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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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package javax.sql.rowset;
import java.sql.*;
import javax.sql.*;
import java.util.*;
import java.io.*;
import java.math.*;
import java.io.Serializable;
import javax.sql.rowset.serial.*;
/**
* An abstract class providing a <code>RowSet</code> object with its basic functionality.
* The basic functions include having properties and sending event notifications,
* which all JavaBeans™ components must implement.
*
* <h3>1.0 Overview</h3>
* The <code>BaseRowSet</code> class provides the core functionality
* for all <code>RowSet</code> implementations,
* and all standard implementations <b>may</b> use this class in combination with
* one or more <code>RowSet</code> interfaces in order to provide a standard
* vendor-specific implementation. To clarify, all implementations must implement
* at least one of the <code>RowSet</code> interfaces (<code>JdbcRowSet</code>,
* <code>CachedRowSet</code>, <code>JoinRowSet</code>, <code>FilteredRowSet</code>,
* or <code>WebRowSet</code>). This means that any implementation that extends
* the <code>BaseRowSet</code> class must also implement one of the <code>RowSet</code>
* interfaces.
* <p>
* The <code>BaseRowSet</code> class provides the following:
*
* <UL>
* <LI><b>Properties</b>
* <ul>
* <li>Fields for storing current properties
* <li>Methods for getting and setting properties
* </ul>
*
* <LI><b>Event notification</b>
*
* <LI><b>A complete set of setter methods</b> for setting the parameters in a
* <code>RowSet</code> object's command
*
* <LI> <b>Streams</b>
* <ul>
* <li>Fields for storing stream instances
* <li>Constants for indicating the type of a stream
* </ul>
* </UL>
*
* <h3>2.0 Setting Properties</h3>
* All rowsets maintain a set of properties, which will usually be set using
* a tool. The number and kinds of properties a rowset has will vary,
* depending on what the <code>RowSet</code> implementation does and how it gets
* its data. For example,
* rowsets that get their data from a <code>ResultSet</code> object need to
* set the properties that are required for making a database connection.
* If a <code>RowSet</code> object uses the <code>DriverManager</code> facility to make a
* connection, it needs to set a property for the JDBC URL that identifies the
* appropriate driver, and it needs to set the properties that give the
* user name and password.
* If, on the other hand, the rowset uses a <code>DataSource</code> object
* to make the connection, which is the preferred method, it does not need to
* set the property for the JDBC URL. Instead, it needs to set the property
* for the logical name of the data source along with the properties for
* the user name and password.
* <P>
* NOTE: In order to use a <code>DataSource</code> object for making a
* connection, the <code>DataSource</code> object must have been registered
* with a naming service that uses the Java Naming and Directory
* Interface™ (JNDI) API. This registration
* is usually done by a person acting in the capacity of a system administrator.
*
* <h3>3.0 Setting the Command and Its Parameters</h3>
* When a rowset gets its data from a relational database, it executes a command (a query)
* that produces a <code>ResultSet</code> object. This query is the command that is set
* for the <code>RowSet</code> object's command property. The rowset populates itself with data by reading the
* data from the <code>ResultSet</code> object into itself. If the query
* contains placeholders for values to be set, the <code>BaseRowSet</code> setter methods
* are used to set these values. All setter methods allow these values to be set
* to <code>null</code> if required.
* <P>
* The following code fragment illustrates how the
* <code>CachedRowSet</code>™
* object <code>crs</code> might have its command property set. Note that if a
* tool is used to set properties, this is the code that the tool would use.
* <PRE>{@code
* crs.setCommand("SELECT FIRST_NAME, LAST_NAME, ADDRESS FROM CUSTOMERS" +
* "WHERE CREDIT_LIMIT > ? AND REGION = ?");
* }</PRE>
* <P>
* In this example, the values for <code>CREDIT_LIMIT</code> and
* <code>REGION</code> are placeholder parameters, which are indicated with a
* question mark (?). The first question mark is placeholder parameter number
* <code>1</code>, the second question mark is placeholder parameter number
* <code>2</code>, and so on. Any placeholder parameters must be set with
* values before the query can be executed. To set these
* placeholder parameters, the <code>BaseRowSet</code> class provides a set of setter
* methods, similar to those provided by the <code>PreparedStatement</code>
* interface, for setting values of each data type. A <code>RowSet</code> object stores the
* parameter values internally, and its <code>execute</code> method uses them internally
* to set values for the placeholder parameters
* before it sends the command to the DBMS to be executed.
* <P>
* The following code fragment demonstrates
* setting the two parameters in the query from the previous example.
* <PRE>{@code
* crs.setInt(1, 5000);
* crs.setString(2, "West");
* }</PRE>
* If the <code>execute</code> method is called at this point, the query
* sent to the DBMS will be:
* <PRE>{@code
* "SELECT FIRST_NAME, LAST_NAME, ADDRESS FROM CUSTOMERS" +
* "WHERE CREDIT_LIMIT > 5000 AND REGION = 'West'"
* }</PRE>
* NOTE: Setting <code>Array</code>, <code>Clob</code>, <code>Blob</code> and
* <code>Ref</code> objects as a command parameter, stores these values as
* <code>SerialArray</code>, <code>SerialClob</code>, <code>SerialBlob</code>
* and <code>SerialRef</code> objects respectively.
*
* <h3>4.0 Handling of Parameters Behind the Scenes</h3>
*
* NOTE: The <code>BaseRowSet</code> class provides two kinds of setter methods,
* those that set properties and those that set placeholder parameters. The setter
* methods discussed in this section are those that set placeholder parameters.
* <P>
* The placeholder parameters set with the <code>BaseRowSet</code> setter methods
* are stored as objects in an internal <code>Hashtable</code> object.
* Primitives are stored as their <code>Object</code> type. For example, <code>byte</code>
* is stored as <code>Byte</code> object, and <code>int</code> is stored as
* an <code>Integer</code> object.
* When the method <code>execute</code> is called, the values in the
* <code>Hashtable</code> object are substituted for the appropriate placeholder
* parameters in the command.
* <P>
* A call to the method <code>getParams</code> returns the values stored in the
* <code>Hashtable</code> object as an array of <code>Object</code> instances.
* An element in this array may be a simple <code>Object</code> instance or an
* array (which is a type of <code>Object</code>). The particular setter method used
* determines whether an element in this array is an <code>Object</code> or an array.
* <P>
* The majority of methods for setting placeholder parameters take two parameters,
* with the first parameter
* indicating which placeholder parameter is to be set, and the second parameter
* giving the value to be set. Methods such as <code>setInt</code>,
* <code>setString</code>, <code>setBoolean</code>, and <code>setLong</code> fall into
* this category. After these methods have been called, a call to the method
* <code>getParams</code> will return an array with the values that have been set. Each
* element in the array is an <code>Object</code> instance representing the
* values that have been set. The order of these values in the array is determined by the
* <code>int</code> (the first parameter) passed to the setter method. The values in the
* array are the values (the second parameter) passed to the setter method.
* In other words, the first element in the array is the value
* to be set for the first placeholder parameter in the <code>RowSet</code> object's
* command. The second element is the value to
* be set for the second placeholder parameter, and so on.
* <P>
* Several setter methods send the driver and DBMS information beyond the value to be set.
* When the method <code>getParams</code> is called after one of these setter methods has
* been used, the elements in the array will themselves be arrays to accommodate the
* additional information. In this category, the method <code>setNull</code> is a special case
* because one version takes only
* two parameters (<code>setNull(int parameterIndex, int SqlType)</code>). Nevertheless,
* it requires
* an array to contain the information that will be passed to the driver and DBMS. The first
* element in this array is the value to be set, which is <code>null</code>, and the
* second element is the <code>int</code> supplied for <i>sqlType</i>, which
* indicates the type of SQL value that is being set to <code>null</code>. This information
* is needed by some DBMSs and is therefore required in order to ensure that applications
* are portable.
* The other version is intended to be used when the value to be set to <code>null</code>
* is a user-defined type. It takes three parameters
* (<code>setNull(int parameterIndex, int sqlType, String typeName)</code>) and also
* requires an array to contain the information to be passed to the driver and DBMS.
* The first two elements in this array are the same as for the first version of
* <code>setNull</code>. The third element, <i>typeName</i>, gives the SQL name of
* the user-defined type. As is true with the other setter methods, the number of the
* placeholder parameter to be set is indicated by an element's position in the array
* returned by <code>getParams</code>. So, for example, if the parameter
* supplied to <code>setNull</code> is <code>2</code>, the second element in the array
* returned by <code>getParams</code> will be an array of two or three elements.
* <P>
* Some methods, such as <code>setObject</code> and <code>setDate</code> have versions
* that take more than two parameters, with the extra parameters giving information
* to the driver or the DBMS. For example, the methods <code>setDate</code>,
* <code>setTime</code>, and <code>setTimestamp</code> can take a <code>Calendar</code>
* object as their third parameter. If the DBMS does not store time zone information,
* the driver uses the <code>Calendar</code> object to construct the <code>Date</code>,
* <code>Time</code>, or <code>Timestamp</code> object being set. As is true with other
* methods that provide additional information, the element in the array returned
* by <code>getParams</code> is an array instead of a simple <code>Object</code> instance.
* <P>
* The methods <code>setAsciiStream</code>, <code>setBinaryStream</code>,
* <code>setCharacterStream</code>, and <code>setUnicodeStream</code> (which is
* deprecated, so applications should use <code>getCharacterStream</code> instead)
* take three parameters, so for them, the element in the array returned by
* <code>getParams</code> is also an array. What is different about these setter
* methods is that in addition to the information provided by parameters, the array contains
* one of the <code>BaseRowSet</code> constants indicating the type of stream being set.
* <p>
* NOTE: The method <code>getParams</code> is called internally by
* <code>RowSet</code> implementations extending this class; it is not normally called by an
* application programmer directly.
*
* <h3>5.0 Event Notification</h3>
* The <code>BaseRowSet</code> class provides the event notification
* mechanism for rowsets. It contains the field
* <code>listeners</code>, methods for adding and removing listeners, and
* methods for notifying listeners of changes.
* <P>
* A listener is an object that has implemented the <code>RowSetListener</code> interface.
* If it has been added to a <code>RowSet</code> object's list of listeners, it will be notified
* when an event occurs on that <code>RowSet</code> object. Each listener's
* implementation of the <code>RowSetListener</code> methods defines what that object
* will do when it is notified that an event has occurred.
* <P>
* There are three possible events for a <code>RowSet</code> object:
* <OL>
* <LI>the cursor moves
* <LI>an individual row is changed (updated, deleted, or inserted)
* <LI>the contents of the entire <code>RowSet</code> object are changed
* </OL>
* <P>
* The <code>BaseRowSet</code> method used for the notification indicates the
* type of event that has occurred. For example, the method
* <code>notifyRowChanged</code> indicates that a row has been updated,
* deleted, or inserted. Each of the notification methods creates a
* <code>RowSetEvent</code> object, which is supplied to the listener in order to
* identify the <code>RowSet</code> object on which the event occurred.
* What the listener does with this information, which may be nothing, depends on how it was
* implemented.
*
* <h3>6.0 Default Behavior</h3>
* A default <code>BaseRowSet</code> object is initialized with many starting values.
*
* The following is true of a default <code>RowSet</code> instance that extends
* the <code>BaseRowSet</code> class:
* <UL>
* <LI>Has a scrollable cursor and does not show changes
* made by others.
* <LI>Is updatable.
* <LI>Does not show rows that have been deleted.
* <LI>Has no time limit for how long a driver may take to
* execute the <code>RowSet</code> object's command.
* <LI>Has no limit for the number of rows it may contain.
* <LI>Has no limit for the number of bytes a column may contain. NOTE: This
* limit applies only to columns that hold values of the
* following types: <code>BINARY</code>, <code>VARBINARY</code>,
* <code>LONGVARBINARY</code>, <code>CHAR</code>, <code>VARCHAR</code>,
* and <code>LONGVARCHAR</code>.
* <LI>Will not see uncommitted data (make "dirty" reads).
* <LI>Has escape processing turned on.
* <LI>Has its connection's type map set to <code>null</code>.
* <LI>Has an empty <code>Vector</code> object for storing the values set
* for the placeholder parameters in the <code>RowSet</code> object's command.
* </UL>
* <p>
* If other values are desired, an application must set the property values
* explicitly. For example, the following line of code sets the maximum number
* of rows for the <code>CachedRowSet</code> object <i>crs</i> to 500.
* <PRE>
* crs.setMaxRows(500);
* </PRE>
* Methods implemented in extensions of this <code>BaseRowSet</code> class <b>must</b> throw an
* <code>SQLException</code> object for any violation of the defined assertions. Also, if the
* extending class overrides and reimplements any <code>BaseRowSet</code> method and encounters
* connectivity or underlying data source issues, that method <b>may</b> in addition throw an
* <code>SQLException</code> object for that reason.
*
* @since 1.5
*/
public abstract class BaseRowSet implements Serializable, Cloneable {
/**
* A constant indicating to a <code>RowSetReaderImpl</code> object
* that a given parameter is a Unicode stream. This
* <code>RowSetReaderImpl</code> object is provided as an extension of the
* <code>SyncProvider</code> abstract class defined in the
* <code>SyncFactory</code> static factory SPI mechanism.
*/
public static final int UNICODE_STREAM_PARAM = 0;
/**
* A constant indicating to a <code>RowSetReaderImpl</code> object
* that a given parameter is a binary stream. A
* <code>RowSetReaderImpl</code> object is provided as an extension of the
* <code>SyncProvider</code> abstract class defined in the
* <code>SyncFactory</code> static factory SPI mechanism.
*/
public static final int BINARY_STREAM_PARAM = 1;
/**
* A constant indicating to a <code>RowSetReaderImpl</code> object
* that a given parameter is an ASCII stream. A
* <code>RowSetReaderImpl</code> object is provided as an extension of the
* <code>SyncProvider</code> abstract class defined in the
* <code>SyncFactory</code> static factory SPI mechanism.
*/
public static final int ASCII_STREAM_PARAM = 2;
/**
* The <code>InputStream</code> object that will be
* returned by the method <code>getBinaryStream</code>, which is
* specified in the <code>ResultSet</code> interface.
* @serial
*/
protected java.io.InputStream binaryStream;
/**
* The <code>InputStream</code> object that will be
* returned by the method <code>getUnicodeStream</code>,
* which is specified in the <code>ResultSet</code> interface.
* @serial
*/
protected java.io.InputStream unicodeStream;
/**
* The <code>InputStream</code> object that will be
* returned by the method <code>getAsciiStream</code>,
* which is specified in the <code>ResultSet</code> interface.
* @serial
*/
protected java.io.InputStream asciiStream;
/**
* The <code>Reader</code> object that will be
* returned by the method <code>getCharacterStream</code>,
* which is specified in the <code>ResultSet</code> interface.
* @serial
*/
protected java.io.Reader charStream;
/**
* The query that will be sent to the DBMS for execution when the
* method <code>execute</code> is called.
