// Copyright (c) 2023 Xiaomi Corporation // Copyright (c) 2023 by manyeyes // // This file shows how to use a non-streaming model to decode files // Please refer to // https://k2-fsa.github.io/sherpa/onnx/pretrained_models/index.html // to download non-streaming models using CommandLine.Text; using CommandLine; using SherpaOnnx; using System.Collections.Generic; using System; class OfflineDecodeFiles { class Options { [Option("sample-rate", Required = false, Default = 16000, HelpText = "Sample rate of the data used to train the model")] public int SampleRate { get; set; } [Option("feat-dim", Required = false, Default = 80, HelpText = "Dimension of the features used to train the model")] public int FeatureDim { get; set; } [Option(Required = false, HelpText = "Path to tokens.txt")] public string Tokens { get; set; } [Option(Required = false, Default = "", HelpText = "Path to transducer encoder.onnx. Used only for transducer models")] public string Encoder { get; set; } [Option(Required = false, Default = "", HelpText = "Path to transducer decoder.onnx. Used only for transducer models")] public string Decoder { get; set; } [Option(Required = false, Default = "",HelpText = "Path to transducer joiner.onnx. Used only for transducer models")] public string Joiner { get; set; } [Option("whisper-encoder", Required = false, Default = "", HelpText = "Path to whisper encoder.onnx. Used only for whisper models")] public string WhisperEncoder { get; set; } [Option("whisper-decoder", Required = false, Default = "", HelpText = "Path to whisper decoder.onnx. Used only for whisper models")] public string WhisperDecoder { get; set; } [Option("tdnn-model", Required = false, Default = "", HelpText = "Path to tdnn yesno model")] public string TdnnModel { get; set; } [Option(Required = false, HelpText = "Path to model.onnx. Used only for paraformer models")] public string Paraformer { get; set; } [Option("nemo-ctc", Required = false, HelpText = "Path to model.onnx. Used only for NeMo CTC models")] public string NeMoCtc { get; set; } [Option("num-threads", Required = false, Default = 1, HelpText = "Number of threads for computation")] public int NumThreads { get; set; } [Option("decoding-method", Required = false, Default = "greedy_search", HelpText = "Valid decoding methods are: greedy_search, modified_beam_search")] public string DecodingMethod { get; set; } [Option("max-active-paths", Required = false, Default = 4, HelpText = @"Used only when --decoding--method is modified_beam_search. It specifies number of active paths to keep during the search")] public int MaxActivePaths { get; set; } [Option("files", Required = true, HelpText = "Audio files for decoding")] public IEnumerable Files { get; set; } } static void Main(string[] args) { var parser = new CommandLine.Parser(with => with.HelpWriter = null); var parserResult = parser.ParseArguments(args); parserResult .WithParsed(options => Run(options)) .WithNotParsed(errs => DisplayHelp(parserResult, errs)); } private static void DisplayHelp(ParserResult result, IEnumerable errs) { string usage = @" # Zipformer dotnet run \ --tokens=./sherpa-onnx-zipformer-en-2023-04-01/tokens.txt \ --encoder=./sherpa-onnx-zipformer-en-2023-04-01/encoder-epoch-99-avg-1.onnx \ --decoder=./sherpa-onnx-zipformer-en-2023-04-01/decoder-epoch-99-avg-1.onnx \ --joiner=./sherpa-onnx-zipformer-en-2023-04-01/joiner-epoch-99-avg-1.onnx \ --files ./sherpa-onnx-zipformer-en-2023-04-01/test_wavs/0.wav \ ./sherpa-onnx-zipformer-en-2023-04-01/test_wavs/1.wav \ ./sherpa-onnx-zipformer-en-2023-04-01/test_wavs/8k.wav Please refer to https://k2-fsa.github.io/sherpa/onnx/pretrained_models/offline-transducer/index.html to download pre-trained non-streaming zipformer models. # Paraformer dotnet run \ --tokens=./sherpa-onnx-paraformer-zh-2023-03-28/tokens.txt \ --paraformer=./sherpa-onnx-paraformer-zh-2023-03-28/model.onnx \ --files ./sherpa-onnx-zipformer-en-2023-04-01/test_wavs/0.wav \ ./sherpa-onnx-paraformer-zh-2023-03-28/test_wavs/0.wav \ ./sherpa-onnx-paraformer-zh-2023-03-28/test_wavs/1.wav \ ./sherpa-onnx-paraformer-zh-2023-03-28/test_wavs/2.wav \ ./sherpa-onnx-paraformer-zh-2023-03-28/test_wavs/8k.wav Please refer to https://k2-fsa.github.io/sherpa/onnx/pretrained_models/offline-paraformer/index.html to download pre-trained paraformer models # NeMo CTC dotnet run \ --tokens=./sherpa-onnx-nemo-ctc-en-conformer-medium/tokens.txt \ --nemo-ctc=./sherpa-onnx-nemo-ctc-en-conformer-medium/model.onnx \ --num-threads=1 \ --files ./sherpa-onnx-nemo-ctc-en-conformer-medium/test_wavs/0.wav \ ./sherpa-onnx-nemo-ctc-en-conformer-medium/test_wavs/1.wav \ ./sherpa-onnx-nemo-ctc-en-conformer-medium/test_wavs/8k.wav Please refer to https://k2-fsa.github.io/sherpa/onnx/pretrained_models/offline-ctc/index.html to download pre-trained paraformer models # Whisper dotnet run \ --whisper-encoder=./sherpa-onnx-whisper-tiny.en/tiny.en-encoder.onnx \ --whisper-decoder=./sherpa-onnx-whisper-tiny.en/tiny.en-decoder.onnx \ --tokens=./sherpa-onnx-whisper-tiny.en/tiny.en-tokens.txt \ --files ./sherpa-onnx-whisper-tiny.en/test_wavs/0.wav \ ./sherpa-onnx-whisper-tiny.en/test_wavs/1.wav \ ./sherpa-onnx-whisper-tiny.en/test_wavs/8k.wav Please refer to https://k2-fsa.github.io/sherpa/onnx/pretrained_models/whisper/tiny.en.html to download pre-trained whisper models. # Tdnn yesno dotnet run \ --sample-rate=8000 \ --feat-dim=23 \ --tokens=./sherpa-onnx-tdnn-yesno/tokens.txt \ --tdnn-model=./sherpa-onnx-tdnn-yesno/model-epoch-14-avg-2.onnx \ --files ./sherpa-onnx-tdnn-yesno/test_wavs/0_0_0_1_0_0_0_1.wav \ ./sherpa-onnx-tdnn-yesno/test_wavs/0_0_1_0_0_0_1_0.wav \ ./sherpa-onnx-tdnn-yesno/test_wavs/0_0_1_0_0_1_1_1.wav \ ./sherpa-onnx-tdnn-yesno/test_wavs/0_0_1_0_1_0_0_1.wav \ ./sherpa-onnx-tdnn-yesno/test_wavs/0_0_1_1_0_0_0_1.wav \ ./sherpa-onnx-tdnn-yesno/test_wavs/0_0_1_1_0_1_1_0.wav Please refer to https://k2-fsa.github.io/sherpa/onnx/pretrained_models/offline-ctc/yesno/index.html to download pre-trained Tdnn models. "; var helpText = HelpText.AutoBuild(result, h => { h.AdditionalNewLineAfterOption = false; h.Heading = usage; h.Copyright = "Copyright (c) 2023 Xiaomi Corporation"; return HelpText.DefaultParsingErrorsHandler(result, h); }, e => e); Console.WriteLine(helpText); } private static void Run(Options options) { OfflineRecognizerConfig config = new OfflineRecognizerConfig(); config.FeatConfig.SampleRate = options.SampleRate; config.FeatConfig.FeatureDim = options.FeatureDim; config.ModelConfig.Tokens = options.Tokens; if (!String.IsNullOrEmpty(options.Encoder)) { // this is a transducer model config.ModelConfig.Transducer.Encoder = options.Encoder; config.ModelConfig.Transducer.Decoder = options.Decoder; config.ModelConfig.Transducer.Joiner = options.Joiner; } else if (!String.IsNullOrEmpty(options.Paraformer)) { config.ModelConfig.Paraformer.Model = options.Paraformer; } else if (!String.IsNullOrEmpty(options.NeMoCtc)) { config.ModelConfig.NeMoCtc.Model = options.NeMoCtc; } else if (!String.IsNullOrEmpty(options.WhisperEncoder)) { config.ModelConfig.Whisper.Encoder = options.WhisperEncoder; config.ModelConfig.Whisper.Decoder = options.WhisperDecoder; } else if (!String.IsNullOrEmpty(options.TdnnModel)) { config.ModelConfig.Tdnn.Model = options.TdnnModel; } else { Console.WriteLine("Please provide a model"); return; } config.DecodingMethod = options.DecodingMethod; config.MaxActivePaths = options.MaxActivePaths; config.ModelConfig.Debug = 0; OfflineRecognizer recognizer = new OfflineRecognizer(config); string[] files = options.Files.ToArray(); // We create a separate stream for each file List streams = new List(); streams.EnsureCapacity(files.Length); for (int i = 0; i != files.Length; ++i) { OfflineStream s = recognizer.CreateStream(); WaveReader waveReader = new WaveReader(files[i]); s.AcceptWaveform(waveReader.SampleRate, waveReader.Samples); streams.Add(s); } recognizer.Decode(streams); // display results for (int i = 0; i != files.Length; ++i) { var text = streams[i].Result.Text; Console.WriteLine("--------------------"); Console.WriteLine(files[i]); Console.WriteLine(text); } Console.WriteLine("--------------------"); } }