Datasets:

lambdasec
/

cve-single-line-fixes

	package com.fasterxml.jackson.dataformat.cbor;

	import java.util.Arrays;
	import java.io.*;
	import java.math.BigDecimal;
	import java.math.BigInteger;

	import com.fasterxml.jackson.core.*;
	import com.fasterxml.jackson.core.base.GeneratorBase;
	import com.fasterxml.jackson.core.io.IOContext;
	import com.fasterxml.jackson.core.json.DupDetector;

	import static com.fasterxml.jackson.dataformat.cbor.CBORConstants.*;

	/**
	* {@link JsonGenerator} implementation that writes CBOR encoded content.
	*
	* @author Tatu Saloranta
	*/
	public class CBORGenerator extends GeneratorBase
	{
	private final static int[] NO_INTS = new int[0];

	/**
	* Let's ensure that we have big enough output buffer because of safety
	* margins we need for UTF-8 encoding.
	*/
	final static int BYTE_BUFFER_FOR_OUTPUT = 16000;

	/**
	* Longest char chunk we will output is chosen so that it is guaranteed to
	* fit in an empty buffer even if everything encoded in 3-byte sequences;
	* but also fit two full chunks in case of single-byte (ascii) output.
	*/
	private final static int MAX_LONG_STRING_CHARS = (BYTE_BUFFER_FOR_OUTPUT / 4) - 4;

	/**
	* This is the worst case length (in bytes) of maximum chunk we ever write.
	*/
	private final static int MAX_LONG_STRING_BYTES = (MAX_LONG_STRING_CHARS * 3) + 3;

	/**
	* Enumeration that defines all togglable features for CBOR generator.
	*/
	public enum Feature implements FormatFeature {
	/**
	* Feature that determines whether generator should try to use smallest
	* (size-wise) integer representation: if true, will use smallest
	* representation that is enough to retain value; if false, will use
	* length indicated by argument type (4-byte for <code>int</code>,
	* 8-byte for <code>long</code> and so on).
	*/
	WRITE_MINIMAL_INTS(true),

	/**
	* Feature that determines whether CBOR "Self-Describe Tag" (value
	* 55799, encoded as 3-byte sequence of <code>0xD9, 0xD9, 0xF7</code>)
	* should be written at the beginning of document or not.
	* <p>
	* Default value is <code>false</code> meaning that type tag will not be
	* written at the beginning of a new document.
	*
	* @since 2.5
	*/
	WRITE_TYPE_HEADER(false), ;

	protected final boolean _defaultState;
	protected final int _mask;

	/**
	* Method that calculates bit set (flags) of all features that are
	* enabled by default.
	*/
	public static int collectDefaults() {
	int flags = 0;
	for (Feature f : values()) {
	if (f.enabledByDefault()) {
	flags \|= f.getMask();
	}
	}
	return flags;
	}

	private Feature(boolean defaultState) {
	_defaultState = defaultState;
	_mask = (1 << ordinal());
	}

	@Override
	public boolean enabledByDefault() {
	return _defaultState;
	}

	@Override
	public boolean enabledIn(int flags) {
	return (flags & getMask()) != 0;
	}

	@Override
	public int getMask() {
	return _mask;
	}
	}

	/**
	* To simplify certain operations, we require output buffer length to allow
	* outputting of contiguous 256 character UTF-8 encoded String value. Length
	* of the longest UTF-8 code point (from Java char) is 3 bytes, and we need
	* both initial token byte and single-byte end marker so we get following
	* value.
	* <p>
	* Note: actually we could live with shorter one; absolute minimum would be
	* for encoding 64-character Strings.
	*/
	private final static int MIN_BUFFER_LENGTH = (3 * 256) + 2;

	/**
	* Special value that is use to keep tracks of arrays and maps opened with infinite length
	*/
	private final static int INDEFINITE_LENGTH = -2; // just to allow -1 as marker for "one too many"

	/*
	/**********************************************************
	/* Configuration
	/**********************************************************
	*/

	final protected IOContext _ioContext;

	final protected OutputStream _out;

	/**
	* Bit flag composed of bits that indicate which
	* {@link CBORGenerator.Feature}s are enabled.
	*/
	protected int _formatFeatures;

	protected boolean _cfgMinimalInts;

	/*
	/**********************************************************
	/* Output state
	/**********************************************************
	*/

	/**
	* @since 2.10
	*/
	protected CBORWriteContext _cborContext;

	/*
	/**********************************************************
	/* Output buffering
	/**********************************************************
	*/

	/**
	* Intermediate buffer in which contents are buffered before being written
	* using {@link #_out}.
	*/
	protected byte[] _outputBuffer;

	/**
	* Pointer to the next available byte in {@link #_outputBuffer}
	*/
	protected int _outputTail = 0;

	/**
	* Offset to index after the last valid index in {@link #_outputBuffer}.
	* Typically same as length of the buffer.
	*/
	protected final int _outputEnd;

	/**
	* Intermediate buffer in which characters of a String are copied before
	* being encoded.
	*/
	protected char[] _charBuffer;

	protected final int _charBufferLength;

	/**
	* Let's keep track of how many bytes have been output, may prove useful
	* when debugging. This does <b>not</b> include bytes buffered in the output
	* buffer, just bytes that have been written using underlying stream writer.
	*/
	protected int _bytesWritten;

	/*
	/**********************************************************
	/* Tracking of remaining elements to write
	/**********************************************************
	*/

	protected int[] _elementCounts = NO_INTS;

	protected int _elementCountsPtr;

	/**
	* Number of elements remaining in the current complex structure (if any),
	// BUG: CWE-770 Allocation of Resources Without Limits or Throttling
	// * when writing defined-length Arrays, Objects; marker {@link #INDEFINITE_LENGTH}
	// FIXED:
	* when writing defined-length Arrays, Objects; marker {code INDEFINITE_LENGTH}
	* otherwise.
	*/
	protected int _currentRemainingElements = INDEFINITE_LENGTH;

	/*
	/**********************************************************
	/* Shared String detection
	/**********************************************************
	*/

	/**
	* Flag that indicates whether the output buffer is recycable (and needs to
	* be returned to recycler once we are done) or not.
	*/
	protected boolean _bufferRecyclable;

