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Documents
Overview
In this guide, you can learn how to use documents in the MongoDB Java Driver.
A MongoDB document is a data structure that contains key/value fields in binary JSON (BSON) format. You can use documents and the data they contain in their fields to store data as well as issue commands or queries in MongoDB.
For more information on the terminology, structure, and limitations of documents, read our page on Documents in the MongoDB manual.
The MongoDB Java driver and BSON library include the following classes that help you access and manipulate the BSON data in documents:
Name | Package | Implements Map | Recommended Usage |
---|---|---|---|
Document | org.bson | Yes, implements Map<String, Object> | When you want a flexible and concise data representation. |
BsonDocument | org.bson | Yes, implements Map<String, BsonValue> | When you need a type-safe API. |
JsonObject | org.bson.json | No | When you only want to work with JSON strings. |
BasicDBObject | com.mongodb | No | When you are migrating your application from a legacy driver version. |
While you can use any of these classes in your application, we recommend
that you use the Document
class since it can concisely represent
dynamically structured documents of any complexity. It implements the
Map<String, Object>
interface which enables it to use loosely-typed
values.
Document
The Document
class offers a flexible representation of a BSON document.
You can access and manipulate fields using Java types from the standard
library with this class. See the following table for mappings between
frequently-used BSON and Java types:
BSON type | Java type |
---|---|
Array | java.util.List |
Binary | org.bson.types.Binary |
Boolean | java.lang.Boolean |
Date | java.util.Date |
Document | org.bson.Document |
Double | java.lang.Double |
Int32 | java.lang.Integer |
Int64 | java.lang.Long |
Null | null |
ObjectId | org.bson.types.ObjectId |
String | java.lang.String |
The preceding mapping table shows the default mapping when working with the
Document
class. You can customize the type mapping by specifying a
custom codec. For more information on customizing mapped types, see our guide
on using Codecs.
In the following code snippet, we show how to instantiate and build a sample
Document
instance representing a document containing several
different field types:
Document author = new Document("_id", new ObjectId()) .append("name", "Gabriel García Márquez") .append("dateOfDeath", Date.from(LocalDate.of(2014, 4, 17).atStartOfDay(ZoneId.systemDefault()).toInstant())) .append("novels", Arrays.asList( new Document("title", "One Hundred Years of Solitude").append("yearPublished", 1967), new Document("title", "Chronicle of a Death Foretold").append("yearPublished", 1981), new Document("title", "Love in the Time of Cholera").append("yearPublished", 1985)));
To insert this document into a collection, instantiate a collection
using the getCollection()
method and call the insertOne operation as follows:
// MongoClient mongoClient = <code to instantiate your client>; MongoDatabase database = mongoClient.getDatabase("fundamentals_data"); MongoCollection<Document> collection = database.getCollection("authors"); InsertOneResult result = collection.insertOne(author);
Once you perform a successful insert, you can retrieve the sample document data from the collection using the following code:
import com.mongodb.client.model.Filters; // <MongoCollection setup code here> Document doc = collection.find(Filters.eq("name", "Gabriel García Márquez")).first(); if (doc != null) { System.out.println("_id: " + doc.getObjectId("_id") + ", name: " + doc.getString("name") + ", dateOfDeath: " + doc.getDate("dateOfDeath")); doc.getList("novels", Document.class).forEach((novel) -> { System.out.println("title: " + novel.getString("title") + ", yearPublished: " + novel.getInteger("yearPublished")); }); }
Tip
The preceding code sample uses helper methods that check the returned type
and throw an exception if it is unable to cast the field value.
You can call the get()
method specified by the Map
interface
to retrieve field values as type Object
and to skip type checking.
The output should look something like this:
_id: 5fb5fad05f734e3794741a35, name: Gabriel García Márquez, dateOfDeath: Thu Apr 17 00:00:00 EDT 2014 title: One Hundred Years of Solitude, yearPublished: 1967 title: Chronicle of a Death Foretold, yearPublished: 1981 title: Love in the Time of Cholera, yearPublished: 1985
For more information on retrieving and manipulating MongoDB data, see our CRUD guide.
