/*

 * Copyright (c) 2004, 2013, Oracle and/or its affiliates. All rights reserved.

 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.

 *

 * This code is free software; you can redistribute it and/or modify it

 * under the terms of the GNU General Public License version 2 only, as

 * published by the Free Software Foundation.  Oracle designates this

 * particular file as subject to the "Classpath" exception as provided

 * by Oracle in the LICENSE file that accompanied this code.

 *

 * This code is distributed in the hope that it will be useful, but WITHOUT

 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or

 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License

 * version 2 for more details (a copy is included in the LICENSE file that

 * accompanied this code).

 *

 * You should have received a copy of the GNU General Public License version

 * 2 along with this work; if not, write to the Free Software Foundation,

 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.

 *

 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA

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 */

package com.sun.rowset.internal;

import java.sql.*;

import javax.sql.*;

import java.util.*;

import java.math.BigDecimal;

import javax.sql.rowset.*;

import javax.sql.rowset.spi.*;

import com.sun.rowset.*;

import java.io.IOException;

import java.io.ObjectInputStream;

/**

 * There will be two sets of data which will be maintained by the rowset at the

 * time of synchronization. The <code>SyncProvider</code> will utilize the

 * <code>SyncResolver</code> to synchronize the changes back to database.

 */

public class SyncResolverImpl extends CachedRowSetImpl implements SyncResolver {

    /**

     * This CachedRowSet object will encapsulate a rowset

     * which will be sync'ed with the datasource but will

     * contain values in rows where there is conflict.

     * For rows other than conflict, it will *not* contain

     * any data. For rows containing conflict it will

     * return either of the three values set by SyncResolver.*_CONFLICT

     * from getStatus()

     */

    private CachedRowSetImpl crsRes;

    /**

     * This is the actual CachedRowSet object

     * which is being synchronized back to

     * datasource.

     */

    private CachedRowSetImpl crsSync;

    /**

     *  This ArrayList will contain the status of a row

     *  from the SyncResolver.* values else it will be null.

     */

    private ArrayList<?> stats;

    /**

     * The RowSetWriter associated with the original

     * CachedRowSet object which is being synchronized.

     */

    private CachedRowSetWriter crw;

    /**

     * Row number identifier

     */

    private int rowStatus;

    /**

     * This will contain the size of the <code>CachedRowSet</code> object

     */

    private int sz;

    /**

     * The <code>Connection</code> handle used to synchronize the changes

     * back to datasource. This is the same connection handle as was passed

     * to the CachedRowSet while fetching the data.

     */

    private transient Connection con;

    /**

     * The <code>CachedRowSet</code> object which will encapsulate

     * a row at any time. This will be built from CachedRowSet and

     * SyncResolver values. Synchronization takes place on a row by

     * row basis encapsulated as a CahedRowSet.

     */

    private CachedRowSet row;

    private JdbcRowSetResourceBundle resBundle;

    /**

     * Public constructor

     */

    public SyncResolverImpl() throws SQLException {

        try {

            crsSync = new CachedRowSetImpl();

            crsRes = new CachedRowSetImpl();

            crw = new CachedRowSetWriter();

            row = new CachedRowSetImpl();

            rowStatus = 1;

            try {

                resBundle = JdbcRowSetResourceBundle.getJdbcRowSetResourceBundle();

            } catch(IOException ioe) {

                throw new RuntimeException(ioe);

            }

        } catch(SQLException sqle) {

        }

     }

    /**

     * Retrieves the conflict status of the current row of this

     * <code>SyncResolver</code>, which indicates the operationthe <code>RowSet</code>

     * object was attempting when the conflict occurred.

     *

     * @return one of the following constants:

     *         <code>SyncResolver.UPDATE_ROW_CONFLICT</code>,

     *         <code>SyncResolver.DELETE_ROW_CONFLICT</code>, or

     *         <code>SyncResolver.INSERT_ROW_CONFLICT</code>

     */

    public int getStatus() {

        return ((Integer)stats.get(rowStatus-1)).intValue();

    }

    /**

     * Retrieves the value in the designated column in the current row of this

     * <code>SyncResolver</code> object, which is the value that caused a conflict.

     *

     * @param index <code>int</code> designating the column in this row of this

     *        <code>SyncResolver</code> object from which to retrieve the value

     *        causing a conflict

     */

    public Object getConflictValue(int index) throws SQLException {

        try {

             return crsRes.getObject(index);

        } catch(SQLException sqle) {

            throw new SQLException(sqle.getMessage());

        }

    }

    /**

     * Retrieves the value in the designated column in the current row of this

     * <code>SyncResolver</code> object, which is the value that caused a conflict.

     *

     * @param columnName a <code>String</code> object designating the column in this row of this

     *        <code>SyncResolver</code> object from which to retrieve the value

     *        causing a conflict

     */

    public Object getConflictValue(String columnName) throws SQLException {

        try {

             return crsRes.getObject(columnName);

        } catch(SQLException sqle) {

             throw new SQLException(sqle.getMessage());

        }

    }

    /**

     * Sets <i>obj</i> as the value in column <i>index</i> in the current row of the

     * <code>RowSet</code> object. This value is the resolved value that is to be

     * persisted in the data source.

