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"""
Code source: https://github.com/pytorch/vision
"""
from __future__ import division, absolute_import
import re
from collections import OrderedDict
import torch
import torch.nn as nn
from torch.nn import functional as F
from torch.utils import model_zoo
__all__ = [
'densenet121', 'densenet169', 'densenet201', 'densenet161',
'densenet121_fc512'
]
model_urls = {
'densenet121':
'https://download.pytorch.org/models/densenet121-a639ec97.pth',
'densenet169':
'https://download.pytorch.org/models/densenet169-b2777c0a.pth',
'densenet201':
'https://download.pytorch.org/models/densenet201-c1103571.pth',
'densenet161':
'https://download.pytorch.org/models/densenet161-8d451a50.pth',
}
class _DenseLayer(nn.Sequential):
def __init__(self, num_input_features, growth_rate, bn_size, drop_rate):
super(_DenseLayer, self).__init__()
self.add_module('norm1', nn.BatchNorm2d(num_input_features)),
self.add_module('relu1', nn.ReLU(inplace=True)),
self.add_module(
'conv1',
nn.Conv2d(
num_input_features,
bn_size * growth_rate,
kernel_size=1,
stride=1,
bias=False
)
),
self.add_module('norm2', nn.BatchNorm2d(bn_size * growth_rate)),
self.add_module('relu2', nn.ReLU(inplace=True)),
self.add_module(
'conv2',
nn.Conv2d(
bn_size * growth_rate,
growth_rate,
kernel_size=3,
stride=1,
padding=1,
bias=False
)
),
self.drop_rate = drop_rate
def forward(self, x):
new_features = super(_DenseLayer, self).forward(x)
if self.drop_rate > 0:
new_features = F.dropout(
new_features, p=self.drop_rate, training=self.training
)
return torch.cat([x, new_features], 1)
class _DenseBlock(nn.Sequential):
def __init__(
self, num_layers, num_input_features, bn_size, growth_rate, drop_rate
):
super(_DenseBlock, self).__init__()
for i in range(num_layers):
layer = _DenseLayer(
num_input_features + i*growth_rate, growth_rate, bn_size,
drop_rate
)
self.add_module('denselayer%d' % (i+1), layer)
class _Transition(nn.Sequential):
def __init__(self, num_input_features, num_output_features):
super(_Transition, self).__init__()
self.add_module('norm', nn.BatchNorm2d(num_input_features))
self.add_module('relu', nn.ReLU(inplace=True))
self.add_module(
'conv',
nn.Conv2d(
num_input_features,
num_output_features,
kernel_size=1,
stride=1,
bias=False
)
)
self.add_module('pool', nn.AvgPool2d(kernel_size=2, stride=2))
class DenseNet(nn.Module):
"""Densely connected network.
Reference:
Huang et al. Densely Connected Convolutional Networks. CVPR 2017.
Public keys:
- ``densenet121``: DenseNet121.
- ``densenet169``: DenseNet169.
- ``densenet201``: DenseNet201.
- ``densenet161``: DenseNet161.
- ``densenet121_fc512``: DenseNet121 + FC.
"""
def __init__(
self,
num_classes,
loss,
growth_rate=32,
block_config=(6, 12, 24, 16),
num_init_features=64,
bn_size=4,
drop_rate=0,
fc_dims=None,
dropout_p=None,
**kwargs
):
super(DenseNet, self).__init__()
self.loss = loss
# First convolution
self.features = nn.Sequential(
OrderedDict(
[
(
'conv0',
nn.Conv2d(
3,
num_init_features,
kernel_size=7,
stride=2,
padding=3,
bias=False
)
),
('norm0', nn.BatchNorm2d(num_init_features)),
('relu0', nn.ReLU(inplace=True)),
(
'pool0',
nn.MaxPool2d(kernel_size=3, stride=2, padding=1)
),
]
)
)
# Each denseblock
num_features = num_init_features
for i, num_layers in enumerate(block_config):
block = _DenseBlock(
num_layers=num_layers,
num_input_features=num_features,
bn_size=bn_size,
growth_rate=growth_rate,
drop_rate=drop_rate
)
self.features.add_module('denseblock%d' % (i+1), block)
num_features = num_features + num_layers*growth_rate
if i != len(block_config) - 1:
trans = _Transition(
num_input_features=num_features,
num_output_features=num_features // 2
)
self.features.add_module('transition%d' % (i+1), trans)
num_features = num_features // 2
# Final batch norm
self.features.add_module('norm5', nn.BatchNorm2d(num_features))
self.global_avgpool = nn.AdaptiveAvgPool2d(1)
self.feature_dim = num_features
self.fc = self._construct_fc_layer(fc_dims, num_features, dropout_p)
# Linear layer
self.classifier = nn.Linear(self.feature_dim, num_classes)
self._init_params()
def _construct_fc_layer(self, fc_dims, input_dim, dropout_p=None):
"""Constructs fully connected layer.
