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253 lines
10 KiB
253 lines
10 KiB
""" Normalization + Activation Layers
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Provides Norm+Act fns for standard PyTorch norm layers such as
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* BatchNorm
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* GroupNorm
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* LayerNorm
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This allows swapping with alternative layers that are natively both norm + act such as
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* EvoNorm (evo_norm.py)
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* FilterResponseNorm (filter_response_norm.py)
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* InplaceABN (inplace_abn.py)
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Hacked together by / Copyright 2022 Ross Wightman
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"""
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from typing import Union, List, Optional, Any
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import torch
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from torch import nn as nn
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from torch.nn import functional as F
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from .create_act import get_act_layer
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from .fast_norm import is_fast_norm, fast_group_norm, fast_layer_norm
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from .trace_utils import _assert
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class BatchNormAct2d(nn.BatchNorm2d):
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"""BatchNorm + Activation
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This module performs BatchNorm + Activation in a manner that will remain backwards
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compatible with weights trained with separate bn, act. This is why we inherit from BN
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instead of composing it as a .bn member.
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"""
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def __init__(
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self,
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num_features,
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eps=1e-5,
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momentum=0.1,
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affine=True,
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track_running_stats=True,
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apply_act=True,
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act_layer=nn.ReLU,
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inplace=True,
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drop_layer=None,
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device=None,
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dtype=None
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):
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try:
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factory_kwargs = {'device': device, 'dtype': dtype}
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super(BatchNormAct2d, self).__init__(
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num_features, eps=eps, momentum=momentum, affine=affine, track_running_stats=track_running_stats,
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**factory_kwargs
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)
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except TypeError:
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# NOTE for backwards compat with old PyTorch w/o factory device/dtype support
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super(BatchNormAct2d, self).__init__(
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num_features, eps=eps, momentum=momentum, affine=affine, track_running_stats=track_running_stats)
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self.drop = drop_layer() if drop_layer is not None else nn.Identity()
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act_layer = get_act_layer(act_layer) # string -> nn.Module
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if act_layer is not None and apply_act:
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act_args = dict(inplace=True) if inplace else {}
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self.act = act_layer(**act_args)
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else:
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self.act = nn.Identity()
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def forward(self, x):
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# cut & paste of torch.nn.BatchNorm2d.forward impl to avoid issues with torchscript and tracing
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_assert(x.ndim == 4, f'expected 4D input (got {x.ndim}D input)')
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# exponential_average_factor is set to self.momentum
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# (when it is available) only so that it gets updated
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# in ONNX graph when this node is exported to ONNX.
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if self.momentum is None:
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exponential_average_factor = 0.0
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else:
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exponential_average_factor = self.momentum
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if self.training and self.track_running_stats:
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# TODO: if statement only here to tell the jit to skip emitting this when it is None
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if self.num_batches_tracked is not None: # type: ignore[has-type]
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self.num_batches_tracked = self.num_batches_tracked + 1 # type: ignore[has-type]
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if self.momentum is None: # use cumulative moving average
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exponential_average_factor = 1.0 / float(self.num_batches_tracked)
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else: # use exponential moving average
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exponential_average_factor = self.momentum
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r"""
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Decide whether the mini-batch stats should be used for normalization rather than the buffers.
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Mini-batch stats are used in training mode, and in eval mode when buffers are None.
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"""
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if self.training:
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bn_training = True
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else:
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bn_training = (self.running_mean is None) and (self.running_var is None)
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r"""
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Buffers are only updated if they are to be tracked and we are in training mode. Thus they only need to be
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passed when the update should occur (i.e. in training mode when they are tracked), or when buffer stats are
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used for normalization (i.e. in eval mode when buffers are not None).
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"""
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x = F.batch_norm(
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x,
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# If buffers are not to be tracked, ensure that they won't be updated
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self.running_mean if not self.training or self.track_running_stats else None,
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self.running_var if not self.training or self.track_running_stats else None,
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self.weight,
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self.bias,
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bn_training,
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exponential_average_factor,
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self.eps,
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)
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x = self.drop(x)
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x = self.act(x)
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return x
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class SyncBatchNormAct(nn.SyncBatchNorm):
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# Thanks to Selim Seferbekov (https://github.com/rwightman/pytorch-image-models/issues/1254)
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# This is a quick workaround to support SyncBatchNorm for timm BatchNormAct2d layers
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# but ONLY when used in conjunction with the timm conversion function below.
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# Do not create this module directly or use the PyTorch conversion function.
