/*
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* 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.
*
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package sun.nio.cs.ext;
import java.nio.ByteBuffer;
import java.nio.CharBuffer;
import java.nio.charset.Charset;
import java.nio.charset.CharsetDecoder;
import java.nio.charset.CharsetEncoder;
import java.nio.charset.CoderResult;
import sun.nio.cs.HistoricallyNamedCharset;
import sun.nio.cs.Surrogate;
public class EUC_JP_LINUX
extends Charset
implements HistoricallyNamedCharset
{
public EUC_JP_LINUX() {
super("x-euc-jp-linux", ExtendedCharsets.aliasesFor("x-euc-jp-linux"));
}
public String historicalName() {
return "EUC_JP_LINUX";
}
public boolean contains(Charset cs) {
return ((cs instanceof JIS_X_0201)
|| (cs.name().equals("US-ASCII"))
|| (cs instanceof EUC_JP_LINUX));
}
public CharsetDecoder newDecoder() {
return new Decoder(this);
}
public CharsetEncoder newEncoder() {
return new Encoder(this);
}
private static class Decoder extends CharsetDecoder {
JIS_X_0201.Decoder decoderJ0201;
JIS_X_0208_Decoder decodeMappingJ0208;
protected final char REPLACE_CHAR='\uFFFD';
short[] jis0208Index1;
String[] jis0208Index2;
private Decoder(Charset cs) {
super(cs, 1.0f, 1.0f);
decoderJ0201 = new JIS_X_0201.Decoder(cs);
decodeMappingJ0208 = new JIS_X_0208_Decoder(cs);
decodeMappingJ0208.start = 0xa1;
decodeMappingJ0208.end = 0xfe;
jis0208Index1 = decodeMappingJ0208.getIndex1();
jis0208Index2 = decodeMappingJ0208.getIndex2();
}
protected char convSingleByte(int b) {
if (b < 0 || b > 0x7f)
return REPLACE_CHAR;
return decoderJ0201.decode(b);
}
protected char decodeDouble(int byte1, int byte2) {
if (byte1 == 0x8e) {
return decoderJ0201.decode(byte2 - 256);
}
if (((byte1 < 0) || (byte1 > jis0208Index1.length))
|| ((byte2 < decodeMappingJ0208.start) || (byte2 > decodeMappingJ0208.end)))
return REPLACE_CHAR;
int n = (jis0208Index1[byte1 - 0x80] & 0xf) * (decodeMappingJ0208.end - decodeMappingJ0208.start + 1)
+ (byte2 - decodeMappingJ0208.start);
return jis0208Index2[jis0208Index1[byte1 - 0x80] >> 4].charAt(n);
}
private CoderResult decodeArrayLoop(ByteBuffer src,
CharBuffer dst)
{
byte[] sa = src.array();
int sp = src.arrayOffset() + src.position();
int sl = src.arrayOffset() + src.limit();
assert (sp <= sl);
sp = (sp <= sl ? sp : sl);
char[] da = dst.array();
int dp = dst.arrayOffset() + dst.position();
int dl = dst.arrayOffset() + dst.limit();
assert (dp <= dl);
dp = (dp <= dl ? dp : dl);
int b1 = 0, b2 = 0;
int inputSize = 0;
char outputChar = REPLACE_CHAR; // U+FFFD;
try {
while (sp < sl) {
b1 = sa[sp] & 0xff;
inputSize = 1;
if ((b1 & 0x80) == 0) {
outputChar = (char)b1;
}
else { // Multibyte char
if ((b1 & 0xff) == 0x8f) { // JIS0212
if (sp + 3 > sl)
return CoderResult.UNDERFLOW;
inputSize = 3;
return CoderResult.unmappableForLength(inputSize); // substitute
} else {
// JIS0208
if (sp + 2 > sl)
return CoderResult.UNDERFLOW;
b2 = sa[sp + 1] & 0xff;
inputSize = 2;
outputChar = decodeDouble(b1, b2);
}
}
if (outputChar == REPLACE_CHAR) { // can't be decoded
return CoderResult.unmappableForLength(inputSize);
}
if (dp + 1 > dl)
return CoderResult.OVERFLOW;
da[dp++] = outputChar;
sp += inputSize;
}
return CoderResult.UNDERFLOW;
} finally {
src.position(sp - src.arrayOffset());
dst.position(dp - dst.arrayOffset());
}
}
private CoderResult decodeBufferLoop(ByteBuffer src,
CharBuffer dst)
{
int mark = src.position();
char outputChar = REPLACE_CHAR; // U+FFFD;
try {
while (src.hasRemaining()) {
int b1 = src.get() & 0xff;
int inputSize = 1;
if ((b1 & 0x80) == 0) {
outputChar = (char)b1;
} else { // Multibyte char
if ((b1 & 0xff) == 0x8f) { // JIS0212 not supported
if (src.remaining() < 2)
return CoderResult.UNDERFLOW;
return CoderResult.unmappableForLength(3);
} else {
// JIS0208
if (src.remaining() < 1)
return CoderResult.UNDERFLOW;
int b2 = src.get() & 0xff;
