public override void Write(System.Byte[] buffer, int offset, int count)
        {
            // workitem 7159
            // calculate the CRC on the unccompressed data  (before writing)
            if (crc != null)
            {
                crc.SlurpBlock(buffer, offset, count);
            }

            if (_streamMode == StreamMode.Undefined)
            {
                _streamMode = StreamMode.Writer;
            }
            else if (_streamMode != StreamMode.Writer)
            {
                throw new ZlibException("Cannot Write after Reading.");
            }

            if (count == 0)
            {
                return;
            }

            // first reference of z property will initialize the private var _z
            z.InputBuffer       = buffer;
            _z.NextIn           = offset;
            _z.AvailableBytesIn = count;
            bool done = false;

            do
            {
                _z.OutputBuffer      = workingBuffer;
                _z.NextOut           = 0;
                _z.AvailableBytesOut = _workingBuffer.Length;
                int rc = (_wantCompress)
                    ? _z.Deflate(_flushMode)
                    : _z.Inflate(_flushMode);
                if (rc != ZlibConstants.Z_OK && rc != ZlibConstants.Z_STREAM_END)
                {
                    throw new ZlibException((_wantCompress ? "de" : "in") + "flating: " + _z.Message);
                }

                //if (_workingBuffer.Length - _z.AvailableBytesOut > 0)
                _stream.Write(_workingBuffer, 0, _workingBuffer.Length - _z.AvailableBytesOut);

                done = _z.AvailableBytesIn == 0 && _z.AvailableBytesOut != 0;

                // If GZIP and de-compress, we're done when 8 bytes remain.
                if (_flavor == ZlibStreamFlavor.GZIP && !_wantCompress)
                {
                    done = (_z.AvailableBytesIn == 8 && _z.AvailableBytesOut != 0);
                }
            }while (!done);
        }
        private void _PerpetualWriterMethod(object state)
        {
            TraceOutput(TraceBits.WriterThread, "_PerpetualWriterMethod START");

            try
            {
                do
                {
                    // wait for the next session
                    TraceOutput(TraceBits.Synch | TraceBits.WriterThread, "Synch    _sessionReset.WaitOne(begin) PWM");
                    _sessionReset.WaitOne();
                    TraceOutput(TraceBits.Synch | TraceBits.WriterThread, "Synch    _sessionReset.WaitOne(done)  PWM");

                    if (_isDisposed) break;

                    TraceOutput(TraceBits.Synch | TraceBits.WriterThread, "Synch    _sessionReset.Reset()        PWM");
                    _sessionReset.Reset();

                    // repeatedly write buffers as they become ready
                    WorkItem workitem = null;
                    Ionic.Zlib.CRC32 c= new Ionic.Zlib.CRC32();
                    do
                    {
                        workitem = _pool[_nextToWrite % _pc];
                        lock(workitem)
                        {
                            if (_noMoreInputForThisSegment)
                                TraceOutput(TraceBits.Write,
                                               "Write    drain    wi({0}) stat({1}) canuse({2})  cba({3})",
                                               workitem.index,
                                               workitem.status,
                                               (workitem.status == (int)WorkItem.Status.Compressed),
                                               workitem.compressedBytesAvailable);

                            do
                            {
                                if (workitem.status == (int)WorkItem.Status.Compressed)
                                {
                                    TraceOutput(TraceBits.WriteBegin,
                                                   "Write    begin    wi({0}) stat({1})              cba({2})",
                                                   workitem.index,
                                                   workitem.status,
                                                   workitem.compressedBytesAvailable);

                                    workitem.status = (int)WorkItem.Status.Writing;
                                    _outStream.Write(workitem.compressed, 0, workitem.compressedBytesAvailable);
                                    c.Combine(workitem.crc, workitem.inputBytesAvailable);
                                    _totalBytesProcessed += workitem.inputBytesAvailable;
                                    _nextToWrite++;
                                    workitem.inputBytesAvailable= 0;
                                    workitem.status = (int)WorkItem.Status.Done;

                                    TraceOutput(TraceBits.WriteDone,
                                                   "Write    done     wi({0}) stat({1})              cba({2})",
                                                   workitem.index,
                                                   workitem.status,
                                                   workitem.compressedBytesAvailable);


                                    Monitor.Pulse(workitem);
                                    break;
                                }
                                else
                                {
                                    int wcycles = 0;
                                    // I've locked a workitem I cannot use.
                                    // Therefore, wake someone else up, and then release the lock.
                                    while (workitem.status != (int)WorkItem.Status.Compressed)
                                    {
                                        TraceOutput(TraceBits.WriteWait,
                                                       "Write    waiting  wi({0}) stat({1}) nw({2}) nf({3}) nomore({4})",
                                                       workitem.index,
                                                       workitem.status,
                                                       _nextToWrite, _nextToFill,
                                                       _noMoreInputForThisSegment );

