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<H2>
Package com.sleepycat.persist
</H2>
The Direct Persistence Layer (DPL) adds a persistent object model to the
Berkeley DB transactional engine.
<P>
<B>See:</B>
<BR>
&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<A HREF="#package_description"><B>Description</B></A>
<P>

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<TR BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
<TH ALIGN="left" COLSPAN="2"><FONT SIZE="+2">
<B>Interface Summary</B></FONT></TH>
</TR>
<TR BGCOLOR="white" CLASS="TableRowColor">
<TD WIDTH="15%"><B><A HREF="../../../com/sleepycat/persist/DatabaseNamer.html" title="interface in com.sleepycat.persist">DatabaseNamer</A></B></TD>
<TD>Determines the file names to use for primary and secondary databases.</TD>
</TR>
<TR BGCOLOR="white" CLASS="TableRowColor">
<TD WIDTH="15%"><B><A HREF="../../../com/sleepycat/persist/EntityCursor.html" title="interface in com.sleepycat.persist">EntityCursor&lt;V&gt;</A></B></TD>
<TD>Traverses entity values or key values and allows deleting or updating the
 entity at the current cursor position.</TD>
</TR>
<TR BGCOLOR="white" CLASS="TableRowColor">
<TD WIDTH="15%"><B><A HREF="../../../com/sleepycat/persist/EntityIndex.html" title="interface in com.sleepycat.persist">EntityIndex&lt;K,V&gt;</A></B></TD>
<TD>The interface for accessing keys and entities via a primary or secondary
 index.</TD>
</TR>
<TR BGCOLOR="white" CLASS="TableRowColor">
<TD WIDTH="15%"><B><A HREF="../../../com/sleepycat/persist/ForwardCursor.html" title="interface in com.sleepycat.persist">ForwardCursor&lt;V&gt;</A></B></TD>
<TD>Cursor operations limited to traversing forward.</TD>
</TR>
</TABLE>
&nbsp;

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<B>Class Summary</B></FONT></TH>
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<TR BGCOLOR="white" CLASS="TableRowColor">
<TD WIDTH="15%"><B><A HREF="../../../com/sleepycat/persist/EntityJoin.html" title="class in com.sleepycat.persist">EntityJoin&lt;PK,E&gt;</A></B></TD>
<TD>Performs an equality join on two or more secondary keys.</TD>
</TR>
<TR BGCOLOR="white" CLASS="TableRowColor">
<TD WIDTH="15%"><B><A HREF="../../../com/sleepycat/persist/EntityStore.html" title="class in com.sleepycat.persist">EntityStore</A></B></TD>
<TD>A store for managing persistent entity objects.</TD>
</TR>
<TR BGCOLOR="white" CLASS="TableRowColor">
<TD WIDTH="15%"><B><A HREF="../../../com/sleepycat/persist/PrimaryIndex.html" title="class in com.sleepycat.persist">PrimaryIndex&lt;PK,E&gt;</A></B></TD>
<TD>The primary index for an entity class and its primary key.</TD>
</TR>
<TR BGCOLOR="white" CLASS="TableRowColor">
<TD WIDTH="15%"><B><A HREF="../../../com/sleepycat/persist/SecondaryIndex.html" title="class in com.sleepycat.persist">SecondaryIndex&lt;SK,PK,E&gt;</A></B></TD>
<TD>The secondary index for an entity class and a secondary key.</TD>
</TR>
<TR BGCOLOR="white" CLASS="TableRowColor">
<TD WIDTH="15%"><B><A HREF="../../../com/sleepycat/persist/StoreConfig.html" title="class in com.sleepycat.persist">StoreConfig</A></B></TD>
<TD>Configuration properties used with an <A HREF="../../../com/sleepycat/persist/EntityStore.html" title="class in com.sleepycat.persist"><CODE>EntityStore</CODE></A> or <A HREF="../../../com/sleepycat/persist/raw/RawStore.html" title="class in com.sleepycat.persist.raw"><CODE>RawStore</CODE></A>.</TD>
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&nbsp;

<P>
<A NAME="package_description"><!-- --></A><H2>
Package com.sleepycat.persist Description
</H2>

<P>
The Direct Persistence Layer (DPL) adds a persistent object model to the
Berkeley DB transactional engine.

