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I just set up my first 4 nodes, HadoopDataPlatform 2.0 stack, cluster.

Is there a good "Hello World" program to get started with

  • Hbase ?
  • Pig ?
  • Hive ?

The actual production problem I will eventually solve, is just too complex to even partially reproduce. I am hoping to find some good get-started documents which are slightly deeper that 'http://hbase.apache.org/book/quickstart.html'

I think that Hive and Pig are rival in the food-chain, but we will have to evaluate both for our specific use-cases until zeroing in on one.

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2 Answers 2

up vote 1 down vote accepted

(You are likely to get better response if you share what you'd looked at so far)

Some introductory tutorials on Pig, Hive and Hbase: http://hortonworks.com/hadoop-tutorial/hello-world-an-introduction-to-hadoop-hcatalog-hive-and-pig/#pig http://pig.apache.org/docs/r0.8.1/tutorial.html https://cwiki.apache.org/confluence/display/Hive/Tutorial http://gethue.tumblr.com/post/58181985680/hadoop-tutorial-how-to-create-example-tables-in-hbase

There are good books, Programming Pig by Alan Gates, Programming Hive etc., available too if you'd like to go deeper.

The statement about Pig and Hive being rival in the food chain isn't really true. You can very well use them in conjunction - Pig for working with unstructured data, grouping and data transformation to structured output. Hive QL (which is similar to SQL) can be used to run ad-hoc queries on the structured data output from Pig.

Also, in addition to Pig (which has a custom DSL called Pig Latin), there are several other map reduce abstractions available like Scalding/Scoobi for Scala, or Cascading, Crunch for Java. Being able to program in one language with a good level of abstraction is the benefit you'd get with these.

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I think this answer is a little late for Ajeet, since you posed the question over a year ago, but for others looking for a simple HBase "Hello World" style introduction to the HBase (v1.0) API, here is a new one that has just been posted to Gist.GitHub.com -- https://gist.github.com/dvimont/a7791f61c4ba788fd827

Here is the complete content of the Gist:

