Exemplo n.º 1
0
        /// <summary>
        /// Initializes a new instance of the <see cref="FFMPEGMediaSource"/> class.
        /// </summary>
        /// <param name="pipeline">Pipeline this component is a part of</param>
        /// <param name="filename">Name of media file to play</param>
        /// <param name="format">Output format for images</param>
        public FFMPEGMediaSource(Pipeline pipeline, string filename, PixelFormat format = PixelFormat.BGRX_32bpp)
            : base(pipeline)
        {
            FileInfo info = new FileInfo(filename);

            pipeline.ProposeReplayTime(new TimeInterval(info.CreationTime, DateTime.MaxValue), new TimeInterval(info.CreationTime, DateTime.MaxValue));
            this.start      = info.CreationTime;
            this.filename   = filename;
            this.Image      = pipeline.CreateEmitter <Shared <Image> >(this, nameof(this.Image));
            this.Audio      = pipeline.CreateEmitter <AudioBuffer>(this, nameof(this.Audio));
            this.mpegReader = new FFMPEGReader((format == PixelFormat.BGRX_32bpp) ? 32 : 24);
            this.mpegReader.Open(filename, new FFMPEGReaderConfiguration());
            this.waveFormat      = WaveFormat.CreatePcm(this.mpegReader.AudioSampleRate, this.mpegReader.AudioBitsPerSample, this.mpegReader.AudioNumChannels);
            this.outputFormat    = format;
            this.audioBufferSize = 0;
            this.audioData       = IntPtr.Zero;
            this.audioDataSize   = 0;
        }
Exemplo n.º 2
0
        public void WaveFormat_CreatePcm()
        {
            // Define "native" WAVEFORMATEX structure for PCM
            byte[] formatBytes = new byte[]
            {
                0x01, 0x00,             // FormatTag = 1
                0x02, 0x00,             // Channels = 2
                0x44, 0xac, 0x00, 0x00, // SamplesPerSec = 44100
                0x10, 0xb1, 0x02, 0x00, // AvgBytesPerSec = 176400
                0x04, 0x00,             // BlockAlign = 4
                0x10, 0x00,             // BitsPerSample = 16
                0x00, 0x00,             // ExtraSize = 0
            };

            // Create equivalent managed WaveFormat object
            WaveFormat format = WaveFormat.CreatePcm(44100, 16, 2);

            // Verify against expected
            this.MarshalAndVerify(format, formatBytes);
        }
Exemplo n.º 3
0
        /// <summary>
        /// Called by the ctor to configure the media playback component.
        /// </summary>
        private void InitializeMediaPipeline()
        {
            MediaManager.Startup(false);
            MediaAttributes sourceReaderAttributes = new MediaAttributes();

            sourceReaderAttributes.Set(SourceReaderAttributeKeys.EnableAdvancedVideoProcessing, true);
            this.sourceReader = new SourceReader(this.filename, sourceReaderAttributes);
            this.sourceReader.SetStreamSelection(SourceReaderIndex.AllStreams, false);

            int  streamIndex     = 0;
            bool doneEnumerating = false;

            while (!doneEnumerating)
            {
                try
                {
                    MediaType mediaType = this.sourceReader.GetCurrentMediaType(streamIndex);
                    var       subType   = mediaType.Get(MediaTypeAttributeKeys.Subtype);
                    DumpMediaType(mediaType);

                    if (mediaType.MajorType == MediaTypeGuids.Video && this.imageStreamIndex == -1)
                    {
                        this.imageStreamIndex = streamIndex;

                        // get the image size
                        long frameSize = mediaType.Get(MediaTypeAttributeKeys.FrameSize);
                        this.videoHeight = (short)frameSize;
                        this.videoWidth  = (short)(frameSize >> 32);

                        // enable the stream and set the current media type
                        this.sourceReader.SetStreamSelection(this.imageStreamIndex, true);
                        mediaType = new MediaType();
                        mediaType.Set(MediaTypeAttributeKeys.MajorType, MediaTypeGuids.Video);
                        mediaType.Set(MediaTypeAttributeKeys.Subtype, VideoFormatGuids.Rgb24);
                        mediaType.Set(MediaTypeAttributeKeys.FrameSize, frameSize);
                        this.sourceReader.SetCurrentMediaType(this.imageStreamIndex, mediaType);
                    }
                    else if (mediaType.MajorType == MediaTypeGuids.Audio && this.audioStreamIndex == -1)
                    {
                        this.audioStreamIndex = streamIndex;

                        // enable the stream and set the current media type to PCM
                        this.sourceReader.SetStreamSelection(this.audioStreamIndex, true);
                        mediaType = new MediaType();
                        mediaType.Set(MediaTypeAttributeKeys.MajorType, MediaTypeGuids.Audio);
                        mediaType.Set(MediaTypeAttributeKeys.Subtype, AudioFormatGuids.Pcm);
                        this.sourceReader.SetCurrentMediaType(this.audioStreamIndex, mediaType);