<h1>Package Specification</h1>

<ul>
<li><a href="#intro">Introduction</a></li>
<li><a href="#model">The Entity Model</a></li>
<li><a href="#example">A brief example</a></li>
<li><a href="#whichAPI">Which API to use?</a></li>
<li><a href="#java14and15">Java 1.5 dependencies</a>
    <ul>
    <li><a href="#genericTypes">Generic Types</a></li>
    <li><a href="#annotations">Annotations</a></li>
    </ul>
</li>
<li><a href="#bytecode">Bytecode Enhancement</a></li>
</ul>

<a name="intro"><h2>Introduction</h2></a>

<p>The Direct Persistence Layer (DPL) was designed to meet the following
requirements.</p>
<ul>
<li>A type safe and convenient API is provided for accessing persistent
objects.  The use of Java generic types, although optional, is fully exploited
to provide type safety.  For example:
<pre class="code">
PrimaryIndex&lt;Long,Employer&gt; employerById = ...;
long employerId = ...;
Employer employer = employerById.get(employerId);</pre>
</li>
<li>All Java types are allowed to be persistent without requiring that they
implement special interfaces.  Persistent fields may be <code>private</code>,
package-private (default access), <code>protected</code>, or <code>public</code>.  No
hand-coding of bindings is required.  However, each persistent class must have
a default constructor.  For example:
<pre class="code">
@Persistent
class Address {
    String street;
    String city;
    String state;
    int zipCode;
    private Address() {}
}</pre>
</li>
<li>Bytecode enhancement provides fully optimized bindings that do not use Java
reflection.</li>
<li>It is easy to define primary and secondary keys.  No external schema is
required and Java annotations may be used for defining all metadata.
Extensions may derive metadata from other sources.  For example, the following
Employer class is defined as a persistent entity with a primary key field
<code>id</code> and the secondary key field <code>name</code>:</li>
<pre class="code">
@Entity
class Employer {

    @PrimaryKey(sequence="ID")
    long id;

    @SecondaryKey(relate=ONE_TO_ONE)
    String name;

    Address address;

    private Employer() {}
}</pre>
<li>Interoperability with external components is supported via the Java
collections framework.  Any primary or secondary index can be accessed using a
standard <code>java.util</code> collection.  For example:
<pre class="code">java.util.SortedMap&lt;String,Employer&gt; map = employerByName.sortedMap();</pre>
</li>
<li>Class evolution is explicitly supported.  Compatible changes (adding fields
and type widening) are performed automatically and transparently.  For example,
without any special configuration a <code>street2</code> field may be added to the
<code>Address</code> class and the type of the <code>zipCode</code> field may be changed
from <code>int</code> to <code>long</code>:
<pre class="code">
@Persistent
class Address {
    String street;
    String street2;
    String city;
    String state;
    long zipCode;
    private Address() {}
}</pre>
Many incompatible class changes, such as renaming fields or refactoring a
single class, can be performed using <A HREF="../../../com/sleepycat/persist/evolve/Mutations.html" title="class in com.sleepycat.persist.evolve"><CODE>Mutations</CODE></A>.  Mutations are automatically
applied lazily as data is accessed, avoiding downtime to convert large
databases during a software upgrade.
<p>Complex refactoring involving multiple classes may be performed using the a
<a href="package-summary.html#storeConversion">store conversion</a>.  The DPL
always provides access to your data via a <code>RawStore</code>, no matter what
changes have been made to persistent classes.</p>
</li>
<br>
<li>The performance of the Berkeley DB transactional engine is not compromised.
Operations are internally mapped directly to the engine API, object bindings
are lightweight, and all engine tuning parameters are available.  For example,
a "dirty read" may be performed using an optional <A HREF="../../../com/sleepycat/db/LockMode.html" title="class in com.sleepycat.db"><CODE>LockMode</CODE></A> parameter:
<pre class="code">Employer employer = employerByName.get(null, "Gizmo Inc", LockMode.READ_UNCOMMITTED);</pre>
For high performance applications, <A HREF="../../../com/sleepycat/db/DatabaseConfig.html" title="class in com.sleepycat.db"><CODE>DatabaseConfig</CODE></A> parameters may be used to tune the performance of the Berkeley
DB engine.  For example, the size of an internal Btree node can be specified
as follows:
<pre class="code">
DatabaseConfig config = store.getPrimaryConfig(Employer.class);
config.setNodeMaxEntries(64);
store.setPrimaryConfig(config);</pre>
</li>
</ul>