     *

     * @param index an <code>int</code> giving the number of the column into which to

     *        set the value to be persisted

     * @param obj an <code>Object</code> that is the value to be set in the data source

     */

    public void setResolvedValue(int index, Object obj) throws SQLException {

        // modify method to throw SQLException in spec

        /**

         * When a value is resolved properly make it to null

         * inside crsRes for that column.

         *

         * For more than one conflicts in the row,

         * check for the last resolved value of the current row

         * (Note: it can be resolved randomly for same row)

         * then sync back immediately.

         **/

        try {

            // check whether the index is in range

            if(index<=0 || index > crsSync.getMetaData().getColumnCount() ) {

                throw new SQLException(resBundle.handleGetObject("syncrsimpl.indexval").toString()+ index);

            }

             // check whether index col is in conflict

            if(crsRes.getObject(index) == null) {

                throw new SQLException(resBundle.handleGetObject("syncrsimpl.noconflict").toString());

            }

        } catch (SQLException sqle) {

            // modify method to throw for SQLException

            throw new SQLException(sqle.getMessage());

        }

        try {

             boolean bool = true;

             /** Check resolved value to be either of conflict

               * or in rowset else throw sql exception.

               * If we allow a value other than that in CachedRowSet or

               * datasource we will end up in looping the loop of exceptions.

              **/

             if( ((crsSync.getObject(index)).toString()).equals(obj.toString()) ||

                     ((crsRes.getObject(index)).toString()).equals(obj.toString()) ) {

                /**

                 * Check whether this is the only conflict in the row.

                 * If yes, synchronize this row back

                 * which has been resolved, else wait

                 * for all conflicts of current row to be resolved

                 *

                 * Step 1: Update crsRes and make the index col as null

                 * i.e. resolved

                 * crsRes.updateObject(index, obj);

                 **/

                  crsRes.updateNull(index);

                  crsRes.updateRow();

                 /**

                  * Step 2: Change the value in the CachedRowSetImpl object

                  * crsSync.updateObject(index, obj);

                  * crsSync.updateRow();

                  **/

                 if(row.size() != 1) {

                    row = buildCachedRow();

                 }

                 row.updateObject(index, obj);

                 row.updateRow();

                 for(int j=1; j < crsRes.getMetaData().getColumnCount(); j++) {

                     if(crsRes.getObject(j) != null) {

                        bool = false;

                        break;

                         // break out of loop and wait for other cols

                         // in same row to get resolved

                     } //end if

                  } //end for

                  if(bool) {

                     /**

                      * sync data back using CachedRowSetWriter

                      * construct the present row and pass it to the writer

                      * to write back to db.

                      **/

                     try {

                           /**

                            * Note : The use of CachedRowSetWriter to get *same* Connection handle.

                            * The CachedRowSetWriter uses the connection handle

                            * from the reader, Hence will use the same connection handle

                            * as of original CachedRowSetImpl

                            **/

                          writeData(row);

                          //crw.writeData( (RowSetInternal)crsRow);

                          //System.out.printlnt.println("12");

                     } catch(SyncProviderException spe) {

                         /**

                          * This will occur if db is not allowing

                          * even after resolving the conflicts

                          * due to some reasons.

                          * Also will prevent from going into a loop of SPE's

                          **/

                         throw new SQLException(resBundle.handleGetObject("syncrsimpl.syncnotpos").toString());

                     }

                  } //end if(bool)

             } else {

                 throw new SQLException(resBundle.handleGetObject("syncrsimpl.valtores").toString());

             } //end if (crs.getObject ...) block

        } catch(SQLException sqle) {

           throw new SQLException(sqle.getMessage());

        }

    }

    /**

     * This passes a CachedRowSet as a row the the CachedRowSetWriter

     * after the values have been resolved, back to the datasource.

     *

     * @param row a <code>CachedRowSet</code> object which will hold the

     *        values of a particular row after they have been resolved by

     *        the user to synchronize back to datasource.

     * @throws SQLException if synchronization does not happen properly

     *         maybe beacuse <code>Connection</code> has timed out.

     **/

     private void writeData(CachedRowSet row) throws SQLException {

        crw.updateResolvedConflictToDB(row, crw.getReader().connect((RowSetInternal)crsSync));

     }

    /**

     * This function builds a row  as a <code>CachedRowSet</code> object

     * which has been resolved and is ready to be synchrinized to the datasource

     *

     * @throws SQLException if there is problem in building

     *         the metadata of the row.

     **/

     private CachedRowSet buildCachedRow() throws SQLException {

       int iColCount;

       CachedRowSetImpl crsRow = new CachedRowSetImpl();

       RowSetMetaDataImpl rsmd = new RowSetMetaDataImpl();

       RowSetMetaDataImpl rsmdWrite = (RowSetMetaDataImpl)crsSync.getMetaData();

       RowSetMetaDataImpl rsmdRow = new RowSetMetaDataImpl();

       iColCount = rsmdWrite.getColumnCount();

       rsmdRow.setColumnCount(iColCount);

       for(int i =1;i<=iColCount;i++) {

          rsmdRow.setColumnType(i,rsmdWrite.getColumnType(i));

          rsmdRow.setColumnName(i,rsmdWrite.getColumnName(i));

          rsmdRow.setNullable(i,ResultSetMetaData.columnNullableUnknown);

          try {

             rsmdRow.setCatalogName(i, rsmdWrite.getCatalogName(i));

             rsmdRow.setSchemaName(i, rsmdWrite.getSchemaName(i));

