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package com.sun.grizzly.util.buf;
import com.sun.grizzly.util.LoggerUtils;
import com.sun.grizzly.util.Utils;
import java.io.IOException;
import java.util.logging.Level;
import java.util.logging.Logger;
import java.nio.ByteBuffer;
import java.nio.CharBuffer;
import java.nio.charset.Charset;
import java.nio.charset.CoderResult;
import java.nio.charset.CharsetDecoder;
import java.nio.charset.CodingErrorAction;
/** Efficient conversion of bytes to character .
*
* Now uses NIO directly
*/
public class B2CConverter {
/**
* Default Logger.
*/
private static final boolean IS_OLD_IO_MODE = Boolean.getBoolean(B2CConverter.class.getName() + ".blockingMode");
private static final Logger logger = LoggerUtils.getLogger();
private static final int MAX_NUMBER_OF_BYTES_PER_CHARACTER = 16;
private Charset charset;
private CharsetDecoder decoder;
private final ByteBuffer remainder = ByteBuffer.allocate(MAX_NUMBER_OF_BYTES_PER_CHARACTER);
// Support old blocking converter
private B2CConverterBlocking blockingConverter;
protected B2CConverter() {
init("US_ASCII");
}
/** Create a converter, with bytes going to a byte buffer
*/
public B2CConverter(String encoding) throws IOException {
init(encoding);
}
protected void init(String encoding) {
if (IS_OLD_IO_MODE) {
try {
blockingConverter = new B2CConverterBlocking(encoding);
} catch (IOException e) {
throw new IllegalStateException("Can not initialize blocking converter");
}
} else {
charset = Utils.lookupCharset(encoding);
decoder = charset.newDecoder().
onMalformedInput(CodingErrorAction.REPLACE).
onUnmappableCharacter(CodingErrorAction.REPLACE);
}
}
/** Reset the internal state, empty the buffers.
* The encoding remain in effect, the internal buffers remain allocated.
*/
public void recycle() {
if (IS_OLD_IO_MODE) {
blockingConverter.recycle();
}
}
/** Convert a buffer of bytes into a chars
* @deprecated
*/
public void convert(ByteChunk bb, CharChunk cb)
throws IOException {
convert(bb, cb, cb.getBuffer().length - cb.getEnd());
}
public void convert(ByteChunk bb, CharChunk cb, int limit)
throws IOException {
if (IS_OLD_IO_MODE) {
blockingConverter.convert(bb, cb, limit);
return;
}
try {
final int bbAvailable = bb.getEnd() - bb.getStart();
if (limit > bbAvailable) {
limit = bbAvailable;
}
byte[] barr = bb.getBuffer();
int boff = bb.getOffset();
ByteBuffer tmp_bb = ByteBuffer.wrap(barr, boff, limit);
char[] carr = cb.getBuffer();
int coff = cb.getEnd();
final int remain = carr.length - coff;
final int cbLimit = cb.getLimit();
if (remain < limit && (cbLimit < 0 || cbLimit > carr.length)) {
cb.makeSpace(limit);
carr = cb.getBuffer();
coff = cb.getEnd();
}
CharBuffer tmp_cb = CharBuffer.wrap(carr, coff, carr.length - coff);
if (remainder.position() > 0) {
flushRemainder(tmp_bb, tmp_cb);
}
CoderResult cr = decoder.decode(tmp_bb, tmp_cb, false);
cb.setEnd(tmp_cb.position());
while (cr == CoderResult.OVERFLOW) {
cb.flushBuffer();
coff = cb.getEnd();
carr = cb.getBuffer();
tmp_cb = CharBuffer.wrap(carr, coff, carr.length - coff);
cr = decoder.decode(tmp_bb, tmp_cb, false);
cb.setEnd(tmp_cb.position());
}
bb.setOffset(tmp_bb.position());
if (tmp_bb.hasRemaining()) {
remainder.put(tmp_bb);
}
if (cr != CoderResult.UNDERFLOW) {
throw new IOException("Encoding error");
}
} catch (IOException ex) {
if (debug > 0) {
log("B2CConverter " + ex.toString());
}
decoder.reset();
throw ex;
}
}
// START CR 6309511
/**
* Character conversion of a US-ASCII MessageBytes.
*/
public static void convertASCII(MessageBytes mb) {
if (IS_OLD_IO_MODE) {
B2CConverterBlocking.convertASCII(mb);
return;
}
// This is of course only meaningful for bytes
if (mb.getType() != MessageBytes.T_BYTES) {
return;
}
ByteChunk bc = mb.getByteChunk();
CharChunk cc = mb.getCharChunk();
int length = bc.getLength();
cc.allocate(length, -1);
// Default encoding: fast conversion
byte[] bbuf = bc.getBuffer();
char[] cbuf = cc.getBuffer();
int start = bc.getStart();
for (int i = 0; i < length; i++) {
cbuf[i] = (char) (bbuf[i + start] & 0xff);
}
mb.setChars(cbuf, 0, length);
}
// END CR 6309511
public void reset() throws IOException {
if (IS_OLD_IO_MODE) {
blockingConverter.reset();
return;
}
if (decoder != null) {
decoder.reset();
remainder.clear();
}
}
private final int debug = 0;
void log(String s) {
if (logger.isLoggable(Level.FINEST)) {
logger.log(Level.FINEST, "B2CConverter: " + s);
}
}
private void flushRemainder(ByteBuffer tmp_bb, CharBuffer tmp_cb) {
while(remainder.position() > 0 && tmp_bb.hasRemaining()) {
remainder.put(tmp_bb.get());
remainder.flip();
CoderResult cr = decoder.decode(remainder, tmp_cb, false);
if (cr == CoderResult.OVERFLOW) {
// Shouldn't happen, because we allocated required output buffer before
throw new IllegalStateException("CharChunk is not big enough");
}
if (!remainder.hasRemaining()) {
remainder.clear();
break;
}
remainder.compact();
}
}
}