An important feature of Blob
, Clob
, and NClob
Java objects is that you can manipulate them without having to bring all of their data from the database server to your client computer. Some implementations represent an instance of these types with a locator (logical pointer) to the object in the database that the instance represents. Because a BLOB
, CLOB
, or NCLOB
SQL object may be very large, the use of locators can make performance significantly faster. However, other implementations fully materialize large objects on the client computer.
If you want to bring the data of a BLOB
, CLOB
, or NCLOB
SQL value to the client computer, use methods in the Blob
, Clob
, and NClob
Java interfaces that are provided for this purpose. These large object type objects materialize the data of the objects they represent as a stream.
The following topics are covered:
The following excerpt from ClobSample.addRowToCoffeeDescriptions
adds a CLOB
SQL value to the table COFFEE_DESCRIPTIONS
. The Clob
Java object myClob
contains the contents of the file specified by fileName
.
public void addRowToCoffeeDescriptions( String coffeeName, String fileName) throws SQLException { PreparedStatement pstmt = null; try { Clob myClob = this.con.createClob(); Writer clobWriter = myClob.setCharacterStream(1); String str = this.readFile( fileName, clobWriter); System.out.println( "Wrote the following: " + clobWriter.toString()); if (this.settings.dbms.equals("mysql")) { System.out.println( "MySQL, setting String in Clob " + "object with setString method"); myClob.setString(1, str); } System.out.println("Length of Clob: " + myClob.length()); String sql = "INSERT INTO COFFEE_DESCRIPTIONS " + "VALUES(?,?)"; pstmt = this.con.prepareStatement(sql); pstmt.setString(1, coffeeName); pstmt.setClob(2, myClob); pstmt.executeUpdate(); } catch (SQLException sqlex) { JDBCTutorialUtilities. printSQLException(sqlex); } catch (Exception ex) { System.out.println("Unexpected exception: " + ex.toString()); } finally { if (pstmt != null)pstmt.close(); } }
The following line creates a Clob
Java object:
Clob myClob = this.con.createClob();
The following line retrieves a stream (in this case a Writer
object named clobWriter
) that is used to write a stream of characters to the Clob
Java object myClob
. The method ClobSample.readFile
writes this stream of characters; the stream is from the file specified by the String
fileName
. The method argument 1
indicates that the Writer
object will start writing the stream of characters at the beginning of the Clob
value:
Writer clobWriter = myClob.setCharacterStream(1);
The ClobSample.readFile
method reads the file line-by-line specified by the file fileName
and writes it to the Writer
object specified by writerArg
:
private String readFile( String fileName, Writer writerArg) throws FileNotFoundException, IOException { BufferedReader br = new BufferedReader( new FileReader(fileName)); String nextLine = ""; StringBuffer sb = new StringBuffer(); while ((nextLine = br.readLine()) != null) { System.out.println("Writing: " + nextLine); writerArg.write(nextLine); sb.append(nextLine); } // Convert the content into to a string String clobData = sb.toString(); // Return the data. return clobData; }
The following excerpt creates a PreparedStatement
object pstmt
that inserts the Clob
Java object myClob
into COFFEE_DESCRIPTIONS
:
PreparedStatement pstmt = null; // ... String sql = "INSERT INTO COFFEE_DESCRIPTIONS VALUES(?,?)"; pstmt = this.con.prepareStatement(sql); pstmt.setString(1, coffeeName); pstmt.setClob(2, myClob); pstmt.executeUpdate();
The method ClobSample.retrieveExcerpt
retrieves the CLOB
SQL value stored in the COF_DESC
column of COFFEE_DESCRIPTIONS
from the row whose column value COF_NAME
is equal to the String
value specified by the coffeeName
parameter:
public String retrieveExcerpt( String coffeeName, int numChar) throws SQLException { String description = null; Clob myClob = null; PreparedStatement pstmt = null; try { String sql = "select COF_DESC " + "from COFFEE_DESCRIPTIONS " + "where COF_NAME = ?"; pstmt = this.con.prepareStatement(sql); pstmt.setString(1, coffeeName); ResultSet rs = pstmt.executeQuery(); if (rs.next()) { myClob = rs.getClob(1); System.out.println( "Length of retrieved Clob: " + myClob.length()); } description = myClob.getSubString(1, numChar); } catch (SQLException sqlex) { JDBCTutorialUtilities. printSQLException(sqlex); } catch (Exception ex) { System.out.println("Unexpected exception: " + ex.toString()); } finally { if (pstmt != null) pstmt.close(); } return description; }
The following line retrieves the Clob
Java value from the ResultSet
object rs
:
myClob = rs.getClob(1);
The following line retrieves a substring from the myClob
object. The substring begins at the first character of the value of myClob
and has up to the number of consecutive characters specified in numChar
, where numChar
is an integer.
description = myClob.getSubString(1, numChar);
Adding and retrieving BLOB
SQL objects is similar to adding and retrieving CLOB
SQL objects. Use the Blob.setBinaryStream
method to retrieve an OutputStream
object to write the BLOB
SQL value that the Blob
Java object (which called the method) represents.
Blob
, Clob
, and NClob
Java objects remain valid for at least the duration of the transaction in which they are created. This could potentially result in an application running out of resources during a long running transaction. Applications may release Blob
, Clob
, and NClob
resources by invoking their free
method.
In the following excerpt, the method Clob.free
is called to release the resources held for a previously created Clob
object:
Clob aClob = con.createClob(); int numWritten = aClob.setString(1, val); aClob.free();