* @serial
*/
private String command;
/**
* The JDBC URL the reader, writer, or both supply to the method
* <code>DriverManager.getConnection</code> when the
* <code>DriverManager</code> is used to get a connection.
* <P>
* The JDBC URL identifies the driver to be used to make the connection.
* This URL can be found in the documentation supplied by the driver
* vendor.
* @serial
*/
private String URL;
/**
* The logical name of the data source that the reader/writer should use
* in order to retrieve a <code>DataSource</code> object from a Java
* Directory and Naming Interface (JNDI) naming service.
* @serial
*/
private String dataSource;
/**
* The user name the reader, writer, or both supply to the method
* <code>DriverManager.getConnection</code> when the
* <code>DriverManager</code> is used to get a connection.
* @serial
*/
private transient String username;
/**
* The password the reader, writer, or both supply to the method
* <code>DriverManager.getConnection</code> when the
* <code>DriverManager</code> is used to get a connection.
* @serial
*/
private transient String password;
/**
* A constant indicating the type of this JDBC <code>RowSet</code>
* object. It must be one of the following <code>ResultSet</code>
* constants: <code>TYPE_FORWARD_ONLY</code>,
* <code>TYPE_SCROLL_INSENSITIVE</code>, or
* <code>TYPE_SCROLL_SENSITIVE</code>.
* @serial
*/
private int rowSetType = ResultSet.TYPE_SCROLL_INSENSITIVE;
/**
* A <code>boolean</code> indicating whether deleted rows are visible in this
* JDBC <code>RowSet</code> object .
* @serial
*/
private boolean showDeleted = false; // default is false
/**
* The maximum number of seconds the driver
* will wait for a command to execute. This limit applies while
* this JDBC <code>RowSet</code> object is connected to its data
* source, that is, while it is populating itself with
* data and while it is writing data back to the data source.
* @serial
*/
private int queryTimeout = 0; // default is no timeout
/**
* The maximum number of rows the reader should read.
* @serial
*/
private int maxRows = 0; // default is no limit
/**
* The maximum field size the reader should read.
* @serial
*/
private int maxFieldSize = 0; // default is no limit
/**
* A constant indicating the concurrency of this JDBC <code>RowSet</code>
* object. It must be one of the following <code>ResultSet</code>
* constants: <code>CONCUR_READ_ONLY</code> or
* <code>CONCUR_UPDATABLE</code>.
* @serial
*/
private int concurrency = ResultSet.CONCUR_UPDATABLE;
/**
* A <code>boolean</code> indicating whether this JDBC <code>RowSet</code>
* object is read-only. <code>true</code> indicates that it is read-only;
* <code>false</code> that it is writable.
* @serial
*/
private boolean readOnly;
/**
* A <code>boolean</code> indicating whether the reader for this
* JDBC <code>RowSet</code> object should perform escape processing.
* <code>true</code> means that escape processing is turned on;
* <code>false</code> that it is not. The default is <code>true</code>.
* @serial
*/
private boolean escapeProcessing = true;
/**
* A constant indicating the isolation level of the connection
* for this JDBC <code>RowSet</code> object . It must be one of
* the following <code>Connection</code> constants:
* <code>TRANSACTION_NONE</code>,
* <code>TRANSACTION_READ_UNCOMMITTED</code>,
* <code>TRANSACTION_READ_COMMITTED</code>,
* <code>TRANSACTION_REPEATABLE_READ</code> or
* <code>TRANSACTION_SERIALIZABLE</code>.
* @serial
*/
private int isolation;
/**
* A constant used as a hint to the driver that indicates the direction in
* which data from this JDBC <code>RowSet</code> object is going
* to be fetched. The following <code>ResultSet</code> constants are
* possible values:
* <code>FETCH_FORWARD</code>,
* <code>FETCH_REVERSE</code>,
* <code>FETCH_UNKNOWN</code>.
* <P>
* Unused at this time.
* @serial
*/
private int fetchDir = ResultSet.FETCH_FORWARD; // default fetch direction
/**
* A hint to the driver that indicates the expected number of rows
* in this JDBC <code>RowSet</code> object .
* <P>
* Unused at this time.
* @serial
*/
private int fetchSize = 0; // default fetchSize
/**
* The <code>java.util.Map</code> object that contains entries mapping
* SQL type names to classes in the Java programming language for the
* custom mapping of user-defined types.
* @serial
*/
private Map<String, Class<?>> map;
/**
* A <code>Vector</code> object that holds the list of listeners
* that have registered with this <code>RowSet</code> object.
* @serial
*/
private Vector<RowSetListener> listeners;
/**
* A <code>Vector</code> object that holds the parameters set
* for this <code>RowSet</code> object's current command.
* @serial
*/
private Hashtable<Integer, Object> params; // could be transient?
/**
* Constructs a new <code>BaseRowSet</code> object initialized with
* a default <code>Vector</code> object for its <code>listeners</code>
* field. The other default values with which it is initialized are listed
* in Section 6.0 of the class comment for this class.
*/
public BaseRowSet() {
// allocate the listeners collection
listeners = new Vector<RowSetListener>();
}
/**
* Performs the necessary internal configurations and initializations
* to allow any JDBC <code>RowSet</code> implementation to start using
* the standard facilities provided by a <code>BaseRowSet</code>
* instance. This method <b>should</b> be called after the <code>RowSet</code> object
* has been instantiated to correctly initialize all parameters. This method
* <b>should</b> never be called by an application, but is called from with
* a <code>RowSet</code> implementation extending this class.
*/
protected void initParams() {
params = new Hashtable<Integer, Object>();
}
//--------------------------------------------------------------------
// Events
//--------------------------------------------------------------------
/**
* The listener will be notified whenever an event occurs on this <code>RowSet</code>
* object.
* <P>
* A listener might, for example, be a table or graph that needs to
* be updated in order to accurately reflect the current state of
* the <code>RowSet</code> object.
* <p>
* <b>Note</b>: if the <code>RowSetListener</code> object is
* <code>null</code>, this method silently discards the <code>null</code>
* value and does not add a null reference to the set of listeners.
* <p>
* <b>Note</b>: if the listener is already set, and the new <code>RowSetListener</code>
* instance is added to the set of listeners already registered to receive
* event notifications from this <code>RowSet</code>.
*
* @param listener an object that has implemented the
* <code>javax.sql.RowSetListener</code> interface and wants to be notified
* of any events that occur on this <code>RowSet</code> object; May be
* null.
* @see #removeRowSetListener
*/
public void addRowSetListener(RowSetListener listener) {
listeners.add(listener);
}
/**
* Removes the designated object from this <code>RowSet</code> object's list of listeners.
* If the given argument is not a registered listener, this method
* does nothing.
*
* <b>Note</b>: if the <code>RowSetListener</code> object is
* <code>null</code>, this method silently discards the <code>null</code>
* value.
*
* @param listener a <code>RowSetListener</code> object that is on the list
* of listeners for this <code>RowSet</code> object
* @see #addRowSetListener
*/
public void removeRowSetListener(RowSetListener listener) {
listeners.remove(listener);
}
/**
* Determine if instance of this class extends the RowSet interface.
*/
private void checkforRowSetInterface() throws SQLException {
if ((this instanceof javax.sql.RowSet) == false) {
throw new SQLException("The class extending abstract class BaseRowSet " +
"must implement javax.sql.RowSet or one of it's sub-interfaces.");
}
}
/**
* Notifies all of the listeners registered with this
* <code>RowSet</code> object that its cursor has moved.
* <P>
* When an application calls a method to move the cursor,
* that method moves the cursor and then calls this method
* internally. An application <b>should</b> never invoke
* this method directly.
*
* @throws SQLException if the class extending the <code>BaseRowSet</code>
* abstract class does not implement the <code>RowSet</code> interface or
* one of it's sub-interfaces.
*/
protected void notifyCursorMoved() throws SQLException {
checkforRowSetInterface();
if (listeners.isEmpty() == false) {
RowSetEvent event = new RowSetEvent((RowSet)this);
for (RowSetListener rsl : listeners) {
rsl.cursorMoved(event);
}
}
}
/**
* Notifies all of the listeners registered with this <code>RowSet</code> object that
* one of its rows has changed.
* <P>
* When an application calls a method that changes a row, such as
* the <code>CachedRowSet</code> methods <code>insertRow</code>,
* <code>updateRow</code>, or <code>deleteRow</code>,
* that method calls <code>notifyRowChanged</code>
* internally. An application <b>should</b> never invoke
* this method directly.
*
* @throws SQLException if the class extending the <code>BaseRowSet</code>
* abstract class does not implement the <code>RowSet</code> interface or
* one of it's sub-interfaces.
*/
protected void notifyRowChanged() throws SQLException {
checkforRowSetInterface();
if (listeners.isEmpty() == false) {
RowSetEvent event = new RowSetEvent((RowSet)this);
for (RowSetListener rsl : listeners) {
rsl.rowChanged(event);
}
}
}
/**
* Notifies all of the listeners registered with this <code>RowSet</code>
* object that its entire contents have changed.
* <P>
* When an application calls methods that change the entire contents
* of the <code>RowSet</code> object, such as the <code>CachedRowSet</code> methods
* <code>execute</code>, <code>populate</code>, <code>restoreOriginal</code>,
* or <code>release</code>, that method calls <code>notifyRowSetChanged</code>
* internally (either directly or indirectly). An application <b>should</b>
* never invoke this method directly.
*
* @throws SQLException if the class extending the <code>BaseRowSet</code>
* abstract class does not implement the <code>RowSet</code> interface or
* one of it's sub-interfaces.
*/
protected void notifyRowSetChanged() throws SQLException {
checkforRowSetInterface();
if (listeners.isEmpty() == false) {
RowSetEvent event = new RowSetEvent((RowSet)this);
for (RowSetListener rsl : listeners) {
rsl.rowSetChanged(event);
}
}
}
/**
* Retrieves the SQL query that is the command for this
* <code>RowSet</code> object. The command property contains the query that
* will be executed to populate this <code>RowSet</code> object.
* <P>
* The SQL query returned by this method is used by <code>RowSet</code> methods
* such as <code>execute</code> and <code>populate</code>, which may be implemented
* by any class that extends the <code>BaseRowSet</code> abstract class and
* implements one or more of the standard JSR-114 <code>RowSet</code>
* interfaces.
* <P>
* The command is used by the <code>RowSet</code> object's
* reader to obtain a <code>ResultSet</code> object. The reader then
* reads the data from the <code>ResultSet</code> object and uses it to
* to populate this <code>RowSet</code> object.
* <P>
* The default value for the <code>command</code> property is <code>null</code>.
*
* @return the <code>String</code> that is the value for this
* <code>RowSet</code> object's <code>command</code> property;
* may be <code>null</code>
* @see #setCommand
*/
public String getCommand() {
return command;
}
/**
* Sets this <code>RowSet</code> object's <code>command</code> property to
* the given <code>String</code> object and clears the parameters, if any,
* that were set for the previous command.
* <P>
* The <code>command</code> property may not be needed if the <code>RowSet</code>
* object gets its data from a source that does not support commands,
* such as a spreadsheet or other tabular file.
* Thus, this property is optional and may be <code>null</code>.
*
* @param cmd a <code>String</code> object containing an SQL query
* that will be set as this <code>RowSet</code> object's command
* property; may be <code>null</code> but may not be an empty string
* @throws SQLException if an empty string is provided as the command value
* @see #getCommand
*/
public void setCommand(String cmd) throws SQLException {
// cmd equal to null or
// cmd with length 0 (implies url =="")
// are not independent events.
if(cmd == null) {
command = null;
} else if (cmd.length() == 0) {
throw new SQLException("Invalid command string detected. " +
"Cannot be of length less than 0");
} else {
// "unbind" any parameters from any previous command.
if(params == null){
throw new SQLException("Set initParams() before setCommand");
}
params.clear();
command = cmd;
}
}
/**
* Retrieves the JDBC URL that this <code>RowSet</code> object's
* <code>javax.sql.Reader</code> object uses to make a connection
* with a relational database using a JDBC technology-enabled driver.
*<P>
* The <code>Url</code> property will be <code>null</code> if the underlying data
* source is a non-SQL data source, such as a spreadsheet or an XML
* data source.
*
* @return a <code>String</code> object that contains the JDBC URL
* used to establish the connection for this <code>RowSet</code>
* object; may be <code>null</code> (default value) if not set
* @throws SQLException if an error occurs retrieving the URL value
* @see #setUrl
*/
public String getUrl() throws SQLException {
return URL;
}
/**
* Sets the Url property for this <code>RowSet</code> object
* to the given <code>String</code> object and sets the dataSource name
* property to <code>null</code>. The Url property is a
* JDBC URL that is used when
* the connection is created using a JDBC technology-enabled driver
* ("JDBC driver") and the <code>DriverManager</code>.
* The correct JDBC URL for the specific driver to be used can be found
* in the driver documentation. Although there are guidelines for how
* a JDBC URL is formed,
* a driver vendor can specify any <code>String</code> object except
* one with a length of <code>0</code> (an empty string).
* <P>
* Setting the Url property is optional if connections are established using
* a <code>DataSource</code> object instead of the <code>DriverManager</code>.
* The driver will use either the URL property or the
* dataSourceName property to create a connection, whichever was
* specified most recently. If an application uses a JDBC URL, it
* must load a JDBC driver that accepts the JDBC URL before it uses the
* <code>RowSet</code> object to connect to a database. The <code>RowSet</code>
* object will use the URL internally to create a database connection in order
* to read or write data.
*
* @param url a <code>String</code> object that contains the JDBC URL
* that will be used to establish the connection to a database for this
* <code>RowSet</code> object; may be <code>null</code> but must not
* be an empty string
* @throws SQLException if an error occurs setting the Url property or the
* parameter supplied is a string with a length of <code>0</code> (an
* empty string)
* @see #getUrl
*/
public void setUrl(String url) throws SQLException {
if(url == null) {
url = null;
} else if (url.length() < 1) {
throw new SQLException("Invalid url string detected. " +
"Cannot be of length less than 1");
} else {
URL = url;
}
dataSource = null;
}
/**
* Returns the logical name that when supplied to a naming service
* that uses the Java Naming and Directory Interface (JNDI) API, will
* retrieve a <code>javax.sql.DataSource</code> object. This
* <code>DataSource</code> object can be used to establish a connection
* to the data source that it represents.
* <P>
* Users should set either the url or the data source name property.
* The driver will use the property set most recently to establish a
* connection.
*
* @return a <code>String</code> object that identifies the
* <code>DataSource</code> object to be used for making a
* connection; if no logical name has been set, <code>null</code>
* is returned.
* @see #setDataSourceName
*/
public String getDataSourceName() {
return dataSource;
}
/**
* Sets the <code>DataSource</code> name property for this <code>RowSet</code>
* object to the given logical name and sets this <code>RowSet</code> object's
* Url property to <code>null</code>. The name must have been bound to a
* <code>DataSource</code> object in a JNDI naming service so that an
* application can do a lookup using that name to retrieve the
* <code>DataSource</code> object bound to it. The <code>DataSource</code>
* object can then be used to establish a connection to the data source it
* represents.
