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| import torch | |
| import torch.nn as nn | |
| from torch.autograd import Variable | |
| def get_channel_sum(input): | |
| temp = torch.sum(input, dim=3) | |
| output = torch.sum(temp, dim=2) | |
| return output | |
| def expand_two_dimensions_at_end(input, dim1, dim2): | |
| input = input.unsqueeze(-1).unsqueeze(-1) | |
| input = input.expand(-1, -1, dim1, dim2) | |
| return input | |
| class TestTimePCA(nn.Module): | |
| def __init__(self): | |
| super(TestTimePCA, self).__init__() | |
| def _make_grid(self, h, w): | |
| yy, xx = torch.meshgrid( | |
| torch.arange(h).float() / (h - 1) * 2 - 1, | |
| torch.arange(w).float() / (w - 1) * 2 - 1) | |
| return yy, xx | |
| def weighted_mean(self, heatmap): | |
| batch, npoints, h, w = heatmap.shape | |
| yy, xx = self._make_grid(h, w) | |
| yy = yy.view(1, 1, h, w).to(heatmap) | |
| xx = xx.view(1, 1, h, w).to(heatmap) | |
| yy_coord = (yy * heatmap).sum([2, 3]) # batch x npoints | |
| xx_coord = (xx * heatmap).sum([2, 3]) # batch x npoints | |
| coords = torch.stack([xx_coord, yy_coord], dim=-1) | |
| return coords | |
| def unbiased_weighted_covariance(self, htp, means, num_dim_image=2, EPSILON=1e-5): | |
| batch_size, num_points, height, width = htp.shape | |
| yv, xv = self._make_grid(height, width) | |
| xv = Variable(xv) | |
| yv = Variable(yv) | |
| if htp.is_cuda: | |
| xv = xv.cuda() | |
| yv = yv.cuda() | |
| xmean = means[:, :, 0] | |
| xv_minus_mean = xv.expand(batch_size, num_points, -1, -1) - expand_two_dimensions_at_end(xmean, height, | |
| width) # [batch_size, 68, 64, 64] | |
| ymean = means[:, :, 1] | |
| yv_minus_mean = yv.expand(batch_size, num_points, -1, -1) - expand_two_dimensions_at_end(ymean, height, | |
| width) # [batch_size, 68, 64, 64] | |
| wt_xv_minus_mean = xv_minus_mean | |
| wt_yv_minus_mean = yv_minus_mean | |
| wt_xv_minus_mean = wt_xv_minus_mean.view(batch_size * num_points, height * width) # [batch_size*68, 4096] | |
| wt_xv_minus_mean = wt_xv_minus_mean.view(batch_size * num_points, 1, height * width) # [batch_size*68, 1, 4096] | |
| wt_yv_minus_mean = wt_yv_minus_mean.view(batch_size * num_points, height * width) # [batch_size*68, 4096] | |
| wt_yv_minus_mean = wt_yv_minus_mean.view(batch_size * num_points, 1, height * width) # [batch_size*68, 1, 4096] | |
| vec_concat = torch.cat((wt_xv_minus_mean, wt_yv_minus_mean), 1) # [batch_size*68, 2, 4096] | |
| htp_vec = htp.view(batch_size * num_points, 1, height * width) | |
| htp_vec = htp_vec.expand(-1, 2, -1) | |
| covariance = torch.bmm(htp_vec * vec_concat, vec_concat.transpose(1, 2)) # [batch_size*68, 2, 2] | |
| covariance = covariance.view(batch_size, num_points, num_dim_image, num_dim_image) # [batch_size, 68, 2, 2] | |
| V_1 = htp.sum([2, 3]) + EPSILON # [batch_size, 68] | |
| V_2 = torch.pow(htp, 2).sum([2, 3]) + EPSILON # [batch_size, 68] | |
| denominator = V_1 - (V_2 / V_1) | |
| covariance = covariance / expand_two_dimensions_at_end(denominator, num_dim_image, num_dim_image) | |
| return covariance | |
| def forward(self, heatmap, groudtruth): | |
| batch, npoints, h, w = heatmap.shape | |
| heatmap_sum = torch.clamp(heatmap.sum([2, 3]), min=1e-6) | |
| heatmap = heatmap / heatmap_sum.view(batch, npoints, 1, 1) | |
| # means [batch_size, 68, 2] | |
| means = self.weighted_mean(heatmap) | |
| # covars [batch_size, 68, 2, 2] | |
| covars = self.unbiased_weighted_covariance(heatmap, means) | |
| # eigenvalues [batch_size * 68, 2] , eigenvectors [batch_size * 68, 2, 2] | |
| covars = covars.view(batch * npoints, 2, 2).cpu() | |
| evalues, evectors = covars.symeig(eigenvectors=True) | |
| evalues = evalues.view(batch, npoints, 2) | |
| evectors = evectors.view(batch, npoints, 2, 2) | |
| means = means.cpu() | |
| results = [dict() for _ in range(batch)] | |
| for i in range(batch): | |
| results[i]['pred'] = means[i].numpy().tolist() | |
| results[i]['gt'] = groudtruth[i].cpu().numpy().tolist() | |
| results[i]['evalues'] = evalues[i].numpy().tolist() | |
| results[i]['evectors'] = evectors[i].numpy().tolist() | |
| return results | |