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import torch | |
from torch import nn | |
def drop_path(x, drop_prob: float = 0., training: bool = False): | |
"""Drop paths (Stochastic Depth) per sample (when applied in main path of residual blocks). | |
This is the same as the DropConnect impl I created for EfficientNet, etc networks, however, | |
the original name is misleading as 'Drop Connect' is a different form of dropout in a separate paper... | |
See discussion: https://github.com/tensorflow/tpu/issues/494#issuecomment-532968956 ... I've opted for | |
changing the layer and argument names to 'drop path' rather than mix DropConnect as a layer name and use | |
'survival rate' as the argument. | |
""" | |
if drop_prob == 0. or not training: | |
return x | |
keep_prob = 1 - drop_prob | |
shape = (x.shape[0],) + (1,) * (x.ndim - 1) # work with diff dim tensors, not just 2D ConvNets | |
random_tensor = keep_prob + torch.rand(shape, dtype=x.dtype, device=x.device) | |
random_tensor.floor_() # binarize | |
output = x.div(keep_prob) * random_tensor | |
return output | |
class DropPath(nn.Module): | |
"""Drop paths (Stochastic Depth) per sample (when applied in main path of residual blocks). | |
""" | |
def __init__(self, drop_prob=None): | |
super(DropPath, self).__init__() | |
self.drop_prob = drop_prob | |
def forward(self, x): | |
return drop_path(x, self.drop_prob, self.training) | |
from itertools import repeat | |
from torch._six import container_abcs | |
# From PyTorch internals | |
def _ntuple(n): | |
def parse(x): | |
if isinstance(x, container_abcs.Iterable): | |
return x | |
return tuple(repeat(x, n)) | |
return parse | |
to_1tuple = _ntuple(1) | |
to_2tuple = _ntuple(2) | |
to_3tuple = _ntuple(3) | |
to_4tuple = _ntuple(4) | |
import torch | |
import math | |
import warnings | |
def _no_grad_trunc_normal_(tensor, mean, std, a, b): | |
# Cut & paste from PyTorch official master until it's in a few official releases - RW | |
# Method based on https://people.sc.fsu.edu/~jburkardt/presentations/truncated_normal.pdf | |
def norm_cdf(x): | |
# Computes standard normal cumulative distribution function | |
return (1. + math.erf(x / math.sqrt(2.))) / 2. | |
if (mean < a - 2 * std) or (mean > b + 2 * std): | |
warnings.warn("mean is more than 2 std from [a, b] in nn.init.trunc_normal_. " | |
"The distribution of values may be incorrect.", | |
stacklevel=2) | |
with torch.no_grad(): | |
# Values are generated by using a truncated uniform distribution and | |
# then using the inverse CDF for the normal distribution. | |
# Get upper and lower cdf values | |
l = norm_cdf((a - mean) / std) | |
u = norm_cdf((b - mean) / std) | |
# Uniformly fill tensor with values from [l, u], then translate to | |
# [2l-1, 2u-1]. | |
tensor.uniform_(2 * l - 1, 2 * u - 1) | |
# Use inverse cdf transform for normal distribution to get truncated | |
# standard normal | |
tensor.erfinv_() | |
# Transform to proper mean, std | |
tensor.mul_(std * math.sqrt(2.)) | |
tensor.add_(mean) | |
# Clamp to ensure it's in the proper range | |
tensor.clamp_(min=a, max=b) | |
return tensor | |
def trunc_normal_(tensor, mean=0., std=1., a=-2., b=2.): | |
# type: (Tensor, float, float, float, float) -> Tensor | |
r"""Fills the input Tensor with values drawn from a truncated | |
normal distribution. The values are effectively drawn from the | |
normal distribution :math:`\mathcal{N}(\text{mean}, \text{std}^2)` | |
with values outside :math:`[a, b]` redrawn until they are within | |
the bounds. The method used for generating the random values works | |
best when :math:`a \leq \text{mean} \leq b`. | |
Args: | |
tensor: an n-dimensional `torch.Tensor` | |
mean: the mean of the normal distribution | |
std: the standard deviation of the normal distribution | |
a: the minimum cutoff value | |
b: the maximum cutoff value | |
Examples: | |
>>> w = torch.empty(3, 5) | |
>>> nn.init.trunc_normal_(w) | |
""" | |
return _no_grad_trunc_normal_(tensor, mean, std, a, b) |