
public boolean isReadOnly();
/**
* Set the read-only/modifiable mode for entities and proxies
* loaded by this Query. This setting overrides the default setting
* for the persistence context.
* @see org.hibernate.engine.PersistenceContext#isDefaultReadOnly()
*
* To set the default read-only/modifiable setting used for
* entities and proxies that are loaded into the session:
* @see org.hibernate.engine.PersistenceContext#setDefaultReadOnly(boolean)
* @see org.hibernate.Session#setDefaultReadOnly(boolean)
*
* Read-only entities are not dirty-checked and snapshots of persistent
* state are not maintained. Read-only entities can be modified, but
* changes are not persisted.
*
* When a proxy is initialized, the loaded entity will have the same
* read-only/modifiable setting as the uninitialized
* proxy has, regardless of the session's current setting.
*
* The read-only/modifiable setting has no impact on entities/proxies
* returned by the query that existed in the session before the query was executed.
*
* @param readOnly true, entities and proxies loaded by the query will be put in read-only mode
* false, entities and proxies loaded by the query will be put in modifiable mode
*/
public Query setReadOnly(boolean readOnly);
/**
* Enable caching of this query result set.
* @param cacheable Should the query results be cacheable?
*/
public Query setCacheable(boolean cacheable);
/**
* Set the name of the cache region.
* @param cacheRegion the name of a query cache region, or null
* for the default query cache
*/
public Query setCacheRegion(String cacheRegion);
/**
* Set a timeout for the underlying JDBC query.
* @param timeout the timeout in seconds
*/
public Query setTimeout(int timeout);
/**
* Set a fetch size for the underlying JDBC query.
* @param fetchSize the fetch size
*/
public Query setFetchSize(int fetchSize);
/**
* Set the lock options for the objects idententified by the
* given alias that appears in the FROM clause.
*/
public Query setLockOptions(LockOptions lockOptions);
/**
* Set the lockmode for the objects idententified by the
* given alias that appears in the FROM clause.
* @param alias a query alias, or this for a collection filter
*/
public Query setLockMode(String alias, LockMode lockMode);
/**
* Add a comment to the generated SQL.
* @param comment a human-readable string
*/
public Query setComment(String comment);
/**
* Override the current session flush mode, just for
* this query.
* @see org.hibernate.FlushMode
*/
public Query setFlushMode(FlushMode flushMode);
/**
* Override the current session cache mode, just for
* this query.
* @see org.hibernate.CacheMode
*/
public Query setCacheMode(CacheMode cacheMode);
/**
* Bind a value to a JDBC-style query parameter.
* @param position the position of the parameter in the query
* string, numbered from 0.
* @param val the possibly-null parameter value
* @param type the Hibernate type
*/
public Query setParameter(int position, Object val, Type type);
/**
* Bind a value to a named query parameter.
* @param name the name of the parameter
* @param val the possibly-null parameter value
* @param type the Hibernate type
*/
public Query setParameter(String name, Object val, Type type);
/**
* Bind a value to a JDBC-style query parameter. The Hibernate type of the parameter is
* first detected via the usage/position in the query and if not sufficient secondly
* guessed from the class of the given object.
* @param position the position of the parameter in the query
* string, numbered from 0.
* @param val the non-null parameter value
* @throws org.hibernate.HibernateException if no type could be determined
*/
public Query setParameter(int position, Object val) throws HibernateException;
/**
* Bind a value to a named query parameter. The Hibernate type of the parameter is
* first detected via the usage/position in the query and if not sufficient secondly
* guessed from the class of the given object.
* @param name the name of the parameter
* @param val the non-null parameter value
* @throws org.hibernate.HibernateException if no type could be determined
*/
public Query setParameter(String name, Object val) throws HibernateException;
/**
* Bind values and types to positional parameters.
*/
public Query setParameters(Object[] values, Type[] types) throws HibernateException;
/**
* Bind multiple values to a named query parameter. This is useful for binding
* a list of values to an expression such as foo.bar in (:value_list).
