CRUD

For a walkthrough of the main CRUD operations please refer to the Quick Tour.

All CRUD-related methods in the Java driver are accessed through the MongoCollection interface. Instances of MongoCollection can be obtained from a
MongoClient instance by way of a MongoDatabase:

MongoClient client = new MongoClient();
MongoDatabase database = client.getDatabase("mydb");
MongoCollection<Document> collection = database.getCollection("mycoll");

MongoCollection is a generic interface: the TDocument type parameter is the class that clients use to insert or replace documents in a collection, and the default type returned from find and aggregate.

The single-argument getCollection method returns an instance of MongoCollection<Document>, and so with this type of collection an application uses instances of the Document class:

MongoCollection<Document> collection = database.getCollection("mycoll");

// insert a document
Document document = new Document("x", 1)
collection.insertOne(document);
document.append("x", 2).append("y", 3);

// replace a document
collection.replaceOne(Filters.eq("_id", document.get("_id")), document);

// find documents
List<Document> foundDocument = collection.find().into(new ArrayList<Document>());

CodecRegistry

An overload of the getCollection method allows clients to specify a different class for representing BSON documents. For example, users of the legacy CRUD API from the 2.x driver series may wish to continue using BasicDBObject in order to ease the transition to the new CRUD API:

// Pass BasicDBObject.class as the second argument
MongoCollection<BasicDBObject> collection = database.getCollection("mycoll", BasicDBObject.class);

// insert a document
BasicDBObject document = new BasicDBObject("x", 1)
collection.insertOne(document);
document.append("x", 2).append("y", 3);

// replace a document
collection.replaceOne(Filters.eq("_id", document.get("_id"), document);

// find documents
List<BasicDBObject> foundDocument = collection.find().into(new ArrayList<BasicDBObject>());

There are two requirements that must be met for any class used in this way:

  • a Codec for it must be registered in the MongoCollection’s CodecRegistry
  • the Codec must be one that encodes and decodes a full BSON document (and not just, for example, a single BSON value like an Int32)

By default, a MongoCollection is configured with Codecs for three classes:

  • Document
  • BasicDBObject
  • BsonDocument

Applications, however, are free to register Codec implementations for other classes by customizing the CodecRegistry. New CodecRegistry instances are configurable at three levels:

  • In a MongoClient via MongoClientOptions
  • In a MongoDatabase via its withCodecRegistry method
  • In a MongoCollection via its withCodecRegistry method

Consider the case of encoding and decoding instances of the UUID class. The Java driver by default encodes instances of UUID using a byte ordering that is not compatible with other MongoDB drivers, and changing the default would be quite dangerous. But it is possible for new applications that require interoperability across multiple drivers to be able to change that default, and they can do that with a CodecRegistry.

// Replaces the default UuidCodec with one that uses the new standard UUID representation
CodecRegistry codecRegistry = 
CodecRegistries.fromRegistries(CodecRegistries.fromCodecs(new UuidCodec(UuidRepresentation.STANDARD)),
                               MongoClient.getDefaultCodecRegistry());

// globally
MongoClientOptions options = MongoClientOptions.builder()
                                                .codecRegistry(codecRegistry).build();
MongoClient client = new MongoClient(new ServerAddress(), options);  

// or per database
MongoDatabase database = client.getDatabase("mydb")
                               .withCodecRegistry(codecRegistry);

// or per collection
MongoCollection<Document> collection = database.getCollection("mycoll")
                                               .withCodecRegistry(codecRegistry);

Write Concern

Applications can configure the WriteConcern that a MongoCollection uses for write operations. Like CodecRegistry, the WriteConcern can be configured at three levels:

  • In a MongoClient via MongoClientOptions
  • In a MongoDatabase via its withWriteConcern method
  • In a MongoCollection via its withWriteConcern method

Read Preference

Applications can configure the ReadPreference that a MongoCollection uses for read operations. Like WriteConcern, the ReadPreference can be configured at three levels:

  • In a MongoClient via MongoClientOptions
  • In a MongoDatabase via its withReadPreference method
  • In a MongoCollection via its withReadPreference method

Immutability of MongoDatabase and MongoCollection

Instance of MongoDatabase and MongoCollection are immutable, so rather than mutate the state of the MongoCollection on which they are invoked, the three methods discussed above return new instances. Applications should therefore be sure to store the result of the method call. For example:

// CORRECT: The results of the method calls are chained and the final one is referenced 
// by collection 
MongoCollection<Document> collection = database.getCollection("mycoll")
                                                .withWriteConcern(WriteConcern.JOURNALED)
                                                .withReadPreference(ReadPreference.primary())
                                                .withCodecRegistry(newRegistry);

// INCORRECT: withReadPreference returns a new instance of MongoCollection
// It does not modify the collection it's called on.  So this will
// have no effect
collection.withReadPreference(ReadPreference.secondary());