Oracle® Database JDBC Developer's Guide 11g Release 2 (11.2) E16548-03 |
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This chapter contains the following sections:
A RowSet is an object that encapsulates a set of rows from either java Database Connectivity (JDBC) result sets or tabular data sources. RowSets support component-based development models like JavaBeans, with a standard set of properties and an event notification mechanism.
RowSets were introduced in JDBC 2.0 through the optional packages. However, the implementation of RowSets was standardized in the JDBC RowSet Implementations Specification (JSR-114), which is available as non-optional package since Java Platform, Standard Edition (Java SE) 5.0. Java SE 6.0 RowSets contain more APIs supporting features like RowId, National Language Charactersets, and so on. The Java SE Javadocs provide information about the standard interfaces and base classes for JDBC RowSet implementations.
See Also:
JSR-114 specification at: http://jcp.org/en/jsr/detail?id=114
Java SE 5.0 Javadoc at: http://download.oracle.com/javase/1.5.0/docs/api/
Java SE 6.0 Javadoc at: http://download.oracle.com/javase/6/docs/api/
Note:
In case of any conflict, the JSR-114 specification takes precedence over the JDK 5.0 Javadoc.The JSR-114 specification includes implementation details for five types of RowSet:
CachedRowSet
JdbcRowSet
WebRowSet
FilteredRowSet
JoinRowSet
Oracle JDBC supports all five types of RowSets through the interfaces and classes present in the oracle.jdbc.rowset
package. Since Oracle Database 11g Release 1 (11.1), RowSets support has been added in the server-side drivers. Therefore, starting from Oracle Database 11g Release 1 (11.1), RowSets support is uniform across all Oracle JDBC driver types. The standard Oracle JDBC Java Archive (JAR) files, for example, ojdbc5.jar
and ojdbc6.jar
contain the oracle.jdbc.rowset
package.
Note:
The other JAR files with different file suffix names, for example, ojdbc5_g.jar
, ojdbc5dms.jar
, and so on also contain the oracle.jdbc.rowset
package.
In Oracle Database 10g release 2 (10.2), the implementation classes were packaged in the ojdbc14.jar
file.
Prior to Oracle Database 10g release 2 (10.2), the implementation classes were packaged in the ocrs12.jar
file.
Prior to Oracle Database 11g Release 1 (11.1), RowSets support was not available in the server-side drivers.
To use the Oracle RowSet implementations, you need to import either the entire oracle.jdbc.rowset
package or specific classes and interfaces from the package for the required RowSet type. For client-side usage, you also need to include the standard Oracle JAR files like ojdbc5.jar
or ojdbc6.jar
in the CLASSPATH
environment variable.
See Also:
"Check the Environment Variables" for information about setting theCLASSPATH
environment variable.This section covers the following topics:
The javax.sql.RowSet
interface provides a set of JavaBeans properties that can be altered to access the data in the data source through a single interface. Example of properties are connection string, user name, password, type of connection, and the query string.
For a complete list of properties and property descriptions, refer to the Java2 Platform, Standard Edition (J2SE) Javadoc for javax.sql.RowSet
at http://download.oracle.com/javase/1.5.0/docs/api/javax/sql/RowSet.html
The interface provides standard accessor methods for setting and retrieving the property values. The following code illustrates setting some of the RowSet
properties:
... rowset.setUrl("jdbc:oracle:oci:@"); rowset.setUsername("SCOTT"); rowset.setPassword("TIGER"); rowset.setCommand("SELECT empno, ename, sal FROM emp"); ...
In this example, the URL, user name, password, and SQL query are set as the RowSet
properties to retrieve the employee number, employee name, and salary of all the employees into the RowSet
object.
RowSets support JavaBeans events. The following types of events are supported by the RowSet
interface:
cursorMoved
This event is generated whenever there is a cursor movement. For example, when the next
or previous
method is called.
rowChanged
This event is generated when a row is inserted, updated, or deleted from the RowSet.
rowSetChanged
This event is generated when the whole RowSet is created or changed. For example, when the execute
method is called.
An application component can implement a RowSet listener to listen to these RowSet events and perform desired operations when the event occurs. Application components, which are interested in these events, must implement the standard javax.sql.RowSetListener
interface and register such listener objects with a RowSet
object. A listener can be registered using the RowSet.addRowSetListener
method and unregistered using the RowSet.removeRowSetListener
method. Multiple listeners can be registered with the same RowSet
object.