	/*
	/**********************************************************
	/* Life-cycle
	/**********************************************************
	*/

	public CBORGenerator(IOContext ctxt, int stdFeatures, int formatFeatures,
	ObjectCodec codec, OutputStream out) {
	super(stdFeatures, codec, /* Write Context */ null);
	DupDetector dups = JsonGenerator.Feature.STRICT_DUPLICATE_DETECTION.enabledIn(stdFeatures)
	? DupDetector.rootDetector(this)
	: null;
	// NOTE: we passed `null` for default write context
	_cborContext = CBORWriteContext.createRootContext(dups);
	_formatFeatures = formatFeatures;
	_cfgMinimalInts = Feature.WRITE_MINIMAL_INTS.enabledIn(formatFeatures);
	_ioContext = ctxt;
	_out = out;
	_bufferRecyclable = true;
	_outputBuffer = ctxt.allocWriteEncodingBuffer(BYTE_BUFFER_FOR_OUTPUT);
	_outputEnd = _outputBuffer.length;
	_charBuffer = ctxt.allocConcatBuffer();
	_charBufferLength = _charBuffer.length;
	// let's just sanity check to prevent nasty odd errors
	if (_outputEnd < MIN_BUFFER_LENGTH) {
	throw new IllegalStateException("Internal encoding buffer length ("
	+ _outputEnd + ") too short, must be at least "
	+ MIN_BUFFER_LENGTH);
	}
	}

	/**
	* Alternative constructor that may be used to feed partially initialized content.
	*
	* @param outputBuffer
	* Buffer to use for output before flushing to the underlying stream
	* @param offset
	* Offset pointing past already buffered content; that is, number
	* of bytes of valid content to output, within buffer.
	*/
	public CBORGenerator(IOContext ctxt, int stdFeatures, int formatFeatures,
	ObjectCodec codec, OutputStream out, byte[] outputBuffer,
	int offset, boolean bufferRecyclable) {
	super(stdFeatures, codec, /* Write Context */ null);
	DupDetector dups = JsonGenerator.Feature.STRICT_DUPLICATE_DETECTION.enabledIn(stdFeatures)
	? DupDetector.rootDetector(this)
	: null;
	// NOTE: we passed `null` for default write context
	_cborContext = CBORWriteContext.createRootContext(dups);
	_formatFeatures = formatFeatures;
	_cfgMinimalInts = Feature.WRITE_MINIMAL_INTS.enabledIn(formatFeatures);
	_ioContext = ctxt;
	_out = out;
	_bufferRecyclable = bufferRecyclable;
	_outputTail = offset;
	_outputBuffer = outputBuffer;
	_outputEnd = _outputBuffer.length;
	_charBuffer = ctxt.allocConcatBuffer();
	_charBufferLength = _charBuffer.length;
	// let's just sanity check to prevent nasty odd errors
	if (_outputEnd < MIN_BUFFER_LENGTH) {
	throw new IllegalStateException("Internal encoding buffer length ("
	+ _outputEnd + ") too short, must be at least "
	+ MIN_BUFFER_LENGTH);
	}
	}

	/*
	/**********************************************************
	/* Versioned
	/**********************************************************
	*/

	@Override
	public Version version() {
	return PackageVersion.VERSION;
	}

	/*
	/**********************************************************
	/* Capability introspection
	/**********************************************************
	*/

	@Override
	public boolean canWriteBinaryNatively() {
	return true;
	}

	/*
	/**********************************************************
	/* Overridden methods, configuration
	/**********************************************************
	*/

	/**
	* No way (or need) to indent anything, so let's block any attempts. (should
	* we throw an exception instead?)
	*/
	@Override
	public JsonGenerator useDefaultPrettyPrinter() {
	return this;
	}

	/**
	* No way (or need) to indent anything, so let's block any attempts. (should
	* we throw an exception instead?)
	*/
	@Override
	public JsonGenerator setPrettyPrinter(PrettyPrinter pp) {
	return this;
	}

	@Override
	public Object getOutputTarget() {
	return _out;
	}

	@Override
	public int getOutputBuffered() {
	return _outputTail;
	}

	// public JsonParser overrideStdFeatures(int values, int mask)

	@Override
	public int getFormatFeatures() {
	return _formatFeatures;
	}

	@Override
	public JsonGenerator overrideStdFeatures(int values, int mask) {
	int oldState = _features;
	int newState = (oldState & ~mask) \| (values & mask);
	if (oldState != newState) {
	_features = newState;
	}
	return this;
	}

	@Override
	public JsonGenerator overrideFormatFeatures(int values, int mask) {
	int oldState = _formatFeatures;
	int newState = (_formatFeatures & ~mask) \| (values & mask);
	if (oldState != newState) {
	_formatFeatures = newState;
	_cfgMinimalInts = Feature.WRITE_MINIMAL_INTS.enabledIn(newState);
	}
	return this;
	}

	/*
	/**********************************************************
	/* Overridden methods, output context (and related)
	/**********************************************************
	*/

	@Override
	public Object getCurrentValue() {
	return _cborContext.getCurrentValue();
	}

	@Override
	public void setCurrentValue(Object v) {
	_cborContext.setCurrentValue(v);
	}

	@Override
	public JsonStreamContext getOutputContext() {
	return _cborContext;
	}

	/*
	/**********************************************************
	/* Extended API, configuration
	/**********************************************************
	*/

	public CBORGenerator enable(Feature f) {
	_formatFeatures \|= f.getMask();
	if (f == Feature.WRITE_MINIMAL_INTS) {
	_cfgMinimalInts = true;
	}
	return this;
	}

	public CBORGenerator disable(Feature f) {
	_formatFeatures &= ~f.getMask();
	if (f == Feature.WRITE_MINIMAL_INTS) {
	_cfgMinimalInts = false;
	}
	return this;
	}

	public final boolean isEnabled(Feature f) {
	return (_formatFeatures & f.getMask()) != 0;
	}

	public CBORGenerator configure(Feature f, boolean state) {
	if (state) {
	enable(f);
	} else {
	disable(f);
	}
	return this;
	}

	/*
	/**********************************************************
	/* Overridden methods, write methods
	/**********************************************************
	*/

	/*
	* And then methods overridden to make final, streamline some aspects...
	*/

	@Override
	public final void writeFieldName(String name) throws IOException {
	if (!_cborContext.writeFieldName(name)) {
	_reportError("Can not write a field name, expecting a value");
	}
	_writeString(name);
	}

	@Override
	public final void writeFieldName(SerializableString name)
	throws IOException {
	// Object is a value, need to verify it's allowed
	if (!_cborContext.writeFieldName(name.getValue())) {
	_reportError("Can not write a field name, expecting a value");
	}
	byte[] raw = name.asUnquotedUTF8();
	final int len = raw.length;
	if (len == 0) {
	_writeByte(BYTE_EMPTY_STRING);
	return;
	}
	_writeLengthMarker(PREFIX_TYPE_TEXT, len);
	_writeBytes(raw, 0, len);
	}

	@Override // since 2.8
	public final void writeFieldId(long id) throws IOException {
	if (!_cborContext.writeFieldId(id)) {
	_reportError("Can not write a field id, expecting a value");
	}
	_writeLongNoCheck(id);
	}