 * This brief HELLO WORLD Java program is meant to enable you to very quickly
 * gain a rudimentary, hands-on understanding of how data is stored and 
 * retrieved in HBase.
 * ================
 * For those coming to the HBase world with previous experience in traditional
 * RDBMS databases, it is essential to realize that Tables, Rows, and Columns 
 * in HBase, while bearing some resemblance to their namesakes in the RDBMS 
 * world, differ markedly in their structures and functionality.
 * **Column Families**
 * As you can see in the code below, when you use the Admin#createTable method,
 * besides providing a TableName, you also must specify at least one "Column 
 * Family" (denoted in the code by the class HColumnDescriptor).
 * In HBase, Columns are all grouped by Column Family, with all Columns in a
 * family being physically stored together. Theoretically, you could have a
 * large number of Column Families, but the present HBase architecture
 * actually has a practical limitation of no more than three or four per Table.
 * **Versioning**
 * In the code below, a "maxVersions" value of 3 is assigned to the 
 * Column Family, which means that versioning has been enabled for all Columns
 * in the family: when a Column is updated, the 2 most recent *previous* values
 * for that Column are still retrievable, each designated by a timestamp.
 * These individual versioned instances are sometimes referred to as the Cells
 * of a Column. The retrieval of multiple versions (Cells) of the same Column is 
 * performed below in the #getAndPrintAllCellVersions method.
 * **Columns**
 * It is important to note (in the most striking departure from RDBMS norms) 
 * that Columns themselves are NOT part of the Table definition. Columns are 
 * "defined" on-the-fly as each row is <put> (i.e., inserted/updated) into the 
 * database. There is also NO datatyping of each Column: HBase accepts any
 * byte-array of any length/format you wish to store in any Column. This means 
 * NAMES AND DATATYPES.  In the RDBMS world, the database (i.e., database 
 * administrator) manages column metadata; in the HBase world, the application 
 * (i.e., application designer/programmer) manages column metadata.
 * **Rows**
 * Rows are inserted, accessed, and physically ordered exclusively by Row ID 
 * (the conceptual equivalent of an RDBMS primary key). When a "scan" is
 * performed to access multiple contiguous rows, those rows will always be 
 * returned in Row ID order.
 * ==============================
 * Importantly, your ability to run this code requires that you have successfully
 * installed and started a standalone implementation of HBase on the machine
 * on which this program is to be run. 
 * The recommended steps to take to run this program are:
 *   (1) Install a "standalone" configuration of the current stable release of
 *       HBase on your machine following the instructions provided at:
 *         https://hbase.apache.org/book.html#quickstart
 *       (If you are installing on a Windows machine, it is strongly recommended
 *       that you NOT bother trying to do an installation using the documented
 *       Cygwin option [which has proven to be faulty and is apparently not
 *       kept up-to-date with new releases of HBase], but instead install and 
 *       run a virtual Unix environment [e.g., Ubuntu] in a virtual machine
 *       such as VirtualBox, and install HBase in that environment.)
 *   (2) Copy this code into a new project in your favorite IDE, set up the 
 *       CLASSPATH as documented below, and use this code as your launchpad into
 *       effective utilization of the HBase Client API.  Run and modify this code 
 *       as extensively as you need to in order to build and deepen your 
 *       understanding of how to store and retrieve data (and metadata!) in HBase.
 *       Refer to the HBase javadocs ( https://hbase.apache.org/apidocs/ )
 *       to extend this code and explore functionality not demonstrated in the
 *       code below.
 * This code was developed in coordination with HBase release; 
 * compatibility with subsequent releases is hoped for, but by no means 
 * guaranteed.
 * =========================
 * To fulfill CLASSPATH requirements to compile/run this program:
 *   -- the CLASSPATH must include the directory in which hbase-site.xml (i.e., 
 *      the HBase startup parameters file) is stored for your currently-running 
 *      instance of HBase (e.g., '/usr/local/hbase/hbase-').
 *   -- the CLASSPATH should also include the entire "lib" directory of your 
 *      HBase installation (e.g., '/usr/local/hbase/hbase-*.*").
 * FYI, the following individual JAR files (all of which can be found in the 
 * "lib" directory of the distribution of HBase) were explicitly included 
 * in the CLASSPATH during development of this HELLO WORLD program in the 
 * NetBeans IDE.
 *   commons-codec-1.9.jar
 *   commons-collections-3.2.1.jar
 *   commons-configuration-1.6.jar
 *   commons-lang-2.6.jar
 *   commons-logging-1.2.jar
 *   guava-12.0.1.jar
 *   hadoop-auth-2.5.1.jar
 *   hadoop-common-2.5.1.jar
 *   hbase-client-
 *   hbase-common-
 *   hbase-hadoop-compat-
 *   hbase-protocol-
 *   hbase-server-
 *   htrace-core-3.1.0-incubating.jar
 *   log4j-1.2.17.jar
 *   netty-all-4.0.23.Final.jar
 *   protobuf-java-2.5.0.jar
 *   slf4j-api-1.7.7.jar
 *   slf4j-log4j12-1.7.7.jar
 *   zookeeper-3.4.6.jar
package hellohbase;

import java.io.IOException;
import java.nio.ByteBuffer;
import org.apache.hadoop.hbase.Cell;
import org.apache.hadoop.hbase.HBaseConfiguration;
import org.apache.hadoop.hbase.HColumnDescriptor;
import org.apache.hadoop.hbase.HTableDescriptor;
import org.apache.hadoop.hbase.TableName;
import org.apache.hadoop.hbase.client.Admin;
import org.apache.hadoop.hbase.client.Connection;
import org.apache.hadoop.hbase.client.ConnectionFactory;
import org.apache.hadoop.hbase.client.Get;
import org.apache.hadoop.hbase.client.Table;
import org.apache.hadoop.hbase.client.Put;
import org.apache.hadoop.hbase.client.Result;
import org.apache.hadoop.hbase.client.ResultScanner;
import org.apache.hadoop.hbase.client.Scan;
import org.apache.hadoop.hbase.util.Bytes;

