/*- * See the file LICENSE for redistribution information. * * Copyright (c) 2002, 2010 Oracle and/or its affiliates. All rights reserved. * */ package com.sleepycat.persist.model; import static java.lang.annotation.ElementType.FIELD; import static java.lang.annotation.RetentionPolicy.RUNTIME; import java.lang.annotation.Documented; import java.lang.annotation.Retention; import java.lang.annotation.Target; import com.sleepycat.persist.PrimaryIndex; import com.sleepycat.persist.StoreConfig; /** * Indicates a secondary key field of an entity class. The value of the * secondary key field is a unique or non-unique identifier for the entity and * is accessed via a {@link com.sleepycat.persist.SecondaryIndex}. * *

{@code SecondaryKey} may appear on any number of fields in an entity * class, subclasses and superclasses. For a secondary key field in the entity * class or one of its superclasses, all entity instances will be indexed by * that field (if it is non-null). For a secondary key field in an entity * subclass, only instances of that subclass will be indexed by that field (if * it is non-null).

* *

If a secondary key field is null, the entity will not be indexed by that * key. In other words, the entity cannot be queried by that secondary key nor * can the entity be found by iterating through the secondary index.

* *

For a given entity class and its superclasses and subclasses, no two * secondary keys may have the same name. By default, the field name * identifies the secondary key and the secondary index for a given entity * class. {@link #name} may be specified to override this default.

* *

Using {@link #relate}, instances of the entity class are related to * secondary keys in a many-to-one, one-to-many, many-to-many, or one-to-one * relationship. This required property specifies the cardinality of * each side of the relationship.

* *

A secondary key may optionally be used to form a relationship with * instances of another entity class using {@link #relatedEntity} and {@link * #onRelatedEntityDelete}. This establishes foreign key constraints * for the secondary key.

* *

The secondary key field type must be an array or collection type when a * x-to-many relationship is used or a singular type when an * x-to-one relationship is used; see {@link #relate}.

* *

The field type (or element type, when an array or collection type is * used) of a secondary key field must follow the same rules as for a {@link * primary key type}. The {@link key sort order} is also the same.

* *

For a secondary key field with a collection type, a type parameter must * be used to specify the element type. For example {@code Collection} * is allowed but {@code Collection} is not.

* * @author Mark Hayes */ @Documented @Retention(RUNTIME) @Target(FIELD) public @interface SecondaryKey { /** * Defines the relationship between instances of the entity class and the * secondary keys. * *

The table below summarizes how to create all four variations of * relationships.

*
* * * * * * * * * * * * * * * * * * * * * * * * * * *
RelationshipField typeKey typeExample
{@link Relationship#ONE_TO_ONE}SingularUniqueA person record with a unique social security number * key.
{@link Relationship#MANY_TO_ONE}SingularDuplicatesA person record with a non-unique employer key.
{@link Relationship#ONE_TO_MANY}Array/CollectionUniqueA person record with multiple unique email address keys.
{@link Relationship#MANY_TO_MANY}Array/CollectionDuplicatesA person record with multiple non-unique organization * keys.
*
* *

For a many-to-x relationship, the secondary index will * have non-unique keys; in other words, duplicates will be allowed. * Conversely, for one-to-x relationship, the secondary index * will have unique keys.

* *

For a x-to-one relationship, the secondary key field is * singular; in other words, it may not be an array or collection type. * Conversely, for a x-to-many relationship, the secondary key * field must be an array or collection type. A collection type is any * implementation of {@link java.util.Collection}.

*/ Relationship relate(); /** * Specifies the entity to which this entity is related, for establishing * foreign key constraints. Values of this secondary key will be * constrained to the set of primary key values for the given entity class. * *

The given class must be an entity class. This class is called the * related entity or foreign entity.

* *

When a related entity class is specified, a check (foreign key * constraint) is made every time a new secondary key value is stored for * this entity, and every time a related entity is deleted.

* *

Whenever a new secondary key value is stored for this entity, it is * checked to ensure it exists as a primary key value of the related * entity. If it does not, an exception is thrown by the {@link * PrimaryIndex} {@code put} method. *

* *

Whenever a related entity is deleted and its primary key value exists * as a secondary key value for this entity, the action is taken that is * specified using the {@link #onRelatedEntityDelete} property.

* *

Together, these two checks guarantee that a secondary key value for * this entity will always exist as a primary key value for the related * entity. Note, however, that a transactional store must be configured * to guarantee this to be true in the face of a crash; see {@link * StoreConfig#setTransactional}.

*/ Class relatedEntity() default void.class; /** * Specifies the action to take when a related entity is deleted having a * primary key value that exists as a secondary key value for this entity. * *

Note: This property only applies when {@link #relatedEntity} * is specified to define the related entity.

* *

The default action, {@link DeleteAction#ABORT ABORT}, means that an * exception is thrown in order to abort the current transaction. *

* *

If {@link DeleteAction#CASCADE CASCADE} is specified, then this * entity will be deleted also. This in turn could trigger further * deletions, causing a cascading effect.

* *

If {@link DeleteAction#NULLIFY NULLIFY} is specified, then the * secondary key in this entity is set to null and this entity is updated. * If the key field type is singular, the field value is set to null; * therefore, to specify {@code NULLIFY} for a singular key field type, a * primitive wrapper type must be used instead of a primitive type. If the * key field type is an array or collection type, the key is deleted from * the array (the array is resized) or from the collection (using {@link * java.util.Collection#remove Collection.remove}).

*/ DeleteAction onRelatedEntityDelete() default DeleteAction.ABORT; /** * Specifies the name of the key in order to use a name that is different * than the field name. * *

This is convenient when prefixes or suffices are used on field names. * For example:

*
     *  class Person {
     *      {@literal @SecondaryKey(relate=MANY_TO_ONE, relatedEntity=Person.class, name="parentSsn")}
     *      String m_parentSsn;
     *  }
* *

It can also be used to uniquely name a key when multiple secondary * keys for a single entity class have the same field name. For example, * an entity class and its subclass may both have a field named 'date', * and both fields are used as secondary keys. The {@code name} property * can be specified for one or both fields to give each key a unique * name.

*/ String name() default ""; }