import os from dataclasses import dataclass, field from io import BytesIO from typing import TYPE_CHECKING, Any, ClassVar, Optional, Union import numpy as np import pyarrow as pa from .. import config from ..download.download_config import DownloadConfig from ..table import array_cast from ..utils.file_utils import xopen, xsplitext from ..utils.py_utils import no_op_if_value_is_null, string_to_dict if TYPE_CHECKING: from .features import FeatureType @dataclass class Audio: """Audio [`Feature`] to extract audio data from an audio file. Input: The Audio feature accepts as input: - A `str`: Absolute path to the audio file (i.e. random access is allowed). - A `dict` with the keys: - `path`: String with relative path of the audio file to the archive file. - `bytes`: Bytes content of the audio file. This is useful for archived files with sequential access. - A `dict` with the keys: - `path`: String with relative path of the audio file to the archive file. - `array`: Array containing the audio sample - `sampling_rate`: Integer corresponding to the sampling rate of the audio sample. This is useful for archived files with sequential access. Args: sampling_rate (`int`, *optional*): Target sampling rate. If `None`, the native sampling rate is used. mono (`bool`, defaults to `True`): Whether to convert the audio signal to mono by averaging samples across channels. decode (`bool`, defaults to `True`): Whether to decode the audio data. If `False`, returns the underlying dictionary in the format `{"path": audio_path, "bytes": audio_bytes}`. Example: ```py >>> from datasets import load_dataset, Audio >>> ds = load_dataset("PolyAI/minds14", name="en-US", split="train") >>> ds = ds.cast_column("audio", Audio(sampling_rate=16000)) >>> ds[0]["audio"] {'array': array([ 2.3443763e-05, 2.1729663e-04, 2.2145823e-04, ..., 3.8356509e-05, -7.3497440e-06, -2.1754686e-05], dtype=float32), 'path': '/root/.cache/huggingface/datasets/downloads/extracted/f14948e0e84be638dd7943ac36518a4cf3324e8b7aa331c5ab11541518e9368c/en-US~JOINT_ACCOUNT/602ba55abb1e6d0fbce92065.wav', 'sampling_rate': 16000} ``` """ sampling_rate: Optional[int] = None mono: bool = True decode: bool = True id: Optional[str] = None # Automatically constructed dtype: ClassVar[str] = "dict" pa_type: ClassVar[Any] = pa.struct({"bytes": pa.binary(), "path": pa.string()}) _type: str = field(default="Audio", init=False, repr=False) def __call__(self): return self.pa_type def encode_example(self, value: Union[str, bytes, bytearray, dict]) -> dict: """Encode example into a format for Arrow. Args: value (`str` or `dict`): Data passed as input to Audio feature. Returns: `dict` """ try: import soundfile as sf # soundfile is a dependency of librosa, needed to decode audio files. except ImportError as err: raise ImportError("To support encoding audio data, please install 'soundfile'.") from err if isinstance(value, str): return {"bytes": None, "path": value} elif isinstance(value, (bytes, bytearray)): return {"bytes": value, "path": None} elif "array" in value: # convert the audio array to wav bytes buffer = BytesIO() sf.write(buffer, value["array"], value["sampling_rate"], format="wav") return {"bytes": buffer.getvalue(), "path": None} elif value.get("path") is not None and os.path.isfile(value["path"]): # we set "bytes": None to not duplicate the data if they're already available locally if value["path"].endswith("pcm"): # "PCM" only has raw audio bytes if value.get("sampling_rate") is None: # At least, If you want to convert "PCM-byte" to "WAV-byte", you have to know sampling rate raise KeyError("To use PCM files, please specify a 'sampling_rate' in Audio object") if value.get("bytes"): # If we already had PCM-byte, we don`t have to make "read file, make bytes" (just use it!) bytes_value = np.frombuffer(value["bytes"], dtype=np.int16).astype(np.float32) / 32767 else: bytes_value = np.memmap(value["path"], dtype="h", mode="r").astype(np.float32) / 32767 buffer = BytesIO(b"") sf.write(buffer, bytes_value, value["sampling_rate"], format="wav") return {"bytes": buffer.getvalue(), "path": None} else: return {"bytes": None, "path": value.get("path")} elif value.get("bytes") is not None or value.get("path") is not None: # store the audio bytes, and path is used to infer the audio format using the file extension return {"bytes": value.get("bytes"), "path": value.get("path")} else: raise ValueError( f"An audio sample should have one of 'path' or 'bytes' but they are missing or None in {value}." ) def decode_example( self, value: dict, token_per_repo_id: Optional[dict[str, Union[str, bool, None]]] = None ) -> dict: """Decode example audio file into audio data. Args: value (`dict`): A dictionary with keys: - `path`: String with relative audio file path. - `bytes`: Bytes of the audio file. token_per_repo_id (`dict`, *optional*): To access and decode audio files from private repositories on the Hub, you can pass a dictionary repo_id (`str`) -> token (`bool` or `str`) Returns: `dict` """ if not self.decode: raise RuntimeError("Decoding is disabled for this feature. Please use Audio(decode=True) instead.") path, file = (value["path"], BytesIO(value["bytes"])) if value["bytes"] is not None else (value["path"], None) if path is None and file is None: raise ValueError(f"An audio sample should have one of 'path' or 'bytes' but both are None in {value}.") try: import librosa import soundfile as sf except ImportError as err: raise ImportError("To support decoding audio files, please install 'librosa' and 'soundfile'.") from err audio_format = xsplitext(path)[1][1:].lower() if path is not None else None if not config.IS_OPUS_SUPPORTED and audio_format == "opus": raise RuntimeError( "Decoding 'opus' files requires system library 'libsndfile'>=1.0.31, " 'You can try to update `soundfile` python library: `pip install "soundfile>=0.12.1"`. ' ) elif not config.IS_MP3_SUPPORTED and audio_format == "mp3": raise RuntimeError( "Decoding 'mp3' files requires system library 'libsndfile'>=1.1.0, " 'You can try to update `soundfile` python library: `pip install "soundfile>=0.12.1"`. ' ) if file is None: token_per_repo_id = token_per_repo_id or {} source_url = path.split("::")[-1] pattern = ( config.HUB_DATASETS_URL if source_url.startswith(config.HF_ENDPOINT) else config.HUB_DATASETS_HFFS_URL ) source_url_fields = string_to_dict(source_url, pattern) token = token_per_repo_id.get(source_url_fields["repo_id"]) if source_url_fields is not None else None download_config = DownloadConfig(token=token) with xopen(path, "rb", download_config=download_config) as f: array, sampling_rate = sf.read(f) else: array, sampling_rate = sf.read(file) array = array.T if self.mono: array = librosa.to_mono(array) if self.sampling_rate and self.sampling_rate != sampling_rate: array = librosa.resample(array, orig_sr=sampling_rate, target_sr=self.sampling_rate) sampling_rate = self.sampling_rate return {"path": path, "array": array, "sampling_rate": sampling_rate} def flatten(self) -> Union["FeatureType", dict[str, "FeatureType"]]: """If in the decodable state, raise an error, otherwise flatten the feature into a dictionary.""" from .features import Value if self.decode: raise ValueError("Cannot flatten a decoded Audio feature.") return { "bytes": Value("binary"), "path": Value("string"), } def cast_storage(self, storage: Union[pa.StringArray, pa.StructArray]) -> pa.StructArray: """Cast an Arrow array to the Audio arrow storage type. The Arrow types that can be converted to the Audio pyarrow storage type are: - `pa.string()` - it must contain the "path" data - `pa.binary()` - it must contain the audio bytes - `pa.struct({"bytes": pa.binary()})` - `pa.struct({"path": pa.string()})` - `pa.struct({"bytes": pa.binary(), "path": pa.string()})` - order doesn't matter Args: storage (`Union[pa.StringArray, pa.StructArray]`): PyArrow array to cast. Returns: `pa.StructArray`: Array in the Audio arrow storage type, that is `pa.struct({"bytes": pa.binary(), "path": pa.string()})` """ if pa.types.is_string(storage.type): bytes_array = pa.array([None] * len(storage), type=pa.binary()) storage = pa.StructArray.from_arrays([bytes_array, storage], ["bytes", "path"], mask=storage.is_null()) elif pa.types.is_binary(storage.type): path_array = pa.array([None] * len(storage), type=pa.string()) storage = pa.StructArray.from_arrays([storage, path_array], ["bytes", "path"], mask=storage.is_null()) elif pa.types.is_struct(storage.type) and storage.type.get_all_field_indices("array"): storage = pa.array([Audio().encode_example(x) if x is not None else None for x in storage.to_pylist()]) elif pa.types.is_struct(storage.type): if storage.type.get_field_index("bytes") >= 0: bytes_array = storage.field("bytes") else: bytes_array = pa.array([None] * len(storage), type=pa.binary()) if storage.type.get_field_index("path") >= 0: path_array = storage.field("path") else: path_array = pa.array([None] * len(storage), type=pa.string()) storage = pa.StructArray.from_arrays([bytes_array, path_array], ["bytes", "path"], mask=storage.is_null()) return array_cast(storage, self.pa_type) def embed_storage(self, storage: pa.StructArray) -> pa.StructArray: """Embed audio files into the Arrow array. Args: storage (`pa.StructArray`): PyArrow array to embed. Returns: `pa.StructArray`: Array in the Audio arrow storage type, that is `pa.struct({"bytes": pa.binary(), "path": pa.string()})`. """ @no_op_if_value_is_null def path_to_bytes(path): with xopen(path, "rb") as f: bytes_ = f.read() return bytes_ bytes_array = pa.array( [ (path_to_bytes(x["path"]) if x["bytes"] is None else x["bytes"]) if x is not None else None for x in storage.to_pylist() ], type=pa.binary(), ) path_array = pa.array( [os.path.basename(path) if path is not None else None for path in storage.field("path").to_pylist()], type=pa.string(), ) storage = pa.StructArray.from_arrays([bytes_array, path_array], ["bytes", "path"], mask=bytes_array.is_null()) return array_cast(storage, self.pa_type)