<a name="model"><h2>The Entity Model</h2></a>

<p>The DPL is intended for applications that represent persistent domain
objects using Java classes.  An <em>entity class</em> is an ordinary Java class
that has a primary key and is stored and accessed using a primary index.  It
may also have any number of secondary keys, and entities may be accessed by
secondary key using a secondary index.</p>

<p>An entity class may be defined with the <A HREF="../../../com/sleepycat/persist/model/Entity.html" title="annotation in com.sleepycat.persist.model"><CODE>Entity</CODE></A> annotation.  For each entity class,
its primary key may be defined using the <A HREF="../../../com/sleepycat/persist/model/PrimaryKey.html" title="annotation in com.sleepycat.persist.model"><CODE>PrimaryKey</CODE></A> annotation and any number of
secondary keys may be defined using the <A HREF="../../../com/sleepycat/persist/model/SecondaryKey.html" title="annotation in com.sleepycat.persist.model"><CODE>SecondaryKey</CODE></A> annotation.</p>

<p>In the following example, the <code>Person.ssn</code> (social security number)
field is the primary key and the <code>Person.employerIds</code> field is a
many-to-many secondary key.</p>
<pre class="code">
@Entity
class Person {

    @PrimaryKey
    String ssn;

    String name;
    Address address;

    @SecondaryKey(relate=MANY_TO_MANY, relatedEntity=Employer.class)
    Set&lt;Long&gt; employerIds = new HashSet&lt;Long&gt;();

    private Person() {} // For bindings
}</pre>

<p>A set of entity classes constitutes an <em>entity model</em>.  In addition
to isolated entity classes, an entity model may contain relationships between
entities.  Relationships may be defined using the <A HREF="../../../com/sleepycat/persist/model/SecondaryKey.html" title="annotation in com.sleepycat.persist.model"><CODE>SecondaryKey</CODE></A> annotation.
Many-to-one, one-to-many, many-to-many and one-to-one relationships are
supported, as well as foreign key constraints.</p>

<p>In the example above, a relationship between the <code>Person</code> and <code>Employer</code> entities is defined via the <code>Person.employerIds</code> field.  The
<code>relatedEntity=Employer.class</code> annotation property establishes foreign
key constraints to guarantee that every element of the <code>employerIds</code> set
is a valid <code>Employer</code> primary key.</p>

<p>For more information on the entity model, see the <A HREF="../../../com/sleepycat/persist/model/AnnotationModel.html" title="class in com.sleepycat.persist.model"><CODE>AnnotationModel</CODE></A> and the <A HREF="../../../com/sleepycat/persist/model/Entity.html" title="annotation in com.sleepycat.persist.model"><CODE>Entity</CODE></A> annotation.</p>

<p>The root object in the DPL is the <A HREF="../../../com/sleepycat/persist/EntityStore.html" title="class in com.sleepycat.persist"><CODE>EntityStore</CODE></A>.  An entity store manages any number of objects for each entity
class defined in the model.  The store provides access to the primary and
secondary indices for each entity class, for example:</p>