The following code illustrates the registration of a RowSet listener:
... MyRowSetListener rowsetListener = new MyRowSetListener (); // adding a rowset listener rowset.addRowSetListener (rowsetListener); ...
The following code illustrates a listener implementation:
public class MyRowSetListener implements RowSetListener { public void cursorMoved(RowSetEvent event) { // action on cursor movement } public void rowChanged(RowSetEvent event) { // action on change of row } public void rowSetChanged(RowSetEvent event) { // action on changing of rowset } }// end of class MyRowSetListener
Applications that need to handle only selected events can implement only the required event handling methods by using the oracle.jdbc.rowset.OracleRowSetListenerAdapter
class, which is an abstract class with empty implementation for all the event handling methods. In the following code, only the rowSetChanged
event is handled, while the remaining events are not handled by the application:
... rowset.addRowSetListener(new oracle.jdbc.rowset.OracleRowSetListenerAdapter () { public void rowSetChanged(RowSetEvent event) { // your action for rowSetChanged } } ); ...
The command
property of a RowSet
object typically represents a SQL query string, which when processed would populate the RowSet
object with actual data. Like in regular JDBC processing, this query string can take input or bind parameters. The javax.sql.RowSet
interface also provides methods for setting input parameters to this SQL query. After the required input parameters are set, the SQL query can be processed to populate the RowSet
object with data from the underlying data source. The following code illustrates this simple sequence:
... rowset.setCommand("SELECT ename, sal FROM emp WHERE empno = ?"); // setting the employee number input parameter for employee named "KING" rowset.setInt(1, 7839); rowset.execute(); ...
In the preceding example, the employee number 7839 is set as the input or bind parameter for the SQL query specified in the command
property of the RowSet
object. When the SQL query is processed, the RowSet
object is filled with the employee name and salary information of the employee whose employee number is 7839.
The javax.sql.RowSet
interface extends the java.sql.ResultSet
interface. The RowSet
interface, therefore, provides cursor movement and positioning methods, which are inherited from the ResultSet
interface, for traversing through data in a RowSet
object. Some of the inherited methods are absolute
, beforeFirst
, afterLast
, next
, and previous
.
The RowSet
interface can be used just like a ResultSet
interface for retrieving and updating data. The RowSet
interface provides an optional way to implement a scrollable and updatable result set. All the fields and methods provided by the ResultSet
interface are implemented in RowSet
.
Note:
The Oracle implementation ofResultSet
provides the scrollable and updatable properties of the java.sql.ResultSet
interface.The following code illustrates how to scroll through a RowSet:
/** * Scrolling forward, and printing the empno in * the order in which it was fetched. */ ... rowset.setCommand("SELECT empno, ename, sal FROM emp"); rowset.execute(); ... // going to the first row of the rowset rowset.beforeFirst (); while (rowset.next ()) System.out.println ("empno: " +rowset.getInt (1));
In the preceding code, the cursor position is initialized to the position before the first row of the RowSet by the beforeFirst
method. The rows are retrieved in forward direction using the next
method.
The following code illustrates how to scroll through a RowSet in the reverse direction:
/** * Scrolling backward, and printing the empno in * the reverse order as it was fetched. */ //going to the last row of the rowset rowset.afterLast (); while (rowset.previous ()) System.out.println ("empno: " +rowset.getInt (1));
In the preceding code, the cursor position is initialized to the position after the last row of the RowSet
. The rows are retrieved in reverse direction using the previous
method of RowSet
.
Inserting, updating, and deleting rows are supported by the Row Set feature as they are in the Result Set feature. In order to make the Row Set updatable, you must call the setReadOnly(false)
and acceptChanges
methods.
The following code illustrates the insertion of a row at the fifth position of a Row Set:
... /** * Make rowset updatable */ rowset.setReadOnly (false); /** * Inserting a row in the 5th position of the rowset. */ // moving the cursor to the 5th position in the rowset if (rowset.absolute(5)) { rowset.moveToInsertRow (); rowset.updateInt (1, 193); rowset.updateString (2, "Ashok"); rowset.updateInt (3, 7200); // inserting a row in the rowset rowset.insertRow (); // Synchronizing the data in RowSet with that in the database. rowset.acceptChanges (); } ...
