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import torch
import torch.nn as nn
from torch.nn import functional as F
from nets.layer import make_conv_layers, make_linear_layers, make_deconv_layers
from utils.transforms import sample_joint_features, soft_argmax_2d, soft_argmax_3d
from utils.human_models import smpl_x
from config import cfg
from mmcv.ops.roi_align import roi_align
class PositionNet(nn.Module):
def __init__(self, part, feat_dim=768):
super(PositionNet, self).__init__()
if part == 'body':
self.joint_num = len(smpl_x.pos_joint_part['body'])
self.hm_shape = cfg.output_hm_shape
elif part == 'hand':
self.joint_num = len(smpl_x.pos_joint_part['rhand'])
self.hm_shape = cfg.output_hand_hm_shape
self.conv = make_conv_layers([feat_dim, self.joint_num * self.hm_shape[0]], kernel=1, stride=1, padding=0, bnrelu_final=False)
def forward(self, img_feat):
joint_hm = self.conv(img_feat).view(-1, self.joint_num, self.hm_shape[0], self.hm_shape[1], self.hm_shape[2])
joint_coord = soft_argmax_3d(joint_hm)
joint_hm = F.softmax(joint_hm.view(-1, self.joint_num, self.hm_shape[0] * self.hm_shape[1] * self.hm_shape[2]), 2)
joint_hm = joint_hm.view(-1, self.joint_num, self.hm_shape[0], self.hm_shape[1], self.hm_shape[2])
return joint_hm, joint_coord
class HandRotationNet(nn.Module):
def __init__(self, part, feat_dim = 768):
super(HandRotationNet, self).__init__()
self.part = part
self.joint_num = len(smpl_x.pos_joint_part['rhand'])
self.hand_conv = make_conv_layers([feat_dim, 512], kernel=1, stride=1, padding=0)
self.hand_pose_out = make_linear_layers([self.joint_num * 515, len(smpl_x.orig_joint_part['rhand']) * 6], relu_final=False)
self.feat_dim = feat_dim
def forward(self, img_feat, joint_coord_img):
batch_size = img_feat.shape[0]
img_feat = self.hand_conv(img_feat)
img_feat_joints = sample_joint_features(img_feat, joint_coord_img[:, :, :2])
feat = torch.cat((img_feat_joints, joint_coord_img), 2) # batch_size, joint_num, 512+3
hand_pose = self.hand_pose_out(feat.view(batch_size, -1))
return hand_pose
class BodyRotationNet(nn.Module):
def __init__(self, feat_dim = 768):
super(BodyRotationNet, self).__init__()
self.joint_num = len(smpl_x.pos_joint_part['body'])
self.body_conv = make_linear_layers([feat_dim, 512], relu_final=False)
self.root_pose_out = make_linear_layers([self.joint_num * (512+3), 6], relu_final=False)
self.body_pose_out = make_linear_layers(
[self.joint_num * (512+3), (len(smpl_x.orig_joint_part['body']) - 1) * 6], relu_final=False) # without root
self.shape_out = make_linear_layers([feat_dim, smpl_x.shape_param_dim], relu_final=False)
self.cam_out = make_linear_layers([feat_dim, 3], relu_final=False)
self.feat_dim = feat_dim
def forward(self, body_pose_token, shape_token, cam_token, body_joint_img):
batch_size = body_pose_token.shape[0]
# shape parameter
shape_param = self.shape_out(shape_token)
# camera parameter
cam_param = self.cam_out(cam_token)
# body pose parameter
body_pose_token = self.body_conv(body_pose_token)
body_pose_token = torch.cat((body_pose_token, body_joint_img), 2)
root_pose = self.root_pose_out(body_pose_token.view(batch_size, -1))
body_pose = self.body_pose_out(body_pose_token.view(batch_size, -1))
return root_pose, body_pose, shape_param, cam_param
class FaceRegressor(nn.Module):
def __init__(self, feat_dim=768):
super(FaceRegressor, self).__init__()
self.expr_out = make_linear_layers([feat_dim, smpl_x.expr_code_dim], relu_final=False)
self.jaw_pose_out = make_linear_layers([feat_dim, 6], relu_final=False)
def forward(self, expr_token, jaw_pose_token):
expr_param = self.expr_out(expr_token) # expression parameter
jaw_pose = self.jaw_pose_out(jaw_pose_token) # jaw pose parameter
return expr_param, jaw_pose
class BoxNet(nn.Module):
def __init__(self, feat_dim=768):
super(BoxNet, self).__init__()
self.joint_num = len(smpl_x.pos_joint_part['body'])
self.deconv = make_deconv_layers([feat_dim + self.joint_num * cfg.output_hm_shape[0], 256, 256, 256])
self.bbox_center = make_conv_layers([256, 3], kernel=1, stride=1, padding=0, bnrelu_final=False)
self.lhand_size = make_linear_layers([256, 256, 2], relu_final=False)
self.rhand_size = make_linear_layers([256, 256, 2], relu_final=False)
self.face_size = make_linear_layers([256, 256, 2], relu_final=False)
def forward(self, img_feat, joint_hm):
