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""" |
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The module that predicting a dense motion from sparse motion representation given by kp_source and kp_driving |
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""" |
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from torch import nn |
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import torch.nn.functional as F |
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import torch |
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from .util import Hourglass, make_coordinate_grid, kp2gaussian |
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class DenseMotionNetwork(nn.Module): |
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def __init__(self, block_expansion, num_blocks, max_features, num_kp, feature_channel, reshape_depth, compress, estimate_occlusion_map=True): |
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super(DenseMotionNetwork, self).__init__() |
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self.hourglass = Hourglass(block_expansion=block_expansion, in_features=(num_kp+1)*(compress+1), max_features=max_features, num_blocks=num_blocks) |
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self.mask = nn.Conv3d(self.hourglass.out_filters, num_kp + 1, kernel_size=7, padding=3) |
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self.compress = nn.Conv3d(feature_channel, compress, kernel_size=1) |
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self.norm = nn.BatchNorm3d(compress, affine=True) |
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self.num_kp = num_kp |
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self.flag_estimate_occlusion_map = estimate_occlusion_map |
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if self.flag_estimate_occlusion_map: |
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self.occlusion = nn.Conv2d(self.hourglass.out_filters*reshape_depth, 1, kernel_size=7, padding=3) |
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else: |
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self.occlusion = None |
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def create_sparse_motions(self, feature, kp_driving, kp_source): |
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bs, _, d, h, w = feature.shape |
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identity_grid = make_coordinate_grid((d, h, w), ref=kp_source) |
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identity_grid = identity_grid.view(1, 1, d, h, w, 3) |
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coordinate_grid = identity_grid - kp_driving.view(bs, self.num_kp, 1, 1, 1, 3) |
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k = coordinate_grid.shape[1] |
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driving_to_source = coordinate_grid + kp_source.view(bs, self.num_kp, 1, 1, 1, 3) |
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identity_grid = identity_grid.repeat(bs, 1, 1, 1, 1, 1) |
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sparse_motions = torch.cat([identity_grid, driving_to_source], dim=1) |
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return sparse_motions |
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def create_deformed_feature(self, feature, sparse_motions): |
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bs, _, d, h, w = feature.shape |
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feature_repeat = feature.unsqueeze(1).unsqueeze(1).repeat(1, self.num_kp+1, 1, 1, 1, 1, 1) |
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feature_repeat = feature_repeat.view(bs * (self.num_kp+1), -1, d, h, w) |
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sparse_motions = sparse_motions.view((bs * (self.num_kp+1), d, h, w, -1)) |
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sparse_deformed = F.grid_sample(feature_repeat, sparse_motions, align_corners=False) |
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sparse_deformed = sparse_deformed.view((bs, self.num_kp+1, -1, d, h, w)) |
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return sparse_deformed |
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def create_heatmap_representations(self, feature, kp_driving, kp_source): |
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spatial_size = feature.shape[3:] |
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gaussian_driving = kp2gaussian(kp_driving, spatial_size=spatial_size, kp_variance=0.01) |
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gaussian_source = kp2gaussian(kp_source, spatial_size=spatial_size, kp_variance=0.01) |
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heatmap = gaussian_driving - gaussian_source |
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zeros = torch.zeros(heatmap.shape[0], 1, spatial_size[0], spatial_size[1], spatial_size[2]).type(heatmap.dtype).to(heatmap.device) |
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heatmap = torch.cat([zeros, heatmap], dim=1) |
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heatmap = heatmap.unsqueeze(2) |
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return heatmap |
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def forward(self, feature, kp_driving, kp_source): |
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bs, _, d, h, w = feature.shape |
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feature = self.compress(feature) |
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feature = self.norm(feature) |
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feature = F.relu(feature) |
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out_dict = dict() |
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sparse_motion = self.create_sparse_motions(feature, kp_driving, kp_source) |
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deformed_feature = self.create_deformed_feature(feature, sparse_motion) |
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heatmap = self.create_heatmap_representations(deformed_feature, kp_driving, kp_source) |
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input = torch.cat([heatmap, deformed_feature], dim=2) |
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input = input.view(bs, -1, d, h, w) |
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prediction = self.hourglass(input) |
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mask = self.mask(prediction) |
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mask = F.softmax(mask, dim=1) |
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out_dict['mask'] = mask |
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mask = mask.unsqueeze(2) |
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sparse_motion = sparse_motion.permute(0, 1, 5, 2, 3, 4) |
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deformation = (sparse_motion * mask).sum(dim=1) |
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deformation = deformation.permute(0, 2, 3, 4, 1) |
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out_dict['deformation'] = deformation |
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if self.flag_estimate_occlusion_map: |
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bs, _, d, h, w = prediction.shape |
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prediction_reshape = prediction.view(bs, -1, h, w) |
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occlusion_map = torch.sigmoid(self.occlusion(prediction_reshape)) |
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out_dict['occlusion_map'] = occlusion_map |
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return out_dict |
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