In the preceding code, a call to the absolute
method with a parameter 5
takes the cursor to the fifth position of the RowSet and a call to the moveToInsertRow
method creates a place for the insertion of a new row into the RowSet. The update
XXX
methods are used to update the newly created row. When all the columns of the row are updated, the insertRow
is called to update the RowSet. The changes are committed through acceptChanges
method.
A CachedRowSet is a RowSet in which the rows are cached and the RowSet is disconnected, that is, it does not maintain an active connection to the database. The oracle.jdbc.rowset.OracleCachedRowSet
class is the Oracle implementation of CachedRowSet. It can interoperate with the reference implementation of Sun Microsystems. The OracleCachedRowSet
class in the ojdbc5.jar
and ojdbc6.jar
files implements the standard JSR-114 interface javax.sql.rowset.CachedRowSet
.
In the following code, an OracleCachedRowSet
object is created and the connection URL, user name, password, and the SQL query for the RowSet
object is set as properties. The RowSet
object is populated using the execute
method. After the execute
method has been processed, the RowSet
object can be used as a java.sql.ResultSet
object to retrieve, scroll, insert, delete, or update data.
... RowSet rowset = new OracleCachedRowSet(); rowset.setUrl("jdbc:oracle:oci:@"); rowset.setUsername("SCOTT"); rowset.setPassword("TIGER"); rowset.setCommand("SELECT empno, ename, sal FROM emp"); rowset.execute(); while (rowset.next ()) { System.out.println("empno: " +rowset.getInt (1)); System.out.println("ename: " +rowset.getString (2)); System.out.println("sal: " +rowset.getInt (3)); } ...
To populate a CachedRowSet
object with a query, complete the following steps:
Instantiate OracleCachedRowSet
.
Set the Url
, which is the connection URL, Username
, Password
, and Command
, which is the query string, properties for the RowSet
object. You can also set the connection type, but it is optional.
Call the execute
method to populate the CachedRowSet
object. Calling execute
runs the query set as a property on this RowSet.
OracleCachedRowSet rowset = new OracleCachedRowSet (); rowset.setUrl ("jdbc:oracle:oci:@"); rowset.setUsername ("SCOTT"); rowset.setPassword ("TIGER"); rowset.setCommand ("SELECT empno, ename, sal FROM emp"); rowset.execute ();
A CachedRowSet
object can be populated with an existing ResultSet
object, using the populate
method. To do so, complete the following steps:
Instantiate OracleCachedRowSet
.
Pass the already available ResultSet
object to the populate
method to populate the RowSet
object.
// Executing a query to get the ResultSet object. ResultSet rset = pstmt.executeQuery (); OracleCachedRowSet rowset = new OracleCachedRowSet (); // the obtained ResultSet object is passed to the populate method // to populate the data in the rowset object. rowset.populate (rset);
In the preceding example, a ResultSet
object is obtained by running a query and the retrieved ResultSet
object is passed to the populate
method of the CachedRowSet
object to populate the contents of the result set into the CachedRowSet.
Note:
Connection properties, like transaction isolation or the concurrency mode of the result set, and the bind properties cannot be set in the case where a pre-existentResultSet
object is used to populate the CachedRowSet
object, because the connection or result set on which the property applies would have already been created.The following code illustrates how an OracleCachedRowSet
object is serialized to a file and then retrieved:
// writing the serialized OracleCachedRowSet object { FileOutputStream fileOutputStream = new FileOutputStream("emp_tab.dmp"); ObjectOutputStream ostream = new ObjectOutputStream(fileOutputStream); ostream.writeObject(rowset); ostream.close(); fileOutputStream.close(); } // reading the serialized OracleCachedRowSet object { FileInputStream fileInputStream = new FileInputStream("emp_tab.dmp"); ObjectInputStream istream = new ObjectInputStream(fileInputStream); RowSet rowset1 = (RowSet) istream.readObject(); istream.close(); fileInputStream.close(); }
In the preceding code, a FileOutputStream
object is opened for an emp_tab.dmp
file, and the populated OracleCachedRowSet
object is written to the file using ObjectOutputStream
. The serialized OracleCachedRowSet
object is retrieved using the FileInputStream
and ObjectInputStream
objects.