	/*
	/**********************************************************
	/* Overridden methods, copying with tag-awareness
	/**********************************************************
	*/

	/**
	* Specialize {@link JsonGenerator#copyCurrentEvent} to handle tags.
	*/
	@Override
	public void copyCurrentEvent(JsonParser p) throws IOException {
	maybeCopyTag(p);
	super.copyCurrentEvent(p);
	}

	/**
	* Specialize {@link JsonGenerator#copyCurrentStructure} to handle tags.
	*/
	@Override
	public void copyCurrentStructure(JsonParser p) throws IOException {
	maybeCopyTag(p);
	super.copyCurrentStructure(p);
	}

	protected void maybeCopyTag(JsonParser p) throws IOException {
	if (p instanceof CBORParser) {
	if (p.hasCurrentToken()) {
	final int currentTag = ((CBORParser) p).getCurrentTag();

	if (currentTag != -1) {
	writeTag(currentTag);
	}
	}
	}
	}

	/*
	/**********************************************************
	/* Output method implementations, structural
	/**********************************************************
	*/

	@Override
	public final void writeStartArray() throws IOException {
	_verifyValueWrite("start an array");
	_cborContext = _cborContext.createChildArrayContext(null);
	if (_elementCountsPtr > 0) {
	_pushRemainingElements();
	}
	_currentRemainingElements = INDEFINITE_LENGTH;
	_writeByte(BYTE_ARRAY_INDEFINITE);
	}

	/*
	* Unlike with JSON, this method is using slightly optimized version since
	* CBOR has a variant that allows embedding length in array start marker.
	*/

	@Override
	public void writeStartArray(int elementsToWrite) throws IOException {
	_verifyValueWrite("start an array");
	_cborContext = _cborContext.createChildArrayContext(null);
	_pushRemainingElements();
	_currentRemainingElements = elementsToWrite;
	_writeLengthMarker(PREFIX_TYPE_ARRAY, elementsToWrite);
	}

	@Override
	public final void writeEndArray() throws IOException {
	if (!_cborContext.inArray()) {
	_reportError("Current context not Array but "+_cborContext.typeDesc());
	}
	closeComplexElement();
	_cborContext = _cborContext.getParent();
	}

	@Override
	public final void writeStartObject() throws IOException {
	_verifyValueWrite("start an object");
	_cborContext = _cborContext.createChildObjectContext(null);
	if (_elementCountsPtr > 0) {
	_pushRemainingElements();
	}
	_currentRemainingElements = INDEFINITE_LENGTH;
	_writeByte(BYTE_OBJECT_INDEFINITE);
	}

	@Override
	// since 2.8
	public final void writeStartObject(Object forValue) throws IOException {
	_verifyValueWrite("start an object");
	CBORWriteContext ctxt = _cborContext.createChildObjectContext(forValue);
	_cborContext = ctxt;
	if (_elementCountsPtr > 0) {
	_pushRemainingElements();
	}
	_currentRemainingElements = INDEFINITE_LENGTH;
	_writeByte(BYTE_OBJECT_INDEFINITE);
	}

	public final void writeStartObject(int elementsToWrite) throws IOException {
	_verifyValueWrite("start an object");
	_cborContext = _cborContext.createChildObjectContext(null);
	_pushRemainingElements();
	_currentRemainingElements = elementsToWrite;
	_writeLengthMarker(PREFIX_TYPE_OBJECT, elementsToWrite);
	}

	@Override
	public final void writeEndObject() throws IOException {
	if (!_cborContext.inObject()) {
	_reportError("Current context not Object but "+ _cborContext.typeDesc());
	}
	closeComplexElement();
	_cborContext = _cborContext.getParent();
	}

	@Override // since 2.8
	public void writeArray(int[] array, int offset, int length) throws IOException
	{
	_verifyOffsets(array.length, offset, length);
	// short-cut, do not create child array context etc
	_verifyValueWrite("write int array");
	_writeLengthMarker(PREFIX_TYPE_ARRAY, length);

	if (_cfgMinimalInts) {
	for (int i = offset, end = offset+length; i < end; ++i) {
	final int value = array[i];
	if (value < 0) {
	_writeIntMinimal(PREFIX_TYPE_INT_NEG, -value - 1);
	} else {
	_writeIntMinimal(PREFIX_TYPE_INT_POS, value);
	}
	}
	} else {
	for (int i = offset, end = offset+length; i < end; ++i) {
	final int value = array[i];
	if (value < 0) {
	_writeIntFull(PREFIX_TYPE_INT_NEG, -value - 1);
	} else {
	_writeIntFull(PREFIX_TYPE_INT_POS, value);
	}
	}
	}
	}

	@Override // since 2.8
	public void writeArray(long[] array, int offset, int length) throws IOException
	{
	_verifyOffsets(array.length, offset, length);
	// short-cut, do not create child array context etc
	_verifyValueWrite("write int array");
	_writeLengthMarker(PREFIX_TYPE_ARRAY, length);
	for (int i = offset, end = offset+length; i < end; ++i) {
	_writeLongNoCheck(array[i]);
	}
	}

	@Override // since 2.8
	public void writeArray(double[] array, int offset, int length) throws IOException
	{
	_verifyOffsets(array.length, offset, length);
	// short-cut, do not create child array context etc
	_verifyValueWrite("write int array");
	_writeLengthMarker(PREFIX_TYPE_ARRAY, length);
	for (int i = offset, end = offset+length; i < end; ++i) {
	_writeDoubleNoCheck(array[i]);
	}
	}

	// @since 2.8.8
	private final void _pushRemainingElements() {
	if (_elementCounts.length == _elementCountsPtr) { // initially, as well as if full
	_elementCounts = Arrays.copyOf(_elementCounts, _elementCounts.length+10);
	}
	_elementCounts[_elementCountsPtr++] = _currentRemainingElements;
	}

	private final void _writeIntMinimal(int markerBase, int i) throws IOException
	{
	_ensureRoomForOutput(5);
	byte b0;
	if (i >= 0) {
	if (i < 24) {
	_outputBuffer[_outputTail++] = (byte) (markerBase + i);
	return;
	}
	if (i <= 0xFF) {
	_outputBuffer[_outputTail++] = (byte) (markerBase + SUFFIX_UINT8_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) i;
	return;
	}
	b0 = (byte) i;
	i >>= 8;
	if (i <= 0xFF) {
	_outputBuffer[_outputTail++] = (byte) (markerBase + SUFFIX_UINT16_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) i;
	_outputBuffer[_outputTail++] = b0;
	return;
	}
	} else {
	b0 = (byte) i;
	i >>= 8;
	}
	_outputBuffer[_outputTail++] = (byte) (markerBase + SUFFIX_UINT32_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	_outputBuffer[_outputTail++] = b0;
	}

	private final void _writeIntFull(int markerBase, int i) throws IOException
	{
	// if ((_outputTail + needed) >= _outputEnd) { _flushBuffer(); }
	_ensureRoomForOutput(5);

