A JDBC RowSet
object holds tabular data in a way that makes it more flexible and easier to use than a result set.
Oracle has defined five RowSet
interfaces for some of the more popular uses of a RowSet
, and standard reference are available for these RowSet
interfaces. In this tutorial you will learn how to use these reference implementations.
These versions of the RowSet
interface and their implementations have been provided as a convenience for programmers. Programmers are free to write their own versions of the javax.sql.RowSet
interface, to extend the implementations of the five RowSet
interfaces, or to write their own implementations. However, many programmers will probably find that the standard reference implementations already fit their needs and will use them as is.
This section introduces you to the RowSet
interface and the following interfaces that extend this interface:
JdbcRowSet
CachedRowSet
WebRowSet
JoinRowSet
FilteredRowSet
The following topics are covered:
All RowSet
objects are derived from the ResultSet
interface and therefore share its capabilities. What makes JDBC RowSet
objects special is that they add these new capabilities:
All RowSet
objects are JavaBeans components. This means that they have the following:
All RowSet
objects have properties. A property is a field that has corresponding getter and setter methods. Properties are exposed to builder tools (such as those that come with the IDEs JDveloper and Eclipse) that enable you to visually manipulate beans. For more information, see the
Properties lesson in the
JavaBeans trail.
RowSet
objects use the JavaBeans event model, in which registered components are notified when certain events occur. For all RowSet
objects, three events trigger notifications:
RowSet
contentsThe notification of an event goes to all listeners, components that have implemented the RowSetListener
interface and have had themselves added to the RowSet
object's list of components to be notified when any of the three events occurs.
A listener could be a GUI component such as a bar graph. If the bar graph is tracking data in a RowSet
object, the listener would want to know the new data values whenever the data changed. The listener would therefore implement the RowSetListener
methods to define what it will do when a particular event occurs. Then the listener also must be added to the RowSet
object's list of listeners. The following line of code registers the bar graph component bg
with the RowSet
object rs
.
rs.addListener(bg);
Now bg
will be notified each time the cursor moves, a row is changed, or all of rs
gets new data.
Some DBMSs do not support result sets that can be scrolled (scrollable), and some do not support result sets that can be updated (updatable). If a driver for that DBMS does not add the ability to scroll or update result sets, you can use a RowSet
object to do it. A RowSet
object is scrollable and updatable by default, so by populating a RowSet
object with the contents of a result set, you can effectively make the result set scrollable and updatable.
A RowSet
object is considered either connected or disconnected. A connected RowSet
object uses a JDBC driver to make a connection to a relational database and maintains that connection throughout its life span. A disconnected RowSet
object makes a connection to a data source only to read in data from a ResultSet
object or to write data back to the data source. After reading data from or writing data to its data source, the RowSet
object disconnects from it, thus becoming "disconnected." During much of its life span, a disconnected RowSet
object has no connection to its data source and operates independently. The next two sections tell you what being connected or disconnected means in terms of what a RowSet
object can do.
Only one of the standard RowSet
implementations is a connected RowSet
object: JdbcRowSet
. Always being connected to a database, a JdbcRowSet
object is most similar to a ResultSet
object and is often used as a wrapper to make an otherwise non-scrollable and read-only ResultSet
object scrollable and updatable.
As a JavaBeans component, a JdbcRowSet
object can be used, for example, in a GUI tool to select a JDBC driver. A JdbcRowSet
object can be used this way because it is effectively a wrapper for the driver that obtained its connection to the database.
The other four implementations are disconnected RowSet
implementations. Disconnected RowSet
objects have all the capabilities of connected RowSet
objects plus they have the additional capabilities available only to disconnected RowSet
objects. For example, not having to maintain a connection to a data source makes disconnected RowSet
objects far more lightweight than a JdbcRowSet
object or a ResultSet
object. Disconnected RowSet
objects are also serializable, and the combination of being both serializable and lightweight makes them ideal for sending data over a network. They can even be used for sending data to thin clients such as PDAs and mobile phones.
The CachedRowSet
interface defines the basic capabilities available to all disconnected RowSet
objects. The other three are extensions of the CachedRowSet
interface, which provide more specialized capabilities. The following information shows how they are related:
A CachedRowSet
object has all the capabilities of a JdbcRowSet
object plus it can also do the following:
ResultSet
object and populate itself with that dataA WebRowSet
object has all the capabilities of a CachedRowSet
object plus it can also do the following:
WebRowSet
objectA JoinRowSet
object has all the capabilities of a WebRowSet
object (and therefore also those of a CachedRowSet
object) plus it can also do the following:
SQL JOIN
without having to connect to a data sourceA FilteredRowSet
object likewise has all the capabilities of a WebRowSet
object (and therefore also a CachedRowSet
object) plus it can also do the following:
RowSet
object without having to use a query language or connect to a data source.