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///////////////////////////////////////////////////////////////////////////////
//
// JTOpen (IBM Toolbox for Java - OSS version)
//
// Filename: ConvTable.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) 1997-2004 International Business Machines Corporation and
// others. All rights reserved.
//
///////////////////////////////////////////////////////////////////////////////
package com.ibm.as400.access;
import java.io.CharConversionException;
import java.io.UnsupportedEncodingException;
import java.util.Hashtable;
/** Internal class representing a character set conversion table.
*
*/
public abstract class ConvTable
{
static final String copyright = "Copyright (C) 1997-2004 International Business Machines Corporation and others.";
final static char cic_ = '\uFFFF'; // Used for decompression.
final static char ric_ = '\uFFFE'; // Used for decompression.
final static char hbic_ = '\u0000'; // Used for decompression.
final static char pad_ = '\u0000'; // Used for decompression.
final static byte sbSubChar_ = 0x003F; // Single-byte EBCDIC substitution character.
final static char dbSubChar_ = '\uFEFE'; // Double-byte EBCDIC substitution character.
final static char sbSubUnic_ = '\u001A'; // Single-byte Unicode substitution character.
final static char dbSubUnic_ = '\uFFFD'; // Double-byte Unicode substitution character.
final static char euro_ = '\u20AC'; // Euro character.
String encoding_;
int ccsid_ = -1;
int bidiStringType_ = BidiStringType.DEFAULT;
int clientBidiStringType = BidiStringType.DEFAULT; //@Bidi-HCG3
// The highest number of all our supported CCSIDs. There's no point in making the pool larger than it needs to be. We only have a handful of CCSIDs in the 62000 range, so we could use a smaller number to save space and those CCSIDs outside the range just wouldn't get cached. However, 61952 is used extensively, so we might as well max it out.
private static final int LARGEST_CCSID = 62251;
private static final ConvTable[] ccsidPool_ = new ConvTable[LARGEST_CCSID + 1];
private static final ConvTable[] ccsidPool1_ = new ConvTable[LARGEST_CCSID + 1];
private static final ConvTable[] ccsidPool2_ = new ConvTable[LARGEST_CCSID + 1];
private static final Hashtable converterPool_ = new Hashtable();
private static final String prefix_ = "com.ibm.as400.access.ConvTable";
ConvTable(int ccsid)
{
ccsid_ = ccsid;
encoding_ = ConversionMaps.ccsidToEncoding(ccsid_);
if (encoding_ == null) encoding_ = "" + ccsid_;
if (Trace.traceOn_)
{
Trace.log(Trace.CONVERSION, "Constructing conversion table for ccsid/encoding: " + ccsid_ + "/" + encoding_);
if (ccsid_ == 0) // See ConvTableJavaMap.
{
if (this instanceof ConvTableJavaMap)
{
Trace.log(Trace.CONVERSION, "This table is a wrapper around a Java table.");
}
else
{
Trace.log(Trace.CONVERSION, "Warning: 0 specified for CCSID when table is not a Java table.");
}
}
}
}
// Perform an OS/400 CCSID to Unicode conversion.
public String byteArrayToString(byte[] source, int offset, int length, int type)
{
return byteArrayToString(source, offset, length, new BidiConversionProperties(type));
}
abstract String byteArrayToString(byte[] source, int offset, int length, BidiConversionProperties properties);
// This method can be overridden by subclasses for better performance.
public String byteArrayToString(byte[] source, int offset, int length)
{
return byteArrayToString(source, offset, length, new BidiConversionProperties(bidiStringType_));
}
// Helper method used to decompress conversion tables when they are initialized. Note that this method also converts the char[] into a byte[] since these are single-byte tables.
byte[] decompressSB(char[] arr, byte subPad)
{
byte[] buf = new byte[65536];
int c = 0;
for (int i = 0; i < arr.length; ++i)
{
if (arr[i] == cic_)
{
if (arr.length > i+1 && arr[i+1] == pad_)
{
buf[c++] = (byte)(arr[i] / 256);
buf[c++] = (byte)(arr[i++] % 256);
}
else
{
long max = (0xFFFF & arr[i + 1] * 2) + (0xFFFF & c);
char ch = arr[i + 2];
while (c < max)
{
buf[c++] = (byte)(ch / 256);
buf[c++] = (byte)(ch % 256);
}
i = i + 2;
}
}
else if (arr[i] == ric_)
{
if (arr.length > i + 1 && arr[i + 1] == pad_)
{
buf[c++] = (byte)(arr[i] / 256);
buf[c++] = (byte)(arr[i++] % 256);
}
else
{
int start = (0xFFFF & arr[i + 2]);
int num = (0xFFFF & arr[i + 1]);
for (int j = start; j < (num + start); ++j)
{
buf[c++] = (byte)(j / 256);
buf[c++] = (byte)(j % 256);
}
i = i + 2;
}
}
else if (arr[i] == hbic_)
{
if (arr.length > i + 1 && arr[i + 1] == pad_)
{
buf[c++] = (byte)(arr[i] / 256);
buf[c++] = (byte)(arr[i++] % 256);
}
else
{
int hbNum = (0x0000FFFF & arr[++i]);
char firstChar = arr[++i];
char highByteMask = (char)(0xFF00 & firstChar);
buf[c++] = (byte)(firstChar / 256);
buf[c++] = (byte)(firstChar % 256);
++i;
for (int j = 0; j < hbNum; ++j)
{
char both = arr[i + j];
char c1 = (char)(highByteMask + ((0xFF00 & both) >>> 8));
char c2 = (char)(highByteMask + (0x00FF & both));
buf[c++] = (byte)(c1 / 256);
buf[c++] = (byte)(c1 % 256);
buf[c++] = (byte)(c2 / 256);
buf[c++] = (byte)(c2 % 256);
}
i = i + hbNum - 1;
}
}
else
{
// Regular character.
