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from typing import Optional,Union |
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try: |
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from typing import Literal |
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except Exception as e: |
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from typing_extensions import Literal |
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import numpy as np |
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import torch |
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import torchcrepe |
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from torch import nn |
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from torch.nn import functional as F |
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import scipy |
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def repeat_expand( |
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content: Union[torch.Tensor, np.ndarray], target_len: int, mode: str = "nearest" |
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): |
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"""Repeat content to target length. |
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This is a wrapper of torch.nn.functional.interpolate. |
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Args: |
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content (torch.Tensor): tensor |
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target_len (int): target length |
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mode (str, optional): interpolation mode. Defaults to "nearest". |
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Returns: |
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torch.Tensor: tensor |
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""" |
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ndim = content.ndim |
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if content.ndim == 1: |
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content = content[None, None] |
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elif content.ndim == 2: |
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content = content[None] |
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assert content.ndim == 3 |
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is_np = isinstance(content, np.ndarray) |
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if is_np: |
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content = torch.from_numpy(content) |
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results = torch.nn.functional.interpolate(content, size=target_len, mode=mode) |
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if is_np: |
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results = results.numpy() |
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if ndim == 1: |
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return results[0, 0] |
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elif ndim == 2: |
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return results[0] |
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class BasePitchExtractor: |
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def __init__( |
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self, |
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hop_length: int = 512, |
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f0_min: float = 50.0, |
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f0_max: float = 1100.0, |
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keep_zeros: bool = True, |
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): |
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"""Base pitch extractor. |
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Args: |
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hop_length (int, optional): Hop length. Defaults to 512. |
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f0_min (float, optional): Minimum f0. Defaults to 50.0. |
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f0_max (float, optional): Maximum f0. Defaults to 1100.0. |
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keep_zeros (bool, optional): Whether keep zeros in pitch. Defaults to True. |
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""" |
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self.hop_length = hop_length |
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self.f0_min = f0_min |
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self.f0_max = f0_max |
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self.keep_zeros = keep_zeros |
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def __call__(self, x, sampling_rate=44100, pad_to=None): |
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raise NotImplementedError("BasePitchExtractor is not callable.") |
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def post_process(self, x, sampling_rate, f0, pad_to): |
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if isinstance(f0, np.ndarray): |
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f0 = torch.from_numpy(f0).float().to(x.device) |
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if pad_to is None: |
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return f0 |
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f0 = repeat_expand(f0, pad_to) |
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if self.keep_zeros: |
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return f0 |
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vuv_vector = torch.zeros_like(f0) |
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vuv_vector[f0 > 0.0] = 1.0 |
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vuv_vector[f0 <= 0.0] = 0.0 |
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nzindex = torch.nonzero(f0).squeeze() |
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f0 = torch.index_select(f0, dim=0, index=nzindex).cpu().numpy() |
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time_org = self.hop_length / sampling_rate * nzindex.cpu().numpy() |
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time_frame = np.arange(pad_to) * self.hop_length / sampling_rate |
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if f0.shape[0] <= 0: |
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return torch.zeros(pad_to, dtype=torch.float, device=x.device),torch.zeros(pad_to, dtype=torch.float, device=x.device) |
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if f0.shape[0] == 1: |
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return torch.ones(pad_to, dtype=torch.float, device=x.device) * f0[0],torch.ones(pad_to, dtype=torch.float, device=x.device) |
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f0 = np.interp(time_frame, time_org, f0, left=f0[0], right=f0[-1]) |
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vuv_vector = vuv_vector.cpu().numpy() |
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vuv_vector = np.ceil(scipy.ndimage.zoom(vuv_vector,pad_to/len(vuv_vector),order = 0)) |
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return f0,vuv_vector |
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class MaskedAvgPool1d(nn.Module): |
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def __init__( |
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self, kernel_size: int, stride: Optional[int] = None, padding: Optional[int] = 0 |
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): |
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"""An implementation of mean pooling that supports masked values. |
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Args: |
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kernel_size (int): The size of the median pooling window. |
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stride (int, optional): The stride of the median pooling window. Defaults to None. |
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padding (int, optional): The padding of the median pooling window. Defaults to 0. |
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""" |
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super(MaskedAvgPool1d, self).__init__() |
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self.kernel_size = kernel_size |
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self.stride = stride or kernel_size |
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self.padding = padding |
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def forward(self, x, mask=None): |
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ndim = x.dim() |
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if ndim == 2: |
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x = x.unsqueeze(1) |
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assert ( |
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x.dim() == 3 |
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), "Input tensor must have 2 or 3 dimensions (batch_size, channels, width)" |
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if mask is None: |
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mask = ~torch.isnan(x) |
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assert x.shape == mask.shape, "Input tensor and mask must have the same shape" |
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masked_x = torch.where(mask, x, torch.zeros_like(x)) |
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ones_kernel = torch.ones(x.size(1), 1, self.kernel_size, device=x.device) |
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sum_pooled = nn.functional.conv1d( |
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masked_x, |
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ones_kernel, |
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stride=self.stride, |
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padding=self.padding, |
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groups=x.size(1), |
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) |
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valid_count = nn.functional.conv1d( |
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mask.float(), |
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ones_kernel, |
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stride=self.stride, |
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padding=self.padding, |
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groups=x.size(1), |
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) |
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valid_count = valid_count.clamp(min=1) |
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avg_pooled = sum_pooled / valid_count |