<pre class="code">
EntityStore store = new EntityStore(...);

PrimaryIndex&lt;String,Person&gt; personBySsn =
    store.getPrimaryIndex(String.class, Person.class);</pre>

<a name="example"><h2>A brief example</h2></a>

<p>The following example shows how to define an entity model and how to store
and access persistent objects.  Exception handling is omitted for brevity.</p>

<pre class="code">
import java.io.File;
import java.util.HashSet;
import java.util.Set;

import com.sleepycat.db.DatabaseException;
import com.sleepycat.db.Environment;
import com.sleepycat.db.EnvironmentConfig;
import com.sleepycat.persist.EntityCursor;
import com.sleepycat.persist.EntityIndex;
import com.sleepycat.persist.EntityStore;
import com.sleepycat.persist.PrimaryIndex;
import com.sleepycat.persist.SecondaryIndex;
import com.sleepycat.persist.StoreConfig;
import com.sleepycat.persist.model.Entity;
import com.sleepycat.persist.model.Persistent;
import com.sleepycat.persist.model.PrimaryKey;
import com.sleepycat.persist.model.SecondaryKey;
import static com.sleepycat.persist.model.DeleteAction.NULLIFY;
import static com.sleepycat.persist.model.Relationship.ONE_TO_ONE;
import static com.sleepycat.persist.model.Relationship.ONE_TO_MANY;
import static com.sleepycat.persist.model.Relationship.MANY_TO_ONE;
import static com.sleepycat.persist.model.Relationship.MANY_TO_MANY;

// An entity class.
//
@Entity
class Person {

    @PrimaryKey
    String ssn;

    String name;
    Address address;

    @SecondaryKey(relate=MANY_TO_ONE, relatedEntity=Person.class)
    String parentSsn;

    @SecondaryKey(relate=ONE_TO_MANY)
    Set&lt;String&gt; emailAddresses = new HashSet&lt;String&gt;();

    <code>@SecondaryKey(relate=MANY_TO_MANY, relatedEntity=Employer.class,
                                       onRelatedEntityDelete=NULLIFY)</code>
    <code>Set&lt;Long&gt; employerIds = new HashSet&lt;Long&gt;();</code>

    Person(String name, String ssn, String parentSsn) {
        this.name = name;
        this.ssn = ssn;
        this.parentSsn = parentSsn;
    }

    private Person() {} // For bindings
}

// Another entity class.
//
@Entity
class Employer {

    @PrimaryKey(sequence="ID")
    long id;

    @SecondaryKey(relate=ONE_TO_ONE)
    String name;

    Address address;

    Employer(String name) {
        this.name = name;
    }

    private Employer() {} // For bindings
}

// A persistent class used in other classes.
//
@Persistent
class Address {
    String street;
    String city;
    String state;
    int zipCode;
    private Address() {} // For bindings
}

// The data accessor class for the entity model.
//
class PersonAccessor {

    // Person accessors
    //
    PrimaryIndex&lt;String,Person&gt; personBySsn;
    SecondaryIndex&lt;String,String,Person&gt; personByParentSsn;
    SecondaryIndex&lt;String,String,Person&gt; personByEmailAddresses;
    SecondaryIndex&lt;Long,String,Person&gt; personByEmployerIds;

    // Employer accessors
    //
    PrimaryIndex&lt;Long,Employer&gt; employerById;
    SecondaryIndex&lt;String,Long,Employer&gt; employerByName;

    // Opens all primary and secondary indices.
    //
    public PersonAccessor(EntityStore store)
        throws DatabaseException {

        personBySsn = store.getPrimaryIndex(
            String.class, Person.class);

        personByParentSsn = store.getSecondaryIndex(
            personBySsn, String.class, "parentSsn");

        personByEmailAddresses = store.getSecondaryIndex(
            personBySsn, String.class, "emailAddresses");

        personByEmployerIds = store.getSecondaryIndex(
            personBySsn, Long.class, "employerIds");

        employerById = store.getPrimaryIndex(
            Long.class, Employer.class);

        employerByName = store.getSecondaryIndex(
            employerById, String.class, "name"); 
    }
}

