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pmf_with_gis / models /resnet_v2.py

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	# Copyright 2020 Google LLC
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	# Lint as: python3
	"""Bottleneck ResNet v2 with GroupNorm and Weight Standardization."""
	import math

	from os.path import join as pjoin

	from collections import OrderedDict # pylint: disable=g-importing-member

	import torch
	import torch.nn as nn
	import torch.nn.functional as F


	def np2th(weights, conv=False):
	"""Possibly convert HWIO to OIHW."""
	if conv:
	weights = weights.transpose([3, 2, 0, 1])
	return torch.from_numpy(weights)


	class StdConv2d(nn.Conv2d):

	def forward(self, x):
	w = self.weight
	v, m = torch.var_mean(w, dim=[1, 2, 3], keepdim=True, unbiased=False)
	w = (w - m) / torch.sqrt(v + 1e-5)
	return F.conv2d(x, w, self.bias, self.stride, self.padding,
	self.dilation, self.groups)


	def conv3x3(cin, cout, stride=1, groups=1, bias=False):
	return StdConv2d(cin, cout, kernel_size=3, stride=stride,
	padding=1, bias=bias, groups=groups)


	def conv1x1(cin, cout, stride=1, bias=False):
	return StdConv2d(cin, cout, kernel_size=1, stride=stride,
	padding=0, bias=bias)


	class PreActBottleneck(nn.Module):
	"""Pre-activation (v2) bottleneck block.
	"""

	def __init__(self, cin, cout=None, cmid=None, stride=1):
	super().__init__()
	cout = cout or cin
	cmid = cmid or cout//4

	self.gn1 = nn.GroupNorm(32, cmid, eps=1e-6)
	self.conv1 = conv1x1(cin, cmid, bias=False)
	self.gn2 = nn.GroupNorm(32, cmid, eps=1e-6)
	self.conv2 = conv3x3(cmid, cmid, stride, bias=False) # Original code has it on conv1!!
	self.gn3 = nn.GroupNorm(32, cout, eps=1e-6)
	self.conv3 = conv1x1(cmid, cout, bias=False)
	self.relu = nn.ReLU(inplace=True)

	if (stride != 1 or cin != cout):
	# Projection also with pre-activation according to paper.
	self.downsample = conv1x1(cin, cout, stride, bias=False)
	self.gn_proj = nn.GroupNorm(cout, cout)

	def forward(self, x):

	# Residual branch
	residual = x
	if hasattr(self, 'downsample'):
	residual = self.downsample(x)
	residual = self.gn_proj(residual)

	# Unit's branch
	y = self.relu(self.gn1(self.conv1(x)))
	y = self.relu(self.gn2(self.conv2(y)))
	y = self.gn3(self.conv3(y))

	y = self.relu(residual + y)
	return y

	def load_from(self, weights, n_block, n_unit):
	conv1_weight = np2th(weights[pjoin(n_block, n_unit, "conv1/kernel")], conv=True)
	conv2_weight = np2th(weights[pjoin(n_block, n_unit, "conv2/kernel")], conv=True)
	conv3_weight = np2th(weights[pjoin(n_block, n_unit, "conv3/kernel")], conv=True)

	gn1_weight = np2th(weights[pjoin(n_block, n_unit, "gn1/scale")])
	gn1_bias = np2th(weights[pjoin(n_block, n_unit, "gn1/bias")])

	gn2_weight = np2th(weights[pjoin(n_block, n_unit, "gn2/scale")])
	gn2_bias = np2th(weights[pjoin(n_block, n_unit, "gn2/bias")])

	gn3_weight = np2th(weights[pjoin(n_block, n_unit, "gn3/scale")])
	gn3_bias = np2th(weights[pjoin(n_block, n_unit, "gn3/bias")])

	self.conv1.weight.copy_(conv1_weight)
	self.conv2.weight.copy_(conv2_weight)
	self.conv3.weight.copy_(conv3_weight)

	self.gn1.weight.copy_(gn1_weight.view(-1))
	self.gn1.bias.copy_(gn1_bias.view(-1))

	self.gn2.weight.copy_(gn2_weight.view(-1))
	self.gn2.bias.copy_(gn2_bias.view(-1))

	self.gn3.weight.copy_(gn3_weight.view(-1))
	self.gn3.bias.copy_(gn3_bias.view(-1))

	if hasattr(self, 'downsample'):
	proj_conv_weight = np2th(weights[pjoin(n_block, n_unit, "conv_proj/kernel")], conv=True)
	proj_gn_weight = np2th(weights[pjoin(n_block, n_unit, "gn_proj/scale")])
	proj_gn_bias = np2th(weights[pjoin(n_block, n_unit, "gn_proj/bias")])

	self.downsample.weight.copy_(proj_conv_weight)
	self.gn_proj.weight.copy_(proj_gn_weight.view(-1))
	self.gn_proj.bias.copy_(proj_gn_bias.view(-1))

	class ResNetV2(nn.Module):
	"""Implementation of Pre-activation (v2) ResNet mode."""

	def __init__(self, block_units, width_factor):
	super().__init__()
	width = int(64 * width_factor)
	self.width = width

	# The following will be unreadable if we split lines.
	# pylint: disable=line-too-long
	self.root = nn.Sequential(OrderedDict([
	('conv', StdConv2d(3, width, kernel_size=7, stride=2, bias=False, padding=3)),
	('gn', nn.GroupNorm(32, width, eps=1e-6)),
	('relu', nn.ReLU(inplace=True)),
	('pool', nn.MaxPool2d(kernel_size=3, stride=2, padding=0))
	]))

	self.body = nn.Sequential(OrderedDict([
	('block1', nn.Sequential(OrderedDict(
	[('unit1', PreActBottleneck(cin=width, cout=width*4, cmid=width))] +
	[(f'unit{i:d}', PreActBottleneck(cin=width4, cout=width4, cmid=width)) for i in range(2, block_units[0] + 1)],
	))),
	('block2', nn.Sequential(OrderedDict(
	[('unit1', PreActBottleneck(cin=width4, cout=width8, cmid=width*2, stride=2))] +
	[(f'unit{i:d}', PreActBottleneck(cin=width8, cout=width8, cmid=width*2)) for i in range(2, block_units[1] + 1)],
	))),
	('block3', nn.Sequential(OrderedDict(
	[('unit1', PreActBottleneck(cin=width8, cout=width16, cmid=width*4, stride=2))] +
	[(f'unit{i:d}', PreActBottleneck(cin=width16, cout=width16, cmid=width*4)) for i in range(2, block_units[2] + 1)],
	))),
	]))

	def forward(self, x):
	x = self.root(x)
	x = self.body(x)
	return x