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pytorch-image-models/timm/models/selecsls.py

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"""PyTorch SelecSLS Net example for ImageNet Classification
License: CC BY 4.0 (https://creativecommons.org/licenses/by/4.0/legalcode)
Author: Dushyant Mehta (@mehtadushy)
SelecSLS (core) Network Architecture as proposed in "XNect: Real-time Multi-person 3D
Human Pose Estimation with a Single RGB Camera, Mehta et al."
https://arxiv.org/abs/1907.00837
Based on ResNet implementation in https://github.com/rwightman/pytorch-image-models
and SelecSLS Net implementation in https://github.com/mehtadushy/SelecSLS-Pytorch
"""
from typing import List
import torch
import torch.nn as nn
import torch.nn.functional as F
from timm.data import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD
from .helpers import build_model_with_cfg
from .layers import create_classifier
from .registry import register_model
__all__ = ['SelecSLS'] # model_registry will add each entrypoint fn to this
def _cfg(url='', **kwargs):
return {
'url': url,
'num_classes': 1000, 'input_size': (3, 224, 224), 'pool_size': (4, 4),
'crop_pct': 0.875, 'interpolation': 'bilinear',
'mean': IMAGENET_DEFAULT_MEAN, 'std': IMAGENET_DEFAULT_STD,
'first_conv': 'stem.0', 'classifier': 'fc',
**kwargs
}
default_cfgs = {
'selecsls42': _cfg(
url='',
interpolation='bicubic'),
'selecsls42b': _cfg(
url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-selecsls/selecsls42b-8af30141.pth',
interpolation='bicubic'),
'selecsls60': _cfg(
url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-selecsls/selecsls60-bbf87526.pth',
interpolation='bicubic'),
'selecsls60b': _cfg(
url='https://github.com/rwightman/pytorch-image-models/releases/download/v0.1-selecsls/selecsls60b-94e619b5.pth',
interpolation='bicubic'),
'selecsls84': _cfg(
url='',
interpolation='bicubic'),
}
class SequentialList(nn.Sequential):
def __init__(self, *args):
super(SequentialList, self).__init__(*args)
@torch.jit._overload_method # noqa: F811
def forward(self, x):
# type: (List[torch.Tensor]) -> (List[torch.Tensor])
pass
@torch.jit._overload_method # noqa: F811
def forward(self, x):
# type: (torch.Tensor) -> (List[torch.Tensor])
pass
def forward(self, x) -> List[torch.Tensor]:
for module in self:
x = module(x)
return x
class SelectSeq(nn.Module):
def __init__(self, mode='index', index=0):
super(SelectSeq, self).__init__()
self.mode = mode
self.index = index
@torch.jit._overload_method # noqa: F811
def forward(self, x):
# type: (List[torch.Tensor]) -> (torch.Tensor)
pass
@torch.jit._overload_method # noqa: F811
def forward(self, x):
# type: (Tuple[torch.Tensor]) -> (torch.Tensor)
pass
def forward(self, x) -> torch.Tensor:
if self.mode == 'index':
return x[self.index]
else:
return torch.cat(x, dim=1)
def conv_bn(in_chs, out_chs, k=3, stride=1, padding=None, dilation=1):
if padding is None:
padding = ((stride - 1) + dilation * (k - 1)) // 2
return nn.Sequential(
nn.Conv2d(in_chs, out_chs, k, stride, padding=padding, dilation=dilation, bias=False),
nn.BatchNorm2d(out_chs),
nn.ReLU(inplace=True)
)
class SelecSLSBlock(nn.Module):
def __init__(self, in_chs, skip_chs, mid_chs, out_chs, is_first, stride, dilation=1):
super(SelecSLSBlock, self).__init__()
self.stride = stride
self.is_first = is_first
assert stride in [1, 2]
# Process input with 4 conv blocks with the same number of input and output channels
self.conv1 = conv_bn(in_chs, mid_chs, 3, stride, dilation=dilation)
self.conv2 = conv_bn(mid_chs, mid_chs, 1)
self.conv3 = conv_bn(mid_chs, mid_chs // 2, 3)
self.conv4 = conv_bn(mid_chs // 2, mid_chs, 1)
self.conv5 = conv_bn(mid_chs, mid_chs // 2, 3)
self.conv6 = conv_bn(2 * mid_chs + (0 if is_first else skip_chs), out_chs, 1)
def forward(self, x: List[torch.Tensor]) -> List[torch.Tensor]:
if not isinstance(x, list):
x = [x]
assert len(x) in [1, 2]
d1 = self.conv1(x[0])
d2 = self.conv3(self.conv2(d1))
d3 = self.conv5(self.conv4(d2))
if self.is_first:
out = self.conv6(torch.cat([d1, d2, d3], 1))
return [out, out]
else:
return [self.conv6(torch.cat([d1, d2, d3, x[1]], 1)), x[1]]
class SelecSLS(nn.Module):
"""SelecSLS42 / SelecSLS60 / SelecSLS84
Parameters
----------
cfg : network config dictionary specifying block type, feature, and head args
num_classes : int, default 1000
Number of classification classes.