buf[c++] = (byte)(arr[i] / 256);
buf[c++] = (byte)(arr[i] % 256);
}
}
for (int i = c; i < buf.length; ++i)
{
buf[i] = subPad;
}
return buf;
}
// Convenience function for tracing character strings.
static final byte[] dumpCharArray(char[] charArray, int offset, int length)
{
byte[] retData = new byte[length * 2];
int inPos = offset;
int outPos = 0;
while(inPos < length)
{
retData[outPos++] = (byte)(charArray[inPos] >> 8);
retData[outPos++] = (byte)charArray[inPos++];
}
return retData;
}
static final byte[] dumpCharArray(char[] charArray, int numChars)
{
return dumpCharArray(charArray, 0, numChars);
}
static final byte[] dumpCharArray(char[] charArray)
{
return dumpCharArray(charArray, charArray.length);
}
// Returns the ccsid of this conversion object.
// @return The ccsid.
public int getCcsid()
{
return ccsid_;
}
// Returns the encoding of this conversion object.
// @return The encoding.
public String getEncoding()
{
return encoding_;
}
// Factory method for finding appropriate table based on encoding name.
public static final ConvTable getTable(String encoding) throws UnsupportedEncodingException
{
String className = (NLS.forceJavaTables_) ? encoding : prefix_ + ConversionMaps.encodingToCcsidString(encoding);
// First, see if we've already loaded the table.
ConvTable newTable = (ConvTable)converterPool_.get(className);
if (newTable != null)
{
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "Reusing previously loaded conversion table for encoding: " + encoding);
return newTable;
}
// If we haven't, then we need to load it now.
try
{
if (NLS.forceJavaTables_)
{
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "User set to force loading Java tables.");
throw new CharConversionException();
}
newTable = (ConvTable)Class.forName(className).newInstance();
}
catch (Throwable e)
{
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "Could not load conversion table class for encoding: " + encoding + ". Will attempt to let Java do the conversion.", e);
// Need to load a JavaMap.
className = encoding;
newTable = (ConvTable)converterPool_.get(className);
if (newTable != null)
{
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "Reusing previously loaded Java conversion table for encoding: " + encoding);
return newTable;
}
// It's not cached, so we can try to instantiate one.
newTable = new ConvTableJavaMap(encoding);
}
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "Successfully loaded conversion table for encoding: " + encoding);
converterPool_.put(className, newTable);
return newTable;
}
// Factory method for finding appropriate table based on ccsid number. System may be null if no system was provided.
public static final ConvTable getTable(int ccsid, AS400ImplRemote system) throws UnsupportedEncodingException
{
if (ccsid > 2000000) {
ConvTable cachedTable = ccsidPool2_[ccsid-2000000];
if (cachedTable != null) return cachedTable;
} else if (ccsid > 1000000) {
ConvTable cachedTable = ccsidPool1_[ccsid-1000000];
if (cachedTable != null) return cachedTable;
} else {
ccsid = ccsid & 0x00FFFF; // Remove sign-extended shorts that JDBC gives us.
if (ccsid <= LARGEST_CCSID) //If it's negative, too bad...
{
ConvTable cachedTable = ccsidPool_[ccsid];
if (cachedTable != null) return cachedTable;
}
}
String className = null;
if (NLS.forceJavaTables_)
{
className = ConversionMaps.ccsidToEncoding(ccsid);
if (className == null) className = "";
}
else
{
className = prefix_ + String.valueOf(ccsid);
}
// First, see if we've already loaded the table.
ConvTable newTable = (ConvTable)converterPool_.get(className);
if (newTable != null)
{
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "Reusing previously loaded conversion table for ccsid: " + ccsid);
if (ccsid > 2000000) {
ccsidPool2_[ccsid-2000000] = newTable;
} else if (ccsid > 1000000) {
ccsidPool1_[ccsid-1000000] = newTable;
} else if (ccsid <= LARGEST_CCSID) {
ccsidPool_[ccsid] = newTable;
}
return newTable;
}
// If we haven't, then we need to load it now.
try
{
if (NLS.forceJavaTables_)
{
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "User set to force loading Java tables.");
throw new CharConversionException();
}
newTable = (ConvTable)Class.forName(className).newInstance();
}
catch (Throwable e)
{
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "Could not load conversion table class for ccsid: " + ccsid + ". Will attempt to let Java do the conversion.", e);
// Need to load a JavaMap.
