183 lines
8.7 KiB
Plaintext
183 lines
8.7 KiB
Plaintext
:spring_boot_version: 0.5.0.M6
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:Component: http://docs.spring.io/spring/docs/current/javadoc-api/org/springframework/stereotype/Component.html
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:EnableAutoConfiguration: http://docs.spring.io/spring-boot/docs/{spring_boot_version}/api/org/springframework/boot/autoconfigure/EnableAutoConfiguration.html
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:SpringApplication: http://docs.spring.io/spring-boot/docs/{spring_boot_version}/api/org/springframework/boot/SpringApplication.html
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:toc:
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:icons: font
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:source-highlighter: prettify
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:project_id: gs-batch-processing
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This guide walks you through the process of creating a basic batch-driven solution.
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== What you'll build
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You'll build a service that imports data from a CSV spreadsheet, transforms it with custom code, and stores the final results in a database.
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== What you'll need
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include::https://raw.github.com/spring-guides/getting-started-macros/master/prereq_editor_jdk_buildtools.adoc[]
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include::https://raw.github.com/spring-guides/getting-started-macros/master/how_to_complete_this_guide.adoc[]
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[[scratch]]
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== Set up the project
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include::https://raw.github.com/spring-guides/getting-started-macros/master/build_system_intro.adoc[]
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include::https://raw.github.com/spring-guides/getting-started-macros/master/create_directory_structure_hello.adoc[]
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include::https://raw.github.com/spring-guides/getting-started-macros/master/create_both_builds.adoc[]
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`build.gradle`
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// AsciiDoc source formatting doesn't support groovy, so using java instead
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[source,java]
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----
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include::initial/build.gradle[]
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----
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include::https://raw.github.com/spring-guides/getting-started-macros/master/bootstrap_starter_pom_disclaimer.adoc[]
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Typically your customer or a business analyst supplies a spreadsheet. In this case, you make it up.
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`src/main/resources/sample-data.csv`
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[source,csv]
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----
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include::initial/src/main/resources/sample-data.csv[]
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----
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This spreadsheet contains a first name and a last name on each row, separated by a comma. This is a fairly common pattern that Spring handles out-of-the-box, as you will see.
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Next, you write a SQL script to create a table to store the data.
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`src/main/resources/schema-all.sql`
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[source,sql]
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----
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include::initial/src/main/resources/schema-all.sql[]
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----
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NOTE: Spring Boot runs `schema-@@platform@@.sql` automatically during startup. `-all` is the default for all platforms.
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[[initial]]
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== Create a business class
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Now that you see the format of data inputs and outputs, you write code to represent a row of data.
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`src/main/java/hello/Person.java`
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[source,java]
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----
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include::complete/src/main/java/hello/Person.java[]
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----
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You can instantiate the `Person` class either with first and last name through a constructor, or by setting the properties.
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== Create an intermediate processor
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A common paradigm in batch processing is to ingest data, transform it, and then pipe it out somewhere else. Here you write a simple transformer that converts the names to uppercase.
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`src/main/java/hello/PersonItemProcessor.java`
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[source,java]
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----
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include::complete/src/main/java/hello/PersonItemProcessor.java[]
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----
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`PersonItemProcessor` implements Spring Batch's `ItemProcessor` interface. This makes it easy to wire the code into a batch job that you define further down in this guide. According to the interface, you receive an incoming `Person` object, after which you transform it to an upper-cased `Person`.
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NOTE: There is no requirement that the input and output types be the same. In fact, after one source of data is read, sometimes the application's data flow needs a different data type.
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== Put together a batch job
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Now you put together the actual batch job. Spring Batch provides many utility classes that reduce the need to write custom code. Instead, you can focus on the business logic.
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`src/main/java/hello/BatchConfiguration.java`
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[source,java]
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----
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include::complete/src/main/java/hello/BatchConfiguration.java[]
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----
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For starters, the `@EnableBatchProcessing` annotation adds many critical beans that support jobs and saves you a lot of leg work. This example uses a memory-based database (provided by `@EnableBatchProcessing`), meaning that when it's done, the data is gone.
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Break it down:
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`src/main/java/hello/BatchConfiguration.java`
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[source,java]
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----
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include::/complete/src/main/java/hello/BatchConfiguration.java[tag=readerwriterprocessor]
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----
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.