// Open a transactional Berkeley DB engine environment.
//
EnvironmentConfig envConfig = new EnvironmentConfig();
envConfig.setAllowCreate(true);
envConfig.setTransactional(true);
Environment env = new Environment(new File("/my/data"), envConfig);

// Open a transactional entity store.
//
StoreConfig storeConfig = new StoreConfig();
storeConfig.setAllowCreate(true);
storeConfig.setTransactional(true);
EntityStore store = new EntityStore(env, "PersonStore", storeConfig);

// Initialize the data access object.
//
PersonAccessor dao = new PersonAccessor(store);

// Add a parent and two children using the Person primary index.  Specifying a
// non-null parentSsn adds the child Person to the sub-index of children for
// that parent key.
//
dao.personBySsn.put(new Person("Bob Smith", "111-11-1111", null));
dao.personBySsn.put(new Person("Mary Smith", "333-33-3333", "111-11-1111"));
dao.personBySsn.put(new Person("Jack Smith", "222-22-2222", "111-11-1111"));

// Print the children of a parent using a sub-index and a cursor.
//
EntityCursor&lt;Person&gt; children =
    dao.personByParentSsn.subIndex("111-11-1111").entities();
try {
    for (Person child : children) {
        System.out.println(child.ssn + ' ' + child.name);
    }
} finally {
    children.close();
}

// Get Bob by primary key using the primary index.
//
Person bob = dao.personBySsn.get("111-11-1111");
assert bob != null;

// Create two employers.  Their primary keys are assigned from a sequence.
//
Employer gizmoInc = new Employer("Gizmo Inc");
Employer gadgetInc = new Employer("Gadget Inc");
dao.employerById.put(gizmoInc);
dao.employerById.put(gadgetInc);

// Bob has two jobs and two email addresses.
//
bob.employerIds.add(gizmoInc.id);
bob.employerIds.add(gadgetInc.id);
bob.emailAddresses.add("bob@bob.com");
bob.emailAddresses.add("bob@gmail.com");

// Update Bob's record.
//
dao.personBySsn.put(bob);

// Bob can now be found by both email addresses.
//
bob = dao.personByEmailAddresses.get("bob@bob.com");
assert bob != null;
bob = dao.personByEmailAddresses.get("bob@gmail.com");
assert bob != null;

// Bob can also be found as an employee of both employers.
//
EntityIndex&lt;String,Person&gt; employees;
employees = dao.personByEmployerIds.subIndex(gizmoInc.id);
assert employees.contains("111-11-1111");
employees = dao.personByEmployerIds.subIndex(gadgetInc.id);
assert employees.contains("111-11-1111");

// When an employer is deleted, the onRelatedEntityDelete=NULLIFY for the
// employerIds key causes the deleted ID to be removed from Bob's employerIds.
//
dao.employerById.delete(gizmoInc.id);
bob = dao.personBySsn.get("111-11-1111");
assert !bob.employerIds.contains(gizmoInc.id);

store.close();
env.close();
</pre>
<p>The example illustrates several characteristics of the DPL:</p>
<ul>
<li>Persistent data and keys are defined in terms of instance fields.  For
brevity the example does not show getter and setter methods, although these
would normally exist to provide encapsulation.  The DPL accesses fields during
object serialization and deserialization, rather than calling getter/setter
methods, leaving business methods free to enforce arbitrary validation rules.
For example: 
<pre class="code">
@Persistent
public class ConstrainedValue {

    private int min;
    private int max;
    private int value;

    private ConstrainedValue() {} // For bindings

    public ConstrainedValue(int min, int max) {
        this.min = min;
        this.max = max;
        value = min;
    }

    public setValue(int value) {
        if (value &lt; min || value &gt; max) {
            throw new IllegalArgumentException("out of range");
        }
        this.value = value;
    }
}
</pre>
The above <code>setValue</code> method would not work if it were called during
object deserialization, since the order of setting fields is arbitrary.  The
<code>min</code> and <code>max</code> fields may not be set before the <code>value</code> is
set.
</li>
<br>
<li>The example creates a transactional store and therefore all operations are
transaction protected.  Because no explicit transactions are used, auto-commit
is used implicitly.

