import numpy as np import librosa from scipy import signal from .slicer2 import Slicer class Preprocessor: def __init__( self, sr: int, max_slice_length: float = 3.0, min_slice_length: float = 0.5 ): self.slicer = Slicer( sr=sr, threshold=-42, min_length=1500, min_interval=400, hop_size=15, max_sil_kept=500, ) self.sr = sr self.bh, self.ah = signal.butter(N=5, Wn=48, btype="high", fs=self.sr) self.max_slice_length = max_slice_length self.max_slice_length = min_slice_length self.overlap = 0.3 self.tail = self.max_slice_length + self.overlap self.max = 0.9 self.alpha = 0.75 def norm(self, samples: np.ndarray) -> np.ndarray: sample_max = np.abs(samples).max() normalized = samples / sample_max * self.max normalized = (normalized * self.alpha) + (samples * (1 - self.alpha)) return normalized def preprocess_audio(self, y: np.ndarray) -> list[np.ndarray]: y = signal.filtfilt(self.bh, self.ah, y) audios = [] for audio in self.slicer.slice(y): i = 0 while True: start = int(self.sr * (self.max_slice_length - self.overlap) * i) i += 1 if len(audio[start:]) > self.tail * self.sr: slice = audio[start : start + int(self.max_slice_length * self.sr)] audios.append(self.norm(slice)) else: slice = audio[start:] if len(slice) > self.min_slice_length * self.sr: audios.append(self.norm(slice)) break return audios def preprocess_file(self, file_path: str) -> list[np.ndarray]: y, _ = librosa.load(file_path, sr=self.sr) return self.preprocess_audio(y)