	_outputBuffer[_outputTail++] = (byte) (markerBase + SUFFIX_UINT32_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	}

	// Helper method that works like `writeNumber(long)` but DOES NOT
	// check internal output state. It does, however, check need for minimization
	private final void _writeLongNoCheck(long l) throws IOException {
	if (_cfgMinimalInts) {
	if (l >= 0) {
	if (l <= 0x100000000L) {
	_writeIntMinimal(PREFIX_TYPE_INT_POS, (int) l);
	return;
	}
	} else if (l >= -0x100000000L) {
	_writeIntMinimal(PREFIX_TYPE_INT_NEG, (int) (-l - 1));
	return;
	}
	}
	_ensureRoomForOutput(9);
	if (l < 0L) {
	l += 1;
	l = -l;
	_outputBuffer[_outputTail++] = (PREFIX_TYPE_INT_NEG + SUFFIX_UINT64_ELEMENTS);
	} else {
	_outputBuffer[_outputTail++] = (PREFIX_TYPE_INT_POS + SUFFIX_UINT64_ELEMENTS);
	}
	int i = (int) (l >> 32);
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	i = (int) l;
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	}

	private final void _writeDoubleNoCheck(double d) throws IOException {
	_ensureRoomForOutput(11);
	// 17-Apr-2010, tatu: could also use 'doubleToIntBits', but it seems
	// more accurate to use exact representation; and possibly faster.
	// However, if there are cases where collapsing of NaN was needed (for
	// non-Java clients), this can be changed
	long l = Double.doubleToRawLongBits(d);
	_outputBuffer[_outputTail++] = BYTE_FLOAT64;

	int i = (int) (l >> 32);
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	i = (int) l;
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	}

	/*
	/***********************************************************
	/* Output method implementations, textual
	/***********************************************************
	*/

	@Override
	public void writeString(String text) throws IOException {
	if (text == null) {
	writeNull();
	return;
	}
	_verifyValueWrite("write String value");
	_writeString(text);
	}

	@Override
	public final void writeString(SerializableString sstr) throws IOException {
	_verifyValueWrite("write String value");
	byte[] raw = sstr.asUnquotedUTF8();
	final int len = raw.length;
	if (len == 0) {
	_writeByte(BYTE_EMPTY_STRING);
	return;
	}
	_writeLengthMarker(PREFIX_TYPE_TEXT, len);
	_writeBytes(raw, 0, len);
	}

	@Override
	public void writeString(char[] text, int offset, int len)
	throws IOException {
	_verifyValueWrite("write String value");
	if (len == 0) {
	_writeByte(BYTE_EMPTY_STRING);
	return;
	}
	_writeString(text, offset, len);
	}

	@Override
	public void writeRawUTF8String(byte[] raw, int offset, int len)
	throws IOException
	{
	_verifyValueWrite("write String value");
	if (len == 0) {
	_writeByte(BYTE_EMPTY_STRING);
	return;
	}
	_writeLengthMarker(PREFIX_TYPE_TEXT, len);
	_writeBytes(raw, 0, len);
	}

	@Override
	public final void writeUTF8String(byte[] text, int offset, int len)
	throws IOException {
	// Since no escaping is needed, same as 'writeRawUTF8String'
	writeRawUTF8String(text, offset, len);
	}

	/*
	/**********************************************************
	/* Output method implementations, unprocessed ("raw")
	/**********************************************************
	*/

	@Override
	public void writeRaw(String text) throws IOException {
	throw _notSupported();
	}

	@Override
	public void writeRaw(String text, int offset, int len) throws IOException {
	throw _notSupported();
	}

	@Override
	public void writeRaw(char[] text, int offset, int len) throws IOException {
	throw _notSupported();
	}

	@Override
	public void writeRaw(char c) throws IOException {
	throw _notSupported();
	}

	@Override
	public void writeRawValue(String text) throws IOException {
	throw _notSupported();
	}

	@Override
	public void writeRawValue(String text, int offset, int len)
	throws IOException {
	throw _notSupported();
	}

	@Override
	public void writeRawValue(char[] text, int offset, int len)
	throws IOException {
	throw _notSupported();
	}

	/*
	* /********************************************************** /* Output
	* method implementations, base64-encoded binary
	* /**********************************************************
	*/

	@Override
	public void writeBinary(Base64Variant b64variant, byte[] data, int offset,
	int len) throws IOException {
	if (data == null) {
	writeNull();
	return;
	}
	_verifyValueWrite("write Binary value");
	_writeLengthMarker(PREFIX_TYPE_BYTES, len);
	_writeBytes(data, offset, len);
	}

	@Override
	public int writeBinary(InputStream data, int dataLength) throws IOException {
	/*
	* 28-Mar-2014, tatu: Theoretically we could implement encoder that uses
	* chunking to output binary content of unknown (a priori) length. But
	* for no let's require knowledge of length, for simplicity: may be
	* revisited in future.
	*/
	if (dataLength < 0) {
	throw new UnsupportedOperationException(
	"Must pass actual length for CBOR encoded data");
	}
	_verifyValueWrite("write Binary value");
	int missing;

	_writeLengthMarker(PREFIX_TYPE_BYTES, dataLength);
	missing = _writeBytes(data, dataLength);
	if (missing > 0) {
	_reportError("Too few bytes available: missing " + missing
	+ " bytes (out of " + dataLength + ")");
	}
	return dataLength;
	}

	@Override
	public int writeBinary(Base64Variant b64variant, InputStream data,
	int dataLength) throws IOException {
	return writeBinary(data, dataLength);
	}

	/*
	/**********************************************************
	/* Output method implementations, primitive
	/**********************************************************
	*/

	@Override
	public void writeBoolean(boolean state) throws IOException {
	_verifyValueWrite("write boolean value");
	if (state) {
	_writeByte(BYTE_TRUE);
	} else {
	_writeByte(BYTE_FALSE);
	}
	}

	@Override
	public void writeNull() throws IOException {
	_verifyValueWrite("write null value");
	_writeByte(BYTE_NULL);
	}

