assistant / utils /vad.py
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import bisect
import functools
import os
import warnings
from typing import List, NamedTuple, Optional
import numpy as np
# The code below is adapted from https://github.com/snakers4/silero-vad.
class VadOptions(NamedTuple):
"""VAD options.
Attributes:
threshold: Speech threshold. Silero VAD outputs speech probabilities for each audio chunk,
probabilities ABOVE this value are considered as SPEECH. It is better to tune this
parameter for each dataset separately, but "lazy" 0.5 is pretty good for most datasets.
min_speech_duration_ms: Final speech chunks shorter min_speech_duration_ms are thrown out.
max_speech_duration_s: Maximum duration of speech chunks in seconds. Chunks longer
than max_speech_duration_s will be split at the timestamp of the last silence that
lasts more than 100ms (if any), to prevent aggressive cutting. Otherwise, they will be
split aggressively just before max_speech_duration_s.
min_silence_duration_ms: In the end of each speech chunk wait for min_silence_duration_ms
before separating it
window_size_samples: Audio chunks of window_size_samples size are fed to the silero VAD model.
WARNING! Silero VAD models were trained using 512, 1024, 1536 samples for 16000 sample rate.
Values other than these may affect model performance!!
speech_pad_ms: Final speech chunks are padded by speech_pad_ms each side
"""
threshold: float = 0.5
min_speech_duration_ms: int = 250
max_speech_duration_s: float = float("inf")
min_silence_duration_ms: int = 2000
window_size_samples: int = 1024
speech_pad_ms: int = 400
def get_speech_timestamps(
audio: np.ndarray,
vad_options: Optional[VadOptions] = None,
**kwargs,
) -> List[dict]:
"""This method is used for splitting long audios into speech chunks using silero VAD.
Args:
audio: One dimensional float array.
vad_options: Options for VAD processing.
kwargs: VAD options passed as keyword arguments for backward compatibility.
Returns:
List of dicts containing begin and end samples of each speech chunk.
"""
if vad_options is None:
vad_options = VadOptions(**kwargs)
threshold = vad_options.threshold
min_speech_duration_ms = vad_options.min_speech_duration_ms
max_speech_duration_s = vad_options.max_speech_duration_s
min_silence_duration_ms = vad_options.min_silence_duration_ms
window_size_samples = vad_options.window_size_samples
speech_pad_ms = vad_options.speech_pad_ms
if window_size_samples not in [512, 1024, 1536]:
warnings.warn(
"Unusual window_size_samples! Supported window_size_samples:\n"
" - [512, 1024, 1536] for 16000 sampling_rate"
)
sampling_rate = 16000
min_speech_samples = sampling_rate * min_speech_duration_ms / 1000
speech_pad_samples = sampling_rate * speech_pad_ms / 1000
max_speech_samples = (
sampling_rate * max_speech_duration_s
- window_size_samples
- 2 * speech_pad_samples
)
min_silence_samples = sampling_rate * min_silence_duration_ms / 1000
min_silence_samples_at_max_speech = sampling_rate * 98 / 1000
audio_length_samples = len(audio)
model = get_vad_model()
state = model.get_initial_state(batch_size=1)
speech_probs = []
for current_start_sample in range(0, audio_length_samples, window_size_samples):
chunk = audio[current_start_sample : current_start_sample + window_size_samples]
if len(chunk) < window_size_samples:
chunk = np.pad(chunk, (0, int(window_size_samples - len(chunk))))
speech_prob, state = model(chunk, state, sampling_rate)
speech_probs.append(speech_prob)
triggered = False
speeches = []
current_speech = {}
neg_threshold = threshold - 0.15
# to save potential segment end (and tolerate some silence)
temp_end = 0
# to save potential segment limits in case of maximum segment size reached
prev_end = next_start = 0
for i, speech_prob in enumerate(speech_probs):
if (speech_prob >= threshold) and temp_end:
temp_end = 0
if next_start < prev_end:
next_start = window_size_samples * i
if (speech_prob >= threshold) and not triggered:
triggered = True
current_speech["start"] = window_size_samples * i
continue
if (
triggered
and (window_size_samples * i) - current_speech["start"] > max_speech_samples
):
if prev_end:
current_speech["end"] = prev_end
speeches.append(current_speech)
current_speech = {}