* <P>
* Users should set either the Url property or the dataSourceName property.
* If both properties are set, the driver will use the property set most recently.
*
* @param name a <code>String</code> object with the name that can be supplied
* to a naming service based on JNDI technology to retrieve the
* <code>DataSource</code> object that can be used to get a connection;
* may be <code>null</code> but must not be an empty string
* @throws SQLException if an empty string is provided as the <code>DataSource</code>
* name
* @see #getDataSourceName
*/
public void setDataSourceName(String name) throws SQLException {
if (name == null) {
dataSource = null;
} else if (name.equals("")) {
throw new SQLException("DataSource name cannot be empty string");
} else {
dataSource = name;
}
URL = null;
}
/**
* Returns the user name used to create a database connection. Because it
* is not serialized, the username property is set at runtime before
* calling the method <code>execute</code>.
*
* @return the <code>String</code> object containing the user name that
* is supplied to the data source to create a connection; may be
* <code>null</code> (default value) if not set
* @see #setUsername
*/
public String getUsername() {
return username;
}
/**
* Sets the username property for this <code>RowSet</code> object
* to the given user name. Because it
* is not serialized, the username property is set at run time before
* calling the method <code>execute</code>.
*
* @param name the <code>String</code> object containing the user name that
* is supplied to the data source to create a connection. It may be null.
* @see #getUsername
*/
public void setUsername(String name) {
if(name == null)
{
username = null;
} else {
username = name;
}
}
/**
* Returns the password used to create a database connection for this
* <code>RowSet</code> object. Because the password property is not
* serialized, it is set at run time before calling the method
* <code>execute</code>. The default value is <code>null</code>
*
* @return the <code>String</code> object that represents the password
* that must be supplied to the database to create a connection
* @see #setPassword
*/
public String getPassword() {
return password;
}
/**
* Sets the password used to create a database connection for this
* <code>RowSet</code> object to the given <code>String</code>
* object. Because the password property is not
* serialized, it is set at run time before calling the method
* <code>execute</code>.
*
* @param pass the <code>String</code> object that represents the password
* that is supplied to the database to create a connection. It may be
* null.
* @see #getPassword
*/
public void setPassword(String pass) {
if(pass == null)
{
password = null;
} else {
password = pass;
}
}
/**
* Sets the type for this <code>RowSet</code> object to the specified type.
* The default type is <code>ResultSet.TYPE_SCROLL_INSENSITIVE</code>.
*
* @param type one of the following constants:
* <code>ResultSet.TYPE_FORWARD_ONLY</code>,
* <code>ResultSet.TYPE_SCROLL_INSENSITIVE</code>, or
* <code>ResultSet.TYPE_SCROLL_SENSITIVE</code>
* @throws SQLException if the parameter supplied is not one of the
* following constants:
* <code>ResultSet.TYPE_FORWARD_ONLY</code> or
* <code>ResultSet.TYPE_SCROLL_INSENSITIVE</code>
* <code>ResultSet.TYPE_SCROLL_SENSITIVE</code>
* @see #getConcurrency
* @see #getType
*/
public void setType(int type) throws SQLException {
if ((type != ResultSet.TYPE_FORWARD_ONLY) &&
(type != ResultSet.TYPE_SCROLL_INSENSITIVE) &&
(type != ResultSet.TYPE_SCROLL_SENSITIVE)) {
throw new SQLException("Invalid type of RowSet set. Must be either " +
"ResultSet.TYPE_FORWARD_ONLY or ResultSet.TYPE_SCROLL_INSENSITIVE " +
"or ResultSet.TYPE_SCROLL_SENSITIVE.");
}
this.rowSetType = type;
}
/**
* Returns the type of this <code>RowSet</code> object. The type is initially
* determined by the statement that created the <code>RowSet</code> object.
* The <code>RowSet</code> object can call the method
* <code>setType</code> at any time to change its
* type. The default is <code>TYPE_SCROLL_INSENSITIVE</code>.
*
* @return the type of this JDBC <code>RowSet</code>
* object, which must be one of the following:
* <code>ResultSet.TYPE_FORWARD_ONLY</code>,
* <code>ResultSet.TYPE_SCROLL_INSENSITIVE</code>, or
* <code>ResultSet.TYPE_SCROLL_SENSITIVE</code>
* @throws SQLException if an error occurs getting the type of
* of this <code>RowSet</code> object
* @see #setType
*/
public int getType() throws SQLException {
return rowSetType;
}
/**
* Sets the concurrency for this <code>RowSet</code> object to
* the specified concurrency. The default concurrency for any <code>RowSet</code>
* object (connected or disconnected) is <code>ResultSet.CONCUR_UPDATABLE</code>,
* but this method may be called at any time to change the concurrency.
*
* @param concurrency one of the following constants:
* <code>ResultSet.CONCUR_READ_ONLY</code> or
* <code>ResultSet.CONCUR_UPDATABLE</code>
* @throws SQLException if the parameter supplied is not one of the
* following constants:
* <code>ResultSet.CONCUR_UPDATABLE</code> or
* <code>ResultSet.CONCUR_READ_ONLY</code>
* @see #getConcurrency
* @see #isReadOnly
*/
public void setConcurrency(int concurrency) throws SQLException {
if((concurrency != ResultSet.CONCUR_READ_ONLY) &&
(concurrency != ResultSet.CONCUR_UPDATABLE)) {
throw new SQLException("Invalid concurrency set. Must be either " +
"ResultSet.CONCUR_READ_ONLY or ResultSet.CONCUR_UPDATABLE.");
}
this.concurrency = concurrency;
}
/**
* Returns a <code>boolean</code> indicating whether this
* <code>RowSet</code> object is read-only.
* Any attempts to update a read-only <code>RowSet</code> object will result in an
* <code>SQLException</code> being thrown. By default,
* rowsets are updatable if updates are possible.
*
* @return <code>true</code> if this <code>RowSet</code> object
* cannot be updated; <code>false</code> otherwise
* @see #setConcurrency
* @see #setReadOnly
*/
public boolean isReadOnly() {
return readOnly;
};
/**
* Sets this <code>RowSet</code> object's readOnly property to the given <code>boolean</code>.
*
* @param value <code>true</code> to indicate that this
* <code>RowSet</code> object is read-only;
* <code>false</code> to indicate that it is updatable
*/
public void setReadOnly(boolean value) {
readOnly = value;
}
/**
* Returns the transaction isolation property for this
* <code>RowSet</code> object's connection. This property represents
* the transaction isolation level requested for use in transactions.
* <P>
* For <code>RowSet</code> implementations such as
* the <code>CachedRowSet</code> that operate in a disconnected environment,
* the <code>SyncProvider</code> object
* offers complementary locking and data integrity options. The
* options described below are pertinent only to connected <code>RowSet</code>
* objects (<code>JdbcRowSet</code> objects).
*
* @return one of the following constants:
* <code>Connection.TRANSACTION_NONE</code>,
* <code>Connection.TRANSACTION_READ_UNCOMMITTED</code>,
* <code>Connection.TRANSACTION_READ_COMMITTED</code>,
* <code>Connection.TRANSACTION_REPEATABLE_READ</code>, or
* <code>Connection.TRANSACTION_SERIALIZABLE</code>
* @see javax.sql.rowset.spi.SyncFactory
* @see javax.sql.rowset.spi.SyncProvider
* @see #setTransactionIsolation
*/
public int getTransactionIsolation() {
return isolation;
};
/**
* Sets the transaction isolation property for this JDBC <code>RowSet</code> object to the given
* constant. The DBMS will use this transaction isolation level for
* transactions if it can.
* <p>
* For <code>RowSet</code> implementations such as
* the <code>CachedRowSet</code> that operate in a disconnected environment,
* the <code>SyncProvider</code> object being used
* offers complementary locking and data integrity options. The
* options described below are pertinent only to connected <code>RowSet</code>
* objects (<code>JdbcRowSet</code> objects).
*
* @param level one of the following constants, listed in ascending order:
* <code>Connection.TRANSACTION_NONE</code>,
* <code>Connection.TRANSACTION_READ_UNCOMMITTED</code>,
* <code>Connection.TRANSACTION_READ_COMMITTED</code>,
* <code>Connection.TRANSACTION_REPEATABLE_READ</code>, or
* <code>Connection.TRANSACTION_SERIALIZABLE</code>
* @throws SQLException if the given parameter is not one of the Connection
* constants
* @see javax.sql.rowset.spi.SyncFactory
* @see javax.sql.rowset.spi.SyncProvider
* @see #getTransactionIsolation
*/
public void setTransactionIsolation(int level) throws SQLException {
if ((level != Connection.TRANSACTION_NONE) &&
(level != Connection.TRANSACTION_READ_COMMITTED) &&
(level != Connection.TRANSACTION_READ_UNCOMMITTED) &&
(level != Connection.TRANSACTION_REPEATABLE_READ) &&
(level != Connection.TRANSACTION_SERIALIZABLE))
{
throw new SQLException("Invalid transaction isolation set. Must " +
"be either " +
"Connection.TRANSACTION_NONE or " +
"Connection.TRANSACTION_READ_UNCOMMITTED or " +
"Connection.TRANSACTION_READ_COMMITTED or " +
"Connection.TRANSACTION_REPEATABLE_READ or " +
"Connection.TRANSACTION_SERIALIZABLE");
}
this.isolation = level;
}
/**
* Retrieves the type map associated with the <code>Connection</code>
* object for this <code>RowSet</code> object.
* <P>
* Drivers that support the JDBC 3.0 API will create
* <code>Connection</code> objects with an associated type map.
* This type map, which is initially empty, can contain one or more
* fully-qualified SQL names and <code>Class</code> objects indicating
* the class to which the named SQL value will be mapped. The type mapping
* specified in the connection's type map is used for custom type mapping
* when no other type map supersedes it.
* <p>
* If a type map is explicitly supplied to a method that can perform
* custom mapping, that type map supersedes the connection's type map.
*
* @return the <code>java.util.Map</code> object that is the type map
* for this <code>RowSet</code> object's connection
*/
public java.util.Map<String,Class<?>> getTypeMap() {
return map;
}
/**
* Installs the given <code>java.util.Map</code> object as the type map
* associated with the <code>Connection</code> object for this
* <code>RowSet</code> object. The custom mapping indicated in
* this type map will be used unless a different type map is explicitly
* supplied to a method, in which case the type map supplied will be used.
*
* @param map a <code>java.util.Map</code> object that contains the
* mapping from SQL type names for user defined types (UDT) to classes in
* the Java programming language. Each entry in the <code>Map</code>
* object consists of the fully qualified SQL name of a UDT and the
* <code>Class</code> object for the <code>SQLData</code> implementation
* of that UDT. May be <code>null</code>.
*/
public void setTypeMap(java.util.Map<String,Class<?>> map) {
this.map = map;
}
/**
* Retrieves the maximum number of bytes that can be used for a column
* value in this <code>RowSet</code> object.
* This limit applies only to columns that hold values of the
* following types: <code>BINARY</code>, <code>VARBINARY</code>,
* <code>LONGVARBINARY</code>, <code>CHAR</code>, <code>VARCHAR</code>,
* and <code>LONGVARCHAR</code>. If the limit is exceeded, the excess
* data is silently discarded.
*
* @return an <code>int</code> indicating the current maximum column size
* limit; zero means that there is no limit
* @throws SQLException if an error occurs internally determining the
* maximum limit of the column size
*/
public int getMaxFieldSize() throws SQLException {
return maxFieldSize;
}
/**
* Sets the maximum number of bytes that can be used for a column
* value in this <code>RowSet</code> object to the given number.
* This limit applies only to columns that hold values of the
* following types: <code>BINARY</code>, <code>VARBINARY</code>,
* <code>LONGVARBINARY</code>, <code>CHAR</code>, <code>VARCHAR</code>,
* and <code>LONGVARCHAR</code>. If the limit is exceeded, the excess
* data is silently discarded. For maximum portability, it is advisable to
* use values greater than 256.
*
* @param max an <code>int</code> indicating the new maximum column size
* limit; zero means that there is no limit
* @throws SQLException if (1) an error occurs internally setting the
* maximum limit of the column size or (2) a size of less than 0 is set
*/
public void setMaxFieldSize(int max) throws SQLException {
if (max < 0) {
throw new SQLException("Invalid max field size set. Cannot be of " +
"value: " + max);
}
maxFieldSize = max;
}
/**
* Retrieves the maximum number of rows that this <code>RowSet</code> object may contain. If
* this limit is exceeded, the excess rows are silently dropped.
*
* @return an <code>int</code> indicating the current maximum number of
* rows; zero means that there is no limit
* @throws SQLException if an error occurs internally determining the
* maximum limit of rows that a <code>Rowset</code> object can contain
*/
public int getMaxRows() throws SQLException {
return maxRows;
}
/**
* Sets the maximum number of rows that this <code>RowSet</code> object may contain to
* the given number. If this limit is exceeded, the excess rows are
* silently dropped.
*
* @param max an <code>int</code> indicating the current maximum number
* of rows; zero means that there is no limit
* @throws SQLException if an error occurs internally setting the
* maximum limit on the number of rows that a JDBC <code>RowSet</code> object
* can contain; or if <i>max</i> is less than <code>0</code>; or
* if <i>max</i> is less than the <code>fetchSize</code> of the
* <code>RowSet</code>
*/
public void setMaxRows(int max) throws SQLException {
if (max < 0) {
throw new SQLException("Invalid max row size set. Cannot be of " +
"value: " + max);
} else if (max < this.getFetchSize()) {
throw new SQLException("Invalid max row size set. Cannot be less " +
"than the fetchSize.");
}
this.maxRows = max;
}
/**
* Sets to the given <code>boolean</code> whether or not the driver will
* scan for escape syntax and do escape substitution before sending SQL
* statements to the database. The default is for the driver to do escape
* processing.
* <P>
* Note: Since <code>PreparedStatement</code> objects have usually been
* parsed prior to making this call, disabling escape processing for
* prepared statements will likely have no effect.
*
* @param enable <code>true</code> to enable escape processing;
* <code>false</code> to disable it
* @throws SQLException if an error occurs setting the underlying JDBC
* technology-enabled driver to process the escape syntax
*/
public void setEscapeProcessing(boolean enable) throws SQLException {
escapeProcessing = enable;
}
/**
* Retrieves the maximum number of seconds the driver will wait for a
* query to execute. If the limit is exceeded, an <code>SQLException</code>
* is thrown.
*
* @return the current query timeout limit in seconds; zero means that
* there is no limit
* @throws SQLException if an error occurs in determining the query
* time-out value
*/
public int getQueryTimeout() throws SQLException {
return queryTimeout;
}
/**
* Sets to the given number the maximum number of seconds the driver will
* wait for a query to execute. If the limit is exceeded, an
* <code>SQLException</code> is thrown.