inputSize++;
outputChar = decodeDouble(b1, b2);
}
}
if (outputChar == REPLACE_CHAR)
return CoderResult.unmappableForLength(inputSize);
if (dst.remaining() < 1)
return CoderResult.OVERFLOW;
dst.put(outputChar);
mark += inputSize;
}
return CoderResult.UNDERFLOW;
} finally {
src.position(mark);
}
}
protected CoderResult decodeLoop(ByteBuffer src,
CharBuffer dst)
{
if (src.hasArray() && dst.hasArray())
return decodeArrayLoop(src, dst);
else
return decodeBufferLoop(src, dst);
}
}
private static class Encoder extends CharsetEncoder {
JIS_X_0201.Encoder encoderJ0201;
JIS_X_0208_Encoder encoderJ0208;
private final Surrogate.Parser sgp = new Surrogate.Parser();
short[] jis0208Index1;
String[] jis0208Index2;
private Encoder(Charset cs) {
super(cs, 2.0f, 2.0f);
encoderJ0201 = new JIS_X_0201.Encoder(cs);
encoderJ0208 = new JIS_X_0208_Encoder(cs);
jis0208Index1 = encoderJ0208.getIndex1();
jis0208Index2 = encoderJ0208.getIndex2();
}
public boolean canEncode(char c) {
byte[] encodedBytes = new byte[2];
if (encodeSingle(c, encodedBytes) == 0) { //doublebyte
if (encodeDouble(c) == 0)
return false;
}
return true;
}
protected int encodeSingle(char inputChar, byte[] outputByte) {
byte b;
if (inputChar == 0) {
outputByte[0] = (byte)0;
return 1;
}
if ((b = encoderJ0201.encode(inputChar)) == 0)
return 0;
if (b > 0 && b < 128) {
outputByte[0] = b;
return 1;
}
outputByte[0] = (byte)0x8e;
outputByte[1] = b;
return 2;
}
protected int encodeDouble(char ch) {
int offset = jis0208Index1[((ch & 0xff00) >> 8 )] << 8;
int r = jis0208Index2[offset >> 12].charAt((offset & 0xfff) + (ch & 0xff));
if (r != 0)
return r + 0x8080;
return r;
}
private CoderResult encodeArrayLoop(CharBuffer src,
ByteBuffer dst)
{
char[] sa = src.array();
int sp = src.arrayOffset() + src.position();
int sl = src.arrayOffset() + src.limit();
assert (sp <= sl);
sp = (sp <= sl ? sp : sl);
byte[] da = dst.array();
int dp = dst.arrayOffset() + dst.position();
int dl = dst.arrayOffset() + dst.limit();
assert (dp <= dl);
dp = (dp <= dl ? dp : dl);
final byte[] outputByte = new byte[2];
try {
while (sp < sl) {
char c = sa[sp];
if (Surrogate.is(c)) {
if (sgp.parse(c, sa, sp, sl) < 0)
return sgp.error();
return sgp.unmappableResult();
}
int outputSize = encodeSingle(c, outputByte);
if (outputSize == 0) { // DoubleByte
int ncode = encodeDouble(c);
if (ncode != 0 && ((ncode & 0xFF0000) == 0)) {
outputByte[0] = (byte) ((ncode & 0xff00) >> 8);
outputByte[1] = (byte) (ncode & 0xff);
outputSize = 2;
} else {
return CoderResult.unmappableForLength(1);
}
}
if (dl - dp < outputSize)
return CoderResult.OVERFLOW;
// Put the byte in the output buffer
for (int i = 0; i < outputSize; i++) {
da[dp++] = outputByte[i];
}
sp++;
}
return CoderResult.UNDERFLOW;
} finally {
src.position(sp - src.arrayOffset());
dst.position(dp - dst.arrayOffset());
}
}
private CoderResult encodeBufferLoop(CharBuffer src,
ByteBuffer dst)
{
final byte[] outputByte = new byte[4];
int mark = src.position();
try {
while (src.hasRemaining()) {
char c = src.get();
if (Surrogate.is(c)) {
if (sgp.parse(c, src) < 0)
return sgp.error();
return sgp.unmappableResult();
}
int outputSize = encodeSingle(c, outputByte);
if (outputSize == 0) { // DoubleByte
int ncode = encodeDouble(c);
if (ncode != 0 ) {
if ((ncode & 0xFF0000) == 0) {
outputByte[0] = (byte) ((ncode & 0xff00) >> 8);
outputByte[1] = (byte) (ncode & 0xff);
outputSize = 2;
}
} else {
return CoderResult.unmappableForLength(1);
}
}
if (dst.remaining() < outputSize)
return CoderResult.OVERFLOW;
// Put the byte in the output buffer
for (int i = 0; i < outputSize; i++) {
dst.put(outputByte[i]);
}
mark++;
}
return CoderResult.UNDERFLOW;
} finally {
src.position(mark);
}
}
protected CoderResult encodeLoop(CharBuffer src,
ByteBuffer dst)
{
if (src.hasArray() && dst.hasArray())
return encodeArrayLoop(src, dst);
else
return encodeBufferLoop(src, dst);
}
}
}