 * @author Daniel Vimont
public class HelloHBase {

    static final TableName MY_TABLE_NAME = TableName.valueOf("myTable");
    static final byte[] MY_COLUMN_FAMILY_NAME = Bytes.toBytes("myColumnFamily");
    static final byte[] MY_FIRST_COLUMN_QUALIFIER = Bytes.toBytes("myFirstColumn");
    static final byte[] MY_SECOND_COLUMN_QUALIFIER = Bytes.toBytes("mySecondColumn");
    static byte[] rowId1 = Bytes.toBytes("rowId01");
    static byte[] rowId2 = Bytes.toBytes("rowId02");

    public static void main(String[] args) throws IOException {
        /** HBaseConfiguration#create automatically looks for hbase-site.xml 
         * (i.e., the HBase startup parameters) on the system's CLASSPATH, to
         * enable the creation of connections to Zookeeper (i.e., the directory 
         * to HBase resources) & HBase. */
       try ( Connection connection 
                    = ConnectionFactory.createConnection(HBaseConfiguration.create()); 
                Admin admin = connection.getAdmin() ) 
            System.out.println("*** Hello HBase! -- Connection has been established!!\n");

            // Create a Table with a Column Family; invoke #setMaxVersions(3) so 
            //   that each Column in the family will retain its 2 most recent past
            //   values (i.e., timestamped versions) in addition to its current value.
            admin.createTable(new HTableDescriptor(MY_TABLE_NAME).
                addFamily(new HColumnDescriptor(MY_COLUMN_FAMILY_NAME).setMaxVersions(3)));

            try (Table table = connection.getTable(MY_TABLE_NAME))
                // <put> (insert) a row into the Table: specify the row's unique ID,
                //   and add two Columns with values "Hello" and " World!".
                table.put(new Put(rowId1).
                        addColumn(MY_COLUMN_FAMILY_NAME, MY_FIRST_COLUMN_QUALIFIER, 
                        addColumn(MY_COLUMN_FAMILY_NAME, MY_SECOND_COLUMN_QUALIFIER, 
                                                            Bytes.toBytes(" World!")) );
                getAndPrintColumnValues(table); // Yes, this will print "Hello World!"

                // Now 'update' the second Column of the same row with another <put>,
                //   which stores a second 'version' of that column (retaining the first).
                table.put(new Put(rowId1).
                        addColumn(MY_COLUMN_FAMILY_NAME, MY_SECOND_COLUMN_QUALIFIER, 
                                                    Bytes.toBytes(" BIG DATA World!")) );

                getAndPrintAllCellVersions(table); // prints *both* versions of second Column

                // Scan the rows of the table. (In this example, there is only one.)
                Scan scan = new Scan();
                try ( ResultScanner results = table.getScanner(scan) ) {
                    for (Result row : results) {
                        System.out.println("\nScan retrieved this row: " 
                                                + Bytes.toString(row.getRow()));

            admin.disableTable(MY_TABLE_NAME); // Must disable before deleting.
            admin.deleteTable(MY_TABLE_NAME); // Deleting the Table makes this code rerunnable.

    static void getAndPrintColumnValues (Table table) throws IOException {
        Result result = table.get(new Get(rowId1));
        byte[] retrievedValue1 
        byte[] retrievedValue2
            (Bytes.toString(retrievedValue1) + Bytes.toString(retrievedValue2));

    static void getAndPrintAllCellVersions (Table table) throws IOException {
        // Invoking the Get#setMaxVersions method assures that ALL versions (i.e., 
        //   all Cells) of each Column will be returned in the Result set.
        Result result = table.get(new Get(rowId1).setMaxVersions());
        System.out.println("\nALL VERSIONS OF ALL CELLS (retrieved using Get#setMaxVersions)");
        for (Cell cell : result.listCells()) {
            System.out.println("  Cell qualifier (name): "
                + Bytes.toStringBinary(ByteBuffer.wrap(cell.getQualifierArray(), 
                    cell.getQualifierOffset(), cell.getQualifierLength()).slice()));
            System.out.println("  Cell timestamp: " + cell.getTimestamp());
            System.out.println("  Cell value: "
                + Bytes.toStringBinary(ByteBuffer.wrap(cell.getValueArray(), 
                    cell.getValueOffset(), cell.getValueLength()).slice())); 
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