*
* @param seconds the new query time-out limit in seconds; zero means that
* there is no limit; must not be less than zero
* @throws SQLException if an error occurs setting the query
* time-out or if the query time-out value is less than 0
*/
public void setQueryTimeout(int seconds) throws SQLException {
if (seconds < 0) {
throw new SQLException("Invalid query timeout value set. Cannot be " +
"of value: " + seconds);
}
this.queryTimeout = seconds;
}
/**
* Retrieves a <code>boolean</code> indicating whether rows marked
* for deletion appear in the set of current rows.
* The default value is <code>false</code>.
* <P>
* Note: Allowing deleted rows to remain visible complicates the behavior
* of some of the methods. However, most <code>RowSet</code> object users
* can simply ignore this extra detail because only sophisticated
* applications will likely want to take advantage of this feature.
*
* @return <code>true</code> if deleted rows are visible;
* <code>false</code> otherwise
* @throws SQLException if an error occurs determining if deleted rows
* are visible or not
* @see #setShowDeleted
*/
public boolean getShowDeleted() throws SQLException {
return showDeleted;
}
/**
* Sets the property <code>showDeleted</code> to the given
* <code>boolean</code> value, which determines whether
* rows marked for deletion appear in the set of current rows.
*
* @param value <code>true</code> if deleted rows should be shown;
* <code>false</code> otherwise
* @throws SQLException if an error occurs setting whether deleted
* rows are visible or not
* @see #getShowDeleted
*/
public void setShowDeleted(boolean value) throws SQLException {
showDeleted = value;
}
/**
* Ascertains whether escape processing is enabled for this
* <code>RowSet</code> object.
*
* @return <code>true</code> if escape processing is turned on;
* <code>false</code> otherwise
* @throws SQLException if an error occurs determining if escape
* processing is enabled or not or if the internal escape
* processing trigger has not been enabled
*/
public boolean getEscapeProcessing() throws SQLException {
return escapeProcessing;
}
/**
* Gives the driver a performance hint as to the direction in
* which the rows in this <code>RowSet</code> object will be
* processed. The driver may ignore this hint.
* <P>
* A <code>RowSet</code> object inherits the default properties of the
* <code>ResultSet</code> object from which it got its data. That
* <code>ResultSet</code> object's default fetch direction is set by
* the <code>Statement</code> object that created it.
* <P>
* This method applies to a <code>RowSet</code> object only while it is
* connected to a database using a JDBC driver.
* <p>
* A <code>RowSet</code> object may use this method at any time to change
* its setting for the fetch direction.
*
* @param direction one of <code>ResultSet.FETCH_FORWARD</code>,
* <code>ResultSet.FETCH_REVERSE</code>, or
* <code>ResultSet.FETCH_UNKNOWN</code>
* @throws SQLException if (1) the <code>RowSet</code> type is
* <code>TYPE_FORWARD_ONLY</code> and the given fetch direction is not
* <code>FETCH_FORWARD</code> or (2) the given fetch direction is not
* one of the following:
* ResultSet.FETCH_FORWARD,
* ResultSet.FETCH_REVERSE, or
* ResultSet.FETCH_UNKNOWN
* @see #getFetchDirection
*/
public void setFetchDirection(int direction) throws SQLException {
// Changed the condition checking to the below as there were two
// conditions that had to be checked
// 1. RowSet is TYPE_FORWARD_ONLY and direction is not FETCH_FORWARD
// 2. Direction is not one of the valid values
if (((getType() == ResultSet.TYPE_FORWARD_ONLY) && (direction != ResultSet.FETCH_FORWARD)) ||
((direction != ResultSet.FETCH_FORWARD) &&
(direction != ResultSet.FETCH_REVERSE) &&
(direction != ResultSet.FETCH_UNKNOWN))) {
throw new SQLException("Invalid Fetch Direction");
}
fetchDir = direction;
}
/**
* Retrieves this <code>RowSet</code> object's current setting for the
* fetch direction. The default type is <code>ResultSet.FETCH_FORWARD</code>
*
* @return one of <code>ResultSet.FETCH_FORWARD</code>,
* <code>ResultSet.FETCH_REVERSE</code>, or
* <code>ResultSet.FETCH_UNKNOWN</code>
* @throws SQLException if an error occurs in determining the
* current fetch direction for fetching rows
* @see #setFetchDirection
*/
public int getFetchDirection() throws SQLException {
//Added the following code to throw a
//SQL Exception if the fetchDir is not
//set properly.Bug id:4914155
// This checking is not necessary!
/*
if((fetchDir != ResultSet.FETCH_FORWARD) &&
(fetchDir != ResultSet.FETCH_REVERSE) &&
(fetchDir != ResultSet.FETCH_UNKNOWN)) {
throw new SQLException("Fetch Direction Invalid");
}
*/
return (fetchDir);
}
/**
* Sets the fetch size for this <code>RowSet</code> object to the given number of
* rows. The fetch size gives a JDBC technology-enabled driver ("JDBC driver")
* a hint as to the
* number of rows that should be fetched from the database when more rows
* are needed for this <code>RowSet</code> object. If the fetch size specified
* is zero, the driver ignores the value and is free to make its own best guess
* as to what the fetch size should be.
* <P>
* A <code>RowSet</code> object inherits the default properties of the
* <code>ResultSet</code> object from which it got its data. That
* <code>ResultSet</code> object's default fetch size is set by
* the <code>Statement</code> object that created it.
* <P>
* This method applies to a <code>RowSet</code> object only while it is
* connected to a database using a JDBC driver.
* For connected <code>RowSet</code> implementations such as
* <code>JdbcRowSet</code>, this method has a direct and immediate effect
* on the underlying JDBC driver.
* <P>
* A <code>RowSet</code> object may use this method at any time to change
* its setting for the fetch size.
* <p>
* For <code>RowSet</code> implementations such as
* <code>CachedRowSet</code>, which operate in a disconnected environment,
* the <code>SyncProvider</code> object being used
* may leverage the fetch size to poll the data source and
* retrieve a number of rows that do not exceed the fetch size and that may
* form a subset of the actual rows returned by the original query. This is
* an implementation variance determined by the specific <code>SyncProvider</code>
* object employed by the disconnected <code>RowSet</code> object.
*
* @param rows the number of rows to fetch; <code>0</code> to let the
* driver decide what the best fetch size is; must not be less
* than <code>0</code> or more than the maximum number of rows
* allowed for this <code>RowSet</code> object (the number returned
* by a call to the method {@link #getMaxRows})
* @throws SQLException if the specified fetch size is less than <code>0</code>
* or more than the limit for the maximum number of rows
* @see #getFetchSize
*/
public void setFetchSize(int rows) throws SQLException {
//Added this checking as maxRows can be 0 when this function is called
//maxRows = 0 means rowset can hold any number of rows, os this checking
// is needed to take care of this condition.
if (getMaxRows() == 0 && rows >= 0) {
fetchSize = rows;
return;
}
if ((rows < 0) || (rows > getMaxRows())) {
throw new SQLException("Invalid fetch size set. Cannot be of " +
"value: " + rows);
}
fetchSize = rows;
}
/**
* Returns the fetch size for this <code>RowSet</code> object. The default
* value is zero.
*
* @return the number of rows suggested as the fetch size when this <code>RowSet</code> object
* needs more rows from the database
* @throws SQLException if an error occurs determining the number of rows in the
* current fetch size
* @see #setFetchSize
*/
public int getFetchSize() throws SQLException {
return fetchSize;
}
/**
* Returns the concurrency for this <code>RowSet</code> object.
* The default is <code>CONCUR_UPDATABLE</code> for both connected and
* disconnected <code>RowSet</code> objects.
* <P>
* An application can call the method <code>setConcurrency</code> at any time
* to change a <code>RowSet</code> object's concurrency.
*
* @return the concurrency type for this <code>RowSet</code>
* object, which must be one of the following:
* <code>ResultSet.CONCUR_READ_ONLY</code> or
* <code>ResultSet.CONCUR_UPDATABLE</code>
* @throws SQLException if an error occurs getting the concurrency
* of this <code>RowSet</code> object
* @see #setConcurrency
* @see #isReadOnly
*/
public int getConcurrency() throws SQLException {
return concurrency;
}
//-----------------------------------------------------------------------
// Parameters
//-----------------------------------------------------------------------
/**
* Checks the given index to see whether it is less than <code>1</code> and
* throws an <code>SQLException</code> object if it is.
* <P>
* This method is called by many methods internally; it is never
* called by an application directly.
*
* @param idx an <code>int</code> indicating which parameter is to be
* checked; the first parameter is <code>1</code>
* @throws SQLException if the parameter is less than <code>1</code>
*/
private void checkParamIndex(int idx) throws SQLException {
if ((idx < 1)) {
throw new SQLException("Invalid Parameter Index");
}
}
//---------------------------------------------------------------------
// setter methods for setting the parameters in a <code>RowSet</code> object's command
//---------------------------------------------------------------------
/**
* Sets the designated parameter to SQL <code>NULL</code>.
* Note that the parameter's SQL type must be specified using one of the
* type codes defined in <code>java.sql.Types</code>. This SQL type is
* specified in the second parameter.
* <p>
* Note that the second parameter tells the DBMS the data type of the value being
* set to <code>NULL</code>. Some DBMSs require this information, so it is required
* in order to make code more portable.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version of
* <code>setNull</code>
* has been called will return an <code>Object</code> array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is <code>null</code>.
* The second element is the value set for <i>sqlType</i>.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the second placeholder parameter is being set to
* <code>null</code>, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param sqlType an <code>int</code> that is one of the SQL type codes
* defined in the class {@link java.sql.Types}. If a non-standard
* <i>sqlType</i> is supplied, this method will not throw a
* <code>SQLException</code>. This allows implicit support for
* non-standard SQL types.
* @throws SQLException if a database access error occurs or the given
* parameter index is out of bounds
* @see #getParams
*/
public void setNull(int parameterIndex, int sqlType) throws SQLException {
Object nullVal[];
checkParamIndex(parameterIndex);
nullVal = new Object[2];
nullVal[0] = null;
nullVal[1] = Integer.valueOf(sqlType);
if (params == null){
throw new SQLException("Set initParams() before setNull");
}
params.put(Integer.valueOf(parameterIndex - 1), nullVal);
}
/**
* Sets the designated parameter to SQL <code>NULL</code>.
*
* Although this version of the method <code>setNull</code> is intended
* for user-defined
* and <code>REF</code> parameters, this method may be used to set a null
* parameter for any JDBC type. The following are user-defined types:
* <code>STRUCT</code>, <code>DISTINCT</code>, and <code>JAVA_OBJECT</code>,
* and named array types.
*
* <P><B>Note:</B> To be portable, applications must give the
* SQL type code and the fully qualified SQL type name when specifying
* a <code>NULL</code> user-defined or <code>REF</code> parameter.
* In the case of a user-defined type, the name is the type name of
* the parameter itself. For a <code>REF</code> parameter, the name is
* the type name of the referenced type. If a JDBC technology-enabled
* driver does not need the type code or type name information,
* it may ignore it.
* <P>
* If the parameter does not have a user-defined or <code>REF</code> type,
* the given <code>typeName</code> parameter is ignored.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version of
* <code>setNull</code>
* has been called will return an <code>Object</code> array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is <code>null</code>.
* The second element is the value set for <i>sqlType</i>, and the third
* element is the value set for <i>typeName</i>.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the second placeholder parameter is being set to
* <code>null</code>, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param sqlType a value from <code>java.sql.Types</code>
* @param typeName the fully qualified name of an SQL user-defined type,
* which is ignored if the parameter is not a user-defined
* type or <code>REF</code> value
* @throws SQLException if an error occurs or the given parameter index
* is out of bounds
* @see #getParams
*/
public void setNull(int parameterIndex, int sqlType, String typeName)
throws SQLException {
Object nullVal[];
checkParamIndex(parameterIndex);
nullVal = new Object[3];
nullVal[0] = null;
nullVal[1] = Integer.valueOf(sqlType);
nullVal[2] = typeName;
if(params == null){
throw new SQLException("Set initParams() before setNull");
}
params.put(Integer.valueOf(parameterIndex - 1), nullVal);
}
/**
* Sets the designated parameter to the given <code>boolean</code> in the
* Java programming language. The driver converts this to an SQL
* <code>BIT</code> value when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code>, <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <p>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setBoolean(int parameterIndex, boolean x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setNull");
}
params.put(Integer.valueOf(parameterIndex - 1), Boolean.valueOf(x));
}
/**
* Sets the designated parameter to the given <code>byte</code> in the Java
* programming language. The driver converts this to an SQL
* <code>TINYINT</code> value when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <p>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setByte(int parameterIndex, byte x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setByte");
}
params.put(Integer.valueOf(parameterIndex - 1), Byte.valueOf(x));
}
/**
* Sets the designated parameter to the given <code>short</code> in the
* Java programming language. The driver converts this to an SQL
* <code>SMALLINT</code> value when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <p>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setShort(int parameterIndex, short x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setShort");
}
params.put(Integer.valueOf(parameterIndex - 1), Short.valueOf(x));
}
/**
* Sets the designated parameter to an <code>int</code> in the Java
* programming language. The driver converts this to an SQL
* <code>INTEGER</code> value when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setInt(int parameterIndex, int x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setInt");
}
params.put(Integer.valueOf(parameterIndex - 1), Integer.valueOf(x));
}
/**
* Sets the designated parameter to the given <code>long</code> in the Java
* programming language. The driver converts this to an SQL
* <code>BIGINT</code> value when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setLong(int parameterIndex, long x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setLong");
}
params.put(Integer.valueOf(parameterIndex - 1), Long.valueOf(x));
}
/**
* Sets the designated parameter to the given <code>float</code> in the
* Java programming language. The driver converts this to an SQL
* <code>FLOAT</code> value when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setFloat(int parameterIndex, float x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setFloat");
}
params.put(Integer.valueOf(parameterIndex - 1), Float.valueOf(x));
}
/**
* Sets the designated parameter to the given <code>double</code> in the
* Java programming language. The driver converts this to an SQL
* <code>DOUBLE</code> value when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setDouble(int parameterIndex, double x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setDouble");
}
params.put(Integer.valueOf(parameterIndex - 1), Double.valueOf(x));
}
/**
* Sets the designated parameter to the given
* <code>java.lang.BigDecimal</code> value. The driver converts this to
* an SQL <code>NUMERIC</code> value when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* Note: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setBigDecimal(int parameterIndex, java.math.BigDecimal x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setBigDecimal");
}
params.put(Integer.valueOf(parameterIndex - 1), x);
}
/**
* Sets the designated parameter to the given <code>String</code>
* value. The driver converts this to an SQL
* <code>VARCHAR</code> or <code>LONGVARCHAR</code> value
* (depending on the argument's size relative to the driver's limits
* on <code>VARCHAR</code> values) when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <p>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setString(int parameterIndex, String x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setString");
}
params.put(Integer.valueOf(parameterIndex - 1), x);
}
/**
* Sets the designated parameter to the given array of bytes.