* @param name the name of the parameter
* @param vals a collection of values to list
* @param type the Hibernate type of the values
*/
public Query setParameterList(String name, Collection vals, Type type) throws HibernateException;
/**
* Bind multiple values to a named query parameter. The Hibernate type of the parameter is
* first detected via the usage/position in the query and if not sufficient secondly
* guessed from the class of the first object in the collection. This is useful for binding a list of values
* to an expression such as foo.bar in (:value_list).
* @param name the name of the parameter
* @param vals a collection of values to list
*/
public Query setParameterList(String name, Collection vals) throws HibernateException;
/**
* Bind multiple values to a named query parameter. This is useful for binding
* a list of values to an expression such as foo.bar in (:value_list).
* @param name the name of the parameter
* @param vals a collection of values to list
* @param type the Hibernate type of the values
*/
public Query setParameterList(String name, Object[] vals, Type type) throws HibernateException;
/**
* Bind multiple values to a named query parameter. The Hibernate type of the parameter is
* first detected via the usage/position in the query and if not sufficient secondly
* guessed from the class of the first object in the array. This is useful for binding a list of values
* to an expression such as foo.bar in (:value_list).
* @param name the name of the parameter
* @param vals a collection of values to list
*/
public Query setParameterList(String name, Object[] vals) throws HibernateException;
/**
* Bind the property values of the given bean to named parameters of the query,
* matching property names with parameter names and mapping property types to
* Hibernate types using hueristics.
* @param bean any JavaBean or POJO
*/
public Query setProperties(Object bean) throws HibernateException;
/**
* Bind the values of the given Map for each named parameters of the query,
* matching key names with parameter names and mapping value types to
* Hibernate types using hueristics.
* @param bean a java.util.Map
*/
public Query setProperties(Map bean) throws HibernateException;
public Query setString(int position, String val);
public Query setCharacter(int position, char val);
public Query setBoolean(int position, boolean val);
public Query setByte(int position, byte val);
public Query setShort(int position, short val);
public Query setInteger(int position, int val);
public Query setLong(int position, long val);
public Query setFloat(int position, float val);
public Query setDouble(int position, double val);
public Query setBinary(int position, byte[] val);
public Query setText(int position, String val);
public Query setSerializable(int position, Serializable val);
public Query setLocale(int position, Locale locale);
public Query setBigDecimal(int position, BigDecimal number);
public Query setBigInteger(int position, BigInteger number);
public Query setDate(int position, Date date);
public Query setTime(int position, Date date);
public Query setTimestamp(int position, Date date);
public Query setCalendar(int position, Calendar calendar);
public Query setCalendarDate(int position, Calendar calendar);
public Query setString(String name, String val);
public Query setCharacter(String name, char val);
public Query setBoolean(String name, boolean val);
public Query setByte(String name, byte val);
public Query setShort(String name, short val);
public Query setInteger(String name, int val);
public Query setLong(String name, long val);
public Query setFloat(String name, float val);
public Query setDouble(String name, double val);
public Query setBinary(String name, byte[] val);
public Query setText(String name, String val);
public Query setSerializable(String name, Serializable val);
public Query setLocale(String name, Locale locale);
public Query setBigDecimal(String name, BigDecimal number);
public Query setBigInteger(String name, BigInteger number);
public Query setDate(String name, Date date);
public Query setTime(String name, Date date);
public Query setTimestamp(String name, Date date);
public Query setCalendar(String name, Calendar calendar);
public Query setCalendarDate(String name, Calendar calendar);
/**
* Bind an instance of a mapped persistent class to a JDBC-style query parameter.
* @param position the position of the parameter in the query
* string, numbered from 0.
* @param val a non-null instance of a persistent class
*/
public Query setEntity(int position, Object val); // use setParameter for null values
/**
* Bind an instance of a mapped persistent class to a named query parameter.
* @param name the name of the parameter
* @param val a non-null instance of a persistent class
*/
public Query setEntity(String name, Object val); // use setParameter for null values
/**
* Set a strategy for handling the query results. This can be used to change
* "shape" of the query result.
*
* @param transformer The transformer to apply
* @return this (for method chaining)
*/
public Query setResultTransformer(ResultTransformer transformer);
}