protected void ProcessFrameReceived(object sender, NDI.VideoFrameReceivedEventArgs e)
        {
            if (!_BufferAllocated)
            {
                if (_FourCC != e.Frame.FourCC)
                {
                    string receivedFormatName = OutputFormat.FourCCToFormatName(e.Frame.FourCC);
                    if (receivedFormatName.Length == 0)
                    {
                        receivedFormatName = e.Frame.FourCC.ToString("X8");
                    }
                    _Log.Error($"Specified format {OutputFormat.Name} doesn't match NDI device format {receivedFormatName}");
                }

                _Log.Debug($"Creating video buffer {e.Frame.Width}x{e.Frame.Height} {OutputFormat.Name}");
                AllocateBuffer(e.Frame.Width, e.Frame.Height);
            }
            else if (e.Frame.Width != _Buffer.Width || e.Frame.Height != _Buffer.Height)
            {
                _Log.Debug($"Video size changed to {e.Frame.Width}x{e.Frame.Height}");
                if (e.Frame.Width * e.Frame.Height > _AllocatedPixels)
                {
                    // Only reallocate if pixel count increased
                    _Buffer.Free();
                    _BufferAllocated = false;
                    _Log.Debug($"Re-creating video buffer");
                    AllocateBuffer(e.Frame.Width, e.Frame.Height);
                }
                else
                {
                    _Buffer.Width  = e.Frame.Width;
                    _Buffer.Height = e.Frame.Height;
                    _Buffer.Stride = e.Frame.Stride;
                }
            }

            // Populate buffer with NDI frame data
            Marshal.Copy(e.Frame.BufferPtr, _Buffer.DataBuffer.Data, 0, e.Frame.Height * e.Frame.Stride);

            RaiseFrame(new VideoFrame(_Buffer));
        }
        // the receive thread runs though this loop until told to exit
        void ReceiveThreadProc()
        {
            while (!_exitThread && _recvInstancePtr != IntPtr.Zero)
            {
                // The descriptors
                NDIlib.video_frame_v2_t videoFrame    = new NDIlib.video_frame_v2_t();
                NDIlib.audio_frame_v2_t audioFrame    = new NDIlib.audio_frame_v2_t();
                NDIlib.metadata_frame_t metadataFrame = new NDIlib.metadata_frame_t();

                switch (NDIlib.recv_capture_v2(_recvInstancePtr, ref videoFrame, ref audioFrame, ref metadataFrame, 1000))
                {
                // No data
                case NDIlib.frame_type_e.frame_type_none:
                    // No data received
                    ReceivingFrames = false;
                    break;

                // frame settings - check for extended functionality
                case NDIlib.frame_type_e.frame_type_status_change:
                    // check for PTZ
                    IsPtz = NDIlib.recv_ptz_is_supported(_recvInstancePtr);

                    // Check for recording
                    IsRecordingSupported = NDIlib.recv_recording_is_supported(_recvInstancePtr);

                    // Check for a web control URL
                    // We must free this string ptr if we get one.
                    IntPtr webUrlPtr = NDIlib.recv_get_web_control(_recvInstancePtr);
                    if (webUrlPtr == IntPtr.Zero)
                    {
                        WebControlUrl = String.Empty;
                    }
                    else
                    {
                        // convert to managed String
                        WebControlUrl = NDI.UTF.Utf8ToString(webUrlPtr);

                        // Don't forget to free the string ptr
                        NDIlib.recv_free_string(_recvInstancePtr, webUrlPtr);
                    }

                    break;

                // Video data
                case NDIlib.frame_type_e.frame_type_video:
                    Connected       = true;
                    ReceivingFrames = true;

                    // if not enabled, just discard
                    // this can also occasionally happen when changing sources
                    if (!_videoEnabled || videoFrame.p_data == IntPtr.Zero)
                    {
                        // alreays free received frames
                        NDIlib.recv_free_video_v2(_recvInstancePtr, ref videoFrame);

                        break;
                    }

                    VideoFrameReceivedEventArgs videoArgs = new VideoFrameReceivedEventArgs();
                    videoArgs.Frame = new VideoFrame(videoFrame);
                    VideoFrameReceived?.Invoke(this, videoArgs);

                    // free frames that were received AFTER use!
                    NDIlib.recv_free_video_v2(_recvInstancePtr, ref videoFrame);
                    break;

                // audio is beyond the scope of this example
                case NDIlib.frame_type_e.frame_type_audio:
                    Connected       = true;
                    ReceivingFrames = true;

                    // if no audio or disabled, nothing to do
                    if (!_audioEnabled || audioFrame.p_data == IntPtr.Zero || audioFrame.no_samples == 0)
                    {
                        // alreays free received frames
                        NDIlib.recv_free_audio_v2(_recvInstancePtr, ref audioFrame);

                        break;
                    }

                    // we're working in bytes, so take the size of a 16 bit sample into account
                    int sizeInBytes = (int)audioFrame.no_samples * (int)audioFrame.no_channels * sizeof(short);

                    // NDI uses planar, but we'll return interleaved which Pcm uses by default.
                    // create an interleaved frame and convert from the one we received
                    NDIlib.audio_frame_interleaved_16s_t interleavedFrame = new NDIlib.audio_frame_interleaved_16s_t()
                    {
                        sample_rate = audioFrame.sample_rate,
                        no_channels = audioFrame.no_channels,
                        no_samples  = audioFrame.no_samples,
                        timecode    = audioFrame.timecode
                    };

                    // we need a managed byte array to add to buffered provider
                    byte[] audBuffer = new byte[sizeInBytes];

                    // pin the byte[] and get a GC handle to it
                    // doing it this way saves an expensive Marshal.Alloc/Marshal.Copy/Marshal.Free later
                    // the data will only be moved once, during the fast interleave step that is required anyway
                    GCHandle handle = GCHandle.Alloc(audBuffer, GCHandleType.Pinned);

                    // access it by an IntPtr and use it for our interleaved audio buffer
                    interleavedFrame.p_data = handle.AddrOfPinnedObject();

                    // Convert from float planar to 16 bit interleaved audio
                    NDIlib.util_audio_to_interleaved_16s_v2(ref audioFrame, ref interleavedFrame);

                    AudioFrameReceivedEventArgs audioArgs = new AudioFrameReceivedEventArgs();
                    audioArgs.Frame = new AudioFrame16bpp(interleavedFrame);
                    AudioFrameReceived?.Invoke(this, audioArgs);

                    // release the pin on the byte[]
                    // never try to access p_data after the byte[] has been unpinned!
                    // that IntPtr will no longer be valid.
                    handle.Free();

                    // free the frame that was received
                    NDIlib.recv_free_audio_v2(_recvInstancePtr, ref audioFrame);
                    break;

                // Metadata
                case NDIlib.frame_type_e.frame_type_metadata:

                    // UTF-8 strings must be converted for use - length includes the terminating zero
                    //String metadata = Utf8ToString(metadataFrame.p_data, metadataFrame.length-1);

                    //System.Diagnostics.Debug.Print(metadata);

                    // free frames that were received
                    NDIlib.recv_free_metadata(_recvInstancePtr, ref metadataFrame);
                    break;

                case NDIlib.frame_type_e.frame_type_error:
                    Connected = false;
                    break;
                }
            }
        }