For more information about the methods and classes mentioned in this section, see the following API Documentation:
BsonDocument
The BsonDocument
class provides a type-safe API to access and manipulate
a BSON document. You need to specify the BSON type from the Java BSON
library for each field. See the following table for mappings between
frequently-used BSON and Java BSON library types:
BSON type | Java BSON library type |
---|---|
Array | org.bson.BsonArray |
Binary | org.bson.BsonBinary |
Boolean | org.bson.Boolean |
Date (long value) | org.bson.BsonDateTime |
Document | org.bson.BsonDocument |
Double | org.bson.BsonDouble |
Int32 | org.bson.BsonInt32 |
Int64 | org.bson.BsonInt64 |
Null | org.bson.BsonNull |
ObjectId | org.bson.BsonObjectId |
String | org.bson.BsonString |
In the following code snippet, we show how to instantiate and build a sample
BsonDocument
instance representing a document containing several
different field types:
BsonDocument author = new BsonDocument() .append("_id", new BsonObjectId()) .append("name", new BsonString("Gabriel García Márquez")) .append("dateOfDeath", new BsonDateTime(LocalDate.of(2014, 4, 17).atStartOfDay(ZoneId.systemDefault()).toInstant().toEpochMilli())) .append("novels", new BsonArray(Arrays.asList( new BsonDocument().append("title", new BsonString("One Hundred Years of Solitude")).append("yearPublished", new BsonInt32(1967)), new BsonDocument().append("title", new BsonString("Chronicle of a Death Foretold")).append("yearPublished", new BsonInt32(1981)), new BsonDocument().append("title", new BsonString("Love in the Time of Cholera")).append("yearPublished", new BsonInt32(1985)) )));
To insert this document into a collection, instantiate a collection
using the getCollection()
method specifying the BsonDocument
class as the documentClass
parameter. Then, call the
insertOne operation as follows:
// MongoClient mongoClient = <code to instantiate your client>; MongoDatabase database = mongoClient.getDatabase("fundamentals_data"); MongoCollection<BsonDocument> collection = database.getCollection("authors", BsonDocument.class); InsertOneResult result = collection.insertOne(author);
Once you perform a successful insert, you can retrieve the sample document data from the collection using the following code:
import com.mongodb.client.model.Filters; // <MongoCollection setup code here> BsonDocument doc = collection.find(Filters.eq("name", "Gabriel García Márquez")).first(); if (doc != null) { System.out.println("_id: " + doc.getObjectId("_id").getValue() + ", name: " + doc.getString("name").getValue() + ", dateOfDeath: " + new Date(doc.getDateTime("dateOfDeath").getValue())); doc.getArray("novels").forEach((novel) -> { System.out.println("title: " + novel.asDocument().getString("title").getValue() + ", yearPublished: " + novel.asDocument().getInt32("yearPublished").getValue()); }); }
Tip
The preceding code sample uses helper methods that check the returned type
and throw a BsonInvalidOperationException
if it is unable to cast
the field value. You can call the get()
method specified by the
Map
interface to retrieve field values as type BsonValue
and
to skip type checking.
The output should look something like this:
_id: 5fb5fad05f734e3794741a35, name: Gabriel García Márquez, dateOfDeath: Thu Apr 17 00:00:00 EDT 2014 title: One Hundred Years of Solitude, yearPublished: 1967 title: Chronicle of a Death Foretold, yearPublished: 1981 title: Love in the Time of Cholera, yearPublished: 1985
For more information about the methods and classes mentioned in this section, see the following API Documentation:
JsonObject
The JsonObject
class acts as a wrapper for JSON strings.
If you only want to work with JSON data, you can use JsonObject
to avoid unnecessary data conversion to a Map
object.
By default, JsonObject
stores Extended JSON.
You can customize the format of JSON in JsonObject
by specifying a
JsonObjectCodec
and passing it a JsonWriterSettings
object. For more information on JSON formats, see
our Extended JSON guide.
