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I have a readonly System.IO.Stream implementation that is not seekable (and it's Position always returns 0). I need to send it to a consumer that does some Seek operations (aka, sets the Position) on the stream. It's not a huge seek -- say +/- 100 from the current position. Is there an existing Stream wrapper that will add a buffering ability to the stream for simple Seek operations?

Update: I should add that my consumer is the NAudio Mp3FileReader. I really just need a way to play a (slowly and indefinitely) streaming MP3. I think it's a bug that NAudio expects to be able to seek their data source at will.

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1  
MemoryStream ? BufferedStream ? – L.B Oct 23 '12 at 17:23
3  
If you look at the implementation of BufferedStream, you will see that it does not actually allow seek operations when the base stream does not allow them. MemoryStream has no constructors taking a Stream parameter. – Brannon Oct 23 '12 at 17:28
    
You can play from an MP3 network stream in NAudio, and the NAudioDemo app shows you how to do this. The Mp3FileReader is for reading files, and so expects them to be seekable. Creating a TOC ahead of time allows us to support very fast and accurate repositions into a VBR MP3. However, I agree it would be nice for a future NAudio to support non-seekable streams passed into the Mp3FileReader. – Mark Heath Oct 26 '12 at 13:52
    
@MarkHeath I have tried to open very large file with Mp3FileReader, and it seems to be stuck forever while doing that. Is there an option NOT to build TOC while opening the file? – Daniel Mošmondor Nov 7 '12 at 11:35
1  
@DanielMošmondor no, but it's open source, so feel free to mod it yourself. Without a TOC, the repositioning will be broken though. I'd like to update it to have a JIT TOC creation in the future so if you don't ask for the length or ask to reposition into the future, it doesn't need to look ahead. – Mark Heath Nov 7 '12 at 11:56
up vote 8 down vote accepted

Seeking forwards is easy enough (just read), but you can't seek backwards without buffering. Maybe just:

using(var ms = new MemoryStream()) {
    otherStream.CopyTo(ms);
    ms.Position = 0;
    // now work with ms
}

This, however, is only suitable for small-to-moderate streams (not GB), that are known to end (which streams are not requires to do). If you need a larger stream, a FileStream to a temp-file would work, but is significantly more IO-intensive.

share|improve this answer
1  
This is an interesting approach. My input stream is an audio stream coming from a server. It has to stay open until the application closes, and my consumer will close itself if it runs out of data. I'm not quite seeing how to apply this approach. – Brannon Oct 23 '12 at 17:31
2  
@Brannon in that case you're probably going to implement it manually with a circular buffer for backwards seek (by a limited amount). Sorry - nothing inbuilt. – Marc Gravell Oct 23 '12 at 17:42
1  
I was able to approach the problem with an alternate plan. NAudio has a per-frame example for streaming situations. – Brannon Oct 25 '12 at 4:19

Here's a wrapper to make any Stream seekable for read operations.

It works by caching reads from the underlying stream, up to the number of bytes specified in the constructor. This will come in handy when memory constraints prohibit Marc Gravell's solution.

Supported seek operations:

  • seeking forward using SeekOrigin.Current and SeekOrigin.Begin works for arbitrary offsets
  • seeking backwards using SeekOrigin.Current and SeekOrigin.Begin works for down to -seekBackBufferSize bytes from the current position in the underlying stream (which may differ from readSeekableStream.Position after a previous backwards seek)
  • seeking using SeekOrigin.End works for offset >= -seekBackBufferSize && offset <= 0

General remarks

  • the Seek method and the Position property are completely handled internally and do not involve the underlying stream (which would only throw anyway)
  • seeking affects the read part of the stream only, hence the name of the class
  • all write operations are simply delegated through to the underlying stream
  • wrapping already seekable streams with this would be a waste of resources
  • some problems addressed by ReadSeekableStream below can also be solved by my PeekableStream class

This implementation is fresh and not yet battle-hardened. I have however unit tested it for quite a few seek/read cases and corner cases, and cross-compared it against a (freely seekable) MemoryStream.