	@Override
	public void writeNumber(int i) throws IOException {
	_verifyValueWrite("write number");
	int marker;
	if (i < 0) {
	i = -i - 1;
	marker = PREFIX_TYPE_INT_NEG;
	} else {
	marker = PREFIX_TYPE_INT_POS;
	}
	_ensureRoomForOutput(5);
	byte b0;
	if (_cfgMinimalInts) {
	if (i < 24) {
	_outputBuffer[_outputTail++] = (byte) (marker + i);
	return;
	}
	if (i <= 0xFF) {
	_outputBuffer[_outputTail++] = (byte) (marker + SUFFIX_UINT8_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) i;
	return;
	}
	b0 = (byte) i;
	i >>= 8;
	if (i <= 0xFF) {
	_outputBuffer[_outputTail++] = (byte) (marker + SUFFIX_UINT16_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) i;
	_outputBuffer[_outputTail++] = b0;
	return;
	}
	} else {
	b0 = (byte) i;
	i >>= 8;
	}
	_outputBuffer[_outputTail++] = (byte) (marker + SUFFIX_UINT32_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	_outputBuffer[_outputTail++] = b0;
	}

	@Override
	public void writeNumber(long l) throws IOException {
	_verifyValueWrite("write number");
	if (_cfgMinimalInts) { // maybe 32 bits is enough?
	if (l >= 0) {
	if (l <= 0x100000000L) {
	_writeIntMinimal(PREFIX_TYPE_INT_POS, (int) l);
	return;
	}
	} else if (l >= -0x100000000L) {
	_writeIntMinimal(PREFIX_TYPE_INT_NEG, (int) (-l - 1));
	return;
	}
	}
	_ensureRoomForOutput(9);
	if (l < 0L) {
	l += 1;
	l = -l;
	_outputBuffer[_outputTail++] = (PREFIX_TYPE_INT_NEG + SUFFIX_UINT64_ELEMENTS);
	} else {
	_outputBuffer[_outputTail++] = (PREFIX_TYPE_INT_POS + SUFFIX_UINT64_ELEMENTS);
	}
	int i = (int) (l >> 32);
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	i = (int) l;
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	}

	@Override
	public void writeNumber(BigInteger v) throws IOException {
	if (v == null) {
	writeNull();
	return;
	}
	_verifyValueWrite("write number");
	_write(v);
	}

	// Main write method isolated so that it can be called directly
	// in cases where that is needed (to encode BigDecimal)
	protected void _write(BigInteger v) throws IOException {
	/*
	* Supported by using type tags, as per spec: major type for tag '6'; 5
	* LSB either 2 for positive bignum or 3 for negative bignum. And then
	* byte sequence that encode variable length integer.
	*/
	if (v.signum() < 0) {
	_writeByte(BYTE_TAG_BIGNUM_NEG);
	v = v.negate();
	} else {
	_writeByte(BYTE_TAG_BIGNUM_POS);
	}
	byte[] data = v.toByteArray();
	final int len = data.length;
	_writeLengthMarker(PREFIX_TYPE_BYTES, len);
	_writeBytes(data, 0, len);
	}

	@Override
	public void writeNumber(double d) throws IOException {
	_verifyValueWrite("write number");
	_ensureRoomForOutput(11);
	/*
	* 17-Apr-2010, tatu: could also use 'doubleToIntBits', but it seems
	* more accurate to use exact representation; and possibly faster.
	* However, if there are cases where collapsing of NaN was needed (for
	* non-Java clients), this can be changed
	*/
	long l = Double.doubleToRawLongBits(d);
	_outputBuffer[_outputTail++] = BYTE_FLOAT64;

	int i = (int) (l >> 32);
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	i = (int) l;
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	}

	@Override
	public void writeNumber(float f) throws IOException {
	// Ok, now, we needed token type byte plus 5 data bytes (7 bits each)
	_ensureRoomForOutput(6);
	_verifyValueWrite("write number");

	/*
	* 17-Apr-2010, tatu: could also use 'floatToIntBits', but it seems more
	* accurate to use exact representation; and possibly faster. However,
	* if there are cases where collapsing of NaN was needed (for non-Java
	* clients), this can be changed
	*/
	int i = Float.floatToRawIntBits(f);
	_outputBuffer[_outputTail++] = BYTE_FLOAT32;
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	}

	@Override
	public void writeNumber(BigDecimal dec) throws IOException {
	if (dec == null) {
	writeNull();
	return;
	}
	_verifyValueWrite("write number");
	/* Supported by using type tags, as per spec: major type for tag '6'; 5
	* LSB 4. And then a two-element array; integer exponent, and int/bigint
	* mantissa
	*/
	// 12-May-2016, tatu: Before 2.8, used "bigfloat", but that was
	// incorrect...
	_writeByte(BYTE_TAG_DECIMAL_FRACTION);
	_writeByte(BYTE_ARRAY_2_ELEMENTS);

	// 27-Nov-2019, tatu: As per [dataformats-binary#139] need to change sign here
	int scale = dec.scale();
	_writeIntValue(-scale);
	// Hmmmh. Specification suggest use of regular integer for mantissa. But
	// if it doesn't fit, use "bignum"
	BigInteger unscaled = dec.unscaledValue();
	int bitLength = unscaled.bitLength();
	if (bitLength <= 31) {
	_writeIntValue(unscaled.intValue());
	} else if (bitLength <= 63) {
	_writeLongValue(unscaled.longValue());
	} else {
	_write(unscaled);
	}
	}

	@Override
	public void writeNumber(String encodedValue) throws IOException,
	JsonGenerationException, UnsupportedOperationException {
	// just write as a String -- CBOR does not require schema, so
	// databinding
	// on receiving end should be able to coerce it appropriately
	writeString(encodedValue);
	}

	/*
	/**********************************************************
	/* Implementations for other methods
	/**********************************************************
	*/

	@Override
	protected final void _verifyValueWrite(String typeMsg) throws IOException {
	if (!_cborContext.writeValue()) {
	_reportError("Can not " + typeMsg + ", expecting field name/id");
	}
	// decrementElementsRemainingCount()
	int count = _currentRemainingElements;
	if (count != INDEFINITE_LENGTH) {
	--count;

	// 28-Jun-2016, tatu: _Should_ check overrun immediately (instead of waiting
	// for end of Object/Array), but has 10% performance penalty for some reason,
	// should figure out why and how to avoid
	if (count < 0) {
	_failSizedArrayOrObject();
	return; // never gets here
	}
	_currentRemainingElements = count;
	}
	}

	private void _failSizedArrayOrObject() throws IOException
	{
	_reportError(String.format("%s size mismatch: number of element encoded is not equal to reported array/map size.",
	_cborContext.typeDesc()));
	}

	/*
	/**********************************************************
	/* Low-level output handling
	/**********************************************************
	*/

	@Override
	public final void flush() throws IOException {
	_flushBuffer();
	if (isEnabled(JsonGenerator.Feature.FLUSH_PASSED_TO_STREAM)) {
	_out.flush();
	}
	}

