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321 lines
13 KiB
321 lines
13 KiB
5 months ago
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import warnings
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from typing import Callable, List, Optional, Sequence, Tuple, Union
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import torch
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from torch import Tensor
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from ..utils import _log_api_usage_once, _make_ntuple
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interpolate = torch.nn.functional.interpolate
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class FrozenBatchNorm2d(torch.nn.Module):
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"""
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BatchNorm2d where the batch statistics and the affine parameters are fixed
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Args:
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num_features (int): Number of features ``C`` from an expected input of size ``(N, C, H, W)``
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eps (float): a value added to the denominator for numerical stability. Default: 1e-5
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"""
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def __init__(
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self,
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num_features: int,
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eps: float = 1e-5,
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):
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super().__init__()
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_log_api_usage_once(self)
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self.eps = eps
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self.register_buffer("weight", torch.ones(num_features))
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self.register_buffer("bias", torch.zeros(num_features))
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self.register_buffer("running_mean", torch.zeros(num_features))
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self.register_buffer("running_var", torch.ones(num_features))
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def _load_from_state_dict(
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self,
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state_dict: dict,
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prefix: str,
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local_metadata: dict,
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strict: bool,
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missing_keys: List[str],
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unexpected_keys: List[str],
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error_msgs: List[str],
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):
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num_batches_tracked_key = prefix + "num_batches_tracked"
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if num_batches_tracked_key in state_dict:
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del state_dict[num_batches_tracked_key]
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super()._load_from_state_dict(
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state_dict, prefix, local_metadata, strict, missing_keys, unexpected_keys, error_msgs
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)
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def forward(self, x: Tensor) -> Tensor:
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# move reshapes to the beginning
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# to make it fuser-friendly
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w = self.weight.reshape(1, -1, 1, 1)
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b = self.bias.reshape(1, -1, 1, 1)
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rv = self.running_var.reshape(1, -1, 1, 1)
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rm = self.running_mean.reshape(1, -1, 1, 1)
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scale = w * (rv + self.eps).rsqrt()
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bias = b - rm * scale
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return x * scale + bias
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def __repr__(self) -> str:
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return f"{self.__class__.__name__}({self.weight.shape[0]}, eps={self.eps})"
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class ConvNormActivation(torch.nn.Sequential):
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def __init__(
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self,
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in_channels: int,
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out_channels: int,
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kernel_size: Union[int, Tuple[int, ...]] = 3,
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stride: Union[int, Tuple[int, ...]] = 1,
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padding: Optional[Union[int, Tuple[int, ...], str]] = None,
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groups: int = 1,
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norm_layer: Optional[Callable[..., torch.nn.Module]] = torch.nn.BatchNorm2d,
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activation_layer: Optional[Callable[..., torch.nn.Module]] = torch.nn.ReLU,
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dilation: Union[int, Tuple[int, ...]] = 1,
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inplace: Optional[bool] = True,
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bias: Optional[bool] = None,
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conv_layer: Callable[..., torch.nn.Module] = torch.nn.Conv2d,
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) -> None:
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if padding is None:
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if isinstance(kernel_size, int) and isinstance(dilation, int):
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padding = (kernel_size - 1) // 2 * dilation
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else:
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_conv_dim = len(kernel_size) if isinstance(kernel_size, Sequence) else len(dilation)
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kernel_size = _make_ntuple(kernel_size, _conv_dim)
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dilation = _make_ntuple(dilation, _conv_dim)
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padding = tuple((kernel_size[i] - 1) // 2 * dilation[i] for i in range(_conv_dim))
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if bias is None:
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bias = norm_layer is None
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layers = [
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conv_layer(
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in_channels,
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out_channels,
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kernel_size,
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stride,
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padding,
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dilation=dilation,
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groups=groups,
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bias=bias,
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)
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]
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if norm_layer is not None:
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layers.append(norm_layer(out_channels))
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if activation_layer is not None:
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params = {} if inplace is None else {"inplace": inplace}
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layers.append(activation_layer(**params))
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super().__init__(*layers)
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_log_api_usage_once(self)
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self.out_channels = out_channels
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if self.__class__ == ConvNormActivation:
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warnings.warn(
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"Don't use ConvNormActivation directly, please use Conv2dNormActivation and Conv3dNormActivation instead."
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)
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class Conv2dNormActivation(ConvNormActivation):
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"""
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Configurable block used for Convolution2d-Normalization-Activation blocks.