          } catch(SQLException e) {

               e.printStackTrace();

          }

        } //end for

       crsRow.setMetaData(rsmdRow);

       crsRow.moveToInsertRow();

       for(int col=1;col<=crsSync.getMetaData().getColumnCount();col++) {

           crsRow.updateObject(col, crsSync.getObject(col));

       }

       crsRow.insertRow();

       crsRow.moveToCurrentRow();

       crsRow.absolute(1);

       crsRow.setOriginalRow();

      try {

          crsRow.setUrl(crsSync.getUrl());

      } catch(SQLException sqle) {

      }

      try {

          crsRow.setDataSourceName(crsSync.getCommand());

       } catch(SQLException sqle) {

       }

       try {

           if(crsSync.getTableName()!= null){

              crsRow.setTableName(crsSync.getTableName());

           }

        } catch(SQLException sqle) {

        }

       try {

            if(crsSync.getCommand() != null)

                crsRow.setCommand(crsSync.getCommand());

       } catch(SQLException sqle) {

       }

       try {

            crsRow.setKeyColumns(crsSync.getKeyColumns());

       } catch(SQLException sqle) {

       }

       return crsRow;

    }

    /**

     * Sets <i>obj</i> as the value in column <i>columnName</i> in the current row of the

     * <code>RowSet</code> object. This value is the resolved value that is to be

     * persisted in the data source.

     *

     * @param columnName a <code>String</code> object giving the name of the column

     *        into which to set the value to be persisted

     * @param obj an <code>Object</code> that is the value to be set in the data source

     */

    public void setResolvedValue(String columnName, Object obj) throws SQLException {

       // modify method to throw SQLException in spec

       // %%% Missing implementation!

    }

    /**

     * This function is package private,

     * i.e. cannot be accesses outside this package.

     * This is used to set the actual CachedRowSet

     * which is being synchronized to the database

     **/

   void setCachedRowSet(CachedRowSet crs) {

           crsSync = (CachedRowSetImpl)crs;

    }

    /**

     * This function is package private,

     * i.e. cannot be accesses outside this package.

     * This is used to set the CachedRowSet formed

     * with conflict values.

     **/

    void setCachedRowSetResolver(CachedRowSet crs){

         try {

              crsRes = (CachedRowSetImpl)crs;

              crsRes.afterLast();

              sz = crsRes.size();

         } catch (SQLException sqle) {

            // do nothing

         }

    }

    /**

     * This function is package private,

     * i.e. cannot be accesses outside this package.

     * This is used to set the status of each row

     * to either of the values SyncResolver.*_CONFLICT

     **/

    @SuppressWarnings("rawtypes")

    void setStatus(ArrayList status){

             stats = status;

    }

    /**

     * This function is package private,

     * i.e. cannot be accesses outside this package.

     * This is used to set the handle to the writer object

     * which will write the resolved values back to datasource

     **/

    void setCachedRowSetWriter(CachedRowSetWriter CRWriter) {

         crw = CRWriter;

    }

    /**

     * Moves the cursor down one row from its current position. A <code>SyncResolver</code>

     * cursor is initially positioned before the first conflict row; the first call to the

     * method <code>nextConflict()</code> makes the first conflict row the current row;

     * the second call makes the second conflict row the current row, and so on.

     * <p>

     * If an input stream is open for the current row, a call to the method next will

     * implicitly close it. A <code>SyncResolver</code> object's warning chain is cleared

     * when a new row

     *

     * @return true if the new current row is valid; false if there are no more rows

     * @throws SQLException if a database access occurs

     *

     */

    public boolean nextConflict() throws SQLException {

        /**

          * The next() method will hop from

          * one conflict to another

          *

          * Internally do a crs.next() until

          * next conflict.

          **/

      boolean bool = false;

      crsSync.setShowDeleted(true);

      while(crsSync.next()) {

           crsRes.previous();

           rowStatus++;  //sz--;

          if((rowStatus-1) >= stats.size()) {

             bool = false;

             break;

          }

          if(((Integer)stats.get(rowStatus-1)).intValue() == SyncResolver.NO_ROW_CONFLICT) {

              // do nothing

              // bool remains as false

             ;

           } else {

             bool = true;

             break;

           } //end if

      } //end while

        crsSync.setShowDeleted(false);

        return bool;

   } // end next() method

    /**

     * Moves the cursor to the previous conflict row in this <code>SyncResolver</code> object.

     *

     * @return <code>true</code> if the cursor is on a valid row; <code>false</code>

     *     if it is off the result set

     * @throws SQLException if a database access error occurs or the result set type

     *     is TYPE_FORWARD_ONLY

     */

   public boolean previousConflict() throws SQLException {

       throw new UnsupportedOperationException();

   }

    //-----------------------------------------------------------------------

    // Properties

    //-----------------------------------------------------------------------

    /**

     * Sets this <code>CachedRowSetImpl</code> object's command property

     * to the given <code>String</code> object and clears the parameters,

     * if any, that were set for the previous command.

