For the latest stable version, please use Spring Data MongoDB 4.4.1! |
Index and Collection Management
MongoTemplate
and ReactiveMongoTemplate
provide methods for managing indexes and collections.
These methods are collected into a helper interface called IndexOperations
respectively ReactiveIndexOperations
.
You can access these operations by calling the indexOps
method and passing in either the collection name or the java.lang.Class
of your entity (the collection name is derived from the .class
, either by name or from annotation metadata).
The following listing shows the IndexOperations
interface:
-
Imperative
-
Reactive
public interface IndexOperations {
String ensureIndex(IndexDefinition indexDefinition);
void alterIndex(String name, IndexOptions options);
void dropIndex(String name);
void dropAllIndexes();
List<IndexInfo> getIndexInfo();
}
public interface ReactiveIndexOperations {
Mono<String> ensureIndex(IndexDefinition indexDefinition);
Mono<Void> alterIndex(String name, IndexOptions options);
Mono<Void> dropIndex(String name);
Mono<Void> dropAllIndexes();
Flux<IndexInfo> getIndexInfo();
Methods for Creating an Index
You can create an index on a collection to improve query performance by using the MongoTemplate class, as the following example shows:
-
Imperative
-
Reactive
template.indexOps(Person.class)
.ensureIndex(new Index().on("name",Order.ASCENDING));
Mono<String> createIndex = template.indexOps(Person.class)
.ensureIndex(new Index().on("name",Order.ASCENDING));
ensureIndex
makes sure that an index for the provided IndexDefinition exists for the collection.
You can create standard, geospatial, and text indexes by using the IndexDefinition
, GeoSpatialIndex
and TextIndexDefinition
classes.
For example, given the Venue
class defined in a previous section, you could declare a geospatial query, as the following example shows:
template.indexOps(Venue.class)
.ensureIndex(new GeospatialIndex("location"));
Index and GeospatialIndex support configuration of collations.
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Accessing Index Information
The IndexOperations
interface has the getIndexInfo
method that returns a list of IndexInfo
objects.
This list contains all the indexes defined on the collection. The following example defines an index on the Person
class that has an age
property:
-
Imperative
-
Reactive
template.indexOps(Person.class)
.ensureIndex(new Index().on("age", Order.DESCENDING).unique());
List<IndexInfo> indexInfoList = template.indexOps(Person.class)
.getIndexInfo();
Mono<String> ageIndex = template.indexOps(Person.class)
.ensureIndex(new Index().on("age", Order.DESCENDING).unique());
Flux<IndexInfo> indexInfo = ageIndex.then(template.indexOps(Person.class)
.getIndexInfo());
Methods for Working with a Collection
The following example shows how to create a collection:
-
Imperative
-
Reactive
MongoCollection<Document> collection = null;
if (!template.getCollectionNames().contains("MyNewCollection")) {
collection = mongoTemplate.createCollection("MyNewCollection");
}
MongoCollection<Document> collection = template.getCollectionNames().collectList()
.flatMap(collectionNames -> {
if(!collectionNames.contains("MyNewCollection")) {
return template.createCollection("MyNewCollection");
}
return template.getMongoDatabase().map(db -> db.getCollection("MyNewCollection"));
});
Collection creation allows customization with CollectionOptions and supports collations.
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Methods to interact with MongoCollections
-
getCollectionNames: Returns a set of collection names.
-
collectionExists: Checks to see if a collection with a given name exists.
-
createCollection: Creates an uncapped collection.
-
dropCollection: Drops the collection.
-
getCollection: Gets a collection by name, creating it if it does not exist.
Time Series
MongoDB 5.0 introduced Time Series collections that are optimized to efficiently store documents over time such as measurements or events.
Those collections need to be created as such before inserting any data.
Collections can be created by either running the createCollection
command, defining time series collection options or extracting options from a @TimeSeries
annotation as shown in the examples below.
template.execute(db -> {
com.mongodb.client.model.CreateCollectionOptions options = new CreateCollectionOptions();
options.timeSeriesOptions(new TimeSeriesOptions("timestamp"));
db.createCollection("weather", options);
return "OK";
});
CollectionOptions
template.createCollection("weather", CollectionOptions.timeSeries("timestamp"));
@TimeSeries(collection="weather", timeField = "timestamp")
public class Measurement {
String id;
Instant timestamp;
// ...
}
template.createCollection(Measurement.class);
The snippets above can easily be transferred to the reactive API offering the very same methods. Make sure to properly subscribe to the returned publishers.