OracleCachedRowSet
takes care of the serialization of non-serializable form of data like InputStream
, OutputStream
, binary large objects (BLOBs), and character large objects (CLOBs). OracleCachedRowSets
also implements metadata of its own, which could be obtained without any extra server round-trip. The following code illustrates how you can obtain metadata for the RowSet:
... ResultSetMetaData metaData = rowset.getMetaData(); int maxCol = metaData.getColumnCount(); for (int i = 1; i <= maxCol; ++i) System.out.println("Column (" + i +") " + metaData.getColumnName(i)); ...
Because the OracleCachedRowSet
class is serializable, it can be passed across a network or between Java Virtual Machines (JVMs), as done in Remote Method Invocation (RMI). Once the OracleCachedRowSet
class is populated, it can move around any JVM, or any environment that does not have JDBC drivers. Committing the data in the RowSet requires the presence of JDBC drivers.
The complete process of retrieving the data and populating it in the OracleCachedRowSet
class is performed on the server and the populated RowSet is passed on to the client using suitable architectures like RMI or Enterprise Java Beans (EJB). The client would be able to perform all the operations like retrieving, scrolling, inserting, updating, and deleting on the RowSet without any connection to the database. Whenever data is committed to the database, the acceptChanges
method is called, which synchronizes the data in the RowSet to that in the database. This method makes use of JDBC drivers, which require the JVM environment to contain JDBC implementation. This architecture would be suitable for systems involving a Thin client like a Personal Digital Assistant (PDA).
After populating the CachedRowSet
object, it can be used as a ResultSet
object or any other object, which can be passed over the network using RMI or any other suitable architecture.
Some of the other key-features of CachedRowSet are the following:
Cloning a RowSet
Creating a copy of a RowSet
Creating a shared copy of a RowSet
All the constraints that apply to an updatable result set are applicable here, except serialization, because OracleCachedRowSet
is serializable. The SQL query has the following constraints:
References only a single table in the database
Contains no join operations
Selects the primary key of the table it references
In addition, a SQL query should also satisfy the following conditions, if new rows are to be inserted:
Selects all non-nullable columns in the underlying table
Selects all columns that do not have a default value
Note:
TheCachedRowSet
cannot hold a large quantity of data, because all the data is cached in memory. Oracle, therefore, recommends against using OracleCachedRowSet
with queries that could potentially return a large volume of data.Connection properties like, transaction isolation and concurrency mode of the result set, cannot be set after populating the RowSet, because the properties cannot be applied to the connection after retrieving the data from the same.
A JdbcRowSet is a RowSet that wraps around a ResultSet
object. It is a connected RowSet that provides JDBC interfaces in the form of a JavaBean interface. The Oracle implementation of JdbcRowSet is oracle.jdbc.rowset.OracleJDBCRowSet
. The OracleJDBCRowSet
class in ojdbc5.jar
and ojdbc6.jar
implements the standard JSR-114 interface javax.sql.rowset.JdbcRowSet
.
Table 18-1 shows how the JdbcRowSet
interface differs from CachedRowSet
interface.
Table 18-1 The JDBC and Cached Row Sets Compared
RowSet Type | Serializable | Connected to Database | Movable Across JVMs | Synchronization of data to database | Presence of JDBC Drivers |
---|---|---|---|---|---|
JDBC |
Yes |
Yes |
No |
No |
Yes |
Cached |
Yes |
No |
Yes |
Yes |
No |
JdbcRowSet is a connected RowSet, which has a live connection to the database and all the calls on the JdbcRowSet are percolated to the mapping call in the JDBC connection, statement, or result set. A CachedRowSet does not have any connection to the database open.
JdbcRowSet requires the presence of JDBC drivers unlike a CachedRowSet, which does not require JDBC drivers during manipulation. However, both JdbcRowSet and CachedRowSet require JDBC drivers during population of the RowSet and while committing the changes of the RowSet.