     * <P>

     * The command property may not be needed

     * if the rowset is produced by a data source, such as a spreadsheet,

     * that does not support commands. 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 the command; may be <code>null</code>

     * @throws SQLException if an error occurs

     */

    public void setCommand(String cmd) throws SQLException {

         throw new UnsupportedOperationException();

    }

    //---------------------------------------------------------------------

    // Reading and writing data

    //---------------------------------------------------------------------

    /**

     * Populates this <code>CachedRowSetImpl</code> object with data from

     * the given <code>ResultSet</code> object.  This

     * method is an alternative to the method <code>execute</code>

     * for filling the rowset with data.  The method <code>populate</code>

     * does not require that the properties needed by the method

     * <code>execute</code>, such as the <code>command</code> property,

     * be set. This is true because the method <code>populate</code>

     * is given the <code>ResultSet</code> object from

     * which to get data and thus does not need to use the properties

     * required for setting up a connection and executing this

     * <code>CachedRowSetImpl</code> object's command.

     * <P>

     * After populating this rowset with data, the method

     * <code>populate</code> sets the rowset's metadata and

     * then sends a <code>RowSetChangedEvent</code> object

     * to all registered listeners prior to returning.

     *

     * @param data the <code>ResultSet</code> object containing the data

     *             to be read into this <code>CachedRowSetImpl</code> object

     * @throws SQLException if an error occurs; or the max row setting is

     *          violated while populating the RowSet

     * @see #execute

     */

    public void populate(ResultSet data) throws SQLException {

         throw new UnsupportedOperationException();

    }

    /**

     * Populates this <code>CachedRowSetImpl</code> object with data,

     * using the given connection to produce the result set from

     * which data will be read.  A second form of this method,

     * which takes no arguments, uses the values from this rowset's

     * user, password, and either url or data source properties to

     * create a new database connection. The form of <code>execute</code>

     * that is given a connection ignores these properties.

     *

     * @param conn A standard JDBC <code>Connection</code> object that this

     * <code>CachedRowSet</code> object can pass to a synchronization provider

     * to establish a connection to the data source

     * @throws SQLException if an invalid <code>Connection</code> is supplied

     *           or an error occurs in establishing the connection to the

     *           data source

     * @see #populate

     * @see java.sql.Connection

     */

    public void execute(Connection conn) throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Propagates all row update, insert, and delete changes to the

     * underlying data source backing this <code>CachedRowSetImpl</code>

     * object.

     * <P>

     * <b>Note</b>In the reference implementation an optimistic concurrency implementation

     * is provided as a sample implementation of a the <code>SyncProvider</code>

     * abstract class.

     * <P>

     * This method fails if any of the updates cannot be propagated back

     * to the data source.  When it fails, the caller can assume that

     * none of the updates are reflected in the data source.

     * When an exception is thrown, the current row

     * is set to the first "updated" row that resulted in an exception

     * unless the row that caused the exception is a "deleted" row.

     * In that case, when deleted rows are not shown, which is usually true,

     * the current row is not affected.

     * <P>

     * If no <code>SyncProvider</code> is configured, the reference implementation

     * leverages the <code>RIOptimisticProvider</code> available which provides the

     * default and reference synchronization capabilities for disconnected

     * <code>RowSets</code>.

     *

     * @throws SQLException if the cursor is on the insert row or the underlying

     *          reference synchronization provider fails to commit the updates

     *          to the datasource

     * @throws SyncProviderException if an internal error occurs within the

     *          <code>SyncProvider</code> instance during either during the

     *          process or at any time when the <code>SyncProvider</code>

     *          instance touches the data source.

     * @see #acceptChanges(java.sql.Connection)

     * @see javax.sql.RowSetWriter

     * @see javax.sql.rowset.spi.SyncProvider

     */

    public void acceptChanges() throws SyncProviderException {

        throw new UnsupportedOperationException();

    }

    /**

     * Propagates all row update, insert, and delete changes to the

     * data source backing this <code>CachedRowSetImpl</code> object

     * using the given <code>Connection</code> object.

     * <P>

     * The reference implementation <code>RIOptimisticProvider</code>

     * modifies its synchronization to a write back function given

     * the updated connection

     * The reference implementation modifies its synchronization behaviour

     * via the <code>SyncProvider</code> to ensure the synchronization

     * occurs according to the updated JDBC <code>Connection</code>

     * properties.

     *

     * @param con a standard JDBC <code>Connection</code> object

     * @throws SQLException if the cursor is on the insert row or the underlying

     *                   synchronization provider fails to commit the updates

     *                   back to the data source

     * @see #acceptChanges

     * @see javax.sql.RowSetWriter

     * @see javax.sql.rowset.spi.SyncFactory

     * @see javax.sql.rowset.spi.SyncProvider

     */

    public void acceptChanges(Connection con) throws SyncProviderException{

     throw new UnsupportedOperationException();

    }

    /**

     * Restores this <code>CachedRowSetImpl</code> object to its original state,

     * that is, its state before the last set of changes.

     * <P>

     * Before returning, this method moves the cursor before the first row

     * and sends a <code>rowSetChanged</code> event to all registered

     * listeners.

     * @throws SQLException if an error is occurs rolling back the RowSet

     *           state to the definied original value.