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def forward(self, x: torch.Tensor) -> torch.Tensor:
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x = super().forward(x) # SyncBN doesn't work with torchscript anyways, so this is fine
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if hasattr(self, "drop"):
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x = self.drop(x)
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if hasattr(self, "act"):
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x = self.act(x)
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return x
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def convert_sync_batchnorm(module, process_group=None):
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# convert both BatchNorm and BatchNormAct layers to Synchronized variants
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module_output = module
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if isinstance(module, torch.nn.modules.batchnorm._BatchNorm):
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if isinstance(module, BatchNormAct2d):
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# convert timm norm + act layer
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module_output = SyncBatchNormAct(
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module.num_features,
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module.eps,
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module.momentum,
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module.affine,
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module.track_running_stats,
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process_group=process_group,
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)
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# set act and drop attr from the original module
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module_output.act = module.act
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module_output.drop = module.drop
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else:
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# convert standard BatchNorm layers
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module_output = torch.nn.SyncBatchNorm(
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module.num_features,
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module.eps,
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module.momentum,
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module.affine,
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module.track_running_stats,
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process_group,
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)
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if module.affine:
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with torch.no_grad():
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module_output.weight = module.weight
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module_output.bias = module.bias
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module_output.running_mean = module.running_mean
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module_output.running_var = module.running_var
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module_output.num_batches_tracked = module.num_batches_tracked
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if hasattr(module, "qconfig"):
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module_output.qconfig = module.qconfig
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for name, child in module.named_children():
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module_output.add_module(name, convert_sync_batchnorm(child, process_group))
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del module
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return module_output
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def _num_groups(num_channels, num_groups, group_size):
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if group_size:
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assert num_channels % group_size == 0
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return num_channels // group_size
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return num_groups
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class GroupNormAct(nn.GroupNorm):
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# NOTE num_channel and num_groups order flipped for easier layer swaps / binding of fixed args
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def __init__(
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self, num_channels, num_groups=32, eps=1e-5, affine=True, group_size=None,
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apply_act=True, act_layer=nn.ReLU, inplace=True, drop_layer=None):
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super(GroupNormAct, self).__init__(
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_num_groups(num_channels, num_groups, group_size), num_channels, eps=eps, affine=affine)
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self.drop = drop_layer() if drop_layer is not None else nn.Identity()
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act_layer = get_act_layer(act_layer) # string -> nn.Module
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if act_layer is not None and apply_act:
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act_args = dict(inplace=True) if inplace else {}
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self.act = act_layer(**act_args)
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else:
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self.act = nn.Identity()
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self._fast_norm = is_fast_norm()
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def forward(self, x):
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if self._fast_norm:
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x = fast_group_norm(x, self.num_groups, self.weight, self.bias, self.eps)
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else:
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x = F.group_norm(x, self.num_groups, self.weight, self.bias, self.eps)
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x = self.drop(x)
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x = self.act(x)
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return x
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class LayerNormAct(nn.LayerNorm):
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def __init__(
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self, normalization_shape: Union[int, List[int], torch.Size], eps=1e-5, affine=True,
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apply_act=True, act_layer=nn.ReLU, inplace=True, drop_layer=None):
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super(LayerNormAct, self).__init__(normalization_shape, eps=eps, elementwise_affine=affine)
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self.drop = drop_layer() if drop_layer is not None else nn.Identity()
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act_layer = get_act_layer(act_layer) # string -> nn.Module
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if act_layer is not None and apply_act:
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act_args = dict(inplace=True) if inplace else {}
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self.act = act_layer(**act_args)
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else:
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self.act = nn.Identity()
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self._fast_norm = is_fast_norm()
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def forward(self, x):
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if self._fast_norm:
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x = fast_layer_norm(x, self.normalized_shape, self.weight, self.bias, self.eps)
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else:
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x = F.layer_norm(x, self.normalized_shape, self.weight, self.bias, self.eps)
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x = self.drop(x)
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x = self.act(x)
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return x
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class LayerNormAct2d(nn.LayerNorm):
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def __init__(
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self, num_channels, eps=1e-5, affine=True,
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apply_act=True, act_layer=nn.ReLU, inplace=True, drop_layer=None):
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super(LayerNormAct2d, self).__init__(num_channels, eps=eps, elementwise_affine=affine)
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self.drop = drop_layer() if drop_layer is not None else nn.Identity()
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act_layer = get_act_layer(act_layer) # string -> nn.Module
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if act_layer is not None and apply_act:
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act_args = dict(inplace=True) if inplace else {}
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self.act = act_layer(**act_args)
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else:
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self.act = nn.Identity()
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self._fast_norm = is_fast_norm()
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def forward(self, x):
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x = x.permute(0, 2, 3, 1)
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if self._fast_norm:
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x = fast_layer_norm(x, self.normalized_shape, self.weight, self.bias, self.eps)
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else:
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x = F.layer_norm(x, self.normalized_shape, self.weight, self.bias, self.eps)
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x = x.permute(0, 3, 1, 2)
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x = self.drop(x)
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x = self.act(x)
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return x
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