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///////////////////////////////////////////////////////////////////////////////
//                                                                             
// JTOpen (IBM Toolbox for Java - OSS version)                                 
//                                                                             
// Filename: SQLData.java
//                                                                             
// The source code contained herein is licensed under the IBM Public License   
// Version 1.0, which has been approved by the Open Source Initiative.         
// Copyright (C) 1997-2006 International Business Machines Corporation and     
// others. All rights reserved.                                                
//                                                                             
///////////////////////////////////////////////////////////////////////////////

package com.ibm.as400.access;

import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.Reader;
import java.io.StringReader;
import java.io.UnsupportedEncodingException;
import java.math.BigDecimal;
import java.sql.Array;
import java.sql.Blob;
import java.sql.Clob;
import java.sql.Date;
import java.sql.Types;
/* ifdef JDBC40 
import java.sql.NClob;
import java.sql.Ref;
import java.sql.RowId;
 endif */ 
import java.sql.SQLException;
/* ifdef JDBC40  
import java.sql.SQLXML;
 endif */ 
import java.sql.Time;
import java.sql.Timestamp;
import java.util.Calendar;

/**
The SQLData interface represents native SQL data.  A specific
implementation of this interface will implement a specific
type of SQL data.

This base class contains conversion methods usable by the sub classes. **/ public abstract class SQLDataBase implements SQLData { static final String copyright = "Copyright (C) 1997-2006 International Business Machines Corporation and others."; protected int truncated_; protected boolean outOfBounds_; protected SQLConversionSettings settings_; Object savedValue_ = null; /** * Create a new SQLDataBase object with the specified settings * @param settings */ public SQLDataBase(SQLConversionSettings settings) { this.settings_= settings; truncated_ = 0; outOfBounds_ = false; } /** Returns a clone of the SQLData object. Use this sparingly so that we minimize the number of copies. @return The clone. **/ public abstract Object clone(); //---------------------------------------------------------// // // // CONVERSION TO AND FROM RAW BYTES // // // //---------------------------------------------------------// /** Loads the contents of the data from raw bytes, as returned in a reply from the system. @param rawBytes raw bytes from the system. @param offset offset. @param converter the converter. @exception SQLException If the raw bytes are not in the expected format. **/ public void convertFromRawBytes(byte[] rawBytes, int offset, ConvTable converter) throws SQLException { convertFromRawBytes(rawBytes, offset, converter, false); } public abstract void convertFromRawBytes(byte[] rawBytes, int offset, ConvTable converter, boolean ignoreConversionErrors) throws SQLException; /** Converts the contents of the data in raw bytes, as needed in a request to the system. @param rawBytes the raw bytes for the system. @param offset the offset into the byte array. @param ccsidConverter the converter. **/ public abstract void convertToRawBytes(byte[] rawBytes, int offset, ConvTable ccsidConverter) throws SQLException; /** validates that raw truncated data is correct. The data is corrected if is not correct. This is only used when converting to MIXED CCSID and UTF-8. @param rawBytes the raw bytes for the system. @param offset the offset into the byte array. @param ccsidConverter the converter. **/ public void validateRawTruncatedData(byte[] rawBytes, int offset, ConvTable ccsidConverter) { // Most data type do not need to validate truncated data. Just return. } //---------------------------------------------------------// // // // SET METHODS // // // // The set methods initialize the data in a uniform way // // across all types. If a specific initialization is // // needed based on a Java