Specifying an Index (Non-Unique Key) Using JPA
How do you define a field, eg email
as having an index using JPA annotations. We need a non-unique key on email
because there are literally millions of queries on this field per day, and its a bit slow without the key.
@Entity
@Table(name="person",
uniqueConstraints=@UniqueConstraint(columnNames={"code", "uid"}))
public class Person {
// Unique on code and uid
pub开发者_如何学Golic String code;
public String uid;
public String username;
public String name;
public String email;
}
I have seen a hibernate specific annotation but I am trying to avoid vendor specific solutions as we are still deciding between hibernate and datanucleus.
UPDATE:
As of JPA 2.1, you can do this. See: The annotation @Index is disallowed for this location
With JPA 2.1 you should be able to do it.
import javax.persistence.Column;
import javax.persistence.Entity;
import javax.persistence.Index;
import javax.persistence.Table;
@Entity
@Table(name = "region",
indexes = {@Index(name = "my_index_name", columnList="iso_code", unique = true),
@Index(name = "my_index_name2", columnList="name", unique = false)})
public class Region{
@Column(name = "iso_code", nullable = false)
private String isoCode;
@Column(name = "name", nullable = false)
private String name;
}
Update: If you ever need to create and index with two or more columns you may use commas. For example:
@Entity
@Table(name = "company__activity",
indexes = {@Index(name = "i_company_activity", columnList = "activity_id,company_id")})
public class CompanyActivity{
A unique hand-picked collection of Index annotations
= Specifications =
JPA 2.1+:
javax.persistence.Index
(or see JSR-000338 PDF, p. 452, item 11.1.23)
The JPA@Index
annotation can only be used as part of another annotation like@Table
,@SecondaryTable
, etc.:@Table(indexes = { @Index(...) })
JDO 2.1+:
javax.jdo.annotations.Index
= ORM Frameworks =
- ♥ Hibernate ORM:
org.hibernate.annotations.Index
; - OpenJPA:
org.apache.openjpa.persistence.jdbc.Index
andorg.apache.openjpa.persistence.jdbc.ElementIndex
(see Reference Guide); - EclipseLink:
org.eclipse.persistence.annotations.Index
; - DataNucleus:
org.datanucleus.api.jpa.annotations.Index
; - Carbonado (GitHub):
com.amazon.carbonado.Index
; - EBean: com.avaje.ebean.annotation.Index or io.ebean.annotation.Index ?
- Ujorm: Annotation
org.ujorm.orm.annot.Column
,index
anduniqueIndex
properties; - requery (GitHub. Java, Kotlin, Android): Annotation
io.requery.Index
; Exposed (Kotlin SQL Library): org.jetbrains.exposed.sql.Index, org.jetbrains.exposed.sql.Table#index(). Example:
object Persons : IdTable() { val code = varchar("code", 50).index() }
= ORM for Android =
- ♥ ActiveAndroid: Annotation
com.activeandroid.annotation.Column
hasindex
,indexGroups
,unique
, anduniqueGroups
properties;
UPDATE [2018]: ActiveAndroid was a nice ORM 4 years ago, but unfortunately, the author of the library stopped maintaining it, so someone forked, fixed bugs, and rebranded it as ReActiveAndroid - use this if you're starting a new project or refer to Migration Guide if you want to replace ActiveAndroid in a legacy project. - ReActiveAndroid: Annotation
com.reactiveandroid.annotation.Column
hasindex
,indexGroups
,unique
, anduniqueGroups
properties; - ORMLite: Annotation
com.j256.ormlite.field.DatabaseField
has anindex
property; - greenDAO:
org.greenrobot.greendao.annotation.Index
; - ORMAN (GitHub):
org.orman.mapper.annotation.Index
; - ★ DBFlow (GitHub):
com.raizlabs.android.dbflow.sql.index.Index
(example of usage); - other (lots of ORM libraries at the Android Arsenal).
= Other (difficult to categorize) =
- Realm - Alternative DB for iOS / Android: Annotation
io.realm.annotations.Index
; - Empire-db - a lightweight yet powerful relational DB abstraction layer based on JDBC. It has no schema definition through annotations;
- Kotlin NoSQL (GitHub) - a reactive and type-safe DSL for working with NoSQL databases (PoC): ???