                                        if (_noMoreInputForThisSegment && _nextToWrite == _nextToFill)
                                            break;

                                        wcycles++;

                                        // wake up someone else
                                        Monitor.Pulse(workitem);
                                        // release and wait
                                        Monitor.Wait(workitem);

                                        if (workitem.status == (int)WorkItem.Status.Compressed)
                                            TraceOutput(TraceBits.WriteWait,
                                                           "Write    A-OK     wi({0}) stat({1}) iba({2}) cba({3}) cyc({4})",
                                                           workitem.index,
                                                           workitem.status,
                                                           workitem.inputBytesAvailable,
                                                           workitem.compressedBytesAvailable,
                                                           wcycles);
                                    }

                                    if (_noMoreInputForThisSegment && _nextToWrite == _nextToFill)
                                        break;

                                }
                            }
                            while (true);
                        }

                        if (_noMoreInputForThisSegment)
                            TraceOutput(TraceBits.Write,
                                           "Write    nomore  nw({0}) nf({1}) break({2})",
                                           _nextToWrite, _nextToFill, (_nextToWrite == _nextToFill));

                        if (_noMoreInputForThisSegment && _nextToWrite == _nextToFill)
                            break;

                    } while (true);


                    // Finish:
                    // After writing a series of buffers, closing each one with
                    // Flush.Sync, we now write the final one as Flush.Finish, and
                    // then stop.
                    byte[] buffer = new byte[128];
                    ZlibCodec compressor = new ZlibCodec();
                    int rc = compressor.InitializeDeflate(_compressLevel, false);
                    compressor.InputBuffer = null;
                    compressor.NextIn = 0;
                    compressor.AvailableBytesIn = 0;
                    compressor.OutputBuffer = buffer;
                    compressor.NextOut = 0;
                    compressor.AvailableBytesOut = buffer.Length;
                    rc = compressor.Deflate(FlushType.Finish);

                    if (rc != ZlibConstants.Z_STREAM_END && rc != ZlibConstants.Z_OK)
                        throw new Exception("deflating: " + compressor.Message);

                    if (buffer.Length - compressor.AvailableBytesOut > 0)
                    {
                        TraceOutput(TraceBits.WriteBegin,
                                       "Write    begin    flush bytes({0})",
                                       buffer.Length - compressor.AvailableBytesOut);

                        _outStream.Write(buffer, 0, buffer.Length - compressor.AvailableBytesOut);

                        TraceOutput(TraceBits.WriteBegin,
                                       "Write    done     flush");
                    }

                    compressor.EndDeflate();

                    _Crc32 = c.Crc32Result;

                    // signal that writing is complete:
                    TraceOutput(TraceBits.Synch, "Synch    _writingDone.Set()           PWM");
                    _writingDone.Set();
                }
                while (true);
            }
            catch (System.Exception exc1)
            {
                lock(_eLock)
                {
                    // expose the exception to the main thread
                    if (_pendingException!=null)
                        _pendingException = exc1;
                }
            }

            TraceOutput(TraceBits.WriterThread, "_PerpetualWriterMethod FINIS");
        }
        private void _FlushFinish()
        {
            // After writing a series of compressed buffers, each one closed
            // with Flush.Sync, we now write the final one as Flush.Finish,
            // and then stop.
            byte[] buffer = new byte[128];
            var compressor = new ZlibCodec();
            int rc = compressor.InitializeDeflate(_compressLevel, false);
            compressor.InputBuffer = null;
            compressor.NextIn = 0;
            compressor.AvailableBytesIn = 0;
            compressor.OutputBuffer = buffer;
            compressor.NextOut = 0;
            compressor.AvailableBytesOut = buffer.Length;
            rc = compressor.Deflate(FlushType.Finish);

            if (rc != ZlibConstants.Z_STREAM_END && rc != ZlibConstants.Z_OK)
                throw new Exception("deflating: " + compressor.Message);

            if (buffer.Length - compressor.AvailableBytesOut > 0)
            {
                TraceOutput(TraceBits.EmitBegin,
                            "Emit     begin    flush bytes({0})",
                            buffer.Length - compressor.AvailableBytesOut);

                _outStream.Write(buffer, 0, buffer.Length - compressor.AvailableBytesOut);

                TraceOutput(TraceBits.EmitDone,
                            "Emit     done     flush");
            }

            compressor.EndDeflate();

            _Crc32 = _runningCrc.Crc32Result;
        }