The following code illustrates how a JdbcRowSet is used:
... RowSet rowset = new OracleJDBCRowSet(); rowset.setUrl("java:oracle:oci:@"); rowset.setUsername("SCOTT"); rowset.setPassword("TIGER"); rowset.setCommand("SELECT empno, ename, sal FROM emp"); rowset.execute(); while (rowset.next()) { System.out.println("empno: " + rowset.getInt(1)); System.out.println("ename: " + rowset.getString(2)); System.out.println("sal: " + rowset.getInt(3)); } ...
In the preceding example, the connection URL, user name, password, and SQL query are set as properties of the RowSet
object, the SQL query is processed using the execute
method, and the rows are retrieved and printed by traversing through the data populated in the RowSet
object.
A WebRowSet is an extension to CachedRowSet. It represents a set of fetched rows or tabular data that can be passed between tiers and components in a way such that no active connections with the data source need to be maintained. The WebRowSet
interface provides support for the production and consumption of result sets and their synchronization with the data source, both in Extensible Markup Language (XML) format and in disconnected fashion. This allows result sets to be shipped across tiers and over Internet protocols.
The Oracle implementation of WebRowSet is oracle.jdbc.rowset.OracleWebRowSet
. This class, which is in the ojdbc5.jar
and ojdbc6.jar
files, implements the standard JSR-114 interface javax.sql.rowset.WebRowSet
. This class also extends the oracle.jdbc.rowset.OracleCachedRowSet
class. Besides the methods available in OracleCachedRowSet
, the OracleWebRowSet
class provides the following methods:
public OracleWebRowSet() throws SQLException
This is the constructor for creating an OracleWebRowSet
object, which is initialized with the default values for an OracleCachedRowSet
object, a default OracleWebRowSetXmlReader
, and a default OracleWebRowSetXmlWriter
.
public void writeXml(java.io.Writer writer) throws SQLException public void writeXml(java.io.OutputStream ostream) throws SQLException
These methods write the OracleWebRowSet
object to the supplied Writer
or OutputStream
object in the XML format that conforms to the JSR-114 XML schema. In addition to the RowSet data, the properties and metadata of the RowSet are written.
public void writeXml(ResultSet rset, java.io.Writer writer) throws SQLException public void writeXml(ResultSet rset, java.io.OutputStream ostream) throws SQLException
These methods create an OracleWebRowSet
object, populate it with the data in the given ResultSet
object, and write it to the supplied Writer
or OutputStream
object in the XML format that conforms to the JSR-114 XML schema.
public void readXml(java.io.Reader reader) throws SQLException public void readXml(java.io.InputStream istream) throws SQLException
These methods read the OracleWebRowSet
object in the XML format according to its JSR-114 XML schema, using the supplied Reader
or InsputStream
object.
The Oracle WebRowSet implementation supports Java API for XML Processing (JAXP) 1.2. Both Simple API for XML (SAX) 2.0 and Document Object Model (DOM) JAXP-conforming XML parsers are supported. It follows the current JSR-114 W3C XML schema for WebRowSet from: http://java.sun.com/xml/ns/jdbc/webrowset.xsd
See Also:
JSR-114 specification at: http://jcp.org/en/jsr/detail?id=114
Java SE 5.0 Javadoc at: http://download.oracle.com/javase/1.5.0/docs/api/
Java SE 6.0 Javadoc at: http://download.oracle.com/javase/6/docs/api/
Applications that use the readXml(...)
methods should set one of the following two standard JAXP system properties before calling the methods:
javax.xml.parsers.SAXParserFactory
This property is for a SAX parser.
javax.xml.parsers.DocumentBuilderFactory
This property is for a DOM parser.
The following code illustrates the use of OracleWebRowSet
for both writing and reading in XML format:
import java.sql.*; import java.io.*; import oracle.jdbc.rowset.*; ... String url = "jdbc:oracle:oci8:@"; Connection conn = DriverManager.getConnection(url,"scott","tiger"); Statement stmt = conn.createStatement(); ResultSet rset = stmt.executeQuery("select * from emp"); // Create an OracleWebRowSet object and populate it with the ResultSet object OracleWebRowSet wset = new OracleWebRowSet(); wset.populate(rset); try { // Create a java.io.Writer object FileWriter out = new FileWriter("xml.out"); // Now generate the XML and write it out wset.writeXml(out); } catch (IOException exc) { System.out.println("Couldn't construct a FileWriter"); } System.out.println("XML output file generated."); // Create a new OracleWebRowSet for reading from XML input OracleWebRowSet wset2 = new OracleWebRowSet(); // Use Oracle JAXP SAX parser System.setProperty("javax.xml.parsers.SAXParserFactory","oracle.xml.jaxp.JXSAXParserFactory"); try { // Use the preceding output file as input FileReader fr = new FileReader("xml.out"); // Now read XML stream from the FileReader wset2.readXml(fr); } catch (IOException exc) { System.out.println("Couldn't construct a FileReader"); } ...