	@Override
	public void close() throws IOException {
	// First: let's see that we still have buffers...
	if ((_outputBuffer != null)
	&& isEnabled(JsonGenerator.Feature.AUTO_CLOSE_JSON_CONTENT)) {
	while (true) {
	JsonStreamContext ctxt = getOutputContext();
	if (ctxt.inArray()) {
	writeEndArray();
	} else if (ctxt.inObject()) {
	writeEndObject();
	} else {
	break;
	}
	}
	}
	// boolean wasClosed = _closed;
	super.close();
	_flushBuffer();

	if (_ioContext.isResourceManaged()
	\|\| isEnabled(JsonGenerator.Feature.AUTO_CLOSE_TARGET)) {
	_out.close();
	} else if (isEnabled(JsonGenerator.Feature.FLUSH_PASSED_TO_STREAM)) {
	// 14-Jan-2019, tatu: [dataformats-binary#155]: unless prevented via feature
	// If we can't close it, we should at least flush
	_out.flush();
	}
	// Internal buffer(s) generator has can now be released as well
	_releaseBuffers();
	}

	/*
	/**********************************************************
	* Extended API, CBOR-specific encoded output
	/**********************************************************
	*/

	/**
	* Method for writing out an explicit CBOR Tag.
	*
	* @param tagId
	* Positive integer (0 or higher)
	*
	* @since 2.5
	*/
	public void writeTag(int tagId) throws IOException {
	if (tagId < 0) {
	throw new IllegalArgumentException(
	"Can not write negative tag ids (" + tagId + ")");
	}
	_writeLengthMarker(PREFIX_TYPE_TAG, tagId);
	}

	/*
	/**********************************************************
	/* Extended API, raw bytes (by-passing encoder)
	/**********************************************************
	*/

	/**
	* Method for directly inserting specified byte in output at current
	* position.
	* <p>
	* NOTE: only use this method if you really know what you are doing.
	*/
	public void writeRaw(byte b) throws IOException {
	_writeByte(b);
	}

	/**
	* Method for directly inserting specified bytes in output at current
	* position.
	* <p>
	* NOTE: only use this method if you really know what you are doing.
	*/
	public void writeBytes(byte[] data, int offset, int len) throws IOException {
	_writeBytes(data, offset, len);
	}

	/*
	/**********************************************************
	/* Internal methods: low-level text output
	/**********************************************************
	*/

	private final static int MAX_SHORT_STRING_CHARS = 23;
	// in case it's > 23 bytes
	private final static int MAX_SHORT_STRING_BYTES = 23 * 3 + 2;

	private final static int MAX_MEDIUM_STRING_CHARS = 255;
	// in case it's > 255 bytes
	private final static int MAX_MEDIUM_STRING_BYTES = 255 * 3 + 3;

	protected final void _writeString(String name) throws IOException {
	int len = name.length();
	if (len == 0) {
	_writeByte(BYTE_EMPTY_STRING);
	return;
	}
	// Actually, let's not bother with copy for shortest strings
	if (len <= MAX_SHORT_STRING_CHARS) {
	_ensureSpace(MAX_SHORT_STRING_BYTES); // can afford approximate
	// length
	int actual = _encode(_outputTail + 1, name, len);
	final byte[] buf = _outputBuffer;
	int ix = _outputTail;
	if (actual <= MAX_SHORT_STRING_CHARS) { // fits in prefix byte
	buf[ix++] = (byte) (PREFIX_TYPE_TEXT + actual);
	_outputTail = ix + actual;
	return;
	}
	// no, have to move. Blah.
	System.arraycopy(buf, ix + 1, buf, ix + 2, actual);
	buf[ix++] = BYTE_STRING_1BYTE_LEN;
	buf[ix++] = (byte) actual;
	_outputTail = ix + actual;
	return;
	}

	char[] cbuf = _charBuffer;
	if (len > cbuf.length) {
	_charBuffer = cbuf = new char[Math
	.max(_charBuffer.length + 32, len)];
	}
	name.getChars(0, len, cbuf, 0);
	_writeString(cbuf, 0, len);
	}

	protected final void _ensureSpace(int needed) throws IOException {
	if ((_outputTail + needed + 3) > _outputEnd) {
	_flushBuffer();
	}
	}

	protected final void _writeString(char[] text, int offset, int len)
	throws IOException
	{
	if (len <= MAX_SHORT_STRING_CHARS) { // possibly short string (not necessarily)
	_ensureSpace(MAX_SHORT_STRING_BYTES); // can afford approximate length
	int actual = _encode(_outputTail + 1, text, offset, offset + len);
	final byte[] buf = _outputBuffer;
	int ix = _outputTail;
	if (actual <= MAX_SHORT_STRING_CHARS) { // fits in prefix byte
	buf[ix++] = (byte) (PREFIX_TYPE_TEXT + actual);
	_outputTail = ix + actual;
	return;
	}
	// no, have to move. Blah.
	System.arraycopy(buf, ix + 1, buf, ix + 2, actual);
	buf[ix++] = BYTE_STRING_1BYTE_LEN;
	buf[ix++] = (byte) actual;
	_outputTail = ix + actual;
	return;
	}
	if (len <= MAX_MEDIUM_STRING_CHARS) {
	_ensureSpace(MAX_MEDIUM_STRING_BYTES); // short enough, can approximate
	int actual = _encode(_outputTail + 2, text, offset, offset + len);
	final byte[] buf = _outputBuffer;
	int ix = _outputTail;
	if (actual <= MAX_MEDIUM_STRING_CHARS) { // fits as expected
	buf[ix++] = BYTE_STRING_1BYTE_LEN;
	buf[ix++] = (byte) actual;
	_outputTail = ix + actual;
	return;
	}
	// no, have to move. Blah.
	System.arraycopy(buf, ix + 2, buf, ix + 3, actual);
	buf[ix++] = BYTE_STRING_2BYTE_LEN;
	buf[ix++] = (byte) (actual >> 8);
	buf[ix++] = (byte) actual;
	_outputTail = ix + actual;
	return;
	}
	if (len <= MAX_LONG_STRING_CHARS) { // no need to chunk yet
	// otherwise, long but single chunk
	_ensureSpace(MAX_LONG_STRING_BYTES); // calculate accurate length to
	// avoid extra flushing
	int ix = _outputTail;
	int actual = _encode(ix + 3, text, offset, offset+len);
	final byte[] buf = _outputBuffer;
	buf[ix++] = BYTE_STRING_2BYTE_LEN;
	buf[ix++] = (byte) (actual >> 8);
	buf[ix++] = (byte) actual;
	_outputTail = ix + actual;
	return;
	}
	_writeChunkedString(text, offset, len);
	}

	protected final void _writeChunkedString(char[] text, int offset, int len)
	throws IOException
	{
	// need to use a marker first
	_writeByte(BYTE_STRING_INDEFINITE);

	while (len > MAX_LONG_STRING_CHARS) {
	_ensureSpace(MAX_LONG_STRING_BYTES); // marker and single-byte length?
	int ix = _outputTail;
	int amount = MAX_LONG_STRING_CHARS;