<p>Explicit transactions may also be used to group multiple operations in a
single transaction, and all access methods have optional transaction
parameters.  For example, the following two operations are performed atomically
in a transaction:
<pre class="code">
Transaction txn = env.beginTransaction(null, null);
dao.employerById.put(txn, gizmoInc);
dao.employerById.put(txn, gadgetInc);
txn.commit();
</pre>
</li>
<li>To provide maximum performance, the DPL operations map directly to the
Btree operations of the Berkeley DB engine.  Unlike other persistence
approaches, keys and indices are exposed for direct access and performance
tuning.
<p>Queries are implemented by calling methods of the primary and secondary
indices.  An <A HREF="../../../com/sleepycat/persist/EntityJoin.html" title="class in com.sleepycat.persist"><CODE>EntityJoin</CODE></A> class is also
available for performing equality joins.  For example, the following code
queries all of Bob's children that work for Gizmo Inc:
<pre class="code">
EntityJoin&lt;String,Person&gt; join = new EntityJoin(dao.personBySsn);

join.addCondition(dao.personByParentSsn, "111-11-1111");
join.addCondition(dao.personByEmployerIds, gizmoInc.id);

ForwardCursor&lt;Person&gt; results = join.entities();
try {
    for (Person person : results) {
        System.out.println(person.ssn + ' ' + person.name);
    }
} finally {
    results.close();
}
</li>
<li>Object relationships are based on keys.  When a <code>Person</code> with a given
employer ID in its <code>employerIds</code> set is stored, the <code>Person</code> object
becomes part of the collection of employees for that employer.  This collection
of employees is accessed using a <A HREF="../../../com/sleepycat/persist/SecondaryIndex.html#subIndex(SK)"><CODE>SecondaryIndex.subIndex</CODE></A> for the
employer ID, as shown below:
<pre class="code">
EntityCursor&lt;Person&gt; employees =
    dao.personByEmployerIds.subIndex(gizmoInc.id).entities();
try {
    for (Person employee : employees) {
        System.out.println(employee.ssn + ' ' + employee.name);
    }
} finally {
    employees.close();
}
</pre></li>
<li>Note that when Bob's employer is deleted in the example, the <code>Person</code>
object for Bob is refetched to see the change to its <code>employerIds</code>.  This
is because objects are accessed by value, not by reference.  In other words, no
object cache or "persistence context" is maintained by the DPL.  The low level
caching of the embedded Berkeley DB engine, combined with lightweight object
bindings, provides maximum performance.</li>
</ul>

<a name="whichAPI"><h2>Which API to use?</h2></a>

<p>The Berkeley DB engine has a <CODE>Base API</CODE>, a <CODE>Collections API</CODE> and a <CODE>Direct Persistence Layer (DPL)</CODE>.  Follow these guidelines if you are not sure
which API to use:</p>
<ul>
<li>When Java classes are used to represent domain objects in an application,
the DPL is recommended.  The more domain classes, the more value there is in
using annotations to define your schema.</li>
<br>
<li>When porting an application between Berkeley DB and Berkeley DB Java
Edition, or when you've chosen not to use Java classes to represent domain
objects, then the Base API is recommended.  You may also prefer to use this API
if you have very few domain classes.</li>
<br>
<li>The Collections API is useful for interoperating with external components
because it conforms to the standard Java Collections Framework.  It is
therefore useful in combination with both the Base API and the DPL.  You may
prefer this API because it provides the familiar Java Collections
interface.</li>
</ul>