For more information on specifying codecs, see our
Codecs guide.
In the following code snippet, we show how to instantiate a sample JsonObject
instance wrapping an Extended JSON string containing different types of key value pairs:
String ejsonStr = "{\"_id\": {\"$oid\": \"6035210f35bd203721c3eab8\"}," + "\"name\": \"Gabriel Garc\\u00eda M\\u00e1rquez\"," + "\"dateOfDeath\": {\"$date\": \"2014-04-17T04:00:00Z\"}," + "\"novels\": [" + "{\"title\": \"One Hundred Years of Solitude\",\"yearPublished\": 1967}," + "{\"title\": \"Chronicle of a Death Foretold\",\"yearPublished\": 1981}," + "{\"title\": \"Love in the Time of Cholera\",\"yearPublished\": 1985}]}"; JsonObject author = new JsonObject(ejsonStr);
To insert this document into a collection, instantiate a collection
using the getCollection()
method specifying the JsonObject
class
as the documentClass
parameter. Then, call the
insertOne operation as follows:
// MongoClient mongoClient = <code to instantiate your client>; MongoDatabase database = mongoClient.getDatabase("fundamentals_data"); MongoCollection<JsonObject> collection = database.getCollection("authors", JsonObject.class); InsertOneResult result = collection.insertOne(author);
Once you perform a successful insert, you can retrieve the sample JSON data from the
collection. While you can use any class that extends Bson
to specify your query,
here is how to query your data using a JsonObject
:
// MongoClient mongoClient = <code to instantiate your client>; JsonObject query = new JsonObject("{\"name\": \"Gabriel Garc\\u00eda M\\u00e1rquez\"}"); JsonObject jsonResult = collection.find(query).first(); if (jsonResult != null) { System.out.println("query result in extended json format: " + jsonResult.getJson()); }
The output should look something like this:
query result in extended json format: {"_id": {"$oid": "6035210f35bd203721c3eab8"}, "name": "Gabriel García Márquez", "dateOfDeath": {"$date": "2014-04-17T04:00:00Z"}, "novels": [{"title": "One Hundred Years of Solitude", "yearPublished": 1967}, {"title": "Chronicle of a Death Foretold", "yearPublished": 1981}, {"title": "Love in the Time of Cholera", "yearPublished": 1985}]}
Tip
If you would like to work with other formats of JSON strings
in your application, you can use the JsonObjectCodec
class
along with JsonWriterSettings
to specify your desired JSON
format.
The following code example reads and writes
to our MongoDB instance using
Relaxed mode JSON
strings and outputs ObjectId
instances as hex strings:
import static org.bson.codecs.configuration.CodecRegistries.fromCodecs; // MongoClient mongoClient = <code to instantiate your client>; MongoDatabase database = mongoClient.getDatabase("fundamentals_data"); MongoCollection<JsonObject> collection = database.getCollection("authors", JsonObject.class) .withCodecRegistry( fromCodecs( // define a JsonObjectCodec with a JsonWriterSettings in Relaxed mode new JsonObjectCodec(JsonWriterSettings .builder() .outputMode(JsonMode.RELAXED) .objectIdConverter((objectId, strictJsonWriter) -> { strictJsonWriter.writeString(objectId.toHexString()); }) .build()))); JsonObject author = new JsonObject("{\"_id\": \"6035210f35bd203721c3eab8\", " + "\"name\": \"Gabriel García Márquez\", " + "\"dateOfDeath\": {\"$date\": \"2014-04-17T04:00:00Z\"}, " + "\"novels\": [{\"title\": \"One Hundred Years of Solitude\", \"yearPublished\": 1967}, {\"title\": \"Chronicle of a Death Foretold\", \"yearPublished\": 1981}, " + "{\"title\": \"Love in the Time of Cholera\", \"yearPublished\": 1985}]}\n"); collection.insertOne(author); JsonObject query = new JsonObject("{\"name\": \"Gabriel Garc\\u00eda M\\u00e1rquez\"}"); JsonObject jsonResult = collection.find(query).first(); if (jsonResult != null) { System.out.println("query result in relaxed json format: " + jsonResult.getJson()); }
The output of this code should look something like this:
query result in relaxed json format: {"_id": "6035210f35bd203721c3eab8", "name": "Gabriel García Márquez", "dateOfDeath": {"$date": "2014-04-17T04:00:00Z"}, "novels": [{"title": "One Hundred Years of Solitude", "yearPublished": 1967}, {"title": "Chronicle of a Death Foretold", "yearPublished": 1981}, {"title": "Love in the Time of Cholera", "yearPublished": 1985}]}
For more information about the methods and classes mentioned in this section, see the following API Documentation:
BasicDBObject
The BasicDBObject
class allows you to access and manipulate document data
using Java types. We recommend that you avoid using this class unless you
are migrating an application from an older driver version
because of the following limitations:
BasicDBObject
does not implementMap<K, V>
and therefore lacks the data access and manipulation convenience methods of aMap
.It implements the
DBObject
interface rather than a class, so you cannot extend the API without breaking binary compatibility. This means that if the interface was ever changed in a way that broke the binary compatibility, all applications and classes that use the interface need to be recompiled to run the new version without errors.