                        // get back all the media type details
                        mediaType = this.sourceReader.GetCurrentMediaType(this.audioStreamIndex);
                        int numberOfChannels = mediaType.Get(MediaTypeAttributeKeys.AudioNumChannels);
                        int sampleRate       = mediaType.Get(MediaTypeAttributeKeys.AudioSamplesPerSecond);
                        int bitsPerSample    = mediaType.Get(MediaTypeAttributeKeys.AudioBitsPerSample);

                        // post our output audio format
                        this.waveFormat = WaveFormat.CreatePcm(sampleRate, bitsPerSample, numberOfChannels);
                    }
                }
                catch (Exception e)
                {
                    Debug.Write(e.GetType());

                    // expected thrown exception
                    // unfortunately no way to tell how many streams other than trying
                    doneEnumerating = true;
                }

                streamIndex += 1;
            }
        }
Exemplo n.º 4
0
 private void ButtonCreatePcm_Click(object sender, RoutedEventArgs e)
 {
     Update(WaveFormat.CreatePcm((int)Format.SamplesPerSec, Format.BitsPerSample, Format.Channels));
 }
Exemplo n.º 5
0
        public async Task TranscribeConversationsAsync(IEnumerable <string> voiceSignatureStringUsers)
        {
            uint samplesPerSecond = 16000;
            byte bitsPerSample    = 16;
            byte channels         = 8; // 7 + 1 channels

            var config = SpeechConfig.FromSubscription(this.SubscriptionKey, this.Region);

            config.SetProperty("ConversationTranscriptionInRoomAndOnline", "true");
            var stopRecognition = new TaskCompletionSource <int>();

            using (var audioInput = AudioInputStream.CreatePushStream(AudioStreamFormat.GetWaveFormatPCM(samplesPerSecond, bitsPerSample, channels)))
            {
                var meetingID = Guid.NewGuid().ToString();
                using (var conversation = await Conversation.CreateConversationAsync(config, meetingID))
                {
                    // create a conversation transcriber using audio stream input
                    using (this.conversationTranscriber = new ConversationTranscriber(AudioConfig.FromStreamInput(audioInput)))
                    {
                        conversationTranscriber.Transcribing += (s, e) =>
                        {
                            this.SetText($"TRANSCRIBING: Text={e.Result.Text} SpeakerId={e.Result.UserId}");
                        };

                        conversationTranscriber.Transcribed += (s, e) =>
                        {
                            if (e.Result.Reason == ResultReason.RecognizedSpeech)
                            {
                                this.SetText($"TRANSCRIBED: Text={e.Result.Text} SpeakerId={e.Result.UserId}");
                            }
                            else if (e.Result.Reason == ResultReason.NoMatch)
                            {
                                this.SetText($"NOMATCH: Speech could not be recognized.");
                            }
                        };

                        conversationTranscriber.Canceled += (s, e) =>
                        {
                            this.SetText($"CANCELED: Reason={e.Reason}");

                            if (e.Reason == CancellationReason.Error)
                            {
                                this.SetText($"CANCELED: ErrorCode={e.ErrorCode}");
                                this.SetText($"CANCELED: ErrorDetails={e.ErrorDetails}");
                                this.SetText($"CANCELED: Did you update the subscription info?");
                                stopRecognition.TrySetResult(0);
                            }
                        };

                        conversationTranscriber.SessionStarted += (s, e) =>
                        {
                            this.SetText($"\nSession started event. SessionId={e.SessionId}");
                        };

                        conversationTranscriber.SessionStopped += (s, e) =>
                        {
                            this.SetText($"\nSession stopped event. SessionId={e.SessionId}");
                            this.SetText("\nStop recognition.");
                            stopRecognition.TrySetResult(0);
                        };

                        // Add participants to the conversation.
                        int i = 1;
                        foreach (var voiceSignatureStringUser in voiceSignatureStringUsers)
                        {
                            var speaker = Participant.From($"User{i++}", "en-US", voiceSignatureStringUser);
                            await conversation.AddParticipantAsync(speaker);
                        }

                        // Join to the conversation and start transcribing
                        await conversationTranscriber.JoinConversationAsync(conversation);

                        await conversationTranscriber.StartTranscribingAsync().ConfigureAwait(false);

                        using (var p = Pipeline.Create())
                        {
                            var store   = PsiStore.Create(p, "Transcribe", @"D:\Temp");
                            var capture = new AudioCapture(p, WaveFormat.CreatePcm((int)samplesPerSecond, bitsPerSample, channels)).Write("Audio", store);
                            capture.Do(audio => audioInput.Write(audio.Data));
                            p.RunAsync();

                            // waits for completion, then stop transcription
                            await stopRecognition.Task;
                        }

                        await conversationTranscriber.StopTranscribingAsync().ConfigureAwait(false);
                    }
                }
            }
        }