protected override java.nio.charset.CoderResult decodeLoop(java.nio.ByteBuffer inJ, java.nio.CharBuffer outJ)
{
Encoding enc = this.cs.getEncoding();
byte[] input = new byte[inJ.remaining()];
inJ.get(input);
char[] output = new char[input.Length * CharsetEncoderImpl.fiveValue];
int size = enc.GetDecoder().GetChars(input, 0, input.Length, output, 0, true);
outJ.put(output, 0, size);
return(java.nio.charset.CoderResult.UNDERFLOW);
}
/**
* @see
* org.apache.commons.compress.archivers.zip.ZipEncoding#encode(java.lang.String)
*/
public java.nio.ByteBuffer encode(String name)
{
java.nio.charset.CharsetEncoder enc = this.charset.newEncoder();
enc.onMalformedInput(java.nio.charset.CodingErrorAction.REPORT);
enc.onUnmappableCharacter(java.nio.charset.CodingErrorAction.REPORT);
java.nio.CharBuffer cb = java.nio.CharBuffer.wrap(name);
java.nio.ByteBuffer outJ = java.nio.ByteBuffer.allocate(name.length()
+ (name.length() + 1) / 2);
while (cb.remaining() > 0)
{
java.nio.charset.CoderResult res = enc.encode(cb, outJ, true);
if (res.isUnmappable() || res.isMalformed())
{
// write the unmappable characters in utf-16
// pseudo-URL encoding style to ByteBuffer.
if (res.length() * 6 > outJ.remaining())
{
outJ = ZipEncodingHelper.growBuffer(outJ, outJ.position()
+ res.length() * 6);
}
for (int i = 0; i < res.length(); ++i)
{
ZipEncodingHelper.appendSurrogate(outJ, cb.get());
}
}
else if (res.isOverflow())
{
outJ = ZipEncodingHelper.growBuffer(outJ, 0);
}
else if (res.isUnderflow())
{
enc.flush(outJ);
break;
}
}
outJ.limit(outJ.position());
outJ.rewind();
return(outJ);
}
/*
* This is a facade method for the decoding operation.
* <p>
* This method decodes the remaining byte sequence of the given byte buffer
* into a new character buffer. This method performs a complete decoding
* operation, resets at first, then decodes, and flushes at last.
* <p>
* This method should not be invoked while another {@code decode} operation
* is ongoing.
*
* @param in
* the input buffer.
* @return a new <code>CharBuffer</code> containing the the characters
* produced by this decoding operation. The buffer's limit will be
* the position of the last character in the buffer, and the
* position will be zero.
* @throws IllegalStateException
* if another decoding operation is ongoing.
* @throws MalformedInputException
* if an illegal input byte sequence for this charset was
* encountered, and the action for malformed error is
* {@link CodingErrorAction#REPORT CodingErrorAction.REPORT}
* @throws UnmappableCharacterException
* if a legal but unmappable input byte sequence for this
* charset was encountered, and the action for unmappable
* character error is
* {@link CodingErrorAction#REPORT CodingErrorAction.REPORT}.
* Unmappable means the byte sequence at the input buffer's
* current position cannot be mapped to a Unicode character
* sequence.
* @throws CharacterCodingException
* if another exception happened during the decode operation.
*/
public java.nio.CharBuffer decode(java.nio.ByteBuffer inJ) //throws CharacterCodingException
{
reset();
int length = (int)(inJ.remaining() * averChars);
java.nio.CharBuffer output = java.nio.CharBuffer.allocate(length);
CoderResult result = null;
while (true)
{
result = decode(inJ, output, false);
checkCoderResult(result);
if (result.isUnderflow())
{
break;
}
else if (result.isOverflow())
{
output = allocateMore(output);
}
}
result = decode(inJ, output, true);
checkCoderResult(result);
while (true)
{
result = flush(output);
checkCoderResult(result);
if (result.isOverflow())
{
output = allocateMore(output);
}
else
{
break;
}
}
output.flip();
status = FLUSH;
return(output);
}
/**
* @see
* org.apache.commons.compress.archivers.zip.ZipEncoding#encode(java.lang.String)
*/
public java.nio.ByteBuffer encode(String name)
{
java.nio.ByteBuffer outJ = java.nio.ByteBuffer.allocate(name.length()
+ 6 + (name.length() + 1) / 2);
for (int i = 0; i < name.length(); ++i)
{
char c = name.charAt(i);
if (outJ.remaining() < 6)
{
outJ = ZipEncodingHelper.growBuffer(outJ, outJ.position() + 6);
}
if (!this.pushEncodedChar(outJ, c))
{
ZipEncodingHelper.appendSurrogate(outJ, c);
}
}
outJ.limit(outJ.position());
outJ.rewind();
return(outJ);
}
/*
* Encodes characters starting at the current position of the given input
* buffer, and writes the equivalent byte sequence into the given output
* buffer from its current position.