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Args:
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in_channels (int): Number of channels in the input image
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out_channels (int): Number of channels produced by the Convolution-Normalization-Activation block
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kernel_size: (int, optional): Size of the convolving kernel. Default: 3
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stride (int, optional): Stride of the convolution. Default: 1
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padding (int, tuple or str, optional): Padding added to all four sides of the input. Default: None, in which case it will be calculated as ``padding = (kernel_size - 1) // 2 * dilation``
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groups (int, optional): Number of blocked connections from input channels to output channels. Default: 1
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norm_layer (Callable[..., torch.nn.Module], optional): Norm layer that will be stacked on top of the convolution layer. If ``None`` this layer won't be used. Default: ``torch.nn.BatchNorm2d``
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activation_layer (Callable[..., torch.nn.Module], optional): Activation function which will be stacked on top of the normalization layer (if not None), otherwise on top of the conv layer. If ``None`` this layer won't be used. Default: ``torch.nn.ReLU``
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dilation (int): Spacing between kernel elements. Default: 1
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inplace (bool): Parameter for the activation layer, which can optionally do the operation in-place. Default ``True``
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bias (bool, optional): Whether to use bias in the convolution layer. By default, biases are included if ``norm_layer is None``.
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"""
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def __init__(
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self,
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in_channels: int,
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out_channels: int,
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kernel_size: Union[int, Tuple[int, int]] = 3,
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stride: Union[int, Tuple[int, int]] = 1,
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padding: Optional[Union[int, Tuple[int, int], str]] = None,
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groups: int = 1,
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norm_layer: Optional[Callable[..., torch.nn.Module]] = torch.nn.BatchNorm2d,
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activation_layer: Optional[Callable[..., torch.nn.Module]] = torch.nn.ReLU,
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dilation: Union[int, Tuple[int, int]] = 1,
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inplace: Optional[bool] = True,
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bias: Optional[bool] = None,
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) -> None:
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super().__init__(
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in_channels,
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out_channels,
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kernel_size,
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stride,
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padding,
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groups,
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norm_layer,
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activation_layer,
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dilation,
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inplace,
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bias,
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torch.nn.Conv2d,
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)
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class Conv3dNormActivation(ConvNormActivation):
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"""
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Configurable block used for Convolution3d-Normalization-Activation blocks.
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Args:
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in_channels (int): Number of channels in the input video.
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out_channels (int): Number of channels produced by the Convolution-Normalization-Activation block
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kernel_size: (int, optional): Size of the convolving kernel. Default: 3
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stride (int, optional): Stride of the convolution. Default: 1
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padding (int, tuple or str, optional): Padding added to all four sides of the input. Default: None, in which case it will be calculated as ``padding = (kernel_size - 1) // 2 * dilation``
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groups (int, optional): Number of blocked connections from input channels to output channels. Default: 1
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norm_layer (Callable[..., torch.nn.Module], optional): Norm layer that will be stacked on top of the convolution layer. If ``None`` this layer won't be used. Default: ``torch.nn.BatchNorm3d``
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activation_layer (Callable[..., torch.nn.Module], optional): Activation function which will be stacked on top of the normalization layer (if not None), otherwise on top of the conv layer. If ``None`` this layer won't be used. Default: ``torch.nn.ReLU``
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dilation (int): Spacing between kernel elements. Default: 1
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inplace (bool): Parameter for the activation layer, which can optionally do the operation in-place. Default ``True``
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bias (bool, optional): Whether to use bias in the convolution layer. By default, biases are included if ``norm_layer is None``.
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"""
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def __init__(
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self,
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in_channels: int,
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out_channels: int,
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kernel_size: Union[int, Tuple[int, int, int]] = 3,
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stride: Union[int, Tuple[int, int, int]] = 1,
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padding: Optional[Union[int, Tuple[int, int, int], str]] = None,
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groups: int = 1,
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norm_layer: Optional[Callable[..., torch.nn.Module]] = torch.nn.BatchNorm3d,
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activation_layer: Optional[Callable[..., torch.nn.Module]] = torch.nn.ReLU,
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dilation: Union[int, Tuple[int, int, int]] = 1,
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inplace: Optional[bool] = True,
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bias: Optional[bool] = None,
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) -> None:
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super().__init__(
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in_channels,
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out_channels,
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kernel_size,
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stride,
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padding,
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groups,
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norm_layer,
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activation_layer,
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dilation,
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inplace,
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bias,
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torch.nn.Conv3d,
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)
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class SqueezeExcitation(torch.nn.Module):
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"""
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This block implements the Squeeze-and-Excitation block from https://arxiv.org/abs/1709.01507 (see Fig. 1).