in_chans : int, default 3
Number of input (color) channels.
drop_rate : float, default 0.
Dropout probability before classifier, for training
global_pool : str, default 'avg'
Global pooling type. One of 'avg', 'max', 'avgmax', 'catavgmax'
"""
def __init__(self, cfg, num_classes=1000, in_chans=3, drop_rate=0.0, global_pool='avg'):
self.num_classes = num_classes
self.drop_rate = drop_rate
super(SelecSLS, self).__init__()
self.stem = conv_bn(in_chans, 32, stride=2)
self.features = SequentialList(*[cfg['block'](*block_args) for block_args in cfg['features']])
self.from_seq = SelectSeq() # from List[tensor] -> Tensor in module compatible way
self.head = nn.Sequential(*[conv_bn(*conv_args) for conv_args in cfg['head']])
self.num_features = cfg['num_features']
self.feature_info = cfg['feature_info']
self.global_pool, self.fc = create_classifier(self.num_features, self.num_classes, pool_type=global_pool)
for n, m in self.named_modules():
if isinstance(m, nn.Conv2d):
nn.init.kaiming_normal_(m.weight, mode='fan_out', nonlinearity='relu')
elif isinstance(m, nn.BatchNorm2d):
nn.init.constant_(m.weight, 1.)
nn.init.constant_(m.bias, 0.)
def get_classifier(self):
return self.fc
def reset_classifier(self, num_classes, global_pool='avg'):
self.num_classes = num_classes
self.global_pool, self.fc = create_classifier(self.num_features, self.num_classes, pool_type=global_pool)
def forward_features(self, x):
x = self.stem(x)
x = self.features(x)
x = self.head(self.from_seq(x))
return x
def forward(self, x):
x = self.forward_features(x)
x = self.global_pool(x)
if self.drop_rate > 0.:
x = F.dropout(x, p=self.drop_rate, training=self.training)
x = self.fc(x)
return x
def _create_selecsls(variant, pretrained, model_kwargs):
cfg = {}
feature_info = [dict(num_chs=32, reduction=2, module='stem.2')]
if variant.startswith('selecsls42'):
cfg['block'] = SelecSLSBlock
# Define configuration of the network after the initial neck
cfg['features'] = [
# in_chs, skip_chs, mid_chs, out_chs, is_first, stride
(32, 0, 64, 64, True, 2),
(64, 64, 64, 128, False, 1),
(128, 0, 144, 144, True, 2),
(144, 144, 144, 288, False, 1),
(288, 0, 304, 304, True, 2),
(304, 304, 304, 480, False, 1),
]
feature_info.extend([
dict(num_chs=128, reduction=4, module='features.1'),
dict(num_chs=288, reduction=8, module='features.3'),
dict(num_chs=480, reduction=16, module='features.5'),
])
# Head can be replaced with alternative configurations depending on the problem
feature_info.append(dict(num_chs=1024, reduction=32, module='head.1'))
if variant == 'selecsls42b':
cfg['head'] = [
(480, 960, 3, 2),
(960, 1024, 3, 1),
(1024, 1280, 3, 2),
(1280, 1024, 1, 1),
]
feature_info.append(dict(num_chs=1024, reduction=64, module='head.3'))
cfg['num_features'] = 1024
else:
cfg['head'] = [
(480, 960, 3, 2),
(960, 1024, 3, 1),
(1024, 1024, 3, 2),
(1024, 1280, 1, 1),
]
feature_info.append(dict(num_chs=1280, reduction=64, module='head.3'))
cfg['num_features'] = 1280
elif variant.startswith('selecsls60'):
cfg['block'] = SelecSLSBlock
# Define configuration of the network after the initial neck
cfg['features'] = [
# in_chs, skip_chs, mid_chs, out_chs, is_first, stride
(32, 0, 64, 64, True, 2),
(64, 64, 64, 128, False, 1),
(128, 0, 128, 128, True, 2),