	// 23-May-2016, tatu: Make sure NOT to try to split surrogates in half
	int end = offset + amount;
	char c = text[end-1];
	if (c >= SURR1_FIRST && c <= SURR1_LAST) {
	--end;
	--amount;
	}
	int actual = _encode(_outputTail + 3, text, offset, end);
	final byte[] buf = _outputBuffer;
	buf[ix++] = BYTE_STRING_2BYTE_LEN;
	buf[ix++] = (byte) (actual >> 8);
	buf[ix++] = (byte) actual;
	_outputTail = ix + actual;
	offset += amount;
	len -= amount;
	}
	// and for the last chunk, just use recursion
	if (len > 0) {
	_writeString(text, offset, len);
	}
	// plus end marker
	_writeByte(BYTE_BREAK);
	}

	/*
	/**********************************************************
	/* Internal methods, UTF-8 encoding
	/**********************************************************
	*/

	/**
	* Helper method called when the whole character sequence is known to fit in
	* the output buffer regardless of UTF-8 expansion.
	*/
	private final int _encode(int outputPtr, char[] str, int i, int end) {
	// First: let's see if it's all ASCII: that's rather fast
	final byte[] outBuf = _outputBuffer;
	final int outputStart = outputPtr;
	do {
	int c = str[i];
	if (c > 0x7F) {
	return _shortUTF8Encode2(str, i, end, outputPtr, outputStart);
	}
	outBuf[outputPtr++] = (byte) c;
	} while (++i < end);
	return outputPtr - outputStart;
	}

	/**
	* Helper method called when the whole character sequence is known to fit in
	* the output buffer, but not all characters are single-byte (ASCII)
	* characters.
	*/
	private final int _shortUTF8Encode2(char[] str, int i, int end,
	int outputPtr, int outputStart) {
	final byte[] outBuf = _outputBuffer;
	while (i < end) {
	int c = str[i++];
	if (c <= 0x7F) {
	outBuf[outputPtr++] = (byte) c;
	continue;
	}
	// Nope, multi-byte:
	if (c < 0x800) { // 2-byte
	outBuf[outputPtr++] = (byte) (0xc0 \| (c >> 6));
	outBuf[outputPtr++] = (byte) (0x80 \| (c & 0x3f));
	continue;
	}
	// 3 or 4 bytes (surrogate)
	// Surrogates?
	if (c < SURR1_FIRST \|\| c > SURR2_LAST) { // nope, regular 3-byte character
	outBuf[outputPtr++] = (byte) (0xe0 \| (c >> 12));
	outBuf[outputPtr++] = (byte) (0x80 \| ((c >> 6) & 0x3f));
	outBuf[outputPtr++] = (byte) (0x80 \| (c & 0x3f));
	continue;
	}
	// Yup, a surrogate pair
	if (c > SURR1_LAST) { // must be from first range; second won't do
	_throwIllegalSurrogate(c);
	}
	// ... meaning it must have a pair
	if (i >= end) {
	_throwIllegalSurrogate(c);
	}
	c = _convertSurrogate(c, str[i++]);
	if (c > 0x10FFFF) { // illegal in JSON as well as in XML
	_throwIllegalSurrogate(c);
	}
	outBuf[outputPtr++] = (byte) (0xf0 \| (c >> 18));
	outBuf[outputPtr++] = (byte) (0x80 \| ((c >> 12) & 0x3f));
	outBuf[outputPtr++] = (byte) (0x80 \| ((c >> 6) & 0x3f));
	outBuf[outputPtr++] = (byte) (0x80 \| (c & 0x3f));
	}
	return (outputPtr - outputStart);
	}

	private final int _encode(int outputPtr, String str, int len) {
	final byte[] outBuf = _outputBuffer;
	final int outputStart = outputPtr;

	for (int i = 0; i < len; ++i) {
	int c = str.charAt(i);
	if (c > 0x7F) {
	return _encode2(i, outputPtr, str, len, outputStart);
	}
	outBuf[outputPtr++] = (byte) c;
	}
	return (outputPtr - outputStart);
	}

	private final int _encode2(int i, int outputPtr, String str, int len,
	int outputStart) {
	final byte[] outBuf = _outputBuffer;
	// no; non-ASCII stuff, slower loop
	while (i < len) {
	int c = str.charAt(i++);
	if (c <= 0x7F) {
	outBuf[outputPtr++] = (byte) c;
	continue;
	}
	// Nope, multi-byte:
	if (c < 0x800) { // 2-byte
	outBuf[outputPtr++] = (byte) (0xc0 \| (c >> 6));
	outBuf[outputPtr++] = (byte) (0x80 \| (c & 0x3f));
	continue;
	}
	// 3 or 4 bytes (surrogate)
	// Surrogates?
	if (c < SURR1_FIRST \|\| c > SURR2_LAST) { // nope, regular 3-byte
	// character
	outBuf[outputPtr++] = (byte) (0xe0 \| (c >> 12));
	outBuf[outputPtr++] = (byte) (0x80 \| ((c >> 6) & 0x3f));
	outBuf[outputPtr++] = (byte) (0x80 \| (c & 0x3f));
	continue;
	}
	// Yup, a surrogate pair
	if (c > SURR1_LAST) { // must be from first range; second won't do
	_throwIllegalSurrogate(c);
	}
	// ... meaning it must have a pair
	if (i >= len) {
	_throwIllegalSurrogate(c);
	}
	c = _convertSurrogate(c, str.charAt(i++));
	if (c > 0x10FFFF) { // illegal in JSON as well as in XML
	_throwIllegalSurrogate(c);
	}
	outBuf[outputPtr++] = (byte) (0xf0 \| (c >> 18));
	outBuf[outputPtr++] = (byte) (0x80 \| ((c >> 12) & 0x3f));
	outBuf[outputPtr++] = (byte) (0x80 \| ((c >> 6) & 0x3f));
	outBuf[outputPtr++] = (byte) (0x80 \| (c & 0x3f));
	}
	return (outputPtr - outputStart);
	}