* The driver converts this to an SQL
* <code>VARBINARY</code> or <code>LONGVARBINARY</code> value
* (depending on the argument's size relative to the driver's limits
* on <code>VARBINARY</code> values) when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <p>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setBytes(int parameterIndex, byte x[]) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setBytes");
}
params.put(Integer.valueOf(parameterIndex - 1), x);
}
/**
* Sets the designated parameter to the given <code>java.sql.Date</code>
* value. The driver converts this to an SQL
* <code>DATE</code> value when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version
* of <code>setDate</code>
* has been called will return an array with the value to be set for
* placeholder parameter number <i>parameterIndex</i> being the <code>Date</code>
* object supplied as the second parameter.
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the parameter value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setDate(int parameterIndex, java.sql.Date x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setDate");
}
params.put(Integer.valueOf(parameterIndex - 1), x);
}
/**
* Sets the designated parameter to the given <code>java.sql.Time</code>
* value. The driver converts this to an SQL <code>TIME</code> value
* when it sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version
* of the method <code>setTime</code>
* has been called will return an array of the parameters that have been set.
* The parameter to be set for parameter placeholder number <i>parameterIndex</i>
* will be the <code>Time</code> object that was set as the second parameter
* to this method.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x a <code>java.sql.Time</code> object, which is to be set as the value
* for placeholder parameter <i>parameterIndex</i>
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setTime(int parameterIndex, java.sql.Time x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setTime");
}
params.put(Integer.valueOf(parameterIndex - 1), x);
}
/**
* Sets the designated parameter to the given
* <code>java.sql.Timestamp</code> value.
* The driver converts this to an SQL <code>TIMESTAMP</code> value when it
* sends it to the database.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version of
* <code>setTimestamp</code>
* has been called will return an array with the value for parameter placeholder
* number <i>parameterIndex</i> being the <code>Timestamp</code> object that was
* supplied as the second parameter to this method.
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x a <code>java.sql.Timestamp</code> object
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setTimestamp(int parameterIndex, java.sql.Timestamp x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setTimestamp");
}
params.put(Integer.valueOf(parameterIndex - 1), x);
}
/**
* Sets the designated parameter to the given
* <code>java.io.InputStream</code> object,
* which will have the specified number of bytes.
* The contents of the stream will be read and sent to the database.
* This method throws an <code>SQLException</code> object if the number of bytes
* read and sent to the database is not equal to <i>length</i>.
* <P>
* When a very large ASCII value is input to a <code>LONGVARCHAR</code>
* parameter, it may be more practical to send it via a
* <code>java.io.InputStream</code> object. A JDBC technology-enabled
* driver will read the data from the stream as needed until it reaches
* end-of-file. The driver will do any necessary conversion from ASCII to
* the database <code>CHAR</code> format.
*
* <P><B>Note:</B> This stream object can be either a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* Note: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after <code>setAsciiStream</code>
* has been called will return an array containing the parameter values that
* have been set. The element in the array that represents the values
* set with this method will itself be an array. The first element of that array
* is the given <code>java.io.InputStream</code> object.
* The second element is the value set for <i>length</i>.
* The third element is an internal <code>BaseRowSet</code> constant
* specifying that the stream passed to this method is an ASCII stream.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the input stream being set is the value for the second
* placeholder parameter, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the Java input stream that contains the ASCII parameter value
* @param length the number of bytes in the stream. This is the number of bytes
* the driver will send to the DBMS; lengths of 0 or less are
* are undefined but will cause an invalid length exception to be
* thrown in the underlying JDBC driver.
* @throws SQLException if an error occurs, the parameter index is out of bounds,
* or when connected to a data source, the number of bytes the driver reads
* and sends to the database is not equal to the number of bytes specified
* in <i>length</i>
* @see #getParams
*/
public void setAsciiStream(int parameterIndex, java.io.InputStream x, int length) throws SQLException {
Object asciiStream[];
checkParamIndex(parameterIndex);
asciiStream = new Object[3];
asciiStream[0] = x;
asciiStream[1] = Integer.valueOf(length);
asciiStream[2] = Integer.valueOf(ASCII_STREAM_PARAM);
if(params == null){
throw new SQLException("Set initParams() before setAsciiStream");
}
params.put(Integer.valueOf(parameterIndex - 1), asciiStream);
}
/**
* Sets the designated parameter in this <code>RowSet</code> object's command
* to the given input stream.
* When a very large ASCII value is input to a <code>LONGVARCHAR</code>
* parameter, it may be more practical to send it via a
* <code>java.io.InputStream</code>. Data will be read from the stream
* as needed until end-of-file is reached. The JDBC driver will
* do any necessary conversion from ASCII to the database char format.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setAsciiStream</code> which takes a length parameter.
*
* @param parameterIndex the first parameter is 1, the second is 2, ...
* @param x the Java input stream that contains the ASCII parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>PreparedStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setAsciiStream(int parameterIndex, java.io.InputStream x)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.io.InputStream</code>
* object, which will have the specified number of bytes.
* The contents of the stream will be read and sent to the database.
* This method throws an <code>SQLException</code> object if the number of bytes
* read and sent to the database is not equal to <i>length</i>.
* <P>
* When a very large binary value is input to a
* <code>LONGVARBINARY</code> parameter, it may be more practical
* to send it via a <code>java.io.InputStream</code> object.
* A JDBC technology-enabled driver will read the data from the
* stream as needed until it reaches end-of-file.
*
* <P><B>Note:</B> This stream object can be either a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
*<P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after <code>setBinaryStream</code>
* has been called will return an array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is the given <code>java.io.InputStream</code> object.
* The second element is the value set for <i>length</i>.
* The third element is an internal <code>BaseRowSet</code> constant
* specifying that the stream passed to this method is a binary stream.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the input stream being set is the value for the second
* placeholder parameter, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the input stream that contains the binary value to be set
* @param length the number of bytes in the stream; lengths of 0 or less are
* are undefined but will cause an invalid length exception to be
* thrown in the underlying JDBC driver.
* @throws SQLException if an error occurs, the parameter index is out of bounds,
* or when connected to a data source, the number of bytes the driver
* reads and sends to the database is not equal to the number of bytes
* specified in <i>length</i>
* @see #getParams
*/
public void setBinaryStream(int parameterIndex, java.io.InputStream x, int length) throws SQLException {
Object binaryStream[];
checkParamIndex(parameterIndex);
binaryStream = new Object[3];
binaryStream[0] = x;
binaryStream[1] = Integer.valueOf(length);
binaryStream[2] = Integer.valueOf(BINARY_STREAM_PARAM);
if(params == null){
throw new SQLException("Set initParams() before setBinaryStream");
}
params.put(Integer.valueOf(parameterIndex - 1), binaryStream);
}
/**
* Sets the designated parameter in this <code>RowSet</code> object's command
* to the given input stream.
* When a very large binary value is input to a <code>LONGVARBINARY</code>
* parameter, it may be more practical to send it via a
* <code>java.io.InputStream</code> object. The data will be read from the
* stream as needed until end-of-file is reached.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setBinaryStream</code> which takes a length parameter.
*
* @param parameterIndex the first parameter is 1, the second is 2, ...
* @param x the java input stream which contains the binary parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>PreparedStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setBinaryStream(int parameterIndex, java.io.InputStream x)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given
* <code>java.io.InputStream</code> object, which will have the specified
* number of bytes. The contents of the stream will be read and sent
* to the database.
* This method throws an <code>SQLException</code> if the number of bytes
* read and sent to the database is not equal to <i>length</i>.
* <P>
* When a very large Unicode value is input to a
* <code>LONGVARCHAR</code> parameter, it may be more practical
* to send it via a <code>java.io.InputStream</code> object.
* A JDBC technology-enabled driver will read the data from the
* stream as needed, until it reaches end-of-file.
* The driver will do any necessary conversion from Unicode to the
* database <code>CHAR</code> format.
* The byte format of the Unicode stream must be Java UTF-8, as
* defined in the Java Virtual Machine Specification.
*
* <P><B>Note:</B> This stream object can be either a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P>
* This method is deprecated; the method <code>getCharacterStream</code>
* should be used in its place.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Calls made to the method <code>getParams</code> after <code>setUnicodeStream</code>
* has been called will return an array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is the given <code>java.io.InputStream</code> object.
* The second element is the value set for <i>length</i>.
* The third element is an internal <code>BaseRowSet</code> constant
* specifying that the stream passed to this method is a Unicode stream.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the input stream being set is the value for the second
* placeholder parameter, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the <code>java.io.InputStream</code> object that contains the
* UNICODE parameter value
* @param length the number of bytes in the input stream
* @throws SQLException if an error occurs, the parameter index is out of bounds,
* or the number of bytes the driver reads and sends to the database is
* not equal to the number of bytes specified in <i>length</i>
* @deprecated getCharacterStream should be used in its place
* @see #getParams
*/
@Deprecated
public void setUnicodeStream(int parameterIndex, java.io.InputStream x, int length) throws SQLException {
Object unicodeStream[];
checkParamIndex(parameterIndex);
unicodeStream = new Object[3];
unicodeStream[0] = x;
unicodeStream[1] = Integer.valueOf(length);
unicodeStream[2] = Integer.valueOf(UNICODE_STREAM_PARAM);
if(params == null){
throw new SQLException("Set initParams() before setUnicodeStream");
}
params.put(Integer.valueOf(parameterIndex - 1), unicodeStream);
}
/**
* Sets the designated parameter to the given <code>java.io.Reader</code>
* object, which will have the specified number of characters. The
* contents of the reader will be read and sent to the database.
* This method throws an <code>SQLException</code> if the number of bytes
* read and sent to the database is not equal to <i>length</i>.
* <P>
* When a very large Unicode value is input to a
* <code>LONGVARCHAR</code> parameter, it may be more practical
* to send it via a <code>Reader</code> object.
* A JDBC technology-enabled driver will read the data from the
* stream as needed until it reaches end-of-file.
* The driver will do any necessary conversion from Unicode to the
* database <code>CHAR</code> format.
* The byte format of the Unicode stream must be Java UTF-8, as
* defined in the Java Virtual Machine Specification.
*
* <P><B>Note:</B> This stream object can be either a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after
* <code>setCharacterStream</code>
* has been called will return an array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is the given <code>java.io.Reader</code> object.
* The second element is the value set for <i>length</i>.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the reader being set is the value for the second
* placeholder parameter, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param reader the <code>Reader</code> object that contains the
* Unicode data
* @param length the number of characters in the stream; lengths of 0 or
* less are undefined but will cause an invalid length exception to
* be thrown in the underlying JDBC driver.
* @throws SQLException if an error occurs, the parameter index is out of bounds,
* or when connected to a data source, the number of bytes the driver
* reads and sends to the database is not equal to the number of bytes
* specified in <i>length</i>
* @see #getParams
*/
public void setCharacterStream(int parameterIndex, Reader reader, int length) throws SQLException {
Object charStream[];
checkParamIndex(parameterIndex);
charStream = new Object[2];
charStream[0] = reader;
charStream[1] = Integer.valueOf(length);
if(params == null){
throw new SQLException("Set initParams() before setCharacterStream");
}
params.put(Integer.valueOf(parameterIndex - 1), charStream);
}
/**
* Sets the designated parameter in this <code>RowSet</code> object's command
* to the given <code>Reader</code>
* object.
* When a very large UNICODE value is input to a <code>LONGVARCHAR</code>
* parameter, it may be more practical to send it via a
* <code>java.io.Reader</code> object. The data will be read from the stream
* as needed until end-of-file is reached. The JDBC driver will
* do any necessary conversion from UNICODE to the database char format.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setCharacterStream</code> which takes a length parameter.
*
* @param parameterIndex the first parameter is 1, the second is 2, ...
* @param reader the <code>java.io.Reader</code> object that contains the
* Unicode data
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>PreparedStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setCharacterStream(int parameterIndex,
java.io.Reader reader) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to an <code>Object</code> in the Java
* programming language. The second parameter must be an
* <code>Object</code> type. For integral values, the
* <code>java.lang</code> equivalent
* objects should be used. For example, use the class <code>Integer</code>
* for an <code>int</code>.
* <P>
* The driver converts this object to the specified
* target SQL type before sending it to the database.
* If the object has a custom mapping (is of a class implementing
* <code>SQLData</code>), the driver should call the method
* <code>SQLData.writeSQL</code> to write the object to the SQL
* data stream. If, on the other hand, the object is of a class
* implementing <code>Ref</code>, <code>Blob</code>, <code>Clob</code>,
* <code>Struct</code>, or <code>Array</code>,
* the driver should pass it to the database as a value of the
* corresponding SQL type.
*
* <p>Note that this method may be used to pass database-
* specific abstract data types.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version of
* <code>setObject</code>
* has been called will return an array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is the given <code>Object</code> instance, and the
* second element is the value set for <i>targetSqlType</i>. The
* third element is the value set for <i>scale</i>, which the driver will
* ignore if the type of the object being set is not
* <code>java.sql.Types.NUMERIC</code> or <code>java.sql.Types.DECIMAL</code>.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the object being set is the value for the second
* placeholder parameter, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
*<P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the <code>Object</code> containing the input parameter value;
* must be an <code>Object</code> type
* @param targetSqlType the SQL type (as defined in <code>java.sql.Types</code>)
* to be sent to the database. The <code>scale</code> argument may
* further qualify this type. If a non-standard <i>targetSqlType</i>
* is supplied, this method will not throw a <code>SQLException</code>.
* This allows implicit support for non-standard SQL types.
* @param scale for the types <code>java.sql.Types.DECIMAL</code> and
* <code>java.sql.Types.NUMERIC</code>, this is the number
* of digits after the decimal point. For all other types, this
* value will be ignored.
* @throws SQLException if an error occurs or the parameter index is out of bounds
* @see #getParams
*/
public void setObject(int parameterIndex, Object x, int targetSqlType, int scale) throws SQLException {
Object obj[];
checkParamIndex(parameterIndex);
obj = new Object[3];
obj[0] = x;
obj[1] = Integer.valueOf(targetSqlType);
obj[2] = Integer.valueOf(scale);
if(params == null){
throw new SQLException("Set initParams() before setObject");
}
params.put(Integer.valueOf(parameterIndex - 1), obj);
}
/**
* Sets the value of the designated parameter with the given
* <code>Object</code> value.
* This method is like <code>setObject(int parameterIndex, Object x, int
* targetSqlType, int scale)</code> except that it assumes a scale of zero.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version of
* <code>setObject</code>
* has been called will return an array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is the given <code>Object</code> instance.
* The second element is the value set for <i>targetSqlType</i>.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the object being set is the value for the second
* placeholder parameter, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the <code>Object</code> containing the input parameter value;
* must be an <code>Object</code> type
* @param targetSqlType the SQL type (as defined in <code>java.sql.Types</code>)
* to be sent to the database. If a non-standard <i>targetSqlType</i>
* is supplied, this method will not throw a <code>SQLException</code>.
* This allows implicit support for non-standard SQL types.