Note:
The preceding code uses the Oracle SAX XML parser, which supports schema validation.A FilteredRowSet is an extension to WebRowSet that provides programmatic support for filtering its content. This enables you to avoid the overhead of supplying a query and the processing involved. The Oracle implementation of FilteredRowSet is oracle.jdbc.rowset.OracleFilteredRowSet
. The OracleFilteredRowSet
class in the ojdbc5.jar
and ojdbc6.jar
files implements the standard JSR-114 interface javax.sql.rowset.FilteredRowSet
.
The OracleFilteredRowSet
class defines the following new methods:
public Predicate getFilter();
This method returns a Predicate
object that defines the filtering criteria active on the OracleFilteredRowSet
object.
public void setFilter(Predicate p) throws SQLException;
This method takes a Predicate
object as a parameter. The Predicate
object defines the filtering criteria to be applied on the OracleFilteredRowSet
object. The methods throws a SQLException
exception.
The predicate set on an OracleFilteredRowSet
object defines a filtering criteria that is applied to all the rows in the object to obtain the set of visible rows. The predicate also defines the criteria for inserting, deleting, and modifying rows. The set filtering criteria acts as a gating mechanism for all views and updates to the OracleFilteredRowSet
object. Any attempt to update the OracleFilteredRowSet
object, which violates the filtering criteria, throws a SQLException
exception.
The filtering criteria set on an OracleFilteredRowSet
object can be modified by applying a new Predicate
object. The new criteria is immediately applied on the object, and all further views and updates must adhere to this new criteria. A new filtering criteria can be applied only if there are no reference to the OracleFilteredRowSet
object.
Rows that fall outside of the filtering criteria set on the object cannot be modified until the filtering criteria is removed or a new filtering criteria is applied. Also, only the rows that fall within the bounds of the filtering criteria will be synchronized with the data source, if an attempt is made to persist the object.
The following code example illustrates the use of OracleFilteredRowSet. Assume a table, test_table
, with two NUMBER
columns, col1
and col2
. The code retrieves those rows from the table that have value of col1
between 50
and 100
and value of col2
between 100
and 200
.
The predicate defining the filtering criteria is as follows:
public class PredicateImpl implements Predicate { private int low[]; private int high[]; private int columnIndexes[]; public PredicateImpl(int[] lo, int[] hi, int[] indexes) { low = lo; high = hi; columnIndexes = indexes; } public boolean evaluate(RowSet rs) { boolean result = true; for (int i = 0; i < columnIndexes.length; i++) { int columnValue = rs.getInt(columnIndexes[i]); if (columnValue < low[i] || columnValue > high[i]) result = false; } return result; } // the other two evaluate(...) methods simply return true }
The predicate defined in the preceding code is used for filtering content in an OracleFilteredRowSet
object, as follows:
... OracleFilteredRowSet ofrs = new OracleFilteredRowSet(); int low[] = {50, 100}; int high[] = {100, 200}; int indexes[] = {1, 2}; ofrs.setCommand("select col1, col2 from test_table"); // set other properties on ofrs like usr/pwd ... ... ofrs.execute(); ofrs.setPredicate(new PredicateImpl(low, high, indexes)); // this will only get rows with col1 in (50,100) and col2 in (100,200) while (ofrs.next()) {...} ...
A JoinRowSet is an extension to WebRowSet that consists of related data from different RowSets. There is no standard way to establish a SQL JOIN
between disconnected RowSets without connecting to the data source. A JoinRowSet addresses this issue. The Oracle implementation of JoinRowSet is the oracle.jdbc.rowset.OracleJoinRowSet
class. This class, which is in the ojdbc5.jar
and ojdbc6.jar
files, implements the standard JSR-114 interface javax.sql.rowset.JoinRowSet
.
