This guide walks you through the process of building an application that uses Spring Data JPA to store and retrieve data in a relational database.
What You Will build
You will build an application that stores Customer
POJOs (Plain Old Java Objects) in a memory-based database.
What You need
Starting with Spring Initializr
You can use this pre-initialized project and click Generate to download a ZIP file. This project is configured to fit the examples in this tutorial.
To manually initialize the project:
-
Navigate to https://start.spring.io. This service pulls in all the dependencies you need for an application and does most of the setup for you.
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Choose either Gradle or Maven and the language you want to use. This guide assumes that you chose Java.
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Click Dependencies and select Spring Data JPA and then H2 Database.
-
Click Generate.
-
Download the resulting ZIP file, which is an archive of a web application that is configured with your choices.
Note
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If your IDE has the Spring Initializr integration, you can complete this process from your IDE. |
Note
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You can also fork the project from Github and open it in your IDE or other editor. |
Define a Simple Entity
In this example, you store Customer
objects, each annotated as a JPA entity. The
following listing shows the Customer class (in
src/main/java/com/example/accessingdatajpa/Customer.java
):
link:complete/src/main/java/com/example/accessingdatajpa/Customer.java[]
Here you have a Customer
class with three attributes: id
, firstName
, and lastName
.
You also have two constructors. The default constructor exists only for the sake of JPA.
You do not use it directly, so it is designated as protected
. The other constructor is
the one you use to create instances of Customer
to be saved to the database.
The Customer
class is annotated with @Entity
, indicating that it is a JPA entity.
(Because no @Table
annotation exists, it is assumed that this entity is mapped to a
table named Customer
.)
The Customer
objectβs id
property is annotated with @Id
so that JPA recognizes it as
the objectβs ID. The id
property is also annotated with @GeneratedValue
to indicate
that the ID should be generated automatically.
The other two properties, firstName
and lastName
, are left unannotated. It is assumed
that they are mapped to columns that share the same names as the properties themselves.
The convenient toString()
method print outs the customerβs properties.
Create Simple Queries
Spring Data JPA focuses on using JPA to store data in a relational database. Its most compelling feature is the ability to create repository implementations automatically, at runtime, from a repository interface.
To see how this works, create a repository interface that works with Customer
entities
as the following listing (in src/main/java/com/example/accessingdatajpa/CustomerRepository.java
) shows:
link:complete/src/main/java/com/example/accessingdatajpa/CustomerRepository.java[]
CustomerRepository
extends the CrudRepository
interface. The type of entity and ID
that it works with, Customer
and Long
, are specified in the generic parameters on
CrudRepository
. By extending CrudRepository
, CustomerRepository
inherits several
methods for working with Customer
persistence, including methods for saving, deleting,
and finding Customer
entities.
Spring Data JPA also lets you define other query methods by declaring their method
signature. For example, CustomerRepository
includes the findByLastName()
method.
In a typical Java application, you might expect to write a class that implements
CustomerRepository
. However, that is what makes Spring Data JPA so powerful: You need
not write an implementation of the repository interface. Spring Data JPA creates an
implementation when you run the application.
Now you can wire up this example and see what it looks like!
Create an Application Class
Spring Initializr creates a simple class for the application. The following listing shows
the class that Initializr created for this example (in
src/main/java/com/example/accessingdatajpa/AccessingDataJpaApplication.java
):
link:initial/src/main/java/com/example/accessingdatajpa/AccessingDataJpaApplication.java[]
Now you need to modify the simple class that the Initializr created for you. To get output
(to the console, in this example), you need to set up a logger. Then you need to set up
some data and use it to generate output. The following listing shows the finished
AccessingDataJpaApplication
class (in
src/main/java/com/example/accessingdatajpa/AccessingDataJpaApplication.java
):
link:complete/src/main/java/com/example/accessingdatajpa/AccessingDataJpaApplication.java[]
The AccessingDataJpaApplication
class includes a demo()
method that puts the CustomerRepository
through a few tests. First, it fetches the CustomerRepository
from the Spring application context. Then it saves a handful of Customer
objects, demonstrating the save()
method and setting up some data to work with. Next, it calls findAll()
to fetch all Customer
objects from the database. Then it calls findById()
to fetch a single Customer
by its ID. Finally, it calls findByLastName()
to find all customers whose last name is "Bauer". The demo()
method returns a CommandLineRunner
bean that automatically runs the code when the application launches.
Note
|
By default, Spring Boot enables JPA repository support and looks in the package (and
its subpackages) where @SpringBootApplication is located. If your configuration has
JPA repository interface definitions located in a package that is not visible, you can
point out alternate packages by using @EnableJpaRepositories and its type-safe
basePackageClasses=MyRepository.class parameter.
|
When you run your application, you should see output similar to the following:
== Customers found with findAll(): Customer[id=1, firstName='Jack', lastName='Bauer'] Customer[id=2, firstName='Chloe', lastName='O'Brian'] Customer[id=3, firstName='Kim', lastName='Bauer'] Customer[id=4, firstName='David', lastName='Palmer'] Customer[id=5, firstName='Michelle', lastName='Dessler'] == Customer found with findById(1L): Customer[id=1, firstName='Jack', lastName='Bauer'] == Customer found with findByLastName('Bauer'): Customer[id=1, firstName='Jack', lastName='Bauer'] Customer[id=3, firstName='Kim', lastName='Bauer']
Summary
Congratulations! You have written a simple application that uses Spring Data JPA to save objects to and fetch them from a database, all without writing a concrete repository implementation.
Note
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If you want to expose JPA repositories with a hypermedia-based RESTful front end with little effort, you might want to read Accessing JPA Data with REST. |