- MongoDB Async Driver
- Quick Start
MongoDB Async Driver Quick Start
The following code snippets come from the QuickTour.java
example code
that can be found with the async driver source on github.
Note
There are two higher level MongoDB Asynchronous Java Drivers available, that users may find easier to work with due to their friendlier APIs:
- MongoDB RxJava Driver An RxJava implementation of the MongoDB Driver.
- MongoDB Reactive Streams Java Driver A Reactive Streams implementation for the JVM.
SingleResultCallback
The MongoDB Async driver provides an asynchronous API that can leverage either Netty or Java 7’s AsynchronousSocketChannel
for fast and non-blocking I/O.
The MongoDB Asynchronous Driver API mirrors the new Synchronous MongoDB Driver API, but asynchronous methods that make network I/O operations take a SingleResultCallback<T>
and return immediately. The SingleResultCallback<T>
interface requires the implementation of a single method onResult(T result, Throwable t)
which is called upon the completion of the operation. Upon successful operation, the result
parameter contains the result of the operation. If the operation failed for any reason, then the t
contains the reason for the failure.
important
Always check for errors in any SingleResultCallback<T>
implementation
and handle them appropriately.
For sake of brevity, this tutorial omits the error check logic in the code examples.
To use a callback more than once, you can either create a class that implements the callback or assign the callback to a variable.
Prerequisites
A running MongoDB on localhost using the default port for MongoDB
27017
MongoDB Async Driver. See Installation for instructions on how to install the MongoDB driver.
The following import statements:
import com.mongodb.Block;
import com.mongodb.ServerAddress;
import com.mongodb.async.SingleResultCallback;
import com.mongodb.async.client.*;
import com.mongodb.client.result.DeleteResult;
import com.mongodb.client.result.UpdateResult;
import com.mongodb.connection.ClusterSettings;
import com.mongodb.ConnectionString;
import org.bson.Document;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import static com.mongodb.client.model.Filters.*;
import static com.mongodb.client.model.Updates.inc;
import static com.mongodb.client.model.Updates.set;
import static java.util.Arrays.asList;
- The following callback code which the examples in the tutorials will use:
SingleResultCallback<Document> callbackPrintDocuments = new SingleResultCallback<Document>() {
@Override
public void onResult(final Document document, final Throwable t) {
System.out.println(document.toJson());
}
};
SingleResultCallback<Void> callbackWhenFinished = new SingleResultCallback<Void>() {
@Override
public void onResult(final Void result, final Throwable t) {
System.out.println("Operation Finished!");
}
};
- The following
Block
code which the exexamples will use used to print the results of the find operations:
Block<Document> printDocumentBlock = new Block<Document>() {
@Override
public void apply(final Document document) {
System.out.println(document.toJson());
}
};
Make a Connection
To make a connection to a running MongoDB instance, use MongoClients.create
to create a new MongoClient
instance. A MongoClient
instance actually represents a pool of connections
to the database; you will only need one instance of class
MongoClient
even with multiple concurrently executing asynchronous operations.
important
Typically you only create one MongoClient
instance for a given MongoDB
deployment (e.g. standalone, replica set, or a sharded cluster) and use it across your application. However, if you do create multiple instances:
- All resource usage limits (max connections, etc.) apply per
MongoClient
instance. - To dispose of an instance, call
MongoClient.close()
to clean up resources.
Connect to a Standalone MongoDB Instance
The following example shows various ways to connect to a standalone MongoDB instance running on the local machine.
To connect to a standalone MongoDB instance:
- You can call
MongoClients.create()
without any parameters to connect to a MongoDB instance running on localhost on port27017
:
MongoClient mongoClient = MongoClients.create();
- You can call
MongoClients.create()
with a string that specifies the connection string:
MongoClient mongoClient = MongoClients.create("mongodb://localhost");
The connection string mostly follows RFC 3986, with the exception of the domain name. For MongoDB, it is possible to list multiple domain names separated by a comma. For more information on the connection string, see connection string.
- You can call
MongoClients.create()
with aConnectionString
object:
MongoClient mongoClient = MongoClients.create(new ConnectionString("mongodb://localhost"));
- You can call
MongoClients.create()
with aMongoClientSettings
object:
ClusterSettings clusterSettings = ClusterSettings.builder()
.hosts(asList(new ServerAddress("localhost"))).build();
MongoClientSettings settings = MongoClientSettings.builder()
.clusterSettings(clusterSettings).build();
MongoClient mongoClient = MongoClients.create(settings);
Access a Database
Once you have a MongoClient
instance connected to a MongoDB deployment, use its getDatabase()
method to access a database.
