| import torch |
|
|
|
|
| @torch.no_grad() |
| def warp_kpts(kpts0, depth0, depth1, T_0to1, K0, K1): |
| """ Warp kpts0 from I0 to I1 with depth, K and Rt |
| Also check covisibility and depth consistency. |
| Depth is consistent if relative error < 0.2 (hard-coded). |
| |
| Args: |
| kpts0 (torch.Tensor): [N, L, 2] - <x, y>, |
| depth0 (torch.Tensor): [N, H, W], |
| depth1 (torch.Tensor): [N, H, W], |
| T_0to1 (torch.Tensor): [N, 3, 4], |
| K0 (torch.Tensor): [N, 3, 3], |
| K1 (torch.Tensor): [N, 3, 3], |
| Returns: |
| calculable_mask (torch.Tensor): [N, L] |
| warped_keypoints0 (torch.Tensor): [N, L, 2] <x0_hat, y1_hat> |
| """ |
| kpts0_long = kpts0.round().long() |
|
|
| |
| kpts0_depth = torch.stack( |
| [depth0[i, kpts0_long[i, :, 1], kpts0_long[i, :, 0]] for i in range(kpts0.shape[0])], dim=0 |
| ) |
| nonzero_mask = kpts0_depth != 0 |
|
|
| |
| kpts0_h = torch.cat([kpts0, torch.ones_like(kpts0[:, :, [0]])], dim=-1) * kpts0_depth[..., None] |
| kpts0_cam = K0.inverse() @ kpts0_h.transpose(2, 1) |
|
|
| |
| w_kpts0_cam = T_0to1[:, :3, :3] @ kpts0_cam + T_0to1[:, :3, [3]] |
| w_kpts0_depth_computed = w_kpts0_cam[:, 2, :] |
|
|
| |
| w_kpts0_h = (K1 @ w_kpts0_cam).transpose(2, 1) |
| w_kpts0 = w_kpts0_h[:, :, :2] / (w_kpts0_h[:, :, [2]] + 1e-4) |
|
|
| |
| h, w = depth1.shape[1:3] |
| covisible_mask = (w_kpts0[:, :, 0] > 0) * (w_kpts0[:, :, 0] < w-1) * \ |
| (w_kpts0[:, :, 1] > 0) * (w_kpts0[:, :, 1] < h-1) |
| w_kpts0_long = w_kpts0.long() |
| w_kpts0_long[~covisible_mask, :] = 0 |
|
|
| w_kpts0_depth = torch.stack( |
| [depth1[i, w_kpts0_long[i, :, 1], w_kpts0_long[i, :, 0]] for i in range(w_kpts0_long.shape[0])], dim=0 |
| ) |
| consistent_mask = ((w_kpts0_depth - w_kpts0_depth_computed) / w_kpts0_depth).abs() < 0.2 |
| valid_mask = nonzero_mask * covisible_mask * consistent_mask |
|
|
| return valid_mask, w_kpts0 |
|
|