public class ReadSeekableStream : Stream
{
    private long _underlyingPosition;
    private readonly byte[] _seekBackBuffer;
    private int _seekBackBufferCount;
    private int _seekBackBufferIndex;
    private readonly Stream _underlyingStream;

    public ReadSeekableStream(Stream underlyingStream, int seekBackBufferSize)
    {
        if (!underlyingStream.CanRead)
            throw new Exception("Provided stream " + underlyingStream + " is not readable");
        _underlyingStream = underlyingStream;
        _seekBackBuffer = new byte[seekBackBufferSize];
    }

    public override bool CanRead { get { return true; } }
    public override bool CanSeek { get { return true; } }

    public override int Read(byte[] buffer, int offset, int count)
    {
        int copiedFromBackBufferCount = 0;
        if (_seekBackBufferIndex < _seekBackBufferCount)
        {
            copiedFromBackBufferCount = Math.Min(count, _seekBackBufferCount - _seekBackBufferIndex);
            Buffer.BlockCopy(_seekBackBuffer, _seekBackBufferIndex, buffer, offset, copiedFromBackBufferCount);
            offset += copiedFromBackBufferCount;
            count -= copiedFromBackBufferCount;
            _seekBackBufferIndex += copiedFromBackBufferCount;
        }
        int bytesReadFromUnderlying = 0;
        if (count > 0)
        {
            bytesReadFromUnderlying = _underlyingStream.Read(buffer, offset, count);
            if (bytesReadFromUnderlying > 0)
            {
                _underlyingPosition += bytesReadFromUnderlying;

                var copyToBufferCount = Math.Min(bytesReadFromUnderlying, _seekBackBuffer.Length);
                var copyToBufferOffset = Math.Min(_seekBackBufferCount, _seekBackBuffer.Length - copyToBufferCount);
                var bufferBytesToMove = Math.Min(_seekBackBufferCount - 1, copyToBufferOffset);

                if (bufferBytesToMove > 0)
                    Buffer.BlockCopy(_seekBackBuffer, _seekBackBufferCount - bufferBytesToMove, _seekBackBuffer, 0, bufferBytesToMove);
                Buffer.BlockCopy(buffer, offset, _seekBackBuffer, copyToBufferOffset, copyToBufferCount);
                _seekBackBufferCount = Math.Min(_seekBackBuffer.Length, _seekBackBufferCount + copyToBufferCount);
                _seekBackBufferIndex = _seekBackBufferCount;
            }
        }
        return copiedFromBackBufferCount + bytesReadFromUnderlying;
    }

    public override long Seek(long offset, SeekOrigin origin)
    {
        if (origin == SeekOrigin.End) 
            return SeekFromEnd((int) Math.Max(0, -offset));

        var relativeOffset = origin == SeekOrigin.Current
            ? offset
            : offset - Position;

        if (relativeOffset == 0)
            return Position;
        else if (relativeOffset > 0)
            return SeekForward(relativeOffset);
        else
            return SeekBackwards(-relativeOffset);
    }

    private long SeekForward(long origOffset)
    {
        long offset = origOffset;
        var seekBackBufferLength = _seekBackBuffer.Length;

        int backwardSoughtBytes = _seekBackBufferCount - _seekBackBufferIndex;
        int seekForwardInBackBuffer = (int) Math.Min(offset, backwardSoughtBytes);
        offset -= seekForwardInBackBuffer;
        _seekBackBufferIndex += seekForwardInBackBuffer;

        if (offset > 0)
        {
            // first completely fill seekBackBuffer to remove special cases from while loop below
            if (_seekBackBufferCount < seekBackBufferLength)
            {
                var maxRead = seekBackBufferLength - _seekBackBufferCount;
                if (offset < maxRead)
                    maxRead = (int) offset;
                var bytesRead = _underlyingStream.Read(_seekBackBuffer, _seekBackBufferCount, maxRead);
                _underlyingPosition += bytesRead;
                _seekBackBufferCount += bytesRead;
                _seekBackBufferIndex = _seekBackBufferCount;
                if (bytesRead < maxRead)
                {
                    if (_seekBackBufferCount < offset)
                        throw new NotSupportedException("Reached end of stream seeking forward " + origOffset + " bytes");
                    return Position;
                }
                offset -= bytesRead;
            }

            // now alternate between filling tempBuffer and seekBackBuffer
            bool fillTempBuffer = true;
            var tempBuffer = new byte[seekBackBufferLength];
            while (offset > 0)
            {
                var maxRead = offset < seekBackBufferLength ? (int) offset : seekBackBufferLength;
                var bytesRead = _underlyingStream.Read(fillTempBuffer ? tempBuffer : _seekBackBuffer, 0, maxRead);
                _underlyingPosition += bytesRead;
                var bytesReadDiff = maxRead - bytesRead;
                offset -= bytesRead;
                if (bytesReadDiff > 0 /* reached end-of-stream */ || offset == 0) 
                {
                    if (fillTempBuffer)
                    {
                        if (bytesRead > 0)
                        {
                            Buffer.BlockCopy(_seekBackBuffer, bytesRead, _seekBackBuffer, 0, bytesReadDiff);
                            Buffer.BlockCopy(tempBuffer, 0, _seekBackBuffer, bytesReadDiff, bytesRead);
                        }
                    }
                    else
                    {
                        if (bytesRead > 0)
                            Buffer.BlockCopy(_seekBackBuffer, 0, _seekBackBuffer, bytesReadDiff, bytesRead);
                        Buffer.BlockCopy(tempBuffer, bytesRead, _seekBackBuffer, 0, bytesReadDiff);
                    }
                    if (offset > 0)
                        throw new NotSupportedException("Reached end of stream seeking forward " + origOffset + " bytes");
                }
                fillTempBuffer = !fillTempBuffer;
            }
        }
        return Position;
    }