     * @see javax.sql.RowSetListener#rowSetChanged

     */

    public void restoreOriginal() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Releases the current contents of this <code>CachedRowSetImpl</code>

     * object and sends a <code>rowSetChanged</code> event object to all

     * registered listeners.

     *

     * @throws SQLException if an error occurs flushing the contents of

     *           RowSet.

     * @see javax.sql.RowSetListener#rowSetChanged

     */

    public void release() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Cancels deletion of the current row and notifies listeners that

     * a row has changed.

     * <P>

     * Note:  This method can be ignored if deleted rows are not being shown,

     * which is the normal case.

     *

     * @throws SQLException if the cursor is not on a valid row

     */

    public void undoDelete() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Immediately removes the current row from this

     * <code>CachedRowSetImpl</code> object if the row has been inserted, and

     * also notifies listeners the a row has changed.  An exception is thrown

     * if the row is not a row that has been inserted or the cursor is before

     * the first row, after the last row, or on the insert row.

     * <P>

     * This operation cannot be undone.

     *

     * @throws SQLException if an error occurs,

     *                         the cursor is not on a valid row,

     *                         or the row has not been inserted

     */

    public void undoInsert() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Immediately reverses the last update operation if the

     * row has been modified. This method can be

     * called to reverse updates on a all columns until all updates in a row have

     * been rolled back to their originating state since the last synchronization

     * (<code>acceptChanges</code>) or population. This method may also be called

     * while performing updates to the insert row.

     * <P>

     * <code>undoUpdate</code may be called at any time during the life-time of a

     * rowset, however after a synchronization has occurs this method has no

     * affect until further modification to the RowSet data occurs.

     *

     * @throws SQLException if cursor is before the first row, after the last

     *     row in rowset.

     * @see #undoDelete

     * @see #undoInsert

     * @see java.sql.ResultSet#cancelRowUpdates

     */

    public void undoUpdate() throws SQLException {

        throw new UnsupportedOperationException();

    }

    //--------------------------------------------------------------------

    // Views

    //--------------------------------------------------------------------

    /**

     * Returns a new <code>RowSet</code> object backed by the same data as

     * that of this <code>CachedRowSetImpl</code> object and sharing a set of cursors

     * with it. This allows cursors to interate over a shared set of rows, providing

     * multiple views of the underlying data.

     *

     * @return a <code>RowSet</code> object that is a copy of this <code>CachedRowSetImpl</code>

     * object and shares a set of cursors with it

     * @throws SQLException if an error occurs or cloning is

     *                         not supported

     * @see javax.sql.RowSetEvent

     * @see javax.sql.RowSetListener

     */

    public RowSet createShared() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Returns a new <code>RowSet</code> object containing by the same data

     * as this <code>CachedRowSetImpl</code> object.  This method

     * differs from the method <code>createCopy</code> in that it throws a

     * <code>CloneNotSupportedException</code> object instead of an

     * <code>SQLException</code> object, as the method <code>createShared</code>

     * does.  This <code>clone</code>

     * method is called internally by the method <code>createShared</code>,

     * which catches the <code>CloneNotSupportedException</code> object

     * and in turn throws a new <code>SQLException</code> object.

     *

     * @return a copy of this <code>CachedRowSetImpl</code> object

     * @throws CloneNotSupportedException if an error occurs when

     * attempting to clone this <code>CachedRowSetImpl</code> object

     * @see #createShared

     */

    protected Object clone() throws CloneNotSupportedException  {

       throw new UnsupportedOperationException();

    }

    /**

     * Creates a <code>RowSet</code> object that is a deep copy of

     * this <code>CachedRowSetImpl</code> object's data, including

     * constraints.  Updates made

     * on a copy are not visible to the original rowset;

     * a copy of a rowset is completely independent from the original.

     * <P>

     * Making a copy saves the cost of creating an identical rowset

     * from first principles, which can be quite expensive.

     * For example, it can eliminate the need to query a

     * remote database server.

     * @return a new <code>CachedRowSet</code> object that is a deep copy

     *           of this <code>CachedRowSet</code> object and is

     *           completely independent from this <code>CachedRowSetImpl</code>

     *           object.

     * @throws SQLException if an error occurs in generating the copy of this

     *           of the <code>CachedRowSetImpl</code>

     * @see #createShared

     * @see javax.sql.RowSetEvent

     * @see javax.sql.RowSetListener

     */

    public CachedRowSet createCopy() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Creates a <code>RowSet</code> object that is a copy of

     * this <code>CachedRowSetImpl</code> object's table structure

     * and the constraints only.

     * There will be no data in the object being returned.

     * Updates made on a copy are not visible to the original rowset.

     * <P>

     * This helps in getting the underlying XML schema which can

     * be used as the basis for populating a <code>WebRowSet</code>.

     *

     * @return a new <code>CachedRowSet</code> object that is a copy

     * of this <code>CachedRowSetImpl</code> object's schema and

     * retains all the constraints on the original rowset but contains

     * no data

     * @throws SQLException if an error occurs in generating the copy

     * of the <code>CachedRowSet</code> object

     * @see #createShared

     * @see #createCopy

     * @see #createCopyNoConstraints

     * @see javax.sql.RowSetEvent

     * @see javax.sql.RowSetListener

     */

    public CachedRowSet createCopySchema() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Creates a <code>CachedRowSet</code> object that is a copy of

     * this <code>CachedRowSetImpl</code> object's data only.