In the following code snippet, we show how to instantiate and build a sample
BasicDBObject
instance representing a document containing several
different field types:
BasicDBObject author = new BasicDBObject("_id", new ObjectId()) .append("name", "Gabriel García Márquez") .append("dateOfDeath", Date.from(LocalDate.of(2014, 4, 17).atStartOfDay(ZoneId.systemDefault()).toInstant())) .append("novels", Arrays.asList( new BasicDBObject("title", "One Hundred Years of Solitude").append("yearPublished", 1967), new BasicDBObject("title", "Chronicle of a Death Foretold").append("yearPublished", 1981), new BasicDBObject("title", "Love in the Time of Cholera").append("yearPublished", 1985)));
To insert this document into a collection, instantiate a collection using
the getCollection()
method specifying the BasicDBObject
class as
the documentClass
parameter. Then, call the
insertOne operation as follows:
// MongoClient mongoClient = <code to instantiate your client>; MongoDatabase database = mongoClient.getDatabase("fundamentals_data"); MongoCollection<BasicDBObject> collection = database.getCollection("authors", BasicDBObject.class); InsertOneResult result = collection.insertOne(author);
Once you perform a successful insert, you can retrieve the sample document data from the collection using the following code:
import com.mongodb.client.model.Filters; // <MongoCollection setup code here> BasicDBObject doc = collection.find(Filters.eq("name", "Gabriel García Márquez")).first(); if (doc != null) { System.out.println("_id: " + doc.getObjectId("_id") + ", name: " + doc.getString("name") + ", dateOfDeath: " + doc.getDate("dateOfDeath")); BasicDBList novels = (BasicDBList) doc.get("novels"); if (novels != null) { BasicDBObject[] novelArr = novels.toArray(new BasicDBObject[0]); for (BasicDBObject novel : novelArr) { System.out.println("title: " + novel.getString("title") + ", yearPublished: " + novel.getInt("yearPublished")); } } }
Tip
The preceding code sample uses helper methods that check the returned type
and throw an exception if it is unable to cast the field value.
You can call the get()
method to retrieve values as type
Object
and to skip type checking.
The output should look something like this:
_id: 5fb5fad05f734e3794741a35, name: Gabriel García Márquez, dateOfDeath: Thu Apr 17 00:00:00 EDT 2014 title: One Hundred Years of Solitude, yearPublished: 1967 title: Chronicle of a Death Foretold, yearPublished: 1981 title: Love in the Time of Cholera, yearPublished: 1985
For more information about the methods and classes mentioned in this section, see the following API Documentation:
Summary
In this guide, we covered the following topics on classes you can use to work with BSON data:
Described four Java classes you can use to work with MongoDB documents and why you might prefer one over the other.
Provided usage examples for each class on building documents containing multiple types, inserting them into a collection, and retrieving/accessing their typed fields.