JDBC CS DDL statements with executeUpdate

How to do SQL DDL Statements with the executeUpdate() method existing in the CallableStatement Object?

  1. First you need to Create a Database Connection.
  2. With a DB connection, you must write the SQL statement and let this statement be the parameter to the below specified prepareCall() method.
  3. The SQL statement must do a call to a database stored procedure that do a SQL DDL statement into a database table.
  4. If you have any parametric placeholders for values in your SQL statement, then it is time to set these using the PreparedStatement setXXX() methods.
  5. If any parametric placeholder exists in your SQL statement which can result in an output from the database-stored procedure or function you want to call, then it is time to set the type for these using the CallableStatement registerOutPutParameter() methods. (This could for instance be a repons status after you have executed SQL DDL statement in the databse-stored procedure or function) )
  6. Now you can create a CallableStatment object with the method:
    Methods in Connection interface Description
    CallableStatement prepareCall(String sql) Creates a CallableStatement object for calling database-stored procedures.
  7. With the returned CallableStatement object, you can execute the following method to perform the SQL Update statement:
    Method in CallableStatement interface Description
    int executeUpdate() Executes the SQL procedure call statement in this CallableStatement object. The database procedure must do an SQL Data Manipulation Language (DML) statement, such as INSERT, UPDATE or DELETE; or an SQL statement that returns nothing, such as a DDL statement.
  8. The CallableStatement object will now contain requested database data, which can be retrieved with the getXXX() methods.
    Example of using this method to use SQL DDL statement:
    import java.sql.Connection;
    import java.sql.DriverManager;
    import java.sql.ResultSet;
    import java.sql.SQLException;
    import java.sql.CallableStatement;
    
    public class SQLAlter {
    
     public static void main(String[] args) {
      Connection conn = null;
      CallableStatement stmt = null;
      try {
       // Register a driver for the MySQL database
       Class.forName("com.mysql.jdbc.Driver");
       // Create a url for accessing the MySQL
       // database CarDB
       String url = "jdbc:mysql://localhost:3306/CarDB";
       // user and password to access the database
       String username = "root";
       String password = "root";
       // User the DriverManager to get a Connection to the database
       conn = DriverManager.getConnection(url, username, password);
       /* --- USING DB Defined PROCEDURE: UpdateCarRental() ------
    DELIMITER $$
    DROP PROCEDURE IF EXISTS `cardb`.`UpdateCarRental`$$
    CREATE DEFINER=`root`@`localhost`
    PROCEDURE `UpdateCarRental`()
    BEGIN
    ALTER TABLE CARRENTAL ADD COLUMN TotalCost numeric;
    COMMIT;
    Update CARRENTAL r set TotalCost=RENTALDAYS*
           (Select c.dayPrice from CARPARK c where c.RegNO=r.RegNO);
    END$$
    DELIMITER ;
       -------------------------------------------------- */
       // Create a  CallableStatement with a SQL that
       // add a Column, TotalCost,
       // to the CARRENTAL Table
       // Updates the new Column, TotalCost,
       // to be the cost for each rental of the cars.
       stmt = conn.prepareCall("{ call UpdateCarRental() }");
       // Use the SQL to update database with the executeUpdate()
       // method in the CallableStatement
       stmt.executeUpdate();
       /* --- USING DB Defined PROCEDURE: getCarRental() ------
    DELIMITER $$
    DROP PROCEDURE IF EXISTS `cardb`.`getCarRental`$$
    CREATE DEFINER=`root`@`localhost`
    PROCEDURE `getCarRental`(IN pId varchar(5))
    BEGIN
       select * from Carpark c,
              CARRENTAL r where c.REGNO=r.REGNO
              AND r.CARRENTAL_ID LIKE pId;
     END$$
    DELIMITER ;
       -------------------------------------------------- */
       // Create a  CallableStatement with a SQL that
       // returns
       // all the columns  from the dB table Carpark and CarRental
       stmt = conn.prepareCall("{ call getCarRental('%') }");
       ResultSet resultSet = stmt.executeQuery();
       // As cursor is at the before first row position
       // we use the next() method to
       // test and read the first row in the ResultSet.
       if (resultSet.next()) {
        // Then we ese a loop to retrieve rows and column data
        // and creates a html coded table output
        System.out.println("<table border='1' >");
        System.out.println("<tr>");
        System.out.print("<th>regNo</th>");
        System.out.println("<th>cartype</th>");
        System.out.println("<th>model</th>");
        System.out.println("<th>day<br/>Price</th>");
        System.out.println("<th>Cost</th>");
        System.out.println("</tr>");
        do {
         System.out.println("<tr>");
         System.out.print("<td>" + resultSet.getString("regNo") + "</td>");
         System.out.println("<td>" + resultSet.getString("cartype") + "</td>");
         System.out.println("<td>" + resultSet.getInt("model") + "</td>");
         System.out.println("<td>" + resultSet.getDouble("dayPrice") + "</td>");
         System.out.println("<td>" + resultSet.getDouble("TotalCost") + "</td>");
         System.out.println("</tr>");
        } while (resultSet.next());
        System.out.println("</table>");
       }
      } catch (ClassNotFoundException ex) {
       ex.printStackTrace();
      } catch (SQLException e) {
       e.printStackTrace();
      } finally {
       try {
        // Close the Statement, which also close the ResultSet
        stmt.close();
        conn.close();
       } catch (Exception xe) {
        xe.printStackTrace();
       }
      }
     }
    }

