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GPEN / face_detect /facemodels /retinaface.py

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	import torch
	import torch.nn as nn
	import torchvision.models.detection.backbone_utils as backbone_utils
	import torchvision.models._utils as _utils
	import torch.nn.functional as F
	from collections import OrderedDict

	from facemodels.net import MobileNetV1 as MobileNetV1
	from facemodels.net import FPN as FPN
	from facemodels.net import SSH as SSH



	class ClassHead(nn.Module):
	def __init__(self,inchannels=512,num_anchors=3):
	super(ClassHead,self).__init__()
	self.num_anchors = num_anchors
	self.conv1x1 = nn.Conv2d(inchannels,self.num_anchors*2,kernel_size=(1,1),stride=1,padding=0)

	def forward(self,x):
	out = self.conv1x1(x)
	out = out.permute(0,2,3,1).contiguous()

	return out.view(out.shape[0], -1, 2)

	class BboxHead(nn.Module):
	def __init__(self,inchannels=512,num_anchors=3):
	super(BboxHead,self).__init__()
	self.conv1x1 = nn.Conv2d(inchannels,num_anchors*4,kernel_size=(1,1),stride=1,padding=0)

	def forward(self,x):
	out = self.conv1x1(x)
	out = out.permute(0,2,3,1).contiguous()

	return out.view(out.shape[0], -1, 4)

	class LandmarkHead(nn.Module):
	def __init__(self,inchannels=512,num_anchors=3):
	super(LandmarkHead,self).__init__()
	self.conv1x1 = nn.Conv2d(inchannels,num_anchors*10,kernel_size=(1,1),stride=1,padding=0)

	def forward(self,x):
	out = self.conv1x1(x)
	out = out.permute(0,2,3,1).contiguous()

	return out.view(out.shape[0], -1, 10)

	class RetinaFace(nn.Module):
	def __init__(self, cfg = None, phase = 'train'):
	"""
	:param cfg: Network related settings.
	:param phase: train or test.
	"""
	super(RetinaFace,self).__init__()
	self.phase = phase
	backbone = None
	if cfg['name'] == 'mobilenet0.25':
	backbone = MobileNetV1()
	if cfg['pretrain']:
	checkpoint = torch.load("./weights/mobilenetV1X0.25_pretrain.tar", map_location=torch.device('cpu'))
	from collections import OrderedDict
	new_state_dict = OrderedDict()
	for k, v in checkpoint['state_dict'].items():
	name = k[7:] # remove module.
	new_state_dict[name] = v
	# load params
	backbone.load_state_dict(new_state_dict)
	elif cfg['name'] == 'Resnet50':
	import torchvision.models as models
	backbone = models.resnet50(pretrained=cfg['pretrain'])

	self.body = _utils.IntermediateLayerGetter(backbone, cfg['return_layers'])
	in_channels_stage2 = cfg['in_channel']
	in_channels_list = [
	in_channels_stage2 * 2,
	in_channels_stage2 * 4,
	in_channels_stage2 * 8,
	]
	out_channels = cfg['out_channel']
	self.fpn = FPN(in_channels_list,out_channels)
	self.ssh1 = SSH(out_channels, out_channels)
	self.ssh2 = SSH(out_channels, out_channels)
	self.ssh3 = SSH(out_channels, out_channels)

	self.ClassHead = self._make_class_head(fpn_num=3, inchannels=cfg['out_channel'])
	self.BboxHead = self._make_bbox_head(fpn_num=3, inchannels=cfg['out_channel'])
	self.LandmarkHead = self._make_landmark_head(fpn_num=3, inchannels=cfg['out_channel'])

	def _make_class_head(self,fpn_num=3,inchannels=64,anchor_num=2):
	classhead = nn.ModuleList()
	for i in range(fpn_num):
	classhead.append(ClassHead(inchannels,anchor_num))
	return classhead

	def _make_bbox_head(self,fpn_num=3,inchannels=64,anchor_num=2):
	bboxhead = nn.ModuleList()
	for i in range(fpn_num):
	bboxhead.append(BboxHead(inchannels,anchor_num))
	return bboxhead

	def _make_landmark_head(self,fpn_num=3,inchannels=64,anchor_num=2):
	landmarkhead = nn.ModuleList()
	for i in range(fpn_num):
	landmarkhead.append(LandmarkHead(inchannels,anchor_num))
	return landmarkhead

	def forward(self,inputs):
	out = self.body(inputs)

	# FPN
	fpn = self.fpn(out)

	# SSH
	feature1 = self.ssh1(fpn[0])
	feature2 = self.ssh2(fpn[1])
	feature3 = self.ssh3(fpn[2])
	features = [feature1, feature2, feature3]

	bbox_regressions = torch.cat([self.BboxHead[i](feature) for i, feature in enumerate(features)], dim=1)
	classifications = torch.cat([self.ClassHead[i](feature) for i, feature in enumerate(features)],dim=1)
	ldm_regressions = torch.cat([self.LandmarkHead[i](feature) for i, feature in enumerate(features)], dim=1)

	if self.phase == 'train':
	output = (bbox_regressions, classifications, ldm_regressions)
	else:
	output = (bbox_regressions, F.softmax(classifications, dim=-1), ldm_regressions)
	return output