* @throws SQLException if an error occurs or the parameter index
* is out of bounds
* @see #getParams
*/
public void setObject(int parameterIndex, Object x, int targetSqlType) throws SQLException {
Object obj[];
checkParamIndex(parameterIndex);
obj = new Object[2];
obj[0] = x;
obj[1] = Integer.valueOf(targetSqlType);
if (params == null){
throw new SQLException("Set initParams() before setObject");
}
params.put(Integer.valueOf(parameterIndex - 1), obj);
}
/**
* Sets the designated parameter to an <code>Object</code> in the Java
* programming language. The second parameter must be an
* <code>Object</code>
* type. For integral values, the <code>java.lang</code> equivalent
* objects should be used. For example, use the class <code>Integer</code>
* for an <code>int</code>.
* <P>
* The JDBC specification defines a standard mapping from
* Java <code>Object</code> types to SQL types. The driver will
* use this standard mapping to convert the given object
* to its corresponding SQL type before sending it to the database.
* If the object has a custom mapping (is of a class implementing
* <code>SQLData</code>), the driver should call the method
* <code>SQLData.writeSQL</code> to write the object to the SQL
* data stream.
* <P>
* If, on the other hand, the object is of a class
* implementing <code>Ref</code>, <code>Blob</code>, <code>Clob</code>,
* <code>Struct</code>, or <code>Array</code>,
* the driver should pass it to the database as a value of the
* corresponding SQL type.
* <P>
* This method throws an exception if there
* is an ambiguity, for example, if the object is of a class
* implementing more than one interface.
* <P>
* Note that this method may be used to pass database-specific
* abstract data types.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <p>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* After this method has been called, a call to the
* method <code>getParams</code>
* will return an object array of the current command parameters, which will
* include the <code>Object</code> set for placeholder parameter number
* <code>parameterIndex</code>.
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x the object containing the input parameter value
* @throws SQLException if an error occurs the
* parameter index is out of bounds, or there
* is ambiguity in the implementation of the
* object being set
* @see #getParams
*/
public void setObject(int parameterIndex, Object x) throws SQLException {
checkParamIndex(parameterIndex);
if (params == null) {
throw new SQLException("Set initParams() before setObject");
}
params.put(Integer.valueOf(parameterIndex - 1), x);
}
/**
* Sets the designated parameter to the given <code>Ref</code> object in
* the Java programming language. The driver converts this to an SQL
* <code>REF</code> value when it sends it to the database. Internally, the
* <code>Ref</code> is represented as a <code>SerialRef</code> to ensure
* serializability.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <p>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <p>
* After this method has been called, a call to the
* method <code>getParams</code>
* will return an object array of the current command parameters, which will
* include the <code>Ref</code> object set for placeholder parameter number
* <code>parameterIndex</code>.
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param ref a <code>Ref</code> object representing an SQL <code>REF</code>
* value; cannot be null
* @throws SQLException if an error occurs; the parameter index is out of
* bounds or the <code>Ref</code> object is <code>null</code>; or
* the <code>Ref</code> object returns a <code>null</code> base type
* name.
* @see #getParams
* @see javax.sql.rowset.serial.SerialRef
*/
public void setRef (int parameterIndex, Ref ref) throws SQLException {
checkParamIndex(parameterIndex);
if (params == null) {
throw new SQLException("Set initParams() before setRef");
}
params.put(Integer.valueOf(parameterIndex - 1), new SerialRef(ref));
}
/**
* Sets the designated parameter to the given <code>Blob</code> object in
* the Java programming language. The driver converts this to an SQL
* <code>BLOB</code> value when it sends it to the database. Internally,
* the <code>Blob</code> is represented as a <code>SerialBlob</code>
* to ensure serializability.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <p>
* After this method has been called, a call to the
* method <code>getParams</code>
* will return an object array of the current command parameters, which will
* include the <code>Blob</code> object set for placeholder parameter number
* <code>parameterIndex</code>.
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x a <code>Blob</code> object representing an SQL
* <code>BLOB</code> value
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
* @see javax.sql.rowset.serial.SerialBlob
*/
public void setBlob (int parameterIndex, Blob x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setBlob");
}
params.put(Integer.valueOf(parameterIndex - 1), new SerialBlob(x));
}
/**
* Sets the designated parameter to the given <code>Clob</code> object in
* the Java programming language. The driver converts this to an SQL
* <code>CLOB</code> value when it sends it to the database. Internally, the
* <code>Clob</code> is represented as a <code>SerialClob</code> to ensure
* serializability.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <p>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <p>
* After this method has been called, a call to the
* method <code>getParams</code>
* will return an object array of the current command parameters, which will
* include the <code>Clob</code> object set for placeholder parameter number
* <code>parameterIndex</code>.
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x a <code>Clob</code> object representing an SQL
* <code>CLOB</code> value; cannot be null
* @throws SQLException if an error occurs; the parameter index is out of
* bounds or the <code>Clob</code> is null
* @see #getParams
* @see javax.sql.rowset.serial.SerialBlob
*/
public void setClob (int parameterIndex, Clob x) throws SQLException {
checkParamIndex(parameterIndex);
if(params == null){
throw new SQLException("Set initParams() before setClob");
}
params.put(Integer.valueOf(parameterIndex - 1), new SerialClob(x));
}
/**
* Sets the designated parameter to an <code>Array</code> object in the
* Java programming language. The driver converts this to an SQL
* <code>ARRAY</code> value when it sends it to the database. Internally,
* the <code>Array</code> is represented as a <code>SerialArray</code>
* to ensure serializability.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* Note: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <p>
* After this method has been called, a call to the
* method <code>getParams</code>
* will return an object array of the current command parameters, which will
* include the <code>Array</code> object set for placeholder parameter number
* <code>parameterIndex</code>.
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is element number <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param array an <code>Array</code> object representing an SQL
* <code>ARRAY</code> value; cannot be null. The <code>Array</code> object
* passed to this method must return a non-null Object for all
* <code>getArray()</code> method calls. A null value will cause a
* <code>SQLException</code> to be thrown.
* @throws SQLException if an error occurs; the parameter index is out of
* bounds or the <code>ARRAY</code> is null
* @see #getParams
* @see javax.sql.rowset.serial.SerialArray
*/
public void setArray (int parameterIndex, Array array) throws SQLException {
checkParamIndex(parameterIndex);
if (params == null){
throw new SQLException("Set initParams() before setArray");
}
params.put(Integer.valueOf(parameterIndex - 1), new SerialArray(array));
}
/**
* Sets the designated parameter to the given <code>java.sql.Date</code>
* object.
* When the DBMS does not store time zone information, the driver will use
* the given <code>Calendar</code> object to construct the SQL <code>DATE</code>
* value to send to the database. With a
* <code>Calendar</code> object, the driver can calculate the date
* taking into account a custom time zone. If no <code>Calendar</code>
* object is specified, the driver uses the time zone of the Virtual Machine
* that is running the application.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version of
* <code>setDate</code>
* has been called will return an array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is the given <code>java.sql.Date</code> object.
* The second element is the value set for <i>cal</i>.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the date being set is the value for the second
* placeholder parameter, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x a <code>java.sql.Date</code> object representing an SQL
* <code>DATE</code> value
* @param cal a <code>java.util.Calendar</code> object to use when
* when constructing the date
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setDate(int parameterIndex, java.sql.Date x, Calendar cal) throws SQLException {
Object date[];
checkParamIndex(parameterIndex);
date = new Object[2];
date[0] = x;
date[1] = cal;
if(params == null){
throw new SQLException("Set initParams() before setDate");
}
params.put(Integer.valueOf(parameterIndex - 1), date);
}
/**
* Sets the designated parameter to the given <code>java.sql.Time</code>
* object. The driver converts this
* to an SQL <code>TIME</code> value when it sends it to the database.
* <P>
* When the DBMS does not store time zone information, the driver will use
* the given <code>Calendar</code> object to construct the SQL <code>TIME</code>
* value to send to the database. With a
* <code>Calendar</code> object, the driver can calculate the date
* taking into account a custom time zone. If no <code>Calendar</code>
* object is specified, the driver uses the time zone of the Virtual Machine
* that is running the application.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version of
* <code>setTime</code>
* has been called will return an array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is the given <code>java.sql.Time</code> object.
* The second element is the value set for <i>cal</i>.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the time being set is the value for the second
* placeholder parameter, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x a <code>java.sql.Time</code> object
* @param cal the <code>java.util.Calendar</code> object the driver can use to
* construct the time
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setTime(int parameterIndex, java.sql.Time x, Calendar cal) throws SQLException {
Object time[];
checkParamIndex(parameterIndex);
time = new Object[2];
time[0] = x;
time[1] = cal;
if(params == null){
throw new SQLException("Set initParams() before setTime");
}
params.put(Integer.valueOf(parameterIndex - 1), time);
}
/**
* Sets the designated parameter to the given
* <code>java.sql.Timestamp</code> object. The driver converts this
* to an SQL <code>TIMESTAMP</code> value when it sends it to the database.
* <P>
* When the DBMS does not store time zone information, the driver will use
* the given <code>Calendar</code> object to construct the SQL <code>TIMESTAMP</code>
* value to send to the database. With a
* <code>Calendar</code> object, the driver can calculate the timestamp
* taking into account a custom time zone. If no <code>Calendar</code>
* object is specified, the driver uses the time zone of the Virtual Machine
* that is running the application.
* <P>
* The parameter value set by this method is stored internally and
* will be supplied as the appropriate parameter in this <code>RowSet</code>
* object's command when the method <code>execute</code> is called.
* Methods such as <code>execute</code> and <code>populate</code> must be
* provided in any class that extends this class and implements one or
* more of the standard JSR-114 <code>RowSet</code> interfaces.
* <P>
* NOTE: <code>JdbcRowSet</code> does not require the <code>populate</code> method
* as it is undefined in this class.
* <P>
* Calls made to the method <code>getParams</code> after this version of
* <code>setTimestamp</code>
* has been called will return an array containing the parameter values that
* have been set. In that array, the element that represents the values
* set with this method will itself be an array. The first element of that array
* is the given <code>java.sql.Timestamp</code> object.
* The second element is the value set for <i>cal</i>.
* The parameter number is indicated by an element's position in the array
* returned by the method <code>getParams</code>,
* with the first element being the value for the first placeholder parameter, the
* second element being the value for the second placeholder parameter, and so on.
* In other words, if the timestamp being set is the value for the second
* placeholder parameter, the array containing it will be the second element in
* the array returned by <code>getParams</code>.
* <P>
* Note that because the numbering of elements in an array starts at zero,
* the array element that corresponds to placeholder parameter number
* <i>parameterIndex</i> is <i>parameterIndex</i> -1.
*
* @param parameterIndex the ordinal number of the placeholder parameter
* in this <code>RowSet</code> object's command that is to be set.
* The first parameter is 1, the second is 2, and so on; must be
* <code>1</code> or greater
* @param x a <code>java.sql.Timestamp</code> object
* @param cal the <code>java.util.Calendar</code> object the driver can use to
* construct the timestamp
* @throws SQLException if an error occurs or the
* parameter index is out of bounds
* @see #getParams
*/
public void setTimestamp(int parameterIndex, java.sql.Timestamp x, Calendar cal) throws SQLException {
Object timestamp[];
checkParamIndex(parameterIndex);
timestamp = new Object[2];
timestamp[0] = x;
timestamp[1] = cal;
if(params == null){
throw new SQLException("Set initParams() before setTimestamp");
}
params.put(Integer.valueOf(parameterIndex - 1), timestamp);
}
/**
* Clears all of the current parameter values in this <code>RowSet</code>
* object's internal representation of the parameters to be set in
* this <code>RowSet</code> object's command when it is executed.
* <P>
* In general, parameter values remain in force for repeated use in
* this <code>RowSet</code> object's command. Setting a parameter value with the
* setter methods automatically clears the value of the
* designated parameter and replaces it with the new specified value.
* <P>
* This method is called internally by the <code>setCommand</code>
* method to clear all of the parameters set for the previous command.
* <P>
* Furthermore, this method differs from the <code>initParams</code>
* method in that it maintains the schema of the <code>RowSet</code> object.
*
* @throws SQLException if an error occurs clearing the parameters
*/
public void clearParameters() throws SQLException {
params.clear();
}
/**
* Retrieves an array containing the parameter values (both Objects and
* primitives) that have been set for this
* <code>RowSet</code> object's command and throws an <code>SQLException</code> object
* if all parameters have not been set. Before the command is sent to the
* DBMS to be executed, these parameters will be substituted
* for placeholder parameters in the <code>PreparedStatement</code> object
* that is the command for a <code>RowSet</code> implementation extending
* the <code>BaseRowSet</code> class.
* <P>
* Each element in the array that is returned is an <code>Object</code> instance
* that contains the values of the parameters supplied to a setter method.
* The order of the elements is determined by the value supplied for
* <i>parameterIndex</i>. If the setter method takes only the parameter index
* and the value to be set (possibly null), the array element will contain the value to be set
* (which will be expressed as an <code>Object</code>). If there are additional
* parameters, the array element will itself be an array containing the value to be set
* plus any additional parameter values supplied to the setter method. If the method
* sets a stream, the array element includes the type of stream being supplied to the
* method. These additional parameters are for the use of the driver or the DBMS and may or
* may not be used.
* <P>
* NOTE: Stored parameter values of types <code>Array</code>, <code>Blob</code>,
* <code>Clob</code> and <code>Ref</code> are returned as <code>SerialArray</code>,
* <code>SerialBlob</code>, <code>SerialClob</code> and <code>SerialRef</code>
* respectively.
*
* @return an array of <code>Object</code> instances that includes the
* parameter values that may be set in this <code>RowSet</code> object's
* command; an empty array if no parameters have been set
* @throws SQLException if an error occurs retrieving the object array of
* parameters of this <code>RowSet</code> object or if not all parameters have
* been set
*/
public Object[] getParams() throws SQLException {
if (params == null) {
initParams();
Object [] paramsArray = new Object[params.size()];
return paramsArray;
} else {
// The parameters may be set in random order
// but all must be set, check to verify all
// have been set till the last parameter
// else throw exception.
Object[] paramsArray = new Object[params.size()];
for (int i = 0; i < params.size(); i++) {
paramsArray[i] = params.get(Integer.valueOf(i));
if (paramsArray[i] == null) {
throw new SQLException("missing parameter: " + (i + 1));
} //end if
} //end for
return paramsArray;
} //end if
} //end getParams
/**
* Sets the designated parameter to SQL <code>NULL</code>.
*
* <P><B>Note:</B> You must specify the parameter's SQL type.
*
* @param parameterName the name of the parameter
* @param sqlType the SQL type code defined in <code>java.sql.Types</code>
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
*/
public void setNull(String parameterName, int sqlType) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to SQL <code>NULL</code>.
* This version of the method <code>setNull</code> should
* be used for user-defined types and REF type parameters. Examples
* of user-defined types include: STRUCT, DISTINCT, JAVA_OBJECT, and
* named array types.
*
* <P><B>Note:</B> To be portable, applications must give the
* SQL type code and the fully-qualified SQL type name when specifying
* a NULL user-defined or REF parameter. In the case of a user-defined type
* the name is the type name of the parameter itself. For a REF
* parameter, the name is the type name of the referenced type. If
* a JDBC driver does not need the type code or type name information,
* it may ignore it.
