Hibernate 1x2

Hibernate by Example

Eitan Suez,
UptoData Inc

About the Speaker
●
Java Programmer
●
http://u2d.com/
●
Weblog on http://java.net/
●
NFJS Speaker

Goals
●
To get you up and running with
Hibernate
●
To Learn O/R Mapping with Hibernate,
in a hands-on, iterative manner
●
To get a good, first-hand feel of this
framework

Motivation
●
My experience using Hibernate has convinced me
that it has many gems, is useful in many
circumstances, and is worth studying
●
The belief that the best way to learn something is by
doing it actively

Style
Do {
●
Model a class of objects
●
Construct database mapping
●
Export or update database schema
●
Write Hibernate code to save sample data to
database
●
Write Hibernate code to query database
} until we've covered most of the mapping features of
Hibernate

Disclaimer
●
There is a lot to this framework, cannot cover every
aspect in a simple 1-2 hr course
●
Emphasis on constructing a meaningful sample
application at the expense of completeness: I will
not be covering every minute detail of the
framework

Agenda
1.Project Background
2.Mapping
3.The API
4.Session Usage Strategies
5.Performance
6.Batch Processing
7.UserType's
8.Annotations
9.Tools, Hibernate 3 features

What is Hibernate?
●
An Object/Relational Mapping (O/R M) API for Java
●
Open Source (LGPL)
●
Today a part of RedHat
●
Principal author: Gavin King
●
Other Major Figure: Christian Bauer
●
Almost a defacto standard O/R M for Java
●
Current version 3.1 (3.2 almost final)

Once upon a time..
1. A single mechanism for specifying Object-
Database Mapping:
●
hibernate .hbm.xml mapping files
2. One Specific Runtime API

Hibernate Today
●
Multiple Projects
●
Compliance with new EJB3
Persistence Standards
●
Supports both xml mapping
and Java 5 Annotations
●
Supports both the Hibernate
API and the EJB3 Persistence
API

1. Mapping
●
The process of specifying the bindings between an
object model and a database schema
●
Principal mechanism is via XML mapping files
●
Defacto file name extension: is .hbm.xml
●
Multiple ways to set this up: a single file, one file per
class. Best practice is is to use one file per class,
with each file placed next to its corresponding class
file in the package hierarchy, and loaded as a
resource

Mapping
●
Entities
●
Basic Properties
●
Components
●
Associations
●
Many-To-One
●
One-To-Many
●
Many-To-Many
●
Inheritance Mapping
●
Modeling with Interfaces

Model-Centric
●
Write Model Classes and Mappings;
Generate Database Schema
●
Reverse Engineering Tools available to do the
reverse

Coding a
Sample Application
(live)

The Model

Types: Entities vs Values
●
Analogous to by-reference vs by-value semantics in
programming languages
●
Just as primitives (int's) are passed by value as
parameters to methods (values are copied), by-value
semantics in the database implies the same thing:
value will map to a table column and will not be
shared or referenced by other entities
●
Entities on the other hand are the reverse, they are
shared (e.g. a many to one scenario)

Components
●
Use for giving by-value semantics to Java Classes
●
Usage highly encouraged
●
Principal mechanism for implementing a “Fine
Grained” model (more classes than tables)
●
Unlike entities, references are not shared; rather
wholly-owned by parent entity; its life-cycle is bound
to it
●
Components do not get their own tables: they map
to columns of their parent's table

Many-One
●
Example: Invoice references a single
customer. Other invoices may
reference that same customer.
●
Example mapping:
<manytoone name="customer"
column="customer_id" />

the column specification references the
foreign key in the invoice table

One-Many
●
Choose from among the various Collection
API types (List, Set, Map, etc..)
●
Hibernate also models Bag (no implied order)
semantics, using a java.util.List since the
collection API does not provide a Bag type

One-Many: lazy loading
●
Default in hibernate v3
●
Hibernate implements lazy loading by
providing its own Collection API interface
implementations.
●
These implementations don't fetch records from
the database until explicitly asked for (with a
list.get(i) for example)
●
Consequence: must specify Collection API
interfaces in your code (i.e. use List, not
ArrayList; otherwise will get a
ClassCastException)

One-Many (continued)

●
Example:
    <bag name="pmts">
      <key column="invoice_id"/>
      <onetomany class="com.u2d.nfjs.Payment"/>
    </bag>

● key is foreign key in payment table
●
pmts is list property name
●
keyword bag is one of a number of choices, including
list, set, map

Many-Many
●
Many-many associations are specified
using an extension of one-many.
●
Example:
<bag name="actors" table="Movie_Actor">
  <key column="movies_id"/>
  <manytomany column="actors_id"
                class="com.u2d.movielib.Actor"/>
</bag>

Inheritance
●
Four Strategies:
●
Table per class hierarchy
●
Table per subclass
●
Table per concrete class using union-
subclass
●
Table per concrete class using implicit
polymorphism

Implicit Polymorphism
●
Personally a great fan of implicit polymorphism;
●
I find this mechanism gives me the freedom to
model using interfaces without complicating or
sacrificing persistence
●
many-to-one associations to polymorphic types
specified in mapping file using the <any> tag
●
many-to-many associations to polymorphic types
specified in mapping file using the <many-to-any>
tag

