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OcTra / libdf /__init__.pyi

arcan3

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fc5ed00 10 months ago

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	from typing import List, Optional, Union

	from numpy import ndarray

	class DF:
	def __init__(
	self,
	sr: int,
	fft_size: int,
	hop_size: int,
	nb_bands: int,
	min_nb_erb_freqs: Optional[int] = 1,
	):
	"""DeepFilter state used for analysis and synthesis.

	Args:
	sr (int): Sampling rate.
	fft_size (int): Window length used for the Fast Fourier transform.
	hop_size (int): Hop size between two analysis windows. Also called frame size.
	nb_bands (int): Number of ERB bands.
	min_nb_erb_freqs (int): Minimum number of frequency bands per ERB band. Defaults to 1.
	"""
	...
	def analysis(self, input: ndarray) -> ndarray:
	"""Analysis of a time-domain signal.

	Args:
	input (ndarray): 2D real-valued array of shape [C, T].
	Output:
	output (ndarray): 3D complex-valued array of shape [C, T', F], where F is the `fft_size`,
	and T' the original time T divided by `hop_size`.
	"""
	...
	def synthesis(self, input: ndarray) -> ndarray:
	"""Synthesis of a frequency-domain signal.

	Args:
	input (ndarray): 3D complex-valued array of shape [C, T, F].
	Output:
	output (ndarray): 2D real-valued array of shape [C, T].
	"""
	...
	def erb_widths(self) -> ndarray: ...
	def fft_window(self) -> ndarray: ...
	def sr(self) -> int: ...
	def fft_size(self) -> int: ...
	def hop_size(self) -> int: ...
	def nb_erb(self) -> int: ...
	def reset(self) -> None: ...

	def erb(
	input: ndarray, erb_fb: Union[ndarray, List[int]], db: Optional[bool] = None
	) -> ndarray: ...
	def erb_inv(input: ndarray, erb_fb: Union[ndarray, List[int]]) -> ndarray: ...
	def erb_norm(erb: ndarray, alpha: float, state: Optional[ndarray] = None) -> ndarray: ...
	def unit_norm(spec: ndarray, alpha: float, state: Optional[ndarray] = None) -> ndarray: ...
	def unit_norm_init(num_freq_bins: int) -> ndarray: ...