- Slick - Reactive Functional Relational Mapping for Scala. It has no schema definition through annotations.
Just go for one of them.
JPA 2.1 (finally) adds support for indexes and foreign keys! See this blog for details. JPA 2.1 is a part of Java EE 7, which is out .
If you like living on the edge, you can get the latest snapshot for eclipselink from their maven repository (groupId:org.eclipse.persistence, artifactId:eclipselink, version:2.5.0-SNAPSHOT). For just the JPA annotations (which should work with any provider once they support 2.1) use artifactID:javax.persistence, version:2.1.0-SNAPSHOT.
I'm using it for a project which won't be finished until after its release, and I haven't noticed any horrible problems (although I'm not doing anything too complex with it).
UPDATE (26 Sep 2013): Nowadays release and release candidate versions of eclipselink are available in the central (main) repository, so you no longer have to add the eclipselink repository in Maven projects. The latest release version is 2.5.0 but 2.5.1-RC3 is also present. I'd switch over to 2.5.1 ASAP because of issues with the 2.5.0 release (the modelgen stuff doesn't work).
In JPA 2.1 you need to do the following
import javax.persistence.Column;
import javax.persistence.Entity;
import javax.persistence.Id;
import javax.persistence.Index;
import javax.persistence.Table;
@Entity(name="TEST_PERSON")
@Table(
name="TEST_PERSON",
indexes = {
@Index(name = "PERSON_INDX_0", columnList = "age"),
@Index(name = "PERSON_INDX_1", columnList = "fName"),
@Index(name = "PERSON_INDX_1", columnList = "sName") })
public class TestPerson {
@Column(name = "age", nullable = false)
private int age;
@Column(name = "fName", nullable = false)
private String firstName;
@Column(name = "sName", nullable = false)
private String secondName;
@Id
private long id;
public TestPerson() {
}
}
In the above example the table TEST_PERSON will have 3 indexes:
unique index on the primary key ID
index on AGE
compound index on FNAME, SNAME
Note 1: You get the compound index by having two @Index annotations with the same name
Note 2: You specify the column name in the columnList not the fieldName
I'd really like to be able to specify database indexes in a standardized way but, sadly, this is not part of the JPA specification (maybe because DDL generation support is not required by the JPA specification, which is a kind of road block for such a feature).
So you'll have to rely on a provider specific extension for that. Hibernate, OpenJPA and EclipseLink clearly do offer such an extension. I can't confirm for DataNucleus but since indexes definition is part of JDO, I guess it does.
I really hope index support will get standardized in next versions of the specification and thus somehow disagree with other answers, I don't see any good reason to not include such a thing in JPA (especially since the database is not always under your control) for optimal DDL generation support.
By the way, I suggest downloading the JPA 2.0 spec.
As far as I know, there isn't a cross-JPA-Provider way to specify indexes. However, you can always create them by hand directly in the database, most databases will pick them up automatically during query planning.
EclipseLink provided an annotation (e.g. @Index) to define an index on columns. There is an example of its use. Part of the example is included...
The firstName and lastName fields are indexed, together and individually.
@Entity
@Index(name="EMP_NAME_INDEX", columnNames={"F_NAME","L_NAME"}) // Columns indexed together
public class Employee{
@Id
private long id;
@Index // F_NAME column indexed
@Column(name="F_NAME")
private String firstName;
@Index // L_NAME column indexed
@Column(name="L_NAME")
private String lastName;
...
}
OpenJPA allows you to specify non-standard annotation to define index on property.
Details are here.
To sum up the other answers:
- Hibernate:
org.hibernate.annotations.Index
- OpenJPA:
org.apache.openjpa.persistence.jdbc.Index
- EclipseLink:
org.eclipse.persistence.annotations.Index
I would just go for one of them. It will come with JPA 2.1 anyway and should not be too hard to change in the case that you really want to switch your JPA provider.
It's not possible to do that using JPA annotation. And this make sense: where a UniqueConstraint clearly define a business rules, an index is just a way to make search faster. So this should really be done by a DBA.
This solution is for EclipseLink 2.5, and it works (tested):
@Table(indexes = {@Index(columnList="mycol1"), @Index(columnList="mycol2")})
@Entity
public class myclass implements Serializable{
private String mycol1;
private String mycol2;
}
This assumes ascendant order.
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