#!/usr/bin/env python3 # Copyright (c) Facebook, Inc. and its affiliates. # # This source code is licensed under the MIT license found in the # LICENSE file in the root directory of this source tree. """ Helper script to pre-compute embeddings for a flashlight (previously called wav2letter++) dataset """ import argparse import glob import os from shutil import copy import h5py import numpy as np import soundfile as sf import torch import tqdm import fairseq from torch import nn def read_audio(fname): """ Load an audio file and return PCM along with the sample rate """ wav, sr = sf.read(fname) assert sr == 16e3 return wav, 16e3 class PretrainedWav2VecModel(nn.Module): def __init__(self, fname): super().__init__() model, cfg, task = fairseq.checkpoint_utils.load_model_ensemble_and_task([fname]) model = model[0] model.eval() self.model = model def forward(self, x): with torch.no_grad(): z = self.model.feature_extractor(x) if isinstance(z, tuple): z = z[0] c = self.model.feature_aggregator(z) return z, c class EmbeddingWriterConfig(argparse.ArgumentParser): def __init__(self): super().__init__("Pre-compute embeddings for flashlight datasets") kwargs = {"action": "store", "type": str, "required": True} self.add_argument("--input", "-i", help="Input Directory", **kwargs) self.add_argument("--output", "-o", help="Output Directory", **kwargs) self.add_argument("--model", help="Path to model checkpoint", **kwargs) self.add_argument("--split", help="Dataset Splits", nargs="+", **kwargs) self.add_argument( "--ext", default="wav", required=False, help="Audio file extension" ) self.add_argument( "--no-copy-labels", action="store_true", help="Do not copy label files. Useful for large datasets, use --targetdir in flashlight then.", ) self.add_argument( "--use-feat", action="store_true", help="Use the feature vector ('z') instead of context vector ('c') for features", ) self.add_argument("--gpu", help="GPU to use", default=0, type=int) class Prediction: """ Lightweight wrapper around a fairspeech embedding model """ def __init__(self, fname, gpu=0): self.gpu = gpu self.model = PretrainedWav2VecModel(fname).cuda(gpu) def __call__(self, x): x = torch.from_numpy(x).float().cuda(self.gpu) with torch.no_grad(): z, c = self.model(x.unsqueeze(0)) return z.squeeze(0).cpu().numpy(), c.squeeze(0).cpu().numpy() class H5Writer: """ Write features as hdf5 file in flashlight compatible format """ def __init__(self, fname): self.fname = fname os.makedirs(os.path.dirname(self.fname), exist_ok=True) def write(self, data): channel, T = data.shape with h5py.File(self.fname, "w") as out_ds: data = data.T.flatten() out_ds["features"] = data out_ds["info"] = np.array([16e3 // 160, T, channel]) class EmbeddingDatasetWriter(object): """Given a model and a flashlight dataset, pre-compute and store embeddings Args: input_root, str : Path to the flashlight dataset output_root, str : Desired output directory. Will be created if non-existent split, str : Dataset split """ def __init__( self, input_root, output_root, split, model_fname, extension="wav", gpu=0, verbose=False, use_feat=False, ): assert os.path.exists(model_fname) self.model_fname = model_fname self.model = Prediction(self.model_fname, gpu) self.input_root = input_root self.output_root = output_root self.split = split self.verbose = verbose self.extension = extension self.use_feat = use_feat assert os.path.exists(self.input_path), "Input path '{}' does not exist".format( self.input_path ) def _progress(self, iterable, **kwargs): if self.verbose: return tqdm.tqdm(iterable, **kwargs) return iterable def require_output_path(self, fname=None): path = self.get_output_path(fname) os.makedirs(path, exist_ok=True) @property def input_path(self): return self.get_input_path() @property def output_path(self): return self.get_output_path() def get_input_path(self, fname=None): if fname is None: return os.path.join(self.input_root, self.split) return os.path.join(self.get_input_path(), fname) def get_output_path(self, fname=None): if fname is None: return os.path.join(self.output_root, self.split) return os.path.join(self.get_output_path(), fname) def copy_labels(self): self.require_output_path() labels = list( filter( lambda x: self.extension not in x, glob.glob(self.get_input_path("*")) ) ) for fname in tqdm.tqdm(labels): copy(fname, self.output_path) @property def input_fnames(self): return sorted(glob.glob(self.get_input_path("*.{}".format(self.extension)))) def __len__(self): return len(self.input_fnames) def write_features(self): paths = self.input_fnames fnames_context = map( lambda x: os.path.join( self.output_path, x.replace("." + self.extension, ".h5context") ), map(os.path.basename, paths), ) for name, target_fname in self._progress( zip(paths, fnames_context), total=len(self) ): wav, sr = read_audio(name) z, c = self.model(wav) feat = z if self.use_feat else c writer = H5Writer(target_fname) writer.write(feat) def __repr__(self): return "EmbeddingDatasetWriter ({n_files} files)\n\tinput:\t{input_root}\n\toutput:\t{output_root}\n\tsplit:\t{split})".format( n_files=len(self), **self.__dict__ ) if __name__ == "__main__": args = EmbeddingWriterConfig().parse_args() for split in args.split: writer = EmbeddingDatasetWriter( input_root=args.input, output_root=args.output, split=split, model_fname=args.model, gpu=args.gpu, extension=args.ext, use_feat=args.use_feat, ) print(writer) writer.require_output_path() print("Writing Features...") writer.write_features() print("Done.") if not args.no_copy_labels: print("Copying label data...") writer.copy_labels() print("Done.")