Specify the name of the database to the getDatabase()
method. The getDatabase()
method does not require a callback since there is no network I/O required. If a database does not exist, MongoDB creates the database when you first store data for that database.
The following example accesses the mydb
database:
MongoDatabase database = mongoClient.getDatabase("mydb");
Get a Collection
Once you have a MongoDatabase
instance, use its getCollection()
method to access a collection.
Specify the name of the collection to the getCollection()
method. If a collection does not exist, MongoDB creates the collection when you first store data for that collection.
For example, using the database
instance, the following statement accesses the collection named test
in the mydb
database:
MongoCollection<Document> collection = database.getCollection("test");
Create a Document
To create the document using the Java async driver, use the Document
class.
For example, consider the following JSON document:
{
"name" : "MongoDB",
"type" : "database",
"count" : 1,
"versions": [ "v3.2", "v3.0", "v2.6" ],
"info" : { x : 203, y : 102 }
}
To create the document using the Java async driver, instantiate a Document
object with a field and value, and use its
append()
method to include additional fields and values to the document object. The value can be another Document
object to specify an embedded document:
Document doc = new Document("name", "MongoDB")
.append("type", "database")
.append("count", 1)
.append("versions", Arrays.asList("v3.2", "v3.0", "v2.6"))
.append("info", new Document("x", 203).append("y", 102));
Note
The BSON type of array corresponds to the Java type java.util.List
. For a list of the BSON type and the corresponding type in Java, see BSON Documents reference.
Insert a Document
Once you have the MongoCollection
object, you can insert documents into the collection.
Insert One Document
To insert the document into the collection, use the insertOne()
method.
collection.insertOne(doc, new SingleResultCallback<Void>() {
@Override
public void onResult(final Void result, final Throwable t) {
System.out.println("Inserted!");
}
});
Note
If no top-level _id
field is specified in the document, the driver automatically adds the _id
field to the inserted document.
SingleResultCallback<T>
is a functional interface and can be implemented as a lambda if using Java 8:
collection.insertOne(doc, (Void result, final Throwable t) -> System.out.println("Inserted!"));
Insert Multiple Documents
To add multiple documents, you can use the insertMany()
method which takes a list of documents to insert.
The following example will add multiple documents of the form:
{ "i" : value }
Create the documents in a loop and add to the documents
list:
List<Document> documents = new ArrayList<Document>();
for (int i = 0; i < 100; i++) {
documents.add(new Document("i", i));
}
To insert these documents to the collection, pass the list of documents to the
insertMany()
method.
collection.insertMany(documents, new SingleResultCallback<Void>() {
@Override
public void onResult(final Void result, final Throwable t) {
System.out.println("Documents inserted!");
}
});
Note
If no top-level _id
field is specified in the document, the driver automatically adds the _id
field to the inserted document.
Count Documents in A Collection
To count the number of documents in a collection, you can use the collection’s count()
method. The following code should print 101
(the 100 inserted via insertMany
plus the 1 inserted via the insertOne
).
collection.count(
new SingleResultCallback<Long>() {
@Override
public void onResult(final Long count, final Throwable t) {
System.out.println(count);
}
});
Query the Collection
To query the collection, you can use the collection’s find()
method. You can call the method without any arguments to query all documents in a collection or pass a filter to query for documents that match the filter criteria.
The find()
method returns a FindIterable()
instance that provides a fluent interface for chaining other methods.
Find the First Document in a Collection
To return the first document in the collection, use the find() method without any parameters and chain to find() method the first()
method.
If the collection is empty, the operation returns null.
tip
The find().first()
construct is useful for queries that should only match a single document or if you are interested in the first document only.
The following example prints the first document found in the collection, using the printDocument
callback declared earlier in the tutorial:
collection.find().first(callbackPrintDocuments);
The example will print the following document:
{ "_id" : { "$oid" : "579f5278b9c1d14ae2a31c27" }, "name" : "MongoDB", "type" : "database", "count" : 1, "versions" : ["v3.2", "v3.0", "v2.6"], "info" : { "x" : 203, "y" : 102 } }
Note
The _id
element has been added automatically by the Java async driver to your
document and your value will differ from that shown. MongoDB reserves field
names that start with "_"
and "$"
for internal use.
