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Exception handling allows you to handle exceptional conditions such as program-defined errors in a controlled fashion.
When an exception condition occurs, an exception is thrown. The term thrown means that current program execution stops, and the control is redirected to the nearest
applicable catch clause. If no applicable catch clause exists, then the program”s execution ends.
JDBC Exception handling is very similar to the Java Exception handling but for JDBC, the most common exception you”ll deal with is java.sql.SQLException.
SQLException Methods
An SQLException can occur both in the driver and the database. When such an exception occurs, an object of type SQLException will be passed to the catch clause.
The passed SQLException object has the following methods available for retrieving additional information about the exception −
Method | Description |
---|---|
getErrorCode( ) | Gets the error number associated with the exception. |
getMessage( ) | Gets the JDBC driver”s error message for an error, handled by the driver or gets the Oracle error number and message for a database error. |
getSQLState( ) | Gets the XOPEN SQLstate string. For a JDBC driver error, no useful information is returned from this method. For a database error, the five-digit XOPEN SQLstate code is returned. This method can return null. |
getNextException( ) | Gets the next Exception object in the exception chain. |
printStackTrace( ) | Prints the current exception, or throwable, and it”s backtrace to a standard error stream. |
printStackTrace(PrintStream s) | Prints this throwable and its backtrace to the print stream you specify. |
printStackTrace(PrintWriter w) | Prints this throwable and it”s backtrace to the print writer you specify. |
By utilizing the information available from the Exception object, you can catch an exception and continue your program appropriately. Here is the general form of a try block −
try { // Your risky code goes between these curly braces!!! } catch(Exception ex) { // Your exception handling code goes between these // curly braces } finally { // Your must-always-be-executed code goes between these // curly braces. Like closing database connection. }
Example
Study the following example code to understand the usage of try….catch…finally blocks.
This code has been written based on the environment and database setup done in the previous chapter.
import java.sql.CallableStatement; import java.sql.Connection; import java.sql.DriverManager; import java.sql.SQLException; public class TestApplication { static final String DB_URL = "jdbc:mysql://localhost/TUTORIALSPOINT"; static final String USER = "guest"; static final String PASS = "guest123"; static final String QUERY = "{call getEmpName (?, ?)}"; public static void main(String[] args) { // Open a connection try(Connection conn = DriverManager.getConnection(DB_URL, USER, PASS); CallableStatement stmt = conn.prepareCall(QUERY); ) { // Bind values into the parameters. stmt.setInt(1, 1); // This would set ID // Because second parameter is OUT so register it stmt.registerOutParameter(2, java.sql.Types.VARCHAR); //Use execute method to run stored procedure. System.out.println("Executing stored procedure..." ); stmt.execute(); //Retrieve employee name with getXXX method String empName = stmt.getString(2); System.out.println("Emp Name with ID: 1 is " + empName); } catch (SQLException e) { e.printStackTrace(); } } }
Now let us compile the above example as follows −
C:>javac TestApplication.java C:>
When you run TestApplication, it produces the following result if there is no problem, otherwise the corresponding error would be caught and error message would be displayed −
C:>java TestApplication Executing stored procedure... Emp Name with ID: 1 is Zara C:>
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