*
* Although it is intended for user-defined and Ref parameters,
* this method may be used to set a null parameter of any JDBC type.
* If the parameter does not have a user-defined or REF type, the given
* typeName is ignored.
*
*
* @param parameterName the name of the parameter
* @param sqlType a value from <code>java.sql.Types</code>
* @param typeName the fully-qualified name of an SQL user-defined type;
* ignored if the parameter is not a user-defined type or
* SQL <code>REF</code> value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
*/
public void setNull (String parameterName, int sqlType, String typeName)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given Java <code>boolean</code> value.
* The driver converts this
* to an SQL <code>BIT</code> or <code>BOOLEAN</code> value when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setBoolean(String parameterName, boolean x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given Java <code>byte</code> value.
* The driver converts this
* to an SQL <code>TINYINT</code> value when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setByte(String parameterName, byte x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given Java <code>short</code> value.
* The driver converts this
* to an SQL <code>SMALLINT</code> value when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setShort(String parameterName, short x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given Java <code>int</code> value.
* The driver converts this
* to an SQL <code>INTEGER</code> value when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setInt(String parameterName, int x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given Java <code>long</code> value.
* The driver converts this
* to an SQL <code>BIGINT</code> value when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setLong(String parameterName, long x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given Java <code>float</code> value.
* The driver converts this
* to an SQL <code>FLOAT</code> value when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setFloat(String parameterName, float x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given Java <code>double</code> value.
* The driver converts this
* to an SQL <code>DOUBLE</code> value when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setDouble(String parameterName, double x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given
* <code>java.math.BigDecimal</code> value.
* The driver converts this to an SQL <code>NUMERIC</code> value when
* it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setBigDecimal(String parameterName, BigDecimal x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given Java <code>String</code> value.
* The driver converts this
* to an SQL <code>VARCHAR</code> or <code>LONGVARCHAR</code> value
* (depending on the argument's
* size relative to the driver's limits on <code>VARCHAR</code> values)
* when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setString(String parameterName, String x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given Java array of bytes.
* The driver converts this to an SQL <code>VARBINARY</code> or
* <code>LONGVARBINARY</code> (depending on the argument's size relative
* to the driver's limits on <code>VARBINARY</code> values) when it sends
* it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setBytes(String parameterName, byte x[]) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.Timestamp</code> value.
* The driver
* converts this to an SQL <code>TIMESTAMP</code> value when it sends it to the
* database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setTimestamp(String parameterName, java.sql.Timestamp x)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given input stream, which will have
* the specified number of bytes.
* When a very large ASCII value is input to a <code>LONGVARCHAR</code>
* parameter, it may be more practical to send it via a
* <code>java.io.InputStream</code>. Data will be read from the stream
* as needed until end-of-file is reached. The JDBC driver will
* do any necessary conversion from ASCII to the database char format.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
*
* @param parameterName the name of the parameter
* @param x the Java input stream that contains the ASCII parameter value
* @param length the number of bytes in the stream
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
*/
public void setAsciiStream(String parameterName, java.io.InputStream x, int length)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given input stream, which will have
* the specified number of bytes.
* When a very large binary value is input to a <code>LONGVARBINARY</code>
* parameter, it may be more practical to send it via a
* <code>java.io.InputStream</code> object. The data will be read from the stream
* as needed until end-of-file is reached.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
*
* @param parameterName the name of the parameter
* @param x the java input stream which contains the binary parameter value
* @param length the number of bytes in the stream
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
*/
public void setBinaryStream(String parameterName, java.io.InputStream x,
int length) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>Reader</code>
* object, which is the given number of characters long.
* When a very large UNICODE value is input to a <code>LONGVARCHAR</code>
* parameter, it may be more practical to send it via a
* <code>java.io.Reader</code> object. The data will be read from the stream
* as needed until end-of-file is reached. The JDBC driver will
* do any necessary conversion from UNICODE to the database char format.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
*
* @param parameterName the name of the parameter
* @param reader the <code>java.io.Reader</code> object that
* contains the UNICODE data used as the designated parameter
* @param length the number of characters in the stream
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
*/
public void setCharacterStream(String parameterName,
java.io.Reader reader,
int length) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given input stream.
* When a very large ASCII value is input to a <code>LONGVARCHAR</code>
* parameter, it may be more practical to send it via a
* <code>java.io.InputStream</code>. Data will be read from the stream
* as needed until end-of-file is reached. The JDBC driver will
* do any necessary conversion from ASCII to the database char format.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setAsciiStream</code> which takes a length parameter.
*
* @param parameterName the name of the parameter
* @param x the Java input stream that contains the ASCII parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setAsciiStream(String parameterName, java.io.InputStream x)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given input stream.
* When a very large binary value is input to a <code>LONGVARBINARY</code>
* parameter, it may be more practical to send it via a
* <code>java.io.InputStream</code> object. The data will be read from the
* stream as needed until end-of-file is reached.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setBinaryStream</code> which takes a length parameter.
*
* @param parameterName the name of the parameter
* @param x the java input stream which contains the binary parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setBinaryStream(String parameterName, java.io.InputStream x)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>Reader</code>
* object.
* When a very large UNICODE value is input to a <code>LONGVARCHAR</code>
* parameter, it may be more practical to send it via a
* <code>java.io.Reader</code> object. The data will be read from the stream
* as needed until end-of-file is reached. The JDBC driver will
* do any necessary conversion from UNICODE to the database char format.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setCharacterStream</code> which takes a length parameter.
*
* @param parameterName the name of the parameter
* @param reader the <code>java.io.Reader</code> object that contains the
* Unicode data
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setCharacterStream(String parameterName,
java.io.Reader reader) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter in this <code>RowSet</code> object's command
* to a <code>Reader</code> object. The
* <code>Reader</code> reads the data till end-of-file is reached. The
* driver does the necessary conversion from Java character format to
* the national character set in the database.
*
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setNCharacterStream</code> which takes a length parameter.
*
* @param parameterIndex of the first parameter is 1, the second is 2, ...
* @param value the parameter value
* @throws SQLException if the driver does not support national
* character sets; if the driver can detect that a data conversion
* error could occur ; if a database access error occurs; or
* this method is called on a closed <code>PreparedStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setNCharacterStream(int parameterIndex, Reader value) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the value of the designated parameter with the given object. The second
* argument must be an object type; for integral values, the
* <code>java.lang</code> equivalent objects should be used.
*
* <p>The given Java object will be converted to the given targetSqlType
* before being sent to the database.
*
* If the object has a custom mapping (is of a class implementing the
* interface <code>SQLData</code>),
* the JDBC driver should call the method <code>SQLData.writeSQL</code> to write it
* to the SQL data stream.
* If, on the other hand, the object is of a class implementing
* <code>Ref</code>, <code>Blob</code>, <code>Clob</code>, <code>NClob</code>,
* <code>Struct</code>, <code>java.net.URL</code>,
* or <code>Array</code>, the driver should pass it to the database as a
* value of the corresponding SQL type.
* <P>
* Note that this method may be used to pass database-
* specific abstract data types.
*
* @param parameterName the name of the parameter
* @param x the object containing the input parameter value
* @param targetSqlType the SQL type (as defined in java.sql.Types) to be
* sent to the database. The scale argument may further qualify this type.
* @param scale for java.sql.Types.DECIMAL or java.sql.Types.NUMERIC types,
* this is the number of digits after the decimal point. For all other
* types, this value will be ignored.
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if <code>targetSqlType</code> is
* a <code>ARRAY</code>, <code>BLOB</code>, <code>CLOB</code>,
* <code>DATALINK</code>, <code>JAVA_OBJECT</code>, <code>NCHAR</code>,
* <code>NCLOB</code>, <code>NVARCHAR</code>, <code>LONGNVARCHAR</code>,
* <code>REF</code>, <code>ROWID</code>, <code>SQLXML</code>
* or <code>STRUCT</code> data type and the JDBC driver does not support
* this data type
* @see Types
* @see #getParams
*/
public void setObject(String parameterName, Object x, int targetSqlType, int scale)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the value of the designated parameter with the given object.
* This method is like the method <code>setObject</code>
* above, except that it assumes a scale of zero.
*
* @param parameterName the name of the parameter
* @param x the object containing the input parameter value
* @param targetSqlType the SQL type (as defined in java.sql.Types) to be
* sent to the database
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if <code>targetSqlType</code> is
* a <code>ARRAY</code>, <code>BLOB</code>, <code>CLOB</code>,
* <code>DATALINK</code>, <code>JAVA_OBJECT</code>, <code>NCHAR</code>,
* <code>NCLOB</code>, <code>NVARCHAR</code>, <code>LONGNVARCHAR</code>,
* <code>REF</code>, <code>ROWID</code>, <code>SQLXML</code>
* or <code>STRUCT</code> data type and the JDBC driver does not support
* this data type
* @see #getParams
*/
public void setObject(String parameterName, Object x, int targetSqlType)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the value of the designated parameter with the given object.
* The second parameter must be of type <code>Object</code>; therefore, the
* <code>java.lang</code> equivalent objects should be used for built-in types.
*
* <p>The JDBC specification specifies a standard mapping from
* Java <code>Object</code> types to SQL types. The given argument
* will be converted to the corresponding SQL type before being
* sent to the database.
*
* <p>Note that this method may be used to pass database-
* specific abstract data types, by using a driver-specific Java
* type.
*
* If the object is of a class implementing the interface <code>SQLData</code>,
* the JDBC driver should call the method <code>SQLData.writeSQL</code>
* to write it to the SQL data stream.
* If, on the other hand, the object is of a class implementing
* <code>Ref</code>, <code>Blob</code>, <code>Clob</code>, <code>NClob</code>,
* <code>Struct</code>, <code>java.net.URL</code>,
* or <code>Array</code>, the driver should pass it to the database as a
* value of the corresponding SQL type.
* <P>
* This method throws an exception if there is an ambiguity, for example, if the
* object is of a class implementing more than one of the interfaces named above.
*
* @param parameterName the name of the parameter
* @param x the object containing the input parameter value
* @exception SQLException if a database access error occurs,
* this method is called on a closed <code>CallableStatement</code> or if the given
* <code>Object</code> parameter is ambiguous
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setObject(String parameterName, Object x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>InputStream</code> object.
* The <code>InputStream</code> must contain the number
* of characters specified by length otherwise a <code>SQLException</code> will be
* generated when the <code>PreparedStatement</code> is executed.
* This method differs from the <code>setBinaryStream (int, InputStream, int)</code>
* method because it informs the driver that the parameter value should be
* sent to the server as a <code>BLOB</code>. When the <code>setBinaryStream</code> method is used,
* the driver may have to do extra work to determine whether the parameter
* data should be sent to the server as a <code>LONGVARBINARY</code> or a <code>BLOB</code>
* @param parameterIndex index of the first parameter is 1,
* the second is 2, ...
* @param inputStream An object that contains the data to set the parameter
* value to.
* @param length the number of bytes in the parameter data.
* @throws SQLException if a database access error occurs,
* this method is called on a closed <code>PreparedStatement</code>,
* if parameterIndex does not correspond
* to a parameter marker in the SQL statement, if the length specified
* is less than zero or if the number of bytes in the
* <code>InputStream</code> does not match the specified length.
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
*
* @since 1.6
*/
public void setBlob(int parameterIndex, InputStream inputStream, long length)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>InputStream</code> object.
* This method differs from the <code>setBinaryStream (int, InputStream)</code>
* method because it informs the driver that the parameter value should be
* sent to the server as a <code>BLOB</code>. When the <code>setBinaryStream</code> method is used,
* the driver may have to do extra work to determine whether the parameter
* data should be sent to the server as a <code>LONGVARBINARY</code> or a <code>BLOB</code>
*
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setBlob</code> which takes a length parameter.
*
* @param parameterIndex index of the first parameter is 1,
* the second is 2, ...
* @param inputStream An object that contains the data to set the parameter
* value to.
* @throws SQLException if a database access error occurs,
* this method is called on a closed <code>PreparedStatement</code> or
* if parameterIndex does not correspond
* to a parameter marker in the SQL statement,
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
*
* @since 1.6
*/
public void setBlob(int parameterIndex, InputStream inputStream)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>InputStream</code> object.
* The <code>Inputstream</code> must contain the number
* of characters specified by length, otherwise a <code>SQLException</code> will be
* generated when the <code>CallableStatement</code> is executed.
* This method differs from the <code>setBinaryStream (int, InputStream, int)</code>
* method because it informs the driver that the parameter value should be
* sent to the server as a <code>BLOB</code>. When the <code>setBinaryStream</code> method is used,
* the driver may have to do extra work to determine whether the parameter
* data should be sent to the server as a <code>LONGVARBINARY</code> or a <code>BLOB</code>
*
* @param parameterName the name of the parameter to be set
* the second is 2, ...
*
* @param inputStream An object that contains the data to set the parameter
* value to.
* @param length the number of bytes in the parameter data.
* @throws SQLException if parameterIndex does not correspond
* to a parameter marker in the SQL statement, or if the length specified
* is less than zero; if the number of bytes in the <code>InputStream</code> does not match
* the specified length; if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
*
* @since 1.6
*/
public void setBlob(String parameterName, InputStream inputStream, long length)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.Blob</code> object.
* The driver converts this to an SQL <code>BLOB</code> value when it
* sends it to the database.
*
* @param parameterName the name of the parameter
* @param x a <code>Blob</code> object that maps an SQL <code>BLOB</code> value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @since 1.6
*/
public void setBlob (String parameterName, Blob x) throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>InputStream</code> object.
* This method differs from the <code>setBinaryStream (int, InputStream)</code>
* method because it informs the driver that the parameter value should be
* sent to the server as a <code>BLOB</code>. When the <code>setBinaryStream</code> method is used,
* the driver may have to do extra work to determine whether the parameter
* data should be send to the server as a <code>LONGVARBINARY</code> or a <code>BLOB</code>
*
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setBlob</code> which takes a length parameter.
*
* @param parameterName the name of the parameter
* @param inputStream An object that contains the data to set the parameter
* value to.
* @throws SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
*
* @since 1.6
*/
public void setBlob(String parameterName, InputStream inputStream)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object.
* The reader must contain the number
* of characters specified by length otherwise a <code>SQLException</code> will be
* generated when the <code>PreparedStatement</code> is executed.
* This method differs from the <code>setCharacterStream (int, Reader, int)</code> method
* because it informs the driver that the parameter value should be sent to
* the server as a <code>CLOB</code>. When the <code>setCharacterStream</code> method is used, the
* driver may have to do extra work to determine whether the parameter
* data should be sent to the server as a <code>LONGVARCHAR</code> or a <code>CLOB</code>
* @param parameterIndex index of the first parameter is 1, the second is 2, ...
* @param reader An object that contains the data to set the parameter value to.
* @param length the number of characters in the parameter data.
* @throws SQLException if a database access error occurs, this method is called on
* a closed <code>PreparedStatement</code>, if parameterIndex does not correspond to a parameter
* marker in the SQL statement, or if the length specified is less than zero.