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Parameters ``activation``, and ``scale_activation`` correspond to ``delta`` and ``sigma`` in eq. 3.
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Args:
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input_channels (int): Number of channels in the input image
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squeeze_channels (int): Number of squeeze channels
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activation (Callable[..., torch.nn.Module], optional): ``delta`` activation. Default: ``torch.nn.ReLU``
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scale_activation (Callable[..., torch.nn.Module]): ``sigma`` activation. Default: ``torch.nn.Sigmoid``
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"""
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def __init__(
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self,
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input_channels: int,
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squeeze_channels: int,
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activation: Callable[..., torch.nn.Module] = torch.nn.ReLU,
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scale_activation: Callable[..., torch.nn.Module] = torch.nn.Sigmoid,
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) -> None:
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super().__init__()
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_log_api_usage_once(self)
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self.avgpool = torch.nn.AdaptiveAvgPool2d(1)
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self.fc1 = torch.nn.Conv2d(input_channels, squeeze_channels, 1)
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self.fc2 = torch.nn.Conv2d(squeeze_channels, input_channels, 1)
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self.activation = activation()
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self.scale_activation = scale_activation()
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def _scale(self, input: Tensor) -> Tensor:
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scale = self.avgpool(input)
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scale = self.fc1(scale)
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scale = self.activation(scale)
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scale = self.fc2(scale)
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return self.scale_activation(scale)
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def forward(self, input: Tensor) -> Tensor:
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scale = self._scale(input)
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return scale * input
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class MLP(torch.nn.Sequential):
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"""This block implements the multi-layer perceptron (MLP) module.
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Args:
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in_channels (int): Number of channels of the input
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hidden_channels (List[int]): List of the hidden channel dimensions
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norm_layer (Callable[..., torch.nn.Module], optional): Norm layer that will be stacked on top of the linear layer. If ``None`` this layer won't be used. Default: ``None``
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activation_layer (Callable[..., torch.nn.Module], optional): Activation function which will be stacked on top of the normalization layer (if not None), otherwise on top of the linear layer. If ``None`` this layer won't be used. Default: ``torch.nn.ReLU``
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inplace (bool, optional): Parameter for the activation layer, which can optionally do the operation in-place.
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Default is ``None``, which uses the respective default values of the ``activation_layer`` and Dropout layer.
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bias (bool): Whether to use bias in the linear layer. Default ``True``
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dropout (float): The probability for the dropout layer. Default: 0.0
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"""
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def __init__(
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self,
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in_channels: int,
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hidden_channels: List[int],
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norm_layer: Optional[Callable[..., torch.nn.Module]] = None,
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activation_layer: Optional[Callable[..., torch.nn.Module]] = torch.nn.ReLU,
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inplace: Optional[bool] = None,
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bias: bool = True,
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dropout: float = 0.0,
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):
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# The addition of `norm_layer` is inspired from the implementation of TorchMultimodal:
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# https://github.com/facebookresearch/multimodal/blob/5dec8a/torchmultimodal/modules/layers/mlp.py
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params = {} if inplace is None else {"inplace": inplace}
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layers = []
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in_dim = in_channels
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for hidden_dim in hidden_channels[:-1]:
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layers.append(torch.nn.Linear(in_dim, hidden_dim, bias=bias))
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if norm_layer is not None:
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layers.append(norm_layer(hidden_dim))
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layers.append(activation_layer(**params))
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layers.append(torch.nn.Dropout(dropout, **params))
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in_dim = hidden_dim
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layers.append(torch.nn.Linear(in_dim, hidden_channels[-1], bias=bias))
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layers.append(torch.nn.Dropout(dropout, **params))
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super().__init__(*layers)
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_log_api_usage_once(self)
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class Permute(torch.nn.Module):
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"""This module returns a view of the tensor input with its dimensions permuted.
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Args:
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dims (List[int]): The desired ordering of dimensions
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"""
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def __init__(self, dims: List[int]):
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super().__init__()
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self.dims = dims
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def forward(self, x: Tensor) -> Tensor:
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return torch.permute(x, self.dims)
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