# previously reached silence (< neg_thres) and is still not speech (< thres)
if next_start < prev_end:
triggered = False
else:
current_speech["start"] = next_start
prev_end = next_start = temp_end = 0
else:
current_speech["end"] = window_size_samples * i
speeches.append(current_speech)
current_speech = {}
prev_end = next_start = temp_end = 0
triggered = False
continue
if (speech_prob < neg_threshold) and triggered:
if not temp_end:
temp_end = window_size_samples * i
# condition to avoid cutting in very short silence
if (window_size_samples * i) - temp_end > min_silence_samples_at_max_speech:
prev_end = temp_end
if (window_size_samples * i) - temp_end < min_silence_samples:
continue
else:
current_speech["end"] = temp_end
if (
current_speech["end"] - current_speech["start"]
) > min_speech_samples:
speeches.append(current_speech)
current_speech = {}
prev_end = next_start = temp_end = 0
triggered = False
continue
if (
current_speech
and (audio_length_samples - current_speech["start"]) > min_speech_samples
):
current_speech["end"] = audio_length_samples
speeches.append(current_speech)
for i, speech in enumerate(speeches):
if i == 0:
speech["start"] = int(max(0, speech["start"] - speech_pad_samples))
if i != len(speeches) - 1:
silence_duration = speeches[i + 1]["start"] - speech["end"]
if silence_duration < 2 * speech_pad_samples:
speech["end"] += int(silence_duration // 2)
speeches[i + 1]["start"] = int(
max(0, speeches[i + 1]["start"] - silence_duration // 2)
)
else:
speech["end"] = int(
min(audio_length_samples, speech["end"] + speech_pad_samples)
)
speeches[i + 1]["start"] = int(
max(0, speeches[i + 1]["start"] - speech_pad_samples)
)
else:
speech["end"] = int(
min(audio_length_samples, speech["end"] + speech_pad_samples)
)
return speeches
def collect_chunks(audio: np.ndarray, chunks: List[dict]) -> np.ndarray:
"""Collects and concatenates audio chunks."""
if not chunks:
return np.array([], dtype=np.float32)
return np.concatenate([audio[chunk["start"] : chunk["end"]] for chunk in chunks])
class SpeechTimestampsMap:
"""Helper class to restore original speech timestamps."""
def __init__(self, chunks: List[dict], sampling_rate: int, time_precision: int = 2):
self.sampling_rate = sampling_rate
self.time_precision = time_precision
self.chunk_end_sample = []
self.total_silence_before = []
previous_end = 0
silent_samples = 0
for chunk in chunks:
silent_samples += chunk["start"] - previous_end
previous_end = chunk["end"]
self.chunk_end_sample.append(chunk["end"] - silent_samples)
self.total_silence_before.append(silent_samples / sampling_rate)
def get_original_time(
self,
time: float,
chunk_index: Optional[int] = None,
) -> float:
if chunk_index is None:
chunk_index = self.get_chunk_index(time)
total_silence_before = self.total_silence_before[chunk_index]
return round(total_silence_before + time, self.time_precision)
def get_chunk_index(self, time: float) -> int:
sample = int(time * self.sampling_rate)
return min(
bisect.bisect(self.chunk_end_sample, sample),
len(self.chunk_end_sample) - 1,
)
@functools.lru_cache
def get_vad_model():
"""Returns the VAD model instance."""
asset_dir = os.path.join(os.path.dirname(__file__), "assets")
path = os.path.join(asset_dir, "silero_vad.onnx")
return SileroVADModel(path)
class SileroVADModel:
def __init__(self, path):
try:
import onnxruntime
except ImportError as e:
raise RuntimeError(
"Applying the VAD filter requires the onnxruntime package"
) from e
opts = onnxruntime.SessionOptions()
opts.inter_op_num_threads = 1
opts.intra_op_num_threads = 1
opts.log_severity_level = 4
self.session = onnxruntime.InferenceSession(
path,
providers=["CPUExecutionProvider"],
sess_options=opts,
)
def get_initial_state(self, batch_size: int):
h = np.zeros((2, batch_size, 64), dtype=np.float32)
c = np.zeros((2, batch_size, 64), dtype=np.float32)
return h, c
def __call__(self, x, state, sr: int):
if len(x.shape) == 1:
x = np.expand_dims(x, 0)
if len(x.shape) > 2:
raise ValueError(
f"Too many dimensions for input audio chunk {len(x.shape)}"
)
if sr / x.shape[1] > 31.25:
raise ValueError("Input audio chunk is too short")
h, c = state
ort_inputs = {
"input": x,
"h": h,
"c": c,
"sr": np.array(sr, dtype="int64"),
}
out, h, c = self.session.run(None, ort_inputs)
state = (h, c)
return out, state