    You should use the close() method in the Statement object when you do not need it anymore.

    You should also use the close() method in the Connection object when you do not need it anymore.

    You can download this example here (needed tools can be found in the right menu on this page).

    If we run this application the result should be:
    As pure output Translated by a Browser
    <table border='1' >
    <tr>
    <th>regNo</th><th>cartype</th>
    <th>model</th>
    <th>day<br/>Price</th>
    <th>Cost</th>
    </tr>
    <tr>
    <td>DE12345</td><td>AUDI</td>
    <td>2003</td>
    <td>250.0</td>
    <td>1250.0</td>
    </tr>
    <tr>
    <td>DE12345</td><td>AUDI</td>
    <td>2003</td>
    <td>250.0</td>
    <td>750.0</td>
    </tr>
    <tr>
    <td>RE23456</td><td>FORD</td>
    <td>2005</td>
    <td>350.0</td>
    <td>2450.0</td>
    </tr>
    <tr>
    <td>RE23456</td><td>FORD</td>
    <td>2005</td>
    <td>350.0</td>
    <td>1750.0</td>
    </tr>
    <tr>
    <td>CE23473</td><td>AUDI</td>
    <td>2001</td>
    <td>400.0</td>
    <td>1600.0</td>
    </tr>
    <tr>
    <td>DE34562</td><td>OPEL</td>
    <td>2001</td>
    <td>340.0</td>
    <td>1020.0</td>
    </tr>
    <tr>
    <td>DE34562</td><td>OPEL</td>
    <td>2001</td>
    <td>340.0</td>
    <td>1700.0</td>
    </tr>
    </table>
    
    regNocartypemodel day
    Price
    Cost
    DE12345AUDI2003 250.0 1250.0
    DE12345AUDI2003 250.0 750.0
    RE23456FORD2005 350.0 2450.0
    RE23456FORD2005 350.0 1750.0
    CE23473AUDI2001 400.0 1600.0
    DE34562OPEL2001 340.0 1020.0
    DE34562OPEL2001 340.0 1700.0

© 2010 by Finnesand Data. All rights reserved.
This site aims to provide FREE programming training and technics.
Finnesand Data as site owner gives no warranty for the correctness in the pages or source codes.
The risk of using this web-site pages or any program codes from this website is entirely at the individual user.