type, then add other flavors // // of set() methods. // // // //---------------------------------------------------------// /** Sets the contents of the data based on a Java object. This performs all conversions described in Table 6 of the JDBC specification. @param object a Java object. @param calendar The calendar. @param scale The scale. @exception SQLException If the Java object is not an appropriate type. **/ public abstract void set(Object object, Calendar calendar, int scale) throws SQLException; //---------------------------------------------------------// // // // DESCRIPTION OF SQL TYPE // // // // These methods describe information about the actual // // type of data. // // // /*---------------------------------------------------------*/ /** Returns the SQL type constant for the implementing class. @return the SQL type constant. **/ public abstract int getSQLType(); /** Returns the parameters used in creating the type. @return the parameters, separated by commas, or null if none. **/ public abstract String getCreateParameters(); /** Returns the display size. This is defined in Appendix D of the ODBC 2.0 Programmer's Reference. @return the display size (in characters). **/ public abstract int getDisplaySize(); //@F1A JDBC 3.0 /** Returns the Java class name for ParameterMetaData.getParameterClassName(). @return the Java class name. **/ public abstract String getJavaClassName(); /** Returns the prefix used to quote a literal. @return the prefix, or null if none. **/ public abstract String getLiteralPrefix(); /** Returns the suffix used to quote a literal. @return the suffix, or null if none. **/ public abstract String getLiteralSuffix(); /** Returns the localized version of the name of the data type. @return the name, or null. **/ public abstract String getLocalName(); /** Returns the maximum precision of the type. This is defined in Appendix D of the ODBC 2.0 Programmer's Reference. @return the maximum precision. **/ public abstract int getMaximumPrecision(); /** Returns the maximum scale of the type. This is defined in Appendix D of the ODBC 2.0 Programmer's Reference. @return the maximum scale. **/ public abstract int getMaximumScale(); /** Returns the minimum scale of the type. This is defined in Appendix D of the ODBC 2.0 Programmer's Reference. @return the minimum scale. **/ public abstract int getMinimumScale(); /** Returns the native IBM i identifier for the type. @return the native type. **/ public abstract int getNativeType(); /** Returns the precision of the type. This is defined in Appendix D of the ODBC 2.0 Programmer's Reference. @return the precision. **/ public abstract int getPrecision(); /** Returns the radix for the type. @return the radix. **/ public abstract int getRadix(); /** Returns the scale of the type. This is defined in Appendix D of the ODBC 2.0 Programmer's Reference. @return the scale. **/ public abstract int getScale(); /** Returns the type constant associated with the type. @return SQL type code defined in java.sql.Types. **/ public abstract int getType(); /** Returns the name of the data type. @return the name. **/ public abstract String getTypeName(); /** Indicates whether the type is signed. @return true or false **/ public abstract boolean isSigned(); /** Indicates whether the type is text. This also indicates that the associated data needs to be converted. @return true or false **/ public abstract boolean isText(); /** Returns the actual size of this piece of data in bytes. @return the actual size of this piece of data in bytes. **/ public abstract int getActualSize(); /** Returns the number of bytes truncated by the last conversion of this piece of data. @return the number of bytes truncated by the last conversion **/ public abstract int getTruncated(); public void clearTruncated() { truncated_ = 0; } /** * Returns true if the last conversion of this piece of * data was out of bounds of the range of the requested * datatype. This will only happen when requesting * conversion to a numeric type. */ public abstract boolean getOutOfBounds(); public void clearOutOfBounds() { outOfBounds_ = false; } //---------------------------------------------------------// // // // CONVERSIONS TO JAVA TYPES // // // // These methods convert the data to a specific Java // // type. These conversions should be provided per // // section 7, table 1 ("Use of ResultSet.getXxx methods // // to retrieve common SQL data types") of the JDBC 1.10 // // specification. If a conversion is not required or is // // not possible given the data, then the method should // // throw an exception. // // // /*---------------------------------------------------------*/ /** Converts the data to a stream of ASCII characters. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public InputStream getAsciiStream() throws SQLException { truncated_ = 0; outOfBounds_ = false; try { return new ByteArrayInputStream(ConvTable.getTable(819, null).stringToByteArray(getString())); } catch(UnsupportedEncodingException e) { JDError.throwSQLException(this, JDError.EXC_INTERNAL, e); return null; } } /** Converts the data to a Java BigDecimal object. @param scale scale, or -1 to use full scale. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public BigDecimal getBigDecimal(int scale) throws SQLException { try { BigDecimal bigDecimal = new BigDecimal(SQLDataFactory.convertScientificNotation(getString().trim(), settings_)); // @F5C if(scale >= 0) { if(scale >= bigDecimal.scale()) { truncated_ = 0; outOfBounds_ = false; return bigDecimal.setScale(scale); } else { truncated_ = bigDecimal.scale() - scale; outOfBounds_ = false; return bigDecimal.setScale(scale, BigDecimal.ROUND_HALF_UP); } } else return bigDecimal; } catch(NumberFormatException e) { JDError.throwSQLException(this, JDError.EXC_DATA_TYPE_MISMATCH, e); return null; } } /** Converts the data to a stream of uninterpreted bytes. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public abstract InputStream getBinaryStream() throws SQLException; /** Converts the data to a java.sql.Blob object. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public abstract Blob getBlob() throws SQLException; /** Converts the data to a Java boolean. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public boolean getBoolean() throws SQLException { truncated_ = 0; outOfBounds_ = false; // If value equals "true", "false", "1", or "0", then return the // corresponding boolean, otherwise an empty string is // false, a non-empty string is true. String trimmedValue = getString().trim(); return((trimmedValue.length() > 0) && (! trimmedValue.equalsIgnoreCase("false")) && (! trimmedValue.equals("0"))); } /** Converts the data to a Java byte. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public byte getByte() throws SQLException { truncated_ = 0; outOfBounds_ = false; try { //return(new Double(value_.trim())).byteValue(); //@trunc Double doubleValue = new Double (getString().trim ()); //@trunc double d = doubleValue.doubleValue(); //@trunc if(d > Byte.MAX_VALUE || d < Byte.MIN_VALUE) { //@trunc truncated_ = 1; //@trunc outOfBounds_ = true; } return doubleValue.byteValue (); //@trunc } catch(NumberFormatException e) { JDError.throwSQLException(this, JDError.EXC_DATA_TYPE_MISMATCH, e); return -1; } } /** Converts the data to a Java byte array containing uninterpreted bytes. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public abstract byte[] getBytes() throws SQLException; /** Converts the data to a java.io.Reader object. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public Reader getCharacterStream() throws SQLException { return new java.io.StringReader(getString()); } /** Converts the data to a java.sql.Clob object. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public Clob getClob() throws SQLException { String string = getString(); // Use the default maximum length for the obtained clob return new AS400JDBCClob(string); } /** Converts the data to a java.sql.Date object. @param calendar The calendar. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public Date getDate(Calendar calendar) throws SQLException { truncated_ = 0; outOfBounds_ = false; if(calendar == null) //@dat1 { //getter methods do not enforce strict conversion calendar = AS400Calendar.getGregorianInstance(); //@dat1 } else { calendar = AS400Calendar.getConversionCalendar(calendar); } return SQLDate.stringToDate(getString(), settings_, calendar); } /** Converts the data to a Java double. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public double getDouble() throws SQLException { truncated_ = 0; outOfBounds_ = false; try { return(new Double(getString().trim())).doubleValue(); } catch(NumberFormatException e) { JDError.throwSQLException(this, JDError.EXC_DATA_TYPE_MISMATCH, e); return -1; } } /** Converts the data to a Java float. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public float getFloat() throws SQLException { truncated_ = 0; outOfBounds_ = false; try { return(new Double(getString().trim())).floatValue(); } catch(NumberFormatException e) { JDError.throwSQLException(this, JDError.EXC_DATA_TYPE_MISMATCH, e); return -1; } } /** Converts the data to a Java int. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public int getInt() throws SQLException { truncated_ = 0; outOfBounds_ = false; try { //return(new Double(getString().trim())).intValue(); //@trunc Double doubleValue = new Double (getString().trim ()); //@trunc double d = doubleValue.doubleValue(); //@trunc if( d > Integer.MAX_VALUE || d < Integer.MIN_VALUE) { //@trunc truncated_ = 1; //@trunc outOfBounds_ = true; } return doubleValue.intValue (); //@trunc } catch(NumberFormatException e) { JDError.throwSQLException(this, JDError.EXC_DATA_TYPE_MISMATCH, e); return -1; } } /** Converts the data to a Java long. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public long getLong() throws SQLException { truncated_ = 0; outOfBounds_ = false; try { //return(new Double(getString().trim())).longValue(); //@trunc Double doubleValue = new Double (getString().trim ()); //@trunc double d = doubleValue.doubleValue(); //@trunc if( d > Long.MAX_VALUE || d < Long.MIN_VALUE) { //@trunc truncated_ = 1; //@trunc outOfBounds_ = true; } return doubleValue.longValue (); //@trunc } catch(NumberFormatException e) { JDError.throwSQLException(this, JDError.EXC_DATA_TYPE_MISMATCH, e); return -1; } } /** Converts the data to a Java object. The actual type of the Java object is dictated per section 8, table 2 ("Standard mapping from SQL types to Java types") of the JDBC 1.10 specification @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public abstract Object getObject() throws SQLException; public Object getBatchableObject() throws SQLException { return getObject(); } /** Converts the data to a Java short. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public short getShort() throws SQLException { truncated_ = 0; outOfBounds_ = false; try { //return(new Double(getString().trim())).shortValue(); //@trunc Double doubleValue = new Double (getString().trim ()); //@trunc double d = doubleValue.doubleValue(); //@trunc if( d > Short.MAX_VALUE || d < Short.MIN_VALUE) { //@trunc truncated_ = 1; //@trunc outOfBounds_ = true; } return doubleValue.shortValue (); //@trunc } catch(NumberFormatException e) { JDError.throwSQLException(this, JDError.EXC_DATA_TYPE_MISMATCH, e); return -1; } } /** Converts the data to a Java String object. This conversion must be provided by the implementation. @return the result of the conversion. **/ public abstract String getString() throws SQLException; /** Converts the data to a java.sql.Time object. @param calendar The calendar. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public Time getTime(Calendar calendar) throws SQLException { truncated_ = 0; outOfBounds_ = false; if(calendar == null) //@dat1 { //getter methods do not enforce strict conversion calendar = AS400Calendar.getGregorianInstance(); //@dat1 } else { calendar = AS400Calendar.getConversionCalendar(calendar); } return SQLTime.stringToTime(getString(), settings_, calendar); } /** Converts the data to a java.sql.Timestamp object. @param calendar The calendar. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public Timestamp getTimestamp(Calendar calendar) throws SQLException { truncated_ = 0; outOfBounds_ = false; if(calendar == null) //@dat1 { //getter methods do not enforce strict conversion calendar = AS400Calendar.getGregorianInstance(); //@dat1 } else { calendar = AS400Calendar.getConversionCalendar(calendar); } return SQLTimestamp.stringToTimestamp(getString(), calendar); } /** Converts the data to a stream of Unicdoe characters. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public InputStream getUnicodeStream() throws SQLException { truncated_ = 0; outOfBounds_ = false; try { return new ReaderInputStream(new StringReader(getString()), 13488); } catch(UnsupportedEncodingException e) { JDError.throwSQLException(this, JDError.EXC_INTERNAL, e); return null; } } //@PDA jdbc40 /** Converts the data to a java.io.Reader object. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public Reader getNCharacterStream() throws SQLException { truncated_ = 0; outOfBounds_ = false; // This is written in terms of getNString(), since it will // handle truncating to the max field size if needed. return new StringReader(getNString()); } //@PDA jdbc40 /** Converts the data to a java.sql.NClob object @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ /* ifdef JDBC40 public NClob getNClob() throws SQLException { truncated_ = 0; outOfBounds_ = false; // This is written in terms of getNString(), since it will // handle truncating to the max field size if needed. String string = getNString(); return new AS400JDBCNClob(string, string.length()); } endif */ //@PDA jdbc40 /** Converts the data to String object. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public String getNString() throws SQLException { return getString(); } //@PDA jdbc40 /** Converts the data to a java.sql.SQLXML object. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ /* ifdef JDBC40 public abstract SQLXML getSQLXML() throws SQLException; endif */ //@PDA jdbc40 /** Converts the data to a java.sql.RowId object. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ /* ifdef JDBC40 public abstract RowId getRowId() throws SQLException; endif */ //@array /** Converts (returns) the data to a java.sql.Array object. @return the result of the conversion. @exception SQLException If the conversion is not required or not possible. **/ public Array getArray() throws SQLException { JDError.throwSQLException(this, JDError.EXC_DATA_TYPE_MISMATCH); return null; } public void updateSettings(SQLConversionSettings settings) { settings_ = settings; } static String getStringFromReader(Reader stream, int length, Object exceptionObject) throws SQLException { String value = null; if(length >= 0) { try { int blockSize = length < AS400JDBCPreparedStatement.LOB_BLOCK_SIZE ? length : AS400JDBCPreparedStatement.LOB_BLOCK_SIZE; StringBuffer buf = new StringBuffer(); char[] charBuffer = new char[blockSize]; int totalCharsRead = 0; int charsRead = stream.read(charBuffer, 0, blockSize); while(charsRead > -1 && totalCharsRead < length) { buf.append(charBuffer, 0, charsRead); totalCharsRead += charsRead; int charsRemaining = length - totalCharsRead; if(charsRemaining < blockSize) { blockSize = charsRemaining; } charsRead = stream.read(charBuffer, 0, blockSize); } value = buf.toString(); if(value.length() < length) { // a length longer than the stream was specified JDError.throwSQLException(exceptionObject, JDError.EXC_DATA_TYPE_MISMATCH); } } catch(IOException ie) { JDError.throwSQLException(exceptionObject, JDError.EXC_INTERNAL, ie); } } else if(length == ALL_READER_BYTES) //@readerlen new else-if block (read all data) { try { int blockSize = AS400JDBCPreparedStatement.LOB_BLOCK_SIZE; StringBuffer buf = new StringBuffer(); char[] charBuffer = new char[blockSize]; // int totalCharsRead = 0; int charsRead = stream.read(charBuffer, 0, blockSize); while(charsRead > -1) { buf.append(charBuffer, 0, charsRead); // totalCharsRead += charsRead; // int charsRemaining = length_ - totalCharsRead; charsRead = stream.read(charBuffer, 0, blockSize); } value = buf.toString(); } catch(IOException ie) { JDError.throwSQLException(exceptionObject, JDError.EXC_INTERNAL, ie); } } else { JDError.throwSQLException(exceptionObject, JDError.EXC_DATA_TYPE_MISMATCH); } return value; } static byte[] getBytesFromInputStream(InputStream object, int length, Object exceptionObject) throws SQLException { byte[] value = null; if(length >= 0) { InputStream stream = (InputStream)object; ByteArrayOutputStream baos = new