joint_hm = joint_hm.view(joint_hm.shape[0], joint_hm.shape[1] * cfg.output_hm_shape[0], cfg.output_hm_shape[1], cfg.output_hm_shape[2])
img_feat = torch.cat((img_feat, joint_hm), 1)
img_feat = self.deconv(img_feat)
# bbox center
bbox_center_hm = self.bbox_center(img_feat)
bbox_center = soft_argmax_2d(bbox_center_hm)
lhand_center, rhand_center, face_center = bbox_center[:, 0, :], bbox_center[:, 1, :], bbox_center[:, 2, :]
# bbox size
lhand_feat = sample_joint_features(img_feat, lhand_center[:, None, :].detach())[:, 0, :]
lhand_size = self.lhand_size(lhand_feat)
rhand_feat = sample_joint_features(img_feat, rhand_center[:, None, :].detach())[:, 0, :]
rhand_size = self.rhand_size(rhand_feat)
face_feat = sample_joint_features(img_feat, face_center[:, None, :].detach())[:, 0, :]
face_size = self.face_size(face_feat)
lhand_center = lhand_center / 8
rhand_center = rhand_center / 8
face_center = face_center / 8
return lhand_center, lhand_size, rhand_center, rhand_size, face_center, face_size
class BoxSizeNet(nn.Module):
def __init__(self):
super(BoxSizeNet, self).__init__()
self.lhand_size = make_linear_layers([256, 256, 2], relu_final=False)
self.rhand_size = make_linear_layers([256, 256, 2], relu_final=False)
self.face_size = make_linear_layers([256, 256, 2], relu_final=False)
def forward(self, box_fea):
# box_fea: [bs, 3, C]
lhand_size = self.lhand_size(box_fea[:, 0])
rhand_size = self.rhand_size(box_fea[:, 1])
face_size = self.face_size(box_fea[:, 2])
return lhand_size, rhand_size, face_size
class HandRoI(nn.Module):
def __init__(self, feat_dim=768, upscale=4):
super(HandRoI, self).__init__()
self.upscale = upscale
if upscale==1:
self.deconv = make_conv_layers([feat_dim, feat_dim], kernel=1, stride=1, padding=0, bnrelu_final=False)
self.conv = make_conv_layers([feat_dim, feat_dim], kernel=1, stride=1, padding=0, bnrelu_final=False)
elif upscale==2:
self.deconv = make_deconv_layers([feat_dim, feat_dim//2])
self.conv = make_conv_layers([feat_dim//2, feat_dim], kernel=1, stride=1, padding=0, bnrelu_final=False)
elif upscale==4:
self.deconv = make_deconv_layers([feat_dim, feat_dim//2, feat_dim//4])
self.conv = make_conv_layers([feat_dim//4, feat_dim], kernel=1, stride=1, padding=0, bnrelu_final=False)
elif upscale==8:
self.deconv = make_deconv_layers([feat_dim, feat_dim//2, feat_dim//4, feat_dim//8])
self.conv = make_conv_layers([feat_dim//8, feat_dim], kernel=1, stride=1, padding=0, bnrelu_final=False)
def forward(self, img_feat, lhand_bbox, rhand_bbox):
lhand_bbox = torch.cat((torch.arange(lhand_bbox.shape[0]).float().cuda()[:, None], lhand_bbox),
1) # batch_idx, xmin, ymin, xmax, ymax
rhand_bbox = torch.cat((torch.arange(rhand_bbox.shape[0]).float().cuda()[:, None], rhand_bbox),
1) # batch_idx, xmin, ymin, xmax, ymax
img_feat = self.deconv(img_feat)
lhand_bbox_roi = lhand_bbox.clone()
lhand_bbox_roi[:, 1] = lhand_bbox_roi[:, 1] / cfg.input_body_shape[1] * cfg.output_hm_shape[2] * self.upscale
lhand_bbox_roi[:, 2] = lhand_bbox_roi[:, 2] / cfg.input_body_shape[0] * cfg.output_hm_shape[1] * self.upscale
lhand_bbox_roi[:, 3] = lhand_bbox_roi[:, 3] / cfg.input_body_shape[1] * cfg.output_hm_shape[2] * self.upscale
lhand_bbox_roi[:, 4] = lhand_bbox_roi[:, 4] / cfg.input_body_shape[0] * cfg.output_hm_shape[1] * self.upscale
assert (cfg.output_hm_shape[1]*self.upscale, cfg.output_hm_shape[2]*self.upscale) == (img_feat.shape[2], img_feat.shape[3])
lhand_img_feat = roi_align(img_feat, lhand_bbox_roi, (cfg.output_hand_hm_shape[1], cfg.output_hand_hm_shape[2]), 1.0, 0, 'avg', False)
lhand_img_feat = torch.flip(lhand_img_feat, [3]) # flip to the right hand
rhand_bbox_roi = rhand_bbox.clone()
rhand_bbox_roi[:, 1] = rhand_bbox_roi[:, 1] / cfg.input_body_shape[1] * cfg.output_hm_shape[2] * self.upscale
rhand_bbox_roi[:, 2] = rhand_bbox_roi[:, 2] / cfg.input_body_shape[0] * cfg.output_hm_shape[1] * self.upscale
rhand_bbox_roi[:, 3] = rhand_bbox_roi[:, 3] / cfg.input_body_shape[1] * cfg.output_hm_shape[2] * self.upscale
rhand_bbox_roi[:, 4] = rhand_bbox_roi[:, 4] / cfg.input_body_shape[0] * cfg.output_hm_shape[1] * self.upscale
rhand_img_feat = roi_align(img_feat, rhand_bbox_roi, (cfg.output_hand_hm_shape[1], cfg.output_hand_hm_shape[2]), 1.0, 0, 'avg', False)
hand_img_feat = torch.cat((lhand_img_feat, rhand_img_feat)) # [bs, c, cfg.output_hand_hm_shape[2]*scale, cfg.output_hand_hm_shape[1]*scale]
hand_img_feat = self.conv(hand_img_feat)
return hand_img_feat