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avg_pooled[avg_pooled == 0] = float("nan") |
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if ndim == 2: |
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return avg_pooled.squeeze(1) |
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return avg_pooled |
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class MaskedMedianPool1d(nn.Module): |
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def __init__( |
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self, kernel_size: int, stride: Optional[int] = None, padding: Optional[int] = 0 |
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): |
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"""An implementation of median pooling that supports masked values. |
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This implementation is inspired by the median pooling implementation in |
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https://gist.github.com/rwightman/f2d3849281624be7c0f11c85c87c1598 |
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Args: |
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kernel_size (int): The size of the median pooling window. |
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stride (int, optional): The stride of the median pooling window. Defaults to None. |
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padding (int, optional): The padding of the median pooling window. Defaults to 0. |
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""" |
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super(MaskedMedianPool1d, self).__init__() |
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self.kernel_size = kernel_size |
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self.stride = stride or kernel_size |
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self.padding = padding |
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def forward(self, x, mask=None): |
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ndim = x.dim() |
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if ndim == 2: |
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x = x.unsqueeze(1) |
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assert ( |
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x.dim() == 3 |
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), "Input tensor must have 2 or 3 dimensions (batch_size, channels, width)" |
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if mask is None: |
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mask = ~torch.isnan(x) |
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assert x.shape == mask.shape, "Input tensor and mask must have the same shape" |
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masked_x = torch.where(mask, x, torch.zeros_like(x)) |
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x = F.pad(masked_x, (self.padding, self.padding), mode="reflect") |
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mask = F.pad( |
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mask.float(), (self.padding, self.padding), mode="constant", value=0 |
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) |
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x = x.unfold(2, self.kernel_size, self.stride) |
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mask = mask.unfold(2, self.kernel_size, self.stride) |
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x = x.contiguous().view(x.size()[:3] + (-1,)) |
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mask = mask.contiguous().view(mask.size()[:3] + (-1,)).to(x.device) |
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x_masked = torch.where(mask.bool(), x, torch.FloatTensor([float("inf")]).to(x.device)) |
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x_sorted, _ = torch.sort(x_masked, dim=-1) |
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valid_count = mask.sum(dim=-1) |
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median_idx = (torch.div((valid_count - 1), 2, rounding_mode='trunc')).clamp(min=0) |
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median_pooled = x_sorted.gather(-1, median_idx.unsqueeze(-1).long()).squeeze(-1) |
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median_pooled[torch.isinf(median_pooled)] = float("nan") |
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if ndim == 2: |
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return median_pooled.squeeze(1) |
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return median_pooled |
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class CrepePitchExtractor(BasePitchExtractor): |
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def __init__( |
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self, |
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hop_length: int = 512, |
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f0_min: float = 50.0, |
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f0_max: float = 1100.0, |
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threshold: float = 0.05, |
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keep_zeros: bool = False, |
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device = None, |
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model: Literal["full", "tiny"] = "full", |
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use_fast_filters: bool = True, |
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decoder="viterbi" |
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): |
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super().__init__(hop_length, f0_min, f0_max, keep_zeros) |
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if decoder == "viterbi": |
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self.decoder = torchcrepe.decode.viterbi |
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elif decoder == "argmax": |
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self.decoder = torchcrepe.decode.argmax |
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elif decoder == "weighted_argmax": |
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self.decoder = torchcrepe.decode.weighted_argmax |
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else: |
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raise "Unknown decoder" |
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self.threshold = threshold |
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self.model = model |
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self.use_fast_filters = use_fast_filters |
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self.hop_length = hop_length |
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if device is None: |
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self.dev = torch.device("cuda" if torch.cuda.is_available() else "cpu") |
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else: |
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self.dev = torch.device(device) |
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if self.use_fast_filters: |
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self.median_filter = MaskedMedianPool1d(3, 1, 1).to(device) |
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self.mean_filter = MaskedAvgPool1d(3, 1, 1).to(device) |
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def __call__(self, x, sampling_rate=44100, pad_to=None): |
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"""Extract pitch using crepe. |
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Args: |
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x (torch.Tensor): Audio signal, shape (1, T). |
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sampling_rate (int, optional): Sampling rate. Defaults to 44100. |
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pad_to (int, optional): Pad to length. Defaults to None. |
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Returns: |
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torch.Tensor: Pitch, shape (T // hop_length,). |
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""" |
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assert x.ndim == 2, f"Expected 2D tensor, got {x.ndim}D tensor." |
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assert x.shape[0] == 1, f"Expected 1 channel, got {x.shape[0]} channels." |
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x = x.to(self.dev) |
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f0, pd = torchcrepe.predict( |
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x, |
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sampling_rate, |
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self.hop_length, |
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self.f0_min, |
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self.f0_max, |
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pad=True, |
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model=self.model, |
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batch_size=1024, |
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device=x.device, |
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return_periodicity=True, |
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decoder=self.decoder |
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) |
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if self.use_fast_filters: |
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pd = self.median_filter(pd) |
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else: |
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pd = torchcrepe.filter.median(pd, 3) |
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pd = torchcrepe.threshold.Silence(-60.0)(pd, x, sampling_rate, 512) |
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f0 = torchcrepe.threshold.At(self.threshold)(f0, pd) |
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if self.use_fast_filters: |
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f0 = self.mean_filter(f0) |
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else: |
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f0 = torchcrepe.filter.mean(f0, 3) |
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f0 = torch.where(torch.isnan(f0), torch.full_like(f0, 0), f0)[0] |
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if torch.all(f0 == 0): |
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rtn = f0.cpu().numpy() if pad_to==None else np.zeros(pad_to) |
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return rtn,rtn |
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return self.post_process(x, sampling_rate, f0, pad_to) |
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