How documents are represented in MongoDB Java Driver?

MongoDB documents are stored inside a collections as a JSON (JavaScript Object Notation) document. It’s a string of key-value pairs data. JSON is a lightweight data-interchange format. It is easy for humans to read and write. It is easy for machines to parse and generate.

When we are working in the MongoDB shell we can type in this document as a string that follow JSON data format. But how do we create this JSON document when working within a Java programming. This blog post will show you how to represent a document using Java Driver for MongoDB.

If you recall a key-value pairs data type you will remember that Java have a java.util.Map that can represent data structure in this format. So you might think that you can use a generic type of Map to store this data. But, because in MongoDB’s document the order of keys in a document is quite important to make sure the operations such as find, insert, update and remove work correctly, using a Map to represent a document can be quite dangerous.

MongoDB has a special interface called as com.mongodb.DBObject and its implementation class in com.mongodb.BasicDBObject that can be use to create or represent a document in MongoDB database. The DBObject is actually a map like structure with a key-value pairs. If you look up to the class hierarchy you can actually see that a BasicDBObject is inherited from the java.util.LinkedHashMap class.

The code snippet below will show you how to create a BasicDBObject to represent a MongoDB document.

In the code above we have create three documents as an example. The first one is an empty document which created by instantiating a BasicDBObject class with no arguments specified. The second one we create a document with a single key and value. This key and value is passed as an argument when we create the BasicDBObject.

The last example show you how to create a document with multiple keys, embedded document and an arrays. To add more fields to the BasicDBObject we can call a chain of the append() method with a specified key and value. The key will be a string and the value is a type of java.lang.Object.

An embedded document is created simply by instantiating another BasicDBObject and assign it as a value of a document key. In the example above the address field is an embedded document inside the document. Which contains another fields such as street, city and country.

If you want to see how the JSON string of this document is look like you can run the code above. You will see something like the output below as the result.

That’s the basic that you need to know on how to create a document using MongoDB Java Driver. You will use this document when doing some database operation in MongoDB such as finding a document, inserting, updating and removing document from collection in the database.

How do I connect to a MongoDB Database?

In the previous post you have seen how we installed the MongoDB database server and try to use the MongoDB shell to manipulate collections in the database. You also have been introduced how to obtain and setup the MongoDB Java Driver that we can use to manipulate the MongoDB database from a Java program. Starting from this post we will begin to explore more on how to use the power of MongoDB Java Driver to work with MongoDB. You will see how we are connect to the database, how to do a CRUD operation (Create, Read, Update and Delete) with Java Driver. But first let see how we create a connection to a database in MongoDB.

Here is our first code snippet, it shows you how to bootstrap the MongoDB to open a connection to a database.

What you can see from the code above is. First we bootstrap the MongoDB by create an instance of MongoClient. Here we pass a ServerAddress to define the address of our MongoDB database with information about the host name and the port number. If you just create an instance of MongoClient without any arguments it will use the default address such as localhost for the host and 27017 as the default port number. Creating an instance of MongoClient can produce an UnknownHostException, so we need to place it inside a try-catch statement.

After initialize the MongoClient we can connect to a database by calling the getDB() method and passing the database name as argument. In the example above we connect to the school database, the database in MongoDB is represented by the DB class in the com.mongodb package. In the next line after connected to the database you can see that we are getting the students collection from this database. Just for the purpose of this example we then empty the students collection using the remove() method of the DBCollection class.

In the next lines until the end of a code snippet you can see that we populate some random data into the students collections. We call the DBCollection.insert() method to insert documents into the students collection. And finally we read the inserted documents from the students collection using the find() method and iterate the returned cursor one by one until all documents printed on the console. You can also see that we are using the try-with-resource syntax in this code as the DBCursor is already implementing the Java 7 AutoCloseable interface.

And here are the sample of the result produced by our code above.

 

Introduction to MongoDB Java Driver

In the past post Installing and Running MongoDB in Windows 7, you’ve seen how to install and running MongoDB database server. Now we are going to learn how to use the MongoDB Java Driver to access collections from the MongoDB database. To demonstrate this I am going to use Maven and and IntelliJ IDEA. You can use other IDE of your choice of course, such as Eclipse or NetBeans which also support Maven.

Let’s begin by creating our project in IntelliJ IDEA. I am going to use the community edition of IntelliJ IDEA which is free to download. Here are the steps for creating a Maven project in IntelliJ IDEA.

Creating Maven Project

  • Start IntelliJ IDEA. From the Welcome Screen select Create New Project.
  • A New Project wizard will be shown. Select Maven on the Sidebar, check the Create from archetype check box and select maven-archetype-quickstart.

    Maven Create from Archetype

    Maven Create from Archetype

  • Press the Next button to continue.
  • In the next screen you can enter the Maven project information details including the GroupId, ArtifactId, and Version.

    Maven Project Information

    Maven Project Information

  • Press the Next button to continue.
  • In this screen you can override any Maven configuration setting if you want. And you also see the summary of Maven project to be created. We do not modify the setting in this screen.

    Maven Project Summary

    Maven Project Summary

  • Press the Next button to continue.
  • In the final screen we input the Project name and Project location directory.
  • After you input these two information click the Finish button to generate the Maven project in IntelliJ IDEA.

    Maven Project Name and Location

    Maven Project Name and Location

  • Finally you have the Maven project created in IntelliJ IDEA.
  • This is the Maven project structure generated in IntelliJ IDEA.
    IntelliJ IDEA Maven Project Structure

    IntelliJ IDEA Maven Project Structure

     

 

Editing the pom.xml File

  • To use the MongoDB Java Driver in our Java application, the first thing we need to is to add the dependency to MongoDB Java Driver in our pom.xml file.
  • Add the following dependency configuration to the pom.xml.

  •  And you’ll have the complete pom.xml file like this configuration below.

IntelliJ IDEA will download all the required dependency files from the Maven Central repository if they are not available in you local Maven repository. After configuring the Maven, we are now ready to create a simple program to find a single collection from the MongoDB database.

If you are following the last post about installing and running MongoDB that I have mention in the beginning of this article you know that we have a peopledb and persons collections in our MongoDB database. Now we are going to read it using the MongoDB Java Driver in our Java application. So lets now create the application.

Create Java A Simple MongoDB Client

  • We create our class under the org.kodejava.example.mongodb package. Right click on this package and choose New, Java Class to create a new class.
  • Type in the class name MongoDBHelloWorld, and press OK button.
  • And this is the full code snippet for the MongoDBHelloWorld class.

  •  If you run this code you will get the following output printed on the screen.

  •  This is the JSON document that we’ve store in our peopledb in the MongoDB database.

The Java class above is our first example of how to use the MongoDB Java Driver to access and read a document from the MongoDB database. I hope this example can be a good start for us to learn more about MongoDB. If you have any question just submit it in the comment section below this article. See you on the next post. Thank you!