ByteArrayOutputStream(); int blockSize = length < AS400JDBCPreparedStatement.LOB_BLOCK_SIZE ? length : AS400JDBCPreparedStatement.LOB_BLOCK_SIZE; byte[] byteBuffer = new byte[blockSize]; try { int totalBytesRead = 0; int bytesRead = stream.read(byteBuffer, 0, blockSize); while(bytesRead > -1 && totalBytesRead < length) { baos.write(byteBuffer, 0, bytesRead); totalBytesRead += bytesRead; int bytesRemaining = length - totalBytesRead; if(bytesRemaining < blockSize) { blockSize = bytesRemaining; } bytesRead = stream.read(byteBuffer, 0, blockSize); } } catch(IOException ie) { JDError.throwSQLException(exceptionObject, JDError.EXC_INTERNAL, ie); } value = baos.toByteArray(); if(value.length < length) { // a length longer than the stream was specified JDError.throwSQLException(exceptionObject, JDError.EXC_DATA_TYPE_MISMATCH); } } else if(length == ALL_READER_BYTES ) //@readerlen new else-if block (read all data) { InputStream stream = (InputStream)object; ByteArrayOutputStream baos = new ByteArrayOutputStream(); int blockSize = AS400JDBCPreparedStatement.LOB_BLOCK_SIZE; byte[] byteBuffer = new byte[blockSize]; try { int totalBytesRead = 0; int bytesRead = stream.read(byteBuffer, 0, blockSize); while(bytesRead > -1) { baos.write(byteBuffer, 0, bytesRead); totalBytesRead += bytesRead; bytesRead = stream.read(byteBuffer, 0, blockSize); } } catch(IOException ie) { JDError.throwSQLException(exceptionObject, JDError.EXC_INTERNAL, ie); } value = baos.toByteArray(); } else { JDError.throwSQLException(exceptionObject, JDError.EXC_DATA_TYPE_MISMATCH); } return value; } static byte[] getBytesFromReader(Reader object, int length, Object exceptionObject) throws SQLException { byte[] value = null; if(length >= 0) { try { int blockSize = length < AS400JDBCPreparedStatement.LOB_BLOCK_SIZE ? length : AS400JDBCPreparedStatement.LOB_BLOCK_SIZE; ByteArrayOutputStream baos = new ByteArrayOutputStream(); HexReaderInputStream stream = new HexReaderInputStream(object); byte[] byteBuffer = new byte[blockSize]; int totalBytesRead = 0; int bytesRead = stream.read(byteBuffer, 0, blockSize); while(bytesRead > -1 && totalBytesRead < length) { baos.write(byteBuffer, 0, bytesRead); totalBytesRead += bytesRead; int bytesRemaining = length - totalBytesRead; if(bytesRemaining < blockSize) { blockSize = bytesRemaining; } bytesRead = stream.read(byteBuffer, 0, blockSize); } value = baos.toByteArray(); if(value.length < length) { // a length longer than the stream was specified JDError.throwSQLException(exceptionObject, JDError.EXC_DATA_TYPE_MISMATCH); } stream.close(); //@scan1 } catch(ExtendedIOException eie) { // the Reader contains non-hex characters JDError.throwSQLException(exceptionObject, JDError.EXC_DATA_TYPE_MISMATCH, eie); } catch(IOException ie) { JDError.throwSQLException(exceptionObject, JDError.EXC_INTERNAL, ie); } } else if((length == ALL_READER_BYTES) || (length == -1)) //@readerlen new else-if block (read all data) { try { int blockSize = AS400JDBCPreparedStatement.LOB_BLOCK_SIZE; ByteArrayOutputStream baos = new ByteArrayOutputStream(); HexReaderInputStream stream = new HexReaderInputStream((Reader)object); byte[] byteBuffer = new byte[blockSize]; int totalBytesRead = 0; int bytesRead = stream.read(byteBuffer, 0, blockSize); while(bytesRead > -1) { baos.write(byteBuffer, 0, bytesRead); totalBytesRead += bytesRead; bytesRead = stream.read(byteBuffer, 0, blockSize); } value = baos.toByteArray(); stream.close(); //@scan1 } catch(ExtendedIOException eie) { // the Reader contains non-hex characters JDError.throwSQLException(exceptionObject, JDError.EXC_DATA_TYPE_MISMATCH, eie); } catch(IOException ie) { JDError.throwSQLException(exceptionObject, JDError.EXC_INTERNAL, ie); } } else { JDError.throwSQLException(exceptionObject, JDError.EXC_DATA_TYPE_MISMATCH); } return value; } /* Returns true if the sqlType is a character type */ /* @V8A */ public static boolean isCharacterType(int sqlType) { switch (sqlType) { case Types.CHAR: case Types.CLOB: case Types.LONGVARCHAR: case Types.VARCHAR: return true; default: return false; } } public Object getSavedValue() { return savedValue_; } }





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