2. The API
●
Basic Usage
●
What Spring Offers
●
Queries
●
HQL (Hibernate Query Language)
●
Criteria API

Basic Usage
Primary Types are:
●
SessionFactory
●
Session
●
Query
●
Criteria

Basic Usage: SessionFactory
●
One per database
●
A factory for sessions
●
Container for JVM-level cache (second-
level cache)

Prototypical SessionFactory
Configuration
public class HBMUtil {
   Configuration cfg; SessionFactory factory;

   public HBMUtil()
   {
      cfg = new Configuration();
      cfg.addClass(Customer.class);
      cfg.addClass(Invoice.class);
      // ...
      cfg.setProperty(
        Environment.CURRENT_SESSION_CONTEXT_CLASS,
        "thread");

      factory = cfg.buildSessionFactory();
   }
   ...

Prototypical Session
Interaction
Session s = factory.getCurrentSession();
s.beginTransaction();

// interact with session in this "pseudo" block
// for example:
Customer c = new Customer("Eitan");
c.setAccountNo(12345);
s.save(c);

s.getTransaction().commit();

What Spring does for Hibernate

●
It refactors the use of Hibernate
●
Avoiding duplication of session and transaction
setup and teardown code
●
Provides various utility methods for common
usages
●
Provides two implementations:
●
HibernateTemplate / Callback Pattern
●
HibernateInterceptor (a Spring AOP
MethodInterceptor)

Spring for Hibernate Example

getHibernateTemplate().execute(new HibernateCallback()
{
  public Object doInHibernate(Session session)
  {
    Customer c = new Customer("Eitan");
    c.setAccountNo(12345);
    s.save(c);
  }
}

getHibernateTemplate().fetch("from Customer");

Powerful Query Capabilities
●
HQL: The Hibernate Query Language
●
object-oriented
●
Criteria API
●
powerful object model for constructing and
executing queries
●
Query by Example
●
Not locked in: can perform SQL
queries, including stored procedure
invocations

HQL
●
Powerful object-based query language
●
Hibernate translates HQL to SQL
●
HQL statements are shorter, more
readable than their SQL counterparts

Prototypical Use of Query API

String hql = "from Customer c where c.age > :age";
Query q = session.createQuery();
q.setInteger("age", 33);
q.setFirstResult(20);
q.setMaxResults(10); // fetch the third page
List customers = q.list(hql);

Criteria Queries
●
What makes the Criteria API powerful is
that it allows queries to be specified by
composition.
●
This means that queries can be
constructed dynamically.

Prototypical Use of Criteria API

Criteria c = session.createCriteria(Customer.class);
c.add( Restrictions.ilike("name", "Albert%") );
c.addOrder( Order.asc("age") );
c.setMaxResults(20);
c.list();

// entire sequence of calls can also be chained,
// like so:
session.createCriteria(Customer.class).
  add( Restrictions.ilike("name", "Albert%") ).
  addOrder( Order.asc("age") ).
  setMaxResults(20).
  list();

3. Session Strategies
●
Session per request with detached objects
●
a new session is obtained for every request. any
objects needed in long conversations must be
attached to the new session
●
Open Session in View
●
session scope is extended to include view rendering
phase
●
Session per conversation
●
use same session, but disconnect from underlying
JDBC connection after committing a transaction

Hibernate and the Web

Hibernate & Web
●
Most Java Web Frameworks provide a Servlet filter
that will automatically setup and teardown Hibernate
sessions
●
Our code can simply fetch the session from the web
session or application context, and not worry about
having to close the session
●
Alternatively, since in MVC all requests go through
the same controller, you could put that code directly
in the controller servlets. Then all your action
classes are all set to interface with a Hibernate
session

Hibernate & Web

"Open Session in View" Strategy may be
convenient for ensuring that view template
(JSP et al) doesn't fault on lazy-loaded
associations after the session has been
closed

4. Performance
●
Lazy Fetching is a double-edged sword
●
Good to stop cascading fetches ad infinitum
●
Bad if have to perform multiple selects to get a
single batch of data for corresponding to a single
unit of work (multiple trips across the network)
●
Usually dealt with by specifying default fetch
strategy as lazy in mapping files, while
performing Eager (now named Join) fetches where
appropriate in the code, on a per use-case basis

N+1 Problem Illustration

5. Batch Processing
●
When using the Hibernate API to insert many
records into a database table, the main
concerns are:
●
inserted objects are not automatically pushed to
the database;
●
Session caches the objects
●
Remedy is simply to periodically
●
push the changes to the database with a call to
flush(), and
●
clear the cache with a call to clear()

Batch Processing
●
Example:
Transaction tx = session.beginTransaction();
int i=0;
List<Widget> lotsOfWidgets = loadLotsOfWidgets();

for (Widget widget : lotsOfWidgets)
{
   session.save(widget);

   if ( ((i++) % 20) == 0)
   {
      s.flush();
      s.clear();
   }
}
session.getTransaction().commit();

6. UserType
●
Can provide your own serialization and
deserialization mechanisms for properties
1.Implement the UserType interface
2.Specify the property type in the mapping using
type="classname"
3.Alternatively can create alias for classname with
<typedef>

UserType Example: TimeSpan
Mapping File:
..
<property name="timeSpan"
           type="com.u2d.persist.type.TimeSpanUserType">
   <column name="startDate"
           index="Session_startDate_idx"/>
   <column name="endDate"
           index="Session_endDate_idx"/>
</property>
..