     * All constraints set in this object will not be there

     * in the returning object.  Updates made

     * on a copy are not visible to the original rowset.

     *

     * @return a new <code>CachedRowSet</code> object that is a deep copy

     * of this <code>CachedRowSetImpl</code> object and is

     * completely independent from this <code>CachedRowSetImpl</code> object

     * @throws SQLException if an error occurs in generating the copy of the

     * of the <code>CachedRowSet</code>

     * @see #createShared

     * @see #createCopy

     * @see #createCopySchema

     * @see javax.sql.RowSetEvent

     * @see javax.sql.RowSetListener

     */

    public CachedRowSet createCopyNoConstraints() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Converts this <code>CachedRowSetImpl</code> object to a collection

     * of tables. The sample implementation utilitizes the <code>TreeMap</code>

     * collection type.

     * This class guarantees that the map will be in ascending key order,

     * sorted according to the natural order for the key's class.

     *

     * @return a <code>Collection</code> object consisting of tables,

     *         each of which is a copy of a row in this

     *         <code>CachedRowSetImpl</code> object

     * @throws SQLException if an error occurs in generating the collection

     * @see #toCollection(int)

     * @see #toCollection(String)

     * @see java.util.TreeMap

     */

    @SuppressWarnings("rawtypes")

    public Collection toCollection() throws SQLException {

       throw new UnsupportedOperationException();

    }

    /**

     * Returns the specified column of this <code>CachedRowSetImpl</code> object

     * as a <code>Collection</code> object.  This method makes a copy of the

     * column's data and utilitizes the <code>Vector</code> to establish the

     * collection. The <code>Vector</code> class implements a growable array

     * objects allowing the individual components to be accessed using an

     * an integer index similar to that of an array.

     *

     * @return a <code>Collection</code> object that contains the value(s)

     *         stored in the specified column of this

     *         <code>CachedRowSetImpl</code>

     *         object

     * @throws SQLException if an error occurs generated the collection; or

     *          an invalid column is provided.

     * @see #toCollection()

     * @see #toCollection(String)

     * @see java.util.Vector

     */

    @SuppressWarnings("rawtypes")

    public Collection toCollection(int column) throws SQLException {

       throw new UnsupportedOperationException();

    }

    /**

     * Returns the specified column of this <code>CachedRowSetImpl</code> object

     * as a <code>Collection</code> object.  This method makes a copy of the

     * column's data and utilitizes the <code>Vector</code> to establish the

     * collection. The <code>Vector</code> class implements a growable array

     * objects allowing the individual components to be accessed using an

     * an integer index similar to that of an array.

     *

     * @return a <code>Collection</code> object that contains the value(s)

     *         stored in the specified column of this

     *         <code>CachedRowSetImpl</code>

     *         object

     * @throws SQLException if an error occurs generated the collection; or

     *          an invalid column is provided.

     * @see #toCollection()

     * @see #toCollection(int)

     * @see java.util.Vector

     */

    @SuppressWarnings("rawtypes")

    public Collection toCollection(String column) throws SQLException {

        throw new UnsupportedOperationException();

    }

    //--------------------------------------------------------------------

    // Advanced features

    //--------------------------------------------------------------------

    /**

     * Returns the <code>SyncProvider</code> implementation being used

     * with this <code>CachedRowSetImpl</code> implementation rowset.

     *

     * @return the SyncProvider used by the rowset. If not provider was

     *          set when the rowset was instantiated, the reference

     *          implementation (default) provider is returned.

     * @throws SQLException if error occurs while return the

     *          <code>SyncProvider</code> instance.

     */

    public SyncProvider getSyncProvider() throws SQLException {

      throw new UnsupportedOperationException();

    }

    /**

     * Sets the active <code>SyncProvider</code> and attempts to load

     * load the new provider using the <code>SyncFactory</code> SPI.

     *

     * @throws SQLException if an error occurs while resetting the

     *          <code>SyncProvider</code>.

     */

    public void setSyncProvider(String providerStr) throws SQLException {

        throw new UnsupportedOperationException();

    }

    //-----------------

    // methods inherited from RowSet

    //-----------------

    //---------------------------------------------------------------------

    // Reading and writing data

    //---------------------------------------------------------------------

    /**

     * Populates this <code>CachedRowSetImpl</code> object with data.

     * This form of the method uses the rowset's user, password, and url or

     * data source name properties to create a database

     * connection.  If properties that are needed

     * have not been set, this method will throw an exception.

     * <P>

     * Another form of this method uses an existing JDBC <code>Connection</code>

     * object instead of creating a new one; therefore, it ignores the

     * properties used for establishing a new connection.

     * <P>

     * The query specified by the command property is executed to create a

     * <code>ResultSet</code> object from which to retrieve data.

     * The current contents of the rowset are discarded, and the

     * rowset's metadata is also (re)set.  If there are outstanding updates,

     * they are also ignored.

     * <P>

     * The method <code>execute</code> closes any database connections that it

     * creates.