Args:
fc_dims (list or tuple): dimensions of fc layers, if None, no fc layers are constructed
input_dim (int): input dimension
dropout_p (float): dropout probability, if None, dropout is unused
"""
if fc_dims is None:
self.feature_dim = input_dim
return None
assert isinstance(
fc_dims, (list, tuple)
), 'fc_dims must be either list or tuple, but got {}'.format(
type(fc_dims)
)
layers = []
for dim in fc_dims:
layers.append(nn.Linear(input_dim, dim))
layers.append(nn.BatchNorm1d(dim))
layers.append(nn.ReLU(inplace=True))
if dropout_p is not None:
layers.append(nn.Dropout(p=dropout_p))
input_dim = dim
self.feature_dim = fc_dims[-1]
return nn.Sequential(*layers)
def _init_params(self):
for m in self.modules():
if isinstance(m, nn.Conv2d):
nn.init.kaiming_normal_(
m.weight, mode='fan_out', nonlinearity='relu'
)
if m.bias is not None:
nn.init.constant_(m.bias, 0)
elif isinstance(m, nn.BatchNorm2d):
nn.init.constant_(m.weight, 1)
nn.init.constant_(m.bias, 0)
elif isinstance(m, nn.BatchNorm1d):
nn.init.constant_(m.weight, 1)
nn.init.constant_(m.bias, 0)
elif isinstance(m, nn.Linear):
nn.init.normal_(m.weight, 0, 0.01)
if m.bias is not None:
nn.init.constant_(m.bias, 0)
def forward(self, x):
f = self.features(x)
f = F.relu(f, inplace=True)
v = self.global_avgpool(f)
v = v.view(v.size(0), -1)
if self.fc is not None:
v = self.fc(v)
if not self.training:
return v
y = self.classifier(v)
if self.loss == 'softmax':
return y
elif self.loss == 'triplet':
return y, v
else:
raise KeyError('Unsupported loss: {}'.format(self.loss))
def init_pretrained_weights(model, model_url):
"""Initializes model with pretrained weights.
Layers that don't match with pretrained layers in name or size are kept unchanged.
"""
pretrain_dict = model_zoo.load_url(model_url)
# '.'s are no longer allowed in module names, but pervious _DenseLayer
# has keys 'norm.1', 'relu.1', 'conv.1', 'norm.2', 'relu.2', 'conv.2'.
# They are also in the checkpoints in model_urls. This pattern is used
# to find such keys.
pattern = re.compile(
r'^(.*denselayer\d+\.(?:norm|relu|conv))\.((?:[12])\.(?:weight|bias|running_mean|running_var))$'
)
for key in list(pretrain_dict.keys()):
res = pattern.match(key)
if res:
new_key = res.group(1) + res.group(2)
pretrain_dict[new_key] = pretrain_dict[key]
del pretrain_dict[key]
model_dict = model.state_dict()
pretrain_dict = {
k: v
for k, v in pretrain_dict.items()
if k in model_dict and model_dict[k].size() == v.size()
}
model_dict.update(pretrain_dict)
model.load_state_dict(model_dict)
"""
Dense network configurations:
--
densenet121: num_init_features=64, growth_rate=32, block_config=(6, 12, 24, 16)
densenet169: num_init_features=64, growth_rate=32, block_config=(6, 12, 32, 32)
densenet201: num_init_features=64, growth_rate=32, block_config=(6, 12, 48, 32)
densenet161: num_init_features=96, growth_rate=48, block_config=(6, 12, 36, 24)
"""
def densenet121(num_classes, loss='softmax', pretrained=True, **kwargs):
model = DenseNet(
num_classes=num_classes,
loss=loss,
num_init_features=64,
growth_rate=32,
block_config=(6, 12, 24, 16),
fc_dims=None,
dropout_p=None,
**kwargs
)
if pretrained:
init_pretrained_weights(model, model_urls['densenet121'])
return model
def densenet169(num_classes, loss='softmax', pretrained=True, **kwargs):
model = DenseNet(
num_classes=num_classes,
loss=loss,
num_init_features=64,
growth_rate=32,
block_config=(6, 12, 32, 32),
fc_dims=None,
dropout_p=None,
**kwargs
)
if pretrained:
init_pretrained_weights(model, model_urls['densenet169'])
return model
def densenet201(num_classes, loss='softmax', pretrained=True, **kwargs):
model = DenseNet(
num_classes=num_classes,
loss=loss,
num_init_features=64,
growth_rate=32,
block_config=(6, 12, 48, 32),
fc_dims=None,
dropout_p=None,
**kwargs
)
if pretrained:
init_pretrained_weights(model, model_urls['densenet201'])
return model
def densenet161(num_classes, loss='softmax', pretrained=True, **kwargs):
model = DenseNet(
num_classes=num_classes,
loss=loss,
num_init_features=96,
growth_rate=48,
block_config=(6, 12, 36, 24),
fc_dims=None,
dropout_p=None,
**kwargs
)
if pretrained:
init_pretrained_weights(model, model_urls['densenet161'])
return model
def densenet121_fc512(num_classes, loss='softmax', pretrained=True, **kwargs):
model = DenseNet(
num_classes=num_classes,
loss=loss,
num_init_features=64,
growth_rate=32,
block_config=(6, 12, 24, 16),
fc_dims=[512],
dropout_p=None,
**kwargs
)
if pretrained:
init_pretrained_weights(model, model_urls['densenet121'])
return model
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