    private long SeekBackwards(long offset)
    {
        var intOffset = (int)offset;
        if (offset > int.MaxValue || intOffset > _seekBackBufferIndex)
            throw new NotSupportedException("Cannot currently seek backwards more than " + _seekBackBufferIndex + " bytes");
        _seekBackBufferIndex -= intOffset;
        return Position;
    }

    private long SeekFromEnd(long offset)
    {
        var intOffset = (int) offset;
        var seekBackBufferLength = _seekBackBuffer.Length;
        if (offset > int.MaxValue || intOffset > seekBackBufferLength)
            throw new NotSupportedException("Cannot seek backwards from end more than " + seekBackBufferLength + " bytes");

        // first completely fill seekBackBuffer to remove special cases from while loop below
        if (_seekBackBufferCount < seekBackBufferLength)
        {
            var maxRead = seekBackBufferLength - _seekBackBufferCount;
            var bytesRead = _underlyingStream.Read(_seekBackBuffer, _seekBackBufferCount, maxRead);
            _underlyingPosition += bytesRead;
            _seekBackBufferCount += bytesRead;
            _seekBackBufferIndex = Math.Max(0, _seekBackBufferCount - intOffset);
            if (bytesRead < maxRead)
            {
                if (_seekBackBufferCount < intOffset)
                    throw new NotSupportedException("Could not seek backwards from end " + intOffset + " bytes");
                return Position;
            }
        }
        else
        {
            _seekBackBufferIndex = _seekBackBufferCount;
        }

        // now alternate between filling tempBuffer and seekBackBuffer
        bool fillTempBuffer = true;
        var tempBuffer = new byte[seekBackBufferLength];
        while (true)
        {
            var bytesRead = _underlyingStream.Read(fillTempBuffer ? tempBuffer : _seekBackBuffer, 0, seekBackBufferLength);
            _underlyingPosition += bytesRead;
            var bytesReadDiff = seekBackBufferLength - bytesRead;
            if (bytesReadDiff > 0) // reached end-of-stream
            {
                if (fillTempBuffer)
                {
                    if (bytesRead > 0)
                    {
                        Buffer.BlockCopy(_seekBackBuffer, bytesRead, _seekBackBuffer, 0, bytesReadDiff);
                        Buffer.BlockCopy(tempBuffer, 0, _seekBackBuffer, bytesReadDiff, bytesRead);
                    }
                }
                else
                {
                    if (bytesRead > 0)
                        Buffer.BlockCopy(_seekBackBuffer, 0, _seekBackBuffer, bytesReadDiff, bytesRead);
                    Buffer.BlockCopy(tempBuffer, bytesRead, _seekBackBuffer, 0, bytesReadDiff);
                }
                _seekBackBufferIndex -= intOffset;
                return Position;
            }
            fillTempBuffer = !fillTempBuffer;
        }
    }

    public override long Position
    {
        get { return _underlyingPosition - (_seekBackBufferCount - _seekBackBufferIndex); }
        set { Seek(value, SeekOrigin.Begin); }
    }

    public override bool CanTimeout { get { return _underlyingStream.CanTimeout; } }
    public override bool CanWrite { get { return _underlyingStream.CanWrite; } }
    public override long Length { get { return _underlyingStream.Length; } }
    public override void SetLength(long value) { _underlyingStream.SetLength(value); }
    public override void Write(byte[] buffer, int offset, int count) { _underlyingStream.Write(buffer, offset, count); }
    public override void Flush() { _underlyingStream.Flush(); }
}
share|improve this answer

Another solution might be to create your own stream class which wraps the other stream. Implement Seek as a NOP.

class MyStream : Stream
{
    public MyStream(Stream baseStream) { this.baseStream = baseStream; }
    private Stream baseStream;

    // Delegate all operations except Seek/CanSeek to baseStream

    public override bool CanSeek { get { return true; } }
    public override long Seek(long offset, SeekOrigin origin) { return baseStream.Position; }
}

If the player is seeking for no good reason, this might just work.

share|improve this answer
    
Interesting idea. Unfortunately, the NAudio Mp3FileStream does a series of seek and read operations that need valid data. – Brannon Oct 25 '12 at 4:18

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