<a name="java14and15"><h2>Java 1.5 dependencies</h2></a>

<p><em>NOTE:</em> The current release of the DPL requires compiling and
deploying with Java 1.5 or greater.  Support for Java 1.4 may be added in a
future release, based on user demand.</p>

<p>The DPL uses two features of Java 1.5: generic types and annotations.  If
you wish to avoid using these two Java 1.5 features, the DPL provides options
for doing so.</p>

<a name="genericTypes"><h3>Generic Types</h3></a>

<p>Generic types are used to provide type safety, especially for the <A HREF="../../../com/sleepycat/persist/PrimaryIndex.html" title="class in com.sleepycat.persist"><CODE>PrimaryIndex</CODE></A>, <A HREF="../../../com/sleepycat/persist/SecondaryIndex.html" title="class in com.sleepycat.persist"><CODE>SecondaryIndex</CODE></A>, and <A HREF="../../../com/sleepycat/persist/EntityCursor.html" title="interface in com.sleepycat.persist"><CODE>EntityCursor</CODE></A> classes.  If you don't wish to
use generic types, you can simply not declare your index and cursor objects
using generic type parameters.  This is the same as using the Java 1.5
Collections Framework without using generic types.</p>

<a name="annotations"><h3>Annotations</h3></a>

<p>If you don't wish to use annotations, you can provide another source of
metadata by implementing an <A HREF="../../../com/sleepycat/persist/model/EntityModel.html" title="class in com.sleepycat.persist.model"><CODE>EntityModel</CODE></A> class.  For example, naming conventions, static members, or an XML
configuration file might be used as a source of metadata.  However, if you
don't use annotations then you won't be able to use bytecode enhancement, which
is described next.</p>

<a name="bytecode"><h2>Bytecode Enhancement</h2></a>

<p>The persistent fields of a class may be private, package-private, protected
or public.  The DPL can access persistent fields either by bytecode enhancement
or by reflection.</p>

<p>Bytecode enhancement may be used to fully optimize binding performance and
to avoid the use of Java reflection.  In applications that are CPU bound,
avoiding Java reflection can have a significant performance impact.</p>

<p>Bytecode enhancement may be performed either at runtime or at build time
(offline).  When enhancement is performed at runtime, persistent classes are
enhanced as they are loaded.  When enhancement is performed offline, class
files are enhanced during a post-compilation step.
Enhanced classes are used to efficiently access all fields and default
constructors, including non-public members.</p>

<p>See <A HREF="../../../com/sleepycat/persist/model/ClassEnhancer.html" title="class in com.sleepycat.persist.model"><CODE>ClassEnhancer</CODE></A> for
bytecode enhancement configuration details.</p>

<p>If bytecode enhancement is not used as described above, the DPL will use
reflection for accessing persistent fields and the default constructor.  The
<CODE>AccessibleObject.setAccessible</CODE> method is called by the DPL to enable access to
non-public fields and constructors.  If you are running under a Java security
manager you must configure your security policy to allow the following
permission:</p>

<p><code>permission java.lang.reflect.ReflectPermission "suppressAccessChecks";</code>

<p>There are three cases where setting the above permission is <em>not</em>
required:</p>
<ol>
<li>If you are not running under a Java Security Manager, then access to
non-public members via reflection is not restricted.  This is the default for
J2SE.</li>
<br>
<li>If all persistent fields and default constructors are <code>public</code> then
they can be accessed via reflection without special permissions, even when
running under a Java Security Manager.  However, declaring <code>public</code>
instance fields is not recommended because it discourages encapsulation.</li>
<br>
<li>If bytecode enhancement is used as described above, then reflection will
not be used.</li>
</ol>

<p>It is well known that executing generated code is faster than reflection.
However, this performance difference may or may not impact a given application
since it may be overshadowed by other factors.  Performance testing in a
realistic usage scenario is the best way to determine the impact.  If you are
determined to avoid the use of reflection then option 3 above is
recommended.</p>
<P>

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