     *

     * @throws SQLException if an error occurs or the

     *                         necessary properties have not been set

     */

    public void execute() throws SQLException {

        throw new UnsupportedOperationException();

    }

    //-----------------------------------

    // Methods inherited from ResultSet

    //-----------------------------------

    /**

     * Moves the cursor down one row from its current position and

     * returns <code>true</code> if the new cursor position is a

     * valid row.

     * The cursor for a new <code>ResultSet</code> object is initially

     * positioned before the first row. The first call to the method

     * <code>next</code> moves the cursor to the first row, making it

     * the current row; the second call makes the second row the

     * current row, and so on.

     *

     * <P>If an input stream from the previous row is open, it is

     * implicitly closed. The <code>ResultSet</code> object's warning

     * chain is cleared when a new row is read.

     *

     * @return <code>true</code> if the new current row is valid;

     *         <code>false</code> if there are no more rows

     * @throws SQLException if an error occurs or

     *            the cursor is not positioned in the rowset, before

     *            the first row, or after the last row

     */

    public boolean next() throws SQLException {

       throw new UnsupportedOperationException();

    }

    /**

     * Moves this <code>CachedRowSetImpl</code> object's cursor to the next

     * row and returns <code>true</code> if the cursor is still in the rowset;

     * returns <code>false</code> if the cursor has moved to the position after

     * the last row.

     * <P>

     * This method handles the cases where the cursor moves to a row that

     * has been deleted.

     * If this rowset shows deleted rows and the cursor moves to a row

     * that has been deleted, this method moves the cursor to the next

     * row until the cursor is on a row that has not been deleted.

     * <P>

     * The method <code>internalNext</code> is called by methods such as

     * <code>next</code>, <code>absolute</code>, and <code>relative</code>,

     * and, as its name implies, is only called internally.

     * <p>

     * This is a implementation only method and is not required as a standard

     * implementation of the <code>CachedRowSet</code> interface.

     *

     * @return <code>true</code> if the cursor is on a valid row in this

     *         rowset; <code>false</code> if it is after the last row

     * @throws SQLException if an error occurs

     */

    protected boolean internalNext() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Closes this <code>CachedRowSetImpl</code> objecy and releases any resources

     * it was using.

     *

     * @throws SQLException if an error occurs when releasing any resources in use

     * by this <code>CachedRowSetImpl</code> object

     */

    public void close() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Reports whether the last column read was SQL <code>NULL</code>.

     * Note that you must first call the method <code>getXXX</code>

     * on a column to try to read its value and then call the method

     * <code>wasNull</code> to determine whether the value was

     * SQL <code>NULL</code>.

     *

     * @return <code>true</code> if the value in the last column read

     *         was SQL <code>NULL</code>; <code>false</code> otherwise

     * @throws SQLException if an error occurs

     */

    public boolean wasNull() throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Returns the insert row or the current row of this

     * <code>CachedRowSetImpl</code>object.

     *

     * @return the <code>Row</code> object on which this <code>CachedRowSetImpl</code>

     * objects's cursor is positioned

     */

    protected BaseRow getCurrentRow() {

        throw new UnsupportedOperationException();

    }

    /**

     * Removes the row on which the cursor is positioned.

     * <p>

     * This is a implementation only method and is not required as a standard

     * implementation of the <code>CachedRowSet</code> interface.

     *

     * @throws SQLException if the cursor is positioned on the insert

     *            row

     */

    protected void removeCurrentRow() {

        throw new UnsupportedOperationException();

    }

    /**

     * Retrieves the value of the designated column in the current row

     * of this <code>CachedRowSetImpl</code> object as a

     * <code>String</code> object.

     *

     * @param columnIndex the first column is <code>1</code>, the second

     *        is <code>2</code>, and so on; must be <code>1</code> or larger

     *        and equal to or less than the number of columns in the rowset

     * @return the column value; if the value is SQL <code>NULL</code>, the

     *         result is <code>null</code>

     * @throws SQLException if (1) the given column index is out of bounds,

     * (2) the cursor is not on one of this rowset's rows or its

     * insert row, or (3) the designated column does not store an

     * SQL <code>TINYINT, SMALLINT, INTEGER, BIGINT, REAL,

     * FLOAT, DOUBLE, DECIMAL, NUMERIC, BIT, <b>CHAR</b>, <b>VARCHAR</b></code>

     * or <code>LONGVARCHAR</code> value. The bold SQL type designates the

     * recommended return type.

     */

    public String getString(int columnIndex) throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Retrieves the value of the designated column in the current row

     * of this <code>CachedRowSetImpl</code> object as a

     * <code>boolean</code> value.

     *

     * @param columnIndex the first column is <code>1</code>, the second

     *        is <code>2</code>, and so on; must be <code>1</code> or larger

     *        and equal to or less than the number of columns in the rowset

     * @return the column value as a <code>boolean</code> in the Java progamming language;

     *        if the value is SQL <code>NULL</code>, the result is <code>false</code>

     * @throws SQLException if (1) the given column index is out of bounds,

     *            (2) the cursor is not on one of this rowset's rows or its

     *            insert row, or (3) the designated column does not store an

     *            SQL <code>BOOLEAN</code> value

     * @see #getBoolean(String)

     */

    public boolean getBoolean(int columnIndex) throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Retrieves the value of the designated column in the current row

     * of this <code>CachedRowSetImpl</code> object as a

     * <code>byte</code> value.