Any number of RowSet
objects, which implement the Joinable
interface, can be added to a JoinRowSet
object, provided they can be related in a SQL JOIN
. All five types of RowSet support the Joinable
interface. The Joinable
interface provides methods for specifying the columns based on which the JOIN
will be performed, that is, the match columns.
A match column can be specified in the following ways:
Using the setMatchColumn
method
This method is defined in the Joinable
interface. It is the only method that can be used to set the match column before a RowSet
object is added to a JoinRowSet
object. This method can also be used to reset the match column at any time.
Using the addRowSet
method
This is an overloaded method in JoinRowSet
. Four of the five implementations of this method take a match column as a parameter. These four methods can be used to set or reset a match column at the time a RowSet
object is being added to a JoinRowSet
object.
In addition to the inherited methods, OracleJoinRowSet
provides the following methods:
public void addRowSet(Joinable joinable) throws SQLException; public void addRowSet(RowSet rowSet, int i) throws SQLException; public void addRowSet(RowSet rowSet, String s) throws SQLException; public void addRowSet(RowSet arowSet[], int an[]) throws SQLException; public void addRowSet(RowSet arowSet[], String as[]) throws SQLException;
These methods are used to add a RowSet
object to the OracleJoinRowSet
object. You can pass one or more RowSet
objects to be added to the OracleJoinRowSet
object. You can also pass names or indexes of one or more columns, which need to be set as match column.
public Collection getRowSets() throws SQLException;
This method retrieves the RowSet
objects added to the OracleJoinRowSet
object. The method returns a java.util.Collection
object that contains the RowSet
objects.
public String[] getRowSetNames() throws SQLException;
This method returns a String array containing the names of the RowSet
objects that are added to the OracleJoinRowSet
object.
public boolean supportsCrossJoin(); public boolean supportsFullJoin(); public boolean supportsInnerJoin(); public boolean supportsLeftOuterJoin(); public boolean supportsRightOuterJoin();
These methods return a boolean value indicating whether the OracleJoinRowSet
object supports the corresponding JOIN
type.
public void setJoinType(int i) throws SQLException;
This method is used to set the JOIN
type on the OracleJoinRowSet
object. It takes an integer constant as defined in the javax.sql.rowset.JoinRowSet
interface that specifies the JOIN
type.
public int getJoinType() throws SQLException;
This method returns an integer value that indicates the JOIN
type set on the OracleJoinRowSet
object. This method throws a SQLException
exception.
public CachedRowSet toCachedRowSet() throws SQLException;
This method creates a CachedRowSet
object containing the data in the OracleJoinRowSet
object.
public String getWhereClause() throws SQLException;
This method returns a String containing the SQL-like description of the WHERE
clause used in the OracleJoinRowSet
object. This methods throws a SQLException
exception.
The following code illustrates how OracleJoinRowSet
is used to perform an inner join on two RowSets, whose data come from two different tables. The resulting RowSet contains data as if they were the result of an inner join on these two tables. Assume that there are two tables, an Order
table with two NUMBER
columns Order_id
and Person_id
, and a Person
table with a NUMBER
column Person_id
and a VARCHAR2
column Name
.
... // RowSet holding data from table Order OracleCachedRowSet ocrsOrder = new OracleCachedRowSet(); ... ocrsOrder.setCommand("select order_id, person_id from order"); ... // Join on person_id column ocrsOrder.setMatchColumn(2); ocrsOrder.execute(); // Creating the JoinRowSet OracleJoinRowSet ojrs = new OracleJoinRowSet(); ojrs.addRowSet(ocrsOrder); // RowSet holding data from table Person OracleCachedRowSet ocrsPerson = new OracleCachedRowSet(); ... ocrsPerson.setCommand("select person_id, name from person"); ... // do not set match column on this RowSet using setMatchColumn(). //use addRowSet() to set match column ocrsPerson.execute(); // Join on person_id column, in another way ojrs.addRowSet(ocrsPerson, 1); // now we can go the JoinRowSet as usual ojrs.beforeFirst(); while (ojrs.next()) System.out.println("order id = " + ojrs.getInt(1) + ", " + "person id = " + ojrs.getInt(2) + ", " + "person's name = " + ojrs.getString(3)); ...