* <p />
* The buffers' position will be changed with the reading and writing
* operation, but their limits and marks will be kept intact.
* <p />
* A <code>CoderResult</code> instance will be returned according to
* following rules:
* <ul>
* <li>A {@link CoderResult#malformedForLength(int) malformed input} result
* indicates that some malformed input error was encountered, and the
* erroneous characters start at the input buffer's position and their
* number can be got by result's {@link CoderResult#length() length}. This
* kind of result can be returned only if the malformed action is
* {@link CodingErrorAction#REPORT CodingErrorAction.REPORT}.</li>
* <li>{@link CoderResult#UNDERFLOW CoderResult.UNDERFLOW} indicates that
* as many characters as possible in the input buffer have been encoded. If
* there is no further input and no characters left in the input buffer then
* this task is complete. If this is not the case then the client should
* call this method again supplying some more input characters.</li>
* <li>{@link CoderResult#OVERFLOW CoderResult.OVERFLOW} indicates that the
* output buffer has been filled, while there are still some characters
* remaining in the input buffer. This method should be invoked again with a
* non-full output buffer.</li>
* <li>A {@link CoderResult#unmappableForLength(int) unmappable character}
* result indicates that some unmappable character error was encountered,
* and the erroneous characters start at the input buffer's position and
* their number can be got by result's {@link CoderResult#length() length}.
* This kind of result can be returned only on
* {@link CodingErrorAction#REPORT CodingErrorAction.REPORT}.</li>
* </ul>
* <p />
* The <code>endOfInput</code> parameter indicates if the invoker can
* provider further input. This parameter is true if and only if the
* characters in the current input buffer are all inputs for this encoding
* operation. Note that it is common and won't cause an error if the invoker
* sets false and then has no more input available, while it may cause an
* error if the invoker always sets true in several consecutive invocations.
* This would make the remaining input to be treated as malformed input.
* input.
* <p />
* This method invokes the
* {@link #encodeLoop(CharBuffer, ByteBuffer) encodeLoop} method to
* implement the basic encode logic for a specific charset.
*
* @param in
* the input buffer.
* @param out
* the output buffer.
* @param endOfInput
* true if all the input characters have been provided.
* @return a <code>CoderResult</code> instance indicating the result.
* @throws IllegalStateException
* if the encoding operation has already started or no more
* input is needed in this encoding process.
* @throws CoderMalfunctionError
* If the {@link #encodeLoop(CharBuffer, ByteBuffer) encodeLoop}
* method threw an <code>BufferUnderflowException</code> or
* <code>BufferUnderflowException</code>.
*/
public CoderResult encode(java.nio.CharBuffer inJ, java.nio.ByteBuffer outJ, bool endOfInput)
{
//If the previous step is encode(CharBuffer), then no more input is needed
// thus endOfInput should not be false
if (status == READY && finished && !endOfInput)
{
throw new java.lang.IllegalStateException();
}
if ((status == FLUSH) || (!endOfInput && status == END))
{
throw new java.lang.IllegalStateException();
}
CoderResult result;
while (true)
{
try {
result = encodeLoop(inJ, outJ);
} catch (BufferOverflowException e) {
throw new CoderMalfunctionError(e);
} catch (BufferUnderflowException e) {
throw new CoderMalfunctionError(e);
}
if (result == CoderResult.UNDERFLOW)
{
status = endOfInput ? END : ONGOING;
if (endOfInput)
{
int remaining = inJ.remaining();
if (remaining > 0)
{
result = CoderResult.malformedForLength(remaining);
}
else
{
return(result);
}
}
else
{
return(result);
}
}
else if (result == CoderResult.OVERFLOW)
{
status = endOfInput ? END : ONGOING;
return(result);
}
CodingErrorAction action = malformAction;
if (result.isUnmappable())
{
action = unmapAction;
}
// If the action is IGNORE or REPLACE, we should continue
// encoding.
if (action == CodingErrorAction.REPLACE)
{
if (outJ.remaining() < replace.Length)
{
return(CoderResult.OVERFLOW);
}
outJ.put(replace);
}
else
{
if (action != CodingErrorAction.IGNORE)
{
return(result);
}
}
inJ.position(inJ.position() + result.length());
}
}