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The first chunk of code defines the input, processor, and output.
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- `reader()` creates an `ItemReader`. It looks for a file called `sample-data.csv` and parses each line item with enough information to turn it into a `Person`.
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- `processor()` creates an instance of our `PersonItemProcessor` you defined earlier, meant to uppercase the data.
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- `write(DataSource)` creates an `ItemWriter`. This one is aimed at a JDBC destination and automatically gets a copy of the dataSource created by `@EnableBatchProcessing`. It includes the SQL statement needed to insert a single `Person` driven by Java bean properties.
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The next chunk focuses on the actual job configuration.
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`src/main/java/hello/BatchConfiguration.java`
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[source,java]
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----
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include::/complete/src/main/java/hello/BatchConfiguration.java[tag=jobstep]
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----
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.
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The first method defines the job and the second one defines a single step. Jobs are built from steps, where each step can involve a reader, a processor, and a writer.
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In this job definition, you need an incrementer because jobs use a database to maintain execution state. You then list each step, of which this job has only one step. The job ends, and the Java API produces a perfectly configured job.
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In the step definition, you define how much data to write at a time. In this case, it writes up to ten records at a time. Next, you configure the reader, processor, and writer using the injected bits from earlier.
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NOTE: chunk() is prefixed `<Person,Person>` because it's a generic method. This represents the input and output types of each "chunk" of processing, and lines up with `ItemReader<Person>` and `ItemWriter<Person>`.
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== Make the application executable
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Although batch processing can be embedded in web apps and WAR files, the simpler approach demonstrated below creates a standalone application. You package everything in a single, executable JAR file, driven by a good old Java `main()` method.
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`src/main/java/hello/Application.java`
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[source,java]
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----
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include::complete/src/main/java/hello/Application.java[]
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----
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The `main()` method defers to the {SpringApplication}[`SpringApplication`] helper class, providing `Application.class` as an argument to its `run()` method. This tells Spring to read the annotation metadata from `Application` and to manage it as a component in the link:/understanding/application-context[Spring application context].
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The `@ComponentScan` annotation tells Spring to search recursively through the `hello` package and its children for classes marked directly or indirectly with Spring's {Component}[`@Component`] annotation. This directive ensures that Spring finds and registers `BatchConfiguration`, because it is marked with `@Configuration`, which in turn is a kind of `@Component` annotation.
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The {EnableAutoConfiguration}[`@EnableAutoConfiguration`] annotation switches on reasonable default behaviors based on the content of your classpath. For example, it looks for any class that implements the `CommandLineRunner` interface and invokes its `run()` method. In this case, it runs the demo code for this guide.
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For demonstration purposes, there is code to create a `JdbcTemplate`, query the database, and print out the names of people the batch job inserts.
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include::https://raw.github.com/spring-guides/getting-started-macros/master/build_an_executable_jar_subhead.adoc[]
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include::https://raw.github.com/spring-guides/getting-started-macros/master/build_an_executable_jar_with_both.adoc[]
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:module: batch job
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include::https://raw.github.com/spring-guides/getting-started-macros/master/run_the_application_with_both.adoc[]
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The job prints out a line for each person that gets transformed. After the job runs, you can also see the output from querying the database.
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....
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Converting (firstName: Jill, lastName: Doe) into (firstName: JILL, lastName: DOE)
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Converting (firstName: Joe, lastName: Doe) into (firstName: JOE, lastName: DOE)
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Converting (firstName: Justin, lastName: Doe) into (firstName: JUSTIN, lastName: DOE)
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Converting (firstName: Jane, lastName: Doe) into (firstName: JANE, lastName: DOE)
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Converting (firstName: John, lastName: Doe) into (firstName: JOHN, lastName: DOE)
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Found <firstName: JILL, lastName: DOE> in the database.
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Found <firstName: JOE, lastName: DOE> in the database.
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Found <firstName: JUSTIN, lastName: DOE> in the database.
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Found <firstName: JANE, lastName: DOE> in the database.
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Found <firstName: JOHN, lastName: DOE> in the database.
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....
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== Summary
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Congratulations! You built a batch job that ingested data from a spreadsheet, processed it, and wrote it to a database.
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