Find All Documents in a Collection
To retrieve all the documents in the collection, we will use the
find()
method without any parameters.
You can chain the
forEach()
method to the find()
method to iterate through the results and apply a Block
to each document in the results. The forEach()
method also takes a callback that is run once the iteration has finished.
The following code retrieves all documents in the collection and prints the returned documents (101 documents). The example uses the callbackWhenFinished
and the printDocumentBlock
defined earlier in the tutorial:
collection.find().forEach(printDocumentBlock, callbackWhenFinished);
Specify a Query Filter
To query for documents that match certain conditions, pass a filter object to the find() method. To facilitate creating filter objects, the driver provides the Filters
helper.
Get a Single Document That Matches a Filter
For example, to find the first document where the field i
has the value 71
, pass an eq
filter object to specify the equality condition. The example uses the callbackPrintDocuments
defined earlier in the tutorial:
collection.find(eq("i", 71)).first(callbackPrintDocuments);
Get All Documents That Match a Filter
The following example returns and prints all documents where "i" > 50
. The example uses the printDocumentBlock
code and callbackWhenFinished
defined earlier in the tutorial:
collection.find(gt("i", 50)).forEach(printDocumentBlock, callbackWhenFinished);
To specify a filter for a range, such as 50 < i <= 100
, you can use the and
helper:
collection.find(and(gt("i", 50), lte("i", 100))).forEach(printDocumentBlock, callbackWhenFinished);
Updating documents
To update documents in a collection, you can use the collection’s updateOne
and updateMany
methods.
Pass to the methods:
A filter object to determine the document or documents to update. To facilitate creating filter objects, Java async driver provides the
Filters
helper. To specify an empty filter (i.e. match all documents in a collection), use an emptyDocument
object.An update document that specifies the modifications. For a list of the available operators, see update operators.
A callback.
The update methods return an UpdateResult
, which provides information about the operation including the number of documents modified by the update.
Update a Single Document
To update at most a single document, use the updateOne
.
The following example updates the first document that meets the filter i
equals 10
and sets the value of i
to 110
:
collection.updateOne(eq("i", 10), set("i", 110),
new SingleResultCallback<UpdateResult>() {
@Override
public void onResult(final UpdateResult result, final Throwable t) {
System.out.println(result.getModifiedCount());
}
});
Update Multiple Documents
To update all documents matching the filter, use the updateMany
method.
The following example increments the value of i
by 100
for all documents where i
is less than 100
:
collection.updateMany(lt("i", 100), inc("i", 100),
new SingleResultCallback<UpdateResult>() {
@Override
public void onResult(final UpdateResult result, final Throwable t) {
System.out.println(result.getModifiedCount());
}
});
Delete Documents
To delete documents from a collection, you can use the collection’s deleteOne
and deleteMany
methods.
Pass to the methods:
A filter object to determine the document or documents to delete. To facilitate creating filter objects, Java driver provides the
Filters
helper. To specify an empty filter (i.e. match all documents in a collection), use an emptyDocument
object.A callback.
The delete methods return a DeleteResult
which provides information about the operation including the number of documents deleted.
Delete a Single Document That Match a Filter
To delete at most a single document that match the filter, use the deleteOne
method:
The following example deletes at most one document that meets the filter i
equals 110
:
collection.deleteOne(eq("i", 110), new SingleResultCallback<DeleteResult>() {
@Override
public void onResult(final DeleteResult result, final Throwable t) {
System.out.println(result.getDeletedCount());
}
});
Delete All Documents That Match a Filter
To delete all documents matching the filter use the deleteMany
method.
The following example deletes all documents where i
is greater or equal to 100
:
collection.deleteMany(gte("i", 100), new SingleResultCallback<DeleteResult>() {
@Override
public void onResult(final DeleteResult result, final Throwable t) {
System.out.println(result.getDeletedCount());
}
});
Additional Information
For additional tutorials about using MongoDB with POJOs, see the POJOs Quick Start.
For additional tutorials (such as to use the aggregation framework, specify write concern, etc.), see the Java Async Driver Tutorials.