     *

     * @param columnIndex the first column is <code>1</code>, the second

     *        is <code>2</code>, and so on; must be <code>1</code> or larger

     *        and equal to or less than the number of columns in the rowset

     * @return the column value as a <code>byte</code> in the Java programming

     * language; if the value is SQL <code>NULL</code>, the result is <code>0</code>

     * @throws SQLException if (1) the given column index is out of bounds,

     *            (2) the cursor is not on one of this rowset's rows or its

     *            insert row, or (3) the designated column does not store an

     *            SQL <code><b>TINYINT</b>, SMALLINT, INTEGER, BIGINT, REAL,

     *            FLOAT, DOUBLE, DECIMAL, NUMERIC, BIT, CHAR, VARCHAR</code>

     *            or <code>LONGVARCHAR</code> value. The bold SQL type

     *            designates the recommended return type.

     * @see #getByte(String)

     */

    public byte getByte(int columnIndex) throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Retrieves the value of the designated column in the current row

     * of this <code>CachedRowSetImpl</code> object as a

     * <code>short</code> value.

     *

     * @param columnIndex the first column is <code>1</code>, the second

     *        is <code>2</code>, and so on; must be <code>1</code> or larger

     *        and equal to or less than the number of columns in the rowset

     * @return the column value; if the value is SQL <code>NULL</code>, the

     *         result is <code>0</code>

     * @throws SQLException if (1) the given column index is out of bounds,

     * (2) the cursor is not on one of this rowset's rows or its

     * insert row, or (3) the designated column does not store an

     * SQL <code>TINYINT, <b>SMALLINT</b>, INTEGER, BIGINT, REAL

     * FLOAT, DOUBLE, DECIMAL, NUMERIC, BIT, CHAR, VARCHAR</code>

     * or <code>LONGVARCHAR</code> value. The bold SQL type designates the

     * recommended return type.

     * @see #getShort(String)

     */

    public short getShort(int columnIndex) throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Retrieves the value of the designated column in the current row

     * of this <code>CachedRowSetImpl</code> object as an

     * <code>int</code> value.

     *

     * @param columnIndex the first column is <code>1</code>, the second

     *        is <code>2</code>, and so on; must be <code>1</code> or larger

     *        and equal to or less than the number of columns in the rowset

     * @return the column value; if the value is SQL <code>NULL</code>, the

     *         result is <code>0</code>

     * @throws SQLException if (1) the given column index is out of bounds,

     * (2) the cursor is not on one of this rowset's rows or its

     * insert row, or (3) the designated column does not store an

     * SQL <code>TINYINT, SMALLINT, <b>INTEGER</b>, BIGINT, REAL

     * FLOAT, DOUBLE, DECIMAL, NUMERIC, BIT, CHAR, VARCHAR</code>

     * or <code>LONGVARCHAR</code> value. The bold SQL type designates the

     * recommended return type.

     */

    public int getInt(int columnIndex) throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Retrieves the value of the designated column in the current row

     * of this <code>CachedRowSetImpl</code> object as a

     * <code>long</code> value.

     *

     * @param columnIndex the first column is <code>1</code>, the second

     *        is <code>2</code>, and so on; must be <code>1</code> or larger

     *        and equal to or less than the number of columns in the rowset

     * @return the column value; if the value is SQL <code>NULL</code>, the

     *         result is <code>0</code>

     * @throws SQLException if (1) the given column index is out of bounds,

     * (2) the cursor is not on one of this rowset's rows or its

     * insert row, or (3) the designated column does not store an

     * SQL <code>TINYINT, SMALLINT, INTEGER, <b>BIGINT</b>, REAL

     * FLOAT, DOUBLE, DECIMAL, NUMERIC, BIT, CHAR, VARCHAR</code>

     * or <code>LONGVARCHAR</code> value. The bold SQL type designates the

     * recommended return type.

     * @see #getLong(String)

     */

    public long getLong(int columnIndex) throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Retrieves the value of the designated column in the current row

     * of this <code>CachedRowSetImpl</code> object as a

     * <code>float</code> value.

     *

     * @param columnIndex the first column is <code>1</code>, the second

     *        is <code>2</code>, and so on; must be <code>1</code> or larger

     *        and equal to or less than the number of columns in the rowset

     * @return the column value; if the value is SQL <code>NULL</code>, the

     *         result is <code>0</code>

     * @throws SQLException if (1) the given column index is out of bounds,

     * (2) the cursor is not on one of this rowset's rows or its

     * insert row, or (3) the designated column does not store an

     * SQL <code>TINYINT, SMALLINT, INTEGER, BIGINT, <b>REAL</b>,

     * FLOAT, DOUBLE, DECIMAL, NUMERIC, BIT, CHAR, VARCHAR</code>

     * or <code>LONGVARCHAR</code> value. The bold SQL type designates the

     * recommended return type.

     * @see #getFloat(String)

     */

    public float getFloat(int columnIndex) throws SQLException {

        throw new UnsupportedOperationException();

    }

    /**

     * Retrieves the value of the designated column in the current row

     * of this <code>CachedRowSetImpl</code> object as a

     * <code>double</code> value.

     *

     * @param columnIndex the first column is <code>1</code>, the second

     *        is <code>2</code>, and so on; must be <code>1</code> or larger