className = ConversionMaps.ccsidToEncoding(ccsid);
if (className == null)
{
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "Could not find an encoding that matches ccsid: " + ccsid);
UnsupportedEncodingException uee = new UnsupportedEncodingException("CCSID " + ccsid);
uee.initCause(e);
throw uee;
}
newTable = (ConvTable)converterPool_.get(className);
if (newTable != null)
{
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "Reusing previously loaded Java conversion table for ccsid: " + ccsid);
if (ccsid <= LARGEST_CCSID) ccsidPool_[ccsid] = newTable;
return newTable;
}
// It's not cached, so we can try to instantiate one.
newTable = new ConvTableJavaMap(className);
}
if (Trace.traceOn_) Trace.log(Trace.CONVERSION, "Successfully loaded conversion table for ccsid: " + ccsid);
converterPool_.put(className, newTable);
if (ccsid <= LARGEST_CCSID) ccsidPool_[ccsid] = newTable;
if(system != null) //@Bidi-HCG3
newTable.clientBidiStringType = system.getBidiStringType();//@Bidi-HCG3
return newTable;
}
// Perform a Unicode to OS/400 CCSID conversion.
public byte[] stringToByteArray(String source, int type)
{
return stringToByteArray(source, new BidiConversionProperties(type));
}
abstract byte[] stringToByteArray(String source, BidiConversionProperties properties);
// This method can be overridden by subclasses for better performance.
public byte[] stringToByteArray(String source)
{
return stringToByteArray(source, new BidiConversionProperties(bidiStringType_));
}
// Subclasses should override this to avoid creating superflous String objects and char arrays.
public byte[] stringToByteArray(char[] source, int offset, int length)
{
return stringToByteArray(new String(source, offset, length));
}
// Subclasses should override this to avoid creating superfluous byte arrays.
public void stringToByteArray(String source, byte[] buf, int offset) throws CharConversionException
{
byte[] b = stringToByteArray(source, new BidiConversionProperties(bidiStringType_));
try
{
System.arraycopy(b, 0, buf, offset, b.length);
}
catch (ArrayIndexOutOfBoundsException aioobe)
{
throw new CharConversionException();
}
}
// This method can be overridden by subclasses for better performance.
public void stringToByteArray(String source, byte[] buf, int offset, int length) throws CharConversionException
{
stringToByteArray(source, buf, offset, length, new BidiConversionProperties(bidiStringType_));
}
// Subclasses should override this to avoid creating superfluous byte arrays.
public void stringToByteArray(String source, byte[] buf, int offset, int length, int type) throws CharConversionException
{
stringToByteArray(source, buf, offset, length, new BidiConversionProperties(type));
}
/**
* Place the string into the specified buffer, beginning at offset for length.
* This returns the number of bytes that did not fit (i.e. number of bytes truncated).
* @param source String to convert
* @param buf output buffer
* @param offset offset in buffer to put information
* @param length maximum number of bytes to add to the buffer
* @param properties BidiConversionProperties
* @return number of bytes that were truncated
* @throws CharConversionException If a character conversion error occurs.
*/
public int stringToByteArray(String source, byte[] buf, int offset, int length, BidiConversionProperties properties) throws CharConversionException
{
int truncated = 0; //@trnc
byte[] b = stringToByteArray(source, properties);
// This detects if truncation did not occur. If equal
// we should go down this path.
if (length >= b.length)
length = b.length;
else if (length < stringToByteArray(source.trim(), properties).length){ //@trnc
truncated = b.length - length; //@trnc
}
try
{
System.arraycopy(b, 0, buf, offset, length);
return truncated; //@trnc
}
catch (ArrayIndexOutOfBoundsException aioobe)
{
Trace.log(Trace.CONVERSION, "Source length: " + b.length + "; Source offset: 0; Destination length: " + buf.length + "; Destination offset: " + offset + "; Number of bytes to copy: " + length, aioobe);
throw new CharConversionException();
}
}
// By default validation is not needed, so existing data should be valid @X4A
public int validateData( byte[] buf, int offset, int length) {
return length;
}
// @H2A
/**
* Determine if a CCSID is a mixed CCSID.
* Being mixed means that 1 unicode character may translate into 1 or many bytes.
* @param ccsid CCSID to be tested
* @return true if the CCSID is a mixed CCSID, otherwise returns false.
*/
public static boolean isMixedCCSID(int ccsid) {
switch (ccsid) {
// This set of mixed/open CCSID was found at..
// http://publib.boulder.ibm.com/infocenter/iseries/v7r1m0/index.jsp?topic=%2Fdb2%2Frbafzsidvals.htm
// See Mixed CCSIDs for EBCDIC Group 2 (DBCS) Countries or Regions
case 930:
case 933:
case 935:
case 936:
case 937:
case 938:
case 939:
case 1208:
case 1364:
case 1371:
case 1377:
case 1379:
case 1388:
case 1390:
case 1399:
case 5026:
case 5035:
case 5473: /* old 1377 */
case 13676: /* old 1388 */
return true;
}
return false;
}
}