Alternatively..
..
<typedef name="spantype"
          class="com.u2d.persist.type.TimeSpanUserType" />
<property name="timeSpan" type="spantype">
..


public class TimeSpanUserType implements CompositeUserType
{
  public Object nullSafeGet(java.sql.ResultSet rs, String[] names,
                  SessionImplementor session, Object owner) ..
  {
    Date from =
       (Date) Hibernate.TIMESTAMP.nullSafeGet(rs, names[0]);
    Date to = (Date) Hibernate.TIMESTAMP.nullSafeGet(rs, names[1]);
    return new TimeSpan(from, to);
  }

  public void nullSafeSet(java.sql.PreparedStatement pstmt,
            Object value, int index, SessionImplementor session)
  {
    TimeSpan span = (TimeSpan) value;
    Hibernate.TIMESTAMP.nullSafeSet(pstmt, span.startDate(), index);
    Hibernate.TIMESTAMP.nullSafeSet(pstmt, span.endDate(),
      index + 1);
  }
  ..

  ..
  public static final int[] TYPES =
    { java.sql.Types.TIMESTAMP, java.sql.Types.TIMESTAMP };
  public int[] sqlTypes() { return TYPES; }
  public static String[] COLUMNNAMES = {"startDate", "endDate"};
  public String[] getPropertyNames() {
      return new String[] {"start", "end"};
  }
  public Type[] getPropertyTypes() {
    return new Type[] { Hibernate.TIMESTAMP, Hibernate.TIMESTAMP };
  }
  public Object getPropertyValue(Object component, int property)
  {
     TimeSpan span = (TimeSpan) component;
     if (property == 0) return span.startDate();
     else return span.endDate();
  }
  public void setPropertyValue(Object component,
                                 int property, Object value) {
    ..
  }
  ..

7. Annotations
●
An alternative interface to the Hibernate Core for
specifying Mapping
●
An alternative to using xml mapping files
●
Complies with Annotations Part of EJB3 Persistence
Specification

Sample
Annotated
Class

Sample Annotated Class

8. Tools
●
Ant Tools
●
DDL-Related: SchemaExport and SchemaUpdate
●
Eclipse Plug-ins
●
Console: HQL scratch pad
●
Mapping Editor
●
Hibernate Configuration File Generator Wizard
●
Reverse Engineering Wizards
●
Custom Hibernate Eclipse “Perspective”

Some Interesting Version 3
Features
●
Filters
●
XML Entity Mode

Filters
●
A simple mechanism to filter tables, similar to what
views provide, without having to specify the filter in
queries
●
Filter can be defined and named in the mapping file
●
Filter must be enabled programmatically on a per-
session basis with
session.enableFilter(filterName)

XML/DOM4J Entity Mode
●
A new, Experimental Feature in Hibernate 3
●
Very promising, potentially enabling powerful features
including import/export, SOAP, and XSLT-based
reporting
●
Consists of:
●
Adding XML data binding information to mapping files
●
The ability to define a specific entity mode to use when working
with a session (for XML, use the DOM4J entity mode)
●
Using the session API to bind database information directly to
XML, bypassing object model entirely; bi-directional.

XML Entity Mode
●
To interface withHibernate in this
mode:
Session session =
HibernateUtil.getSessionFactory().openSession();

Session domsession =
session.getSession(EntityMode.DOM4J);

XML Mapping Information

Interesting Observations
●
Many O/R mapping solutions have been devised over
the years. Hibernate is probably the most
successful.
●
Effectively addresses major object mapping
problems head-on, giving us choices for modeling
inheritance, polymorphism
●
Flexible framework, can provide own
implementations for serializing properties
(UserType), how properties are accessed
(PropertyAccessor), and more

Conclusions
●
Hibernate is a mature, complete solution for
addressing Object/Relational mapping
●
It is an active project with a large community, large-
scale adoption, keeps up with (and has assisted in
redefining) Java Persistence Standards and evolution
●
Lots of tools: XDoclet / Ant / Eclipse Tooling

References
●
http://www.hibernate.org/
●
Hibernate In Action (Bauer & King)
●
Hibernate, a Developer's Notebook (Elliott)
●
Hibernate Quickly (Peak & Heudecker)
●
Hibernate (Iverson)

Contact Information

●
Eitan Suez
●
http://u2d.com/
●
email: eitan@u2d.com

Hibernate 1x2

More Related Content

What's hot (20)

Viewers also liked (9)

Similar to Hibernate 1x2 (20)

More from Meenakshi Chandrasekaran (6)

Recently uploaded (20)

Hibernate 1x2