The primary goal of the Spring Data project is to make it easier to build Spring-powered applications that use new data access technologies such as non-relational databases, map-reduce frameworks, and cloud based data services.
The Spring Data Solr project provides integration with the Apache Solr search engine
Providing its own extensible MappingSolrConverter
as alternative to DocumentObjectBinder
Spring Data Solr handles inheritance as well as usage of custom Types such as Point
or DateTime
.
If you are new to Spring as well as to Spring Data, look for information about Spring projects.
SolrTemplate
is the central support class for solr operations.
A default implementation of SolrRepository
, aligning to the generic Repository Interfaces, is provided. Spring can do the Repository implementation for you depending on method names in the interface definition.
The SolrCrudRepository
extends PagingAndSortingRepository
public interface SolrCrudRepository<T, ID extends Serializable> extends SolrRepository<T, ID>, PagingAndSortingRepository<T, ID> {
}
The SimpleSolrRepository
implementation uses MappingSolrConverter
. In order support native solrj mapping via DocumentObjectBinder
fields have to be annotated with org.apache.solr.client.solrj.beans.Field
. org.springframework.data.solr.core.mapping.Indexed
can be used as substitute for Field
offering additional attributes to be used eg. for index time boosting.
To enable native solrj mapping use SolrJConverter
along with SolrTemplate
.
public interface SolrProductRepository extends SolrCrudRepository<Product, String> {
//Derived Query will be "q=popularity:<popularity>&start=<page.number>&rows=<page.size>"
Page<Product> findByPopularity(Integer popularity, Pageable page);
//Will execute count prior to determine total number of elements
//Derived Query will be "q=name:<name>*&start=0&rows=<result of count query for q=name:<name>>"
List<Product> findByNameStartingWith(String name);
//Derived Query will be "q=inStock:true&start=<page.number>&rows=<page.size>"
Page<Product> findByAvailableTrue(Pageable page);
//Derived Query will be "q=inStock:<inStock>&start=<page.number>&rows=<page.size>"
@Query("inStock:?0")
Page<Product> findByAvailableUsingAnnotatedQuery(boolean inStock, Pageable page);
//Will execute count prior to determine total number of elements
//Derived Query will be "q=inStock:false&start=0&rows=<result of count query for q=inStock:false>&sort=name desc"
List<Product> findByAvailableFalseOrderByNameDesc();
//Execute faceted search
//Query will be "q=name:<name>&facet=true&facet.field=cat&facet.limit=20&start=<page.number>&rows=<page.size>"
@Query(value = "name:?0")
@Facet(fields = { "cat" }, limit=20)
FacetPage<Product> findByNameAndFacetOnCategory(String name, Pageable page);
//Boosting criteria
//Query will be "q=name:<name>^2 OR description:<description>&start=<page.number>&rows=<page.size>"
Page<Product> findByNameOrDescription(@Boost(2) String name, String description, Pageable page);
//Highlighting results
//Query will be "q=name:(<name...>)&hl=true&hl.fl=*"
@Highlight
HighlightPage<Product> findByNameIn(Collection<String> name, Pageable page);
//Spatial Search
//Query will be "q=location:[<bbox.start.latitude>,<bbox.start.longitude> TO <bbox.end.latitude>,<bbox.end.longitude>]"
Page<Product> findByLocationNear(Box bbox);
//Spatial Search
//Query will be "q={!geofilt pt=<location.latitude>,<location.longitude> sfield=location d=<distance.value>}"
Page<Product> findByLocationWithin(Point location, Distance distance);
}
Furthermore you may provide a custom implementation for some operations.
public interface SolrProductRepository extends SolrCrudRepository<Product, String>, SolrProductRepositoryCustom {
@Query(fields = { "id", "name", "popularity" })
Page<Product> findByPopularity(Integer popularity, Pageable page);
List<Product> findByAuthorLike(String author);
}
public interface SolrProductRepositoryCustom {
Page<Product> findProductsByCustomImplementation(String value, Pageable page)
}
public class SolrProductRepositoryImpl implements SolrProductRepositoryCustom {
private SolrOperations solrTemplate;
@Override
public Page<Product> findProductsByCustomImplementation(String value, Pageable page) {
Query query = new SimpleQuery(new SimpleStringCriteria("name:"+value)).setPageRequest(page);
return solrTemplate.queryForPage(query, Product.class);
}
@Autowired
public void setOperations(SolrOperations operations) {
this.operations = operations;
}
}
Go on and use it as shown below:
@Configuration
@EnableSolrRepositories(basePackages = { "com.acme.sorl" }), multicoreSupport = true)
public class SolrContext {
private @Resource Environment env;
@Bean
public SolrServer solrServer() throws MalformedURLException, IllegalStateException {
return new HttpSolrServer(env.getRequiredProperty("solr.host"));
}
}
@Service
public class ProductService {
private SolrProductRepository repository;
@Autowired
public ProductService(SolrProductRepository repository) {
this.repository = repository;
}
public void doSomething() {
repository.deleteAll();
Product product = new Product("spring-data-solr");
product.setAuthor("Christoph Strobl");
product.setCategory("search");
repository.save(product);
Product singleProduct = repository.findById("spring-data-solr");
List<Product> productList = repository.findByAuthorLike("Chr");
}
}
You can set up repository scanning via xml configuration, which will happily create your repositories.
<?xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:solr="http://www.springframework.org/schema/data/solr"
xsi:schemaLocation="http://www.springframework.org/schema/data/solr http://www.springframework.org/schema/data/solr/spring-solr.xsd
http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans.xsd">
<solr:repositories base-package="com.acme.repository" multicoreSupport="true" />
<solr:solr-server id="solrServer" url="http://localhost:8983/solr" />
</beans>
Automatic schema population will inspect your domain types whenever the applications context is refreshed and populate new fields to your index based on the properties configuration. This requires solr to run in Schemaless Mode.
Use @Indexed
to provide additional details like specific solr types to use.
@Configuration
@EnableSolrRepositories(schemaCreationSupport = true, multicoreSupport = true)
class Config {
@Bean
public SolrServer solrServer() {
return new HttpSolrServer("http://localhost:8983/solr");
}
}
@Document(coreName="collection1")
class Product {
@Id String id;
@Indexed(solrType="text_general") String author;
@Indexed("cat") List<String> category;
}
// curl ../solr/collection1/schema/fields -X POST -H 'Content-type:application/json'
[
{
"name":"id",
"type":"string",
"stored":true,
"indexed":true,
"multiValued":false
}
{
"name":"author",
"type":"text_general",
"stored":true,
"indexed":true,
"multiValued":false
}
{
"name":"cat",
"type":"string",
"stored":true,
"indexed":true,
"multiValued":true
}
]
<dependency>
<groupId>org.springframework.data</groupId>
<artifactId>spring-data-solr</artifactId>
<version>1.2.0.RELEASE</version>
</dependency>
<dependency>
<groupId>org.springframework.data</groupId>
<artifactId>spring-data-solr</artifactId>
<version>1.3.0.BUILD-SNAPSHOT</version>
</dependency>
<repository>
<id>spring-maven-snapshot</id>
<url>http://repo.spring.io/libs-snapshot</url>
</repository>
Please refer to CONTRIBUTING
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