	/**
	* Method called to calculate UTF codepoint, from a surrogate pair.
	*/
	private int _convertSurrogate(int firstPart, int secondPart) {
	// Ok, then, is the second part valid?
	if (secondPart < SURR2_FIRST \|\| secondPart > SURR2_LAST) {
	throw new IllegalArgumentException(
	"Broken surrogate pair: first char 0x"
	+ Integer.toHexString(firstPart) + ", second 0x"
	+ Integer.toHexString(secondPart)
	+ "; illegal combination");
	}
	return 0x10000 + ((firstPart - SURR1_FIRST) << 10)
	+ (secondPart - SURR2_FIRST);
	}

	private void _throwIllegalSurrogate(int code) {
	if (code > 0x10FFFF) { // over max?
	throw new IllegalArgumentException("Illegal character point (0x"
	+ Integer.toHexString(code)
	+ ") to output; max is 0x10FFFF as per RFC 4627");
	}
	if (code >= SURR1_FIRST) {
	if (code <= SURR1_LAST) { // Unmatched first part (closing without
	// second part?)
	throw new IllegalArgumentException(
	"Unmatched first part of surrogate pair (0x"
	+ Integer.toHexString(code) + ")");
	}
	throw new IllegalArgumentException(
	"Unmatched second part of surrogate pair (0x"
	+ Integer.toHexString(code) + ")");
	}
	// should we ever get this?
	throw new IllegalArgumentException("Illegal character point (0x"
	+ Integer.toHexString(code) + ") to output");
	}

	/*
	/**********************************************************
	/* Internal methods, writing bytes
	/**********************************************************
	*/

	private final void _ensureRoomForOutput(int needed) throws IOException {
	if ((_outputTail + needed) >= _outputEnd) {
	_flushBuffer();
	}
	}

	private final void _writeIntValue(int i) throws IOException {
	int marker;
	if (i < 0) {
	i = -i - 1;
	marker = PREFIX_TYPE_INT_NEG;
	} else {
	marker = PREFIX_TYPE_INT_POS;
	}
	_writeLengthMarker(marker, i);
	}

	private final void _writeLongValue(long l) throws IOException {
	_ensureRoomForOutput(9);
	if (l < 0) {
	l += 1;
	l = -l;
	_outputBuffer[_outputTail++] = (PREFIX_TYPE_INT_NEG + SUFFIX_UINT64_ELEMENTS);
	} else {
	_outputBuffer[_outputTail++] = (PREFIX_TYPE_INT_POS + SUFFIX_UINT64_ELEMENTS);
	}
	int i = (int) (l >> 32);
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	i = (int) l;
	_outputBuffer[_outputTail++] = (byte) (i >> 24);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	}

	private final void _writeLengthMarker(int majorType, int i)
	throws IOException {
	_ensureRoomForOutput(5);
	if (i < 24) {
	_outputBuffer[_outputTail++] = (byte) (majorType + i);
	return;
	}
	if (i <= 0xFF) {
	_outputBuffer[_outputTail++] = (byte) (majorType + SUFFIX_UINT8_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) i;
	return;
	}
	final byte b0 = (byte) i;
	i >>= 8;
	if (i <= 0xFF) {
	_outputBuffer[_outputTail++] = (byte) (majorType + SUFFIX_UINT16_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) i;
	_outputBuffer[_outputTail++] = b0;
	return;
	}
	_outputBuffer[_outputTail++] = (byte) (majorType + SUFFIX_UINT32_ELEMENTS);
	_outputBuffer[_outputTail++] = (byte) (i >> 16);
	_outputBuffer[_outputTail++] = (byte) (i >> 8);
	_outputBuffer[_outputTail++] = (byte) i;
	_outputBuffer[_outputTail++] = b0;
	}

	private final void _writeByte(byte b) throws IOException {
	if (_outputTail >= _outputEnd) {
	_flushBuffer();
	}
	_outputBuffer[_outputTail++] = b;
	}

	/*
	* private final void _writeBytes(byte b1, byte b2) throws IOException { if
	* ((_outputTail + 1) >= _outputEnd) { _flushBuffer(); }
	* _outputBuffer[_outputTail++] = b1; _outputBuffer[_outputTail++] = b2; }
	*/

	private final void _writeBytes(byte[] data, int offset, int len)
	throws IOException {
	if (len == 0) {
	return;
	}
	if ((_outputTail + len) >= _outputEnd) {
	_writeBytesLong(data, offset, len);
	return;
	}
	// common case, non-empty, fits in just fine:
	System.arraycopy(data, offset, _outputBuffer, _outputTail, len);
	_outputTail += len;
	}

	private final int _writeBytes(InputStream in, int bytesLeft)
	throws IOException {
	while (bytesLeft > 0) {
	int room = _outputEnd - _outputTail;
	if (room <= 0) {
	_flushBuffer();
	room = _outputEnd - _outputTail;
	}
	int count = in.read(_outputBuffer, _outputTail, room);
	if (count < 0) {
	break;
	}
	_outputTail += count;
	bytesLeft -= count;
	}
	return bytesLeft;
	}

	private final void _writeBytesLong(byte[] data, int offset, int len)
	throws IOException {
	if (_outputTail >= _outputEnd) {
	_flushBuffer();
	}
	while (true) {
	int currLen = Math.min(len, (_outputEnd - _outputTail));
	System.arraycopy(data, offset, _outputBuffer, _outputTail, currLen);
	_outputTail += currLen;
	if ((len -= currLen) == 0) {
	break;
	}
	offset += currLen;
	_flushBuffer();
	}
	}

	/*
	/**********************************************************
	/* Internal methods, buffer handling
	/**********************************************************
	*/

	@Override
	protected void _releaseBuffers() {
	byte[] buf = _outputBuffer;
	if (buf != null && _bufferRecyclable) {
	_outputBuffer = null;
	_ioContext.releaseWriteEncodingBuffer(buf);
	}
	char[] cbuf = _charBuffer;
	if (cbuf != null) {
	_charBuffer = null;
	_ioContext.releaseConcatBuffer(cbuf);
	}
	}

	protected final void _flushBuffer() throws IOException {
	if (_outputTail > 0) {
	_bytesWritten += _outputTail;
	_out.write(_outputBuffer, 0, _outputTail);
	_outputTail = 0;
	}
	}

	/*
	/**********************************************************
	/* Internal methods, size control for array and objects
	/**********************************************************
	*/

	private final void closeComplexElement() throws IOException {
	switch (_currentRemainingElements) {
	case INDEFINITE_LENGTH:
	_writeByte(BYTE_BREAK);
	break;
	case 0: // expected for sized ones
	break;
	default:
	_reportError(String.format("%s size mismatch: expected %d more elements",
	_cborContext.typeDesc(), _currentRemainingElements));
	}
	_currentRemainingElements = (_elementCountsPtr == 0)
	? INDEFINITE_LENGTH
	: _elementCounts[--_elementCountsPtr];
	}

	/*
	/**********************************************************
	/* Internal methods, error reporting
	/**********************************************************
	*/

	protected UnsupportedOperationException _notSupported() {
	return new UnsupportedOperationException();
	}
	}