*
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setClob(int parameterIndex, Reader reader, long length)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object.
* This method differs from the <code>setCharacterStream (int, Reader)</code> method
* because it informs the driver that the parameter value should be sent to
* the server as a <code>CLOB</code>. When the <code>setCharacterStream</code> method is used, the
* driver may have to do extra work to determine whether the parameter
* data should be sent to the server as a <code>LONGVARCHAR</code> or a <code>CLOB</code>
*
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setClob</code> which takes a length parameter.
*
* @param parameterIndex index of the first parameter is 1, the second is 2, ...
* @param reader An object that contains the data to set the parameter value to.
* @throws SQLException if a database access error occurs, this method is called on
* a closed <code>PreparedStatement</code>or if parameterIndex does not correspond to a parameter
* marker in the SQL statement
*
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setClob(int parameterIndex, Reader reader)
throws SQLException{
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object.
* The <code>reader</code> must contain the number
* of characters specified by length otherwise a <code>SQLException</code> will be
* generated when the <code>CallableStatement</code> is executed.
* This method differs from the <code>setCharacterStream (int, Reader, int)</code> method
* because it informs the driver that the parameter value should be sent to
* the server as a <code>CLOB</code>. When the <code>setCharacterStream</code> method is used, the
* driver may have to do extra work to determine whether the parameter
* data should be send to the server as a <code>LONGVARCHAR</code> or a <code>CLOB</code>
* @param parameterName the name of the parameter to be set
* @param reader An object that contains the data to set the parameter value to.
* @param length the number of characters in the parameter data.
* @throws SQLException if parameterIndex does not correspond to a parameter
* marker in the SQL statement; if the length specified is less than zero;
* a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
*
* @since 1.6
*/
public void setClob(String parameterName, Reader reader, long length)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.Clob</code> object.
* The driver converts this to an SQL <code>CLOB</code> value when it
* sends it to the database.
*
* @param parameterName the name of the parameter
* @param x a <code>Clob</code> object that maps an SQL <code>CLOB</code> value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @since 1.6
*/
public void setClob (String parameterName, Clob x) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object.
* This method differs from the <code>setCharacterStream (int, Reader)</code> method
* because it informs the driver that the parameter value should be sent to
* the server as a <code>CLOB</code>. When the <code>setCharacterStream</code> method is used, the
* driver may have to do extra work to determine whether the parameter
* data should be send to the server as a <code>LONGVARCHAR</code> or a <code>CLOB</code>
*
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setClob</code> which takes a length parameter.
*
* @param parameterName the name of the parameter
* @param reader An object that contains the data to set the parameter value to.
* @throws SQLException if a database access error occurs or this method is called on
* a closed <code>CallableStatement</code>
*
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setClob(String parameterName, Reader reader) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.Date</code> value
* using the default time zone of the virtual machine that is running
* the application.
* The driver converts this
* to an SQL <code>DATE</code> value when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setDate(String parameterName, java.sql.Date x)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.Date</code> value,
* using the given <code>Calendar</code> object. The driver uses
* the <code>Calendar</code> object to construct an SQL <code>DATE</code> value,
* which the driver then sends to the database. With a
* a <code>Calendar</code> object, the driver can calculate the date
* taking into account a custom timezone. If no
* <code>Calendar</code> object is specified, the driver uses the default
* timezone, which is that of the virtual machine running the application.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @param cal the <code>Calendar</code> object the driver will use
* to construct the date
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setDate(String parameterName, java.sql.Date x, Calendar cal)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.Time</code> value.
* The driver converts this
* to an SQL <code>TIME</code> value when it sends it to the database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setTime(String parameterName, java.sql.Time x)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.Time</code> value,
* using the given <code>Calendar</code> object. The driver uses
* the <code>Calendar</code> object to construct an SQL <code>TIME</code> value,
* which the driver then sends to the database. With a
* a <code>Calendar</code> object, the driver can calculate the time
* taking into account a custom timezone. If no
* <code>Calendar</code> object is specified, the driver uses the default
* timezone, which is that of the virtual machine running the application.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @param cal the <code>Calendar</code> object the driver will use
* to construct the time
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setTime(String parameterName, java.sql.Time x, Calendar cal)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.Timestamp</code> value,
* using the given <code>Calendar</code> object. The driver uses
* the <code>Calendar</code> object to construct an SQL <code>TIMESTAMP</code> value,
* which the driver then sends to the database. With a
* a <code>Calendar</code> object, the driver can calculate the timestamp
* taking into account a custom timezone. If no
* <code>Calendar</code> object is specified, the driver uses the default
* timezone, which is that of the virtual machine running the application.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @param cal the <code>Calendar</code> object the driver will use
* to construct the timestamp
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @see #getParams
*/
public void setTimestamp(String parameterName, java.sql.Timestamp x, Calendar cal)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.SQLXML</code> object. The driver converts this to an
* SQL <code>XML</code> value when it sends it to the database.
* @param parameterIndex index of the first parameter is 1, the second is 2, ...
* @param xmlObject a <code>SQLXML</code> object that maps an SQL <code>XML</code> value
* @throws SQLException if a database access error occurs, this method
* is called on a closed result set,
* the <code>java.xml.transform.Result</code>,
* <code>Writer</code> or <code>OutputStream</code> has not been closed
* for the <code>SQLXML</code> object or
* if there is an error processing the XML value. The <code>getCause</code> method
* of the exception may provide a more detailed exception, for example, if the
* stream does not contain valid XML.
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
* @since 1.6
*/
public void setSQLXML(int parameterIndex, SQLXML xmlObject) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.SQLXML</code> object. The driver converts this to an
* <code>SQL XML</code> value when it sends it to the database.
* @param parameterName the name of the parameter
* @param xmlObject a <code>SQLXML</code> object that maps an <code>SQL XML</code> value
* @throws SQLException if a database access error occurs, this method
* is called on a closed result set,
* the <code>java.xml.transform.Result</code>,
* <code>Writer</code> or <code>OutputStream</code> has not been closed
* for the <code>SQLXML</code> object or
* if there is an error processing the XML value. The <code>getCause</code> method
* of the exception may provide a more detailed exception, for example, if the
* stream does not contain valid XML.
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
* @since 1.6
*/
public void setSQLXML(String parameterName, SQLXML xmlObject) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.RowId</code> object. The
* driver converts this to a SQL <code>ROWID</code> value when it sends it
* to the database
*
* @param parameterIndex the first parameter is 1, the second is 2, ...
* @param x the parameter value
* @throws SQLException if a database access error occurs
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
*
* @since 1.6
*/
public void setRowId(int parameterIndex, RowId x) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.sql.RowId</code> object. The
* driver converts this to a SQL <code>ROWID</code> when it sends it to the
* database.
*
* @param parameterName the name of the parameter
* @param x the parameter value
* @throws SQLException if a database access error occurs
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
* @since 1.6
*/
public void setRowId(String parameterName, RowId x) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>String</code> object.
* The driver converts this to a SQL <code>NCHAR</code> or
* <code>NVARCHAR</code> or <code>LONGNVARCHAR</code> value
* (depending on the argument's
* size relative to the driver's limits on <code>NVARCHAR</code> values)
* when it sends it to the database.
*
* @param parameterIndex of the first parameter is 1, the second is 2, ...
* @param value the parameter value
* @throws SQLException if the driver does not support national
* character sets; if the driver can detect that a data conversion
* error could occur ; or if a database access error occurs
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
* @since 1.6
*/
public void setNString(int parameterIndex, String value) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>String</code> object.
* The driver converts this to a SQL <code>NCHAR</code> or
* <code>NVARCHAR</code> or <code>LONGNVARCHAR</code>
* @param parameterName the name of the column to be set
* @param value the parameter value
* @throws SQLException if the driver does not support national
* character sets; if the driver can detect that a data conversion
* error could occur; or if a database access error occurs
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
* @since 1.6
*/
public void setNString(String parameterName, String value) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object. The
* <code>Reader</code> reads the data till end-of-file is reached. The
* driver does the necessary conversion from Java character format to
* the national character set in the database.
* @param parameterIndex of the first parameter is 1, the second is 2, ...
* @param value the parameter value
* @param length the number of characters in the parameter data.
* @throws SQLException if the driver does not support national
* character sets; if the driver can detect that a data conversion
* error could occur ; or if a database access error occurs
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
* @since 1.6
*/
public void setNCharacterStream(int parameterIndex, Reader value, long length)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object. The
* <code>Reader</code> reads the data till end-of-file is reached. The
* driver does the necessary conversion from Java character format to
* the national character set in the database.
* @param parameterName the name of the column to be set
* @param value the parameter value
* @param length the number of characters in the parameter data.
* @throws SQLException if the driver does not support national
* character sets; if the driver can detect that a data conversion
* error could occur; or if a database access error occurs
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
* @since 1.6
*/
public void setNCharacterStream(String parameterName, Reader value, long length)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object. The
* <code>Reader</code> reads the data till end-of-file is reached. The
* driver does the necessary conversion from Java character format to
* the national character set in the database.
* <P><B>Note:</B> This stream object can either be a standard
* Java stream object or your own subclass that implements the
* standard interface.
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setNCharacterStream</code> which takes a length parameter.
*
* @param parameterName the name of the parameter
* @param value the parameter value
* @throws SQLException if the driver does not support national
* character sets; if the driver can detect that a data conversion
* error could occur ; if a database access error occurs; or
* this method is called on a closed <code>CallableStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
* @since 1.6
*/
public void setNCharacterStream(String parameterName, Reader value)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>java.sql.NClob</code> object. The object
* implements the <code>java.sql.NClob</code> interface. This <code>NClob</code>
* object maps to a SQL <code>NCLOB</code>.
* @param parameterName the name of the column to be set
* @param value the parameter value
* @throws SQLException if the driver does not support national
* character sets; if the driver can detect that a data conversion
* error could occur; or if a database access error occurs
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
* @since 1.6
*/
public void setNClob(String parameterName, NClob value) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object. The <code>reader</code> must contain
* the number
* of characters specified by length otherwise a <code>SQLException</code> will be
* generated when the <code>CallableStatement</code> is executed.
* This method differs from the <code>setCharacterStream (int, Reader, int)</code> method
* because it informs the driver that the parameter value should be sent to
* the server as a <code>NCLOB</code>. When the <code>setCharacterStream</code> method is used, the
* driver may have to do extra work to determine whether the parameter
* data should be send to the server as a <code>LONGNVARCHAR</code> or a <code>NCLOB</code>
*
* @param parameterName the name of the parameter to be set
* @param reader An object that contains the data to set the parameter value to.
* @param length the number of characters in the parameter data.
* @throws SQLException if parameterIndex does not correspond to a parameter
* marker in the SQL statement; if the length specified is less than zero;
* if the driver does not support national
* character sets; if the driver can detect that a data conversion
* error could occur; if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @exception SQLFeatureNotSupportedException if the JDBC driver does not support
* this method
* @since 1.6
*/
public void setNClob(String parameterName, Reader reader, long length)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object.
* This method differs from the <code>setCharacterStream (int, Reader)</code> method
* because it informs the driver that the parameter value should be sent to
* the server as a <code>NCLOB</code>. When the <code>setCharacterStream</code> method is used, the
* driver may have to do extra work to determine whether the parameter
* data should be send to the server as a <code>LONGNVARCHAR</code> or a <code>NCLOB</code>
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setNClob</code> which takes a length parameter.
*
* @param parameterName the name of the parameter
* @param reader An object that contains the data to set the parameter value to.
* @throws SQLException if the driver does not support national character sets;
* if the driver can detect that a data conversion
* error could occur; if a database access error occurs or
* this method is called on a closed <code>CallableStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
*
* @since 1.6
*/
public void setNClob(String parameterName, Reader reader) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object. The reader must contain the number
* of characters specified by length otherwise a <code>SQLException</code> will be
* generated when the <code>PreparedStatement</code> is executed.
* This method differs from the <code>setCharacterStream (int, Reader, int)</code> method
* because it informs the driver that the parameter value should be sent to
* the server as a <code>NCLOB</code>. When the <code>setCharacterStream</code> method is used, the
* driver may have to do extra work to determine whether the parameter
* data should be sent to the server as a <code>LONGNVARCHAR</code> or a <code>NCLOB</code>
* @param parameterIndex index of the first parameter is 1, the second is 2, ...
* @param reader An object that contains the data to set the parameter value to.
* @param length the number of characters in the parameter data.
* @throws SQLException if parameterIndex does not correspond to a parameter
* marker in the SQL statement; if the length specified is less than zero;
* if the driver does not support national character sets;
* if the driver can detect that a data conversion
* error could occur; if a database access error occurs or
* this method is called on a closed <code>PreparedStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
*
* @since 1.6
*/
public void setNClob(int parameterIndex, Reader reader, long length)
throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>java.sql.NClob</code> object. The driver converts this oa
* SQL <code>NCLOB</code> value when it sends it to the database.
* @param parameterIndex of the first parameter is 1, the second is 2, ...
* @param value the parameter value
* @throws SQLException if the driver does not support national
* character sets; if the driver can detect that a data conversion
* error could occur ; or if a database access error occurs
* @throws SQLFeatureNotSupportedException if the JDBC driver does not
* support this method
* @since 1.6
*/
public void setNClob(int parameterIndex, NClob value) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to a <code>Reader</code> object.
* This method differs from the <code>setCharacterStream (int, Reader)</code> method
* because it informs the driver that the parameter value should be sent to
* the server as a <code>NCLOB</code>. When the <code>setCharacterStream</code> method is used, the
* driver may have to do extra work to determine whether the parameter
* data should be sent to the server as a <code>LONGNVARCHAR</code> or a <code>NCLOB</code>
* <P><B>Note:</B> Consult your JDBC driver documentation to determine if
* it might be more efficient to use a version of
* <code>setNClob</code> which takes a length parameter.
*
* @param parameterIndex index of the first parameter is 1, the second is 2, ...
* @param reader An object that contains the data to set the parameter value to.
* @throws SQLException if parameterIndex does not correspond to a parameter
* marker in the SQL statement;
* if the driver does not support national character sets;
* if the driver can detect that a data conversion
* error could occur; if a database access error occurs or
* this method is called on a closed <code>PreparedStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
*
* @since 1.6
*/
public void setNClob(int parameterIndex, Reader reader)throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
/**
* Sets the designated parameter to the given <code>java.net.URL</code> value.
* The driver converts this to an SQL <code>DATALINK</code> value
* when it sends it to the database.
*
* @param parameterIndex the first parameter is 1, the second is 2, ...
* @param x the <code>java.net.URL</code> object to be set
* @exception SQLException if a database access error occurs or
* this method is called on a closed <code>PreparedStatement</code>
* @throws SQLFeatureNotSupportedException if the JDBC driver does not support this method
*/
public void setURL(int parameterIndex, java.net.URL x) throws SQLException {
throw new SQLFeatureNotSupportedException("Feature not supported");
}
static final long serialVersionUID = 4886719666485113312L;
} //end class