(128, 128, 128, 128, False, 1),
(128, 128, 128, 288, False, 1),
(288, 0, 288, 288, True, 2),
(288, 288, 288, 288, False, 1),
(288, 288, 288, 288, False, 1),
(288, 288, 288, 416, False, 1),
]
feature_info.extend([
dict(num_chs=128, reduction=4, module='features.1'),
dict(num_chs=288, reduction=8, module='features.4'),
dict(num_chs=416, reduction=16, module='features.8'),
])
# Head can be replaced with alternative configurations depending on the problem
feature_info.append(dict(num_chs=1024, reduction=32, module='head.1'))
if variant == 'selecsls60b':
cfg['head'] = [
(416, 756, 3, 2),
(756, 1024, 3, 1),
(1024, 1280, 3, 2),
(1280, 1024, 1, 1),
]
feature_info.append(dict(num_chs=1024, reduction=64, module='head.3'))
cfg['num_features'] = 1024
else:
cfg['head'] = [
(416, 756, 3, 2),
(756, 1024, 3, 1),
(1024, 1024, 3, 2),
(1024, 1280, 1, 1),
]
feature_info.append(dict(num_chs=1280, reduction=64, module='head.3'))
cfg['num_features'] = 1280
elif variant == 'selecsls84':
cfg['block'] = SelecSLSBlock
# Define configuration of the network after the initial neck
cfg['features'] = [
# in_chs, skip_chs, mid_chs, out_chs, is_first, stride
(32, 0, 64, 64, True, 2),
(64, 64, 64, 144, False, 1),
(144, 0, 144, 144, True, 2),
(144, 144, 144, 144, False, 1),
(144, 144, 144, 144, False, 1),
(144, 144, 144, 144, False, 1),
(144, 144, 144, 304, False, 1),
(304, 0, 304, 304, True, 2),
(304, 304, 304, 304, False, 1),
(304, 304, 304, 304, False, 1),
(304, 304, 304, 304, False, 1),
(304, 304, 304, 304, False, 1),
(304, 304, 304, 512, False, 1),
]
feature_info.extend([
dict(num_chs=144, reduction=4, module='features.1'),
dict(num_chs=304, reduction=8, module='features.6'),
dict(num_chs=512, reduction=16, module='features.12'),
])
# Head can be replaced with alternative configurations depending on the problem
cfg['head'] = [
(512, 960, 3, 2),
(960, 1024, 3, 1),
(1024, 1024, 3, 2),
(1024, 1280, 3, 1),
]
cfg['num_features'] = 1280
feature_info.extend([
dict(num_chs=1024, reduction=32, module='head.1'),
dict(num_chs=1280, reduction=64, module='head.3')
])
else:
raise ValueError('Invalid net configuration ' + variant + ' !!!')
cfg['feature_info'] = feature_info
# this model can do 6 feature levels by default, unlike most others, leave as 0-4 to avoid surprises?
return build_model_with_cfg(
SelecSLS, variant, pretrained, default_cfg=default_cfgs[variant], model_cfg=cfg,
feature_cfg=dict(out_indices=(0, 1, 2, 3, 4), flatten_sequential=True), **model_kwargs)
@register_model
def selecsls42(pretrained=False, **kwargs):
"""Constructs a SelecSLS42 model.
"""
return _create_selecsls('selecsls42', pretrained, kwargs)
@register_model
def selecsls42b(pretrained=False, **kwargs):
"""Constructs a SelecSLS42_B model.
"""
return _create_selecsls('selecsls42b', pretrained, kwargs)
@register_model
def selecsls60(pretrained=False, **kwargs):
"""Constructs a SelecSLS60 model.
"""
return _create_selecsls('selecsls60', pretrained, kwargs)
@register_model
def selecsls60b(pretrained=False, **kwargs):
"""Constructs a SelecSLS60_B model.
"""
return _create_selecsls('selecsls60b', pretrained, kwargs)
@register_model
def selecsls84(pretrained=False, **kwargs):
"""Constructs a SelecSLS84 model.
"""
return _create_selecsls('selecsls84', pretrained, kwargs)