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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved | |
from dataclasses import dataclass | |
from typing import Any, Iterable, List, Optional | |
import torch | |
from torch.nn import functional as F | |
from detectron2.structures import Instances | |
class DataForMaskLoss: | |
""" | |
Contains mask GT and estimated data for proposals from multiple images: | |
""" | |
# tensor of size (K, H, W) containing GT labels | |
masks_gt: Optional[torch.Tensor] = None | |
# tensor of size (K, C, H, W) containing estimated scores | |
masks_est: Optional[torch.Tensor] = None | |
def extract_data_for_mask_loss_from_matches( | |
proposals_targets: Iterable[Instances], estimated_segm: torch.Tensor | |
) -> DataForMaskLoss: | |
""" | |
Extract data for mask loss from instances that contain matched GT and | |
estimated bounding boxes. | |
Args: | |
proposals_targets: Iterable[Instances] | |
matched GT and estimated results, each item in the iterable | |
corresponds to data in 1 image | |
estimated_segm: tensor(K, C, S, S) of float - raw unnormalized | |
segmentation scores, here S is the size to which GT masks are | |
to be resized | |
Return: | |
masks_est: tensor(K, C, S, S) of float - class scores | |
masks_gt: tensor(K, S, S) of int64 - labels | |
""" | |
data = DataForMaskLoss() | |
masks_gt = [] | |
offset = 0 | |
assert estimated_segm.shape[2] == estimated_segm.shape[3], ( | |
f"Expected estimated segmentation to have a square shape, " | |
f"but the actual shape is {estimated_segm.shape[2:]}" | |
) | |
mask_size = estimated_segm.shape[2] | |
num_proposals = sum(inst.proposal_boxes.tensor.size(0) for inst in proposals_targets) | |
num_estimated = estimated_segm.shape[0] | |
assert ( | |
num_proposals == num_estimated | |
), "The number of proposals {} must be equal to the number of estimates {}".format( | |
num_proposals, num_estimated | |
) | |
for proposals_targets_per_image in proposals_targets: | |
n_i = proposals_targets_per_image.proposal_boxes.tensor.size(0) | |
if not n_i: | |
continue | |
gt_masks_per_image = proposals_targets_per_image.gt_masks.crop_and_resize( | |
proposals_targets_per_image.proposal_boxes.tensor, mask_size | |
).to(device=estimated_segm.device) | |
masks_gt.append(gt_masks_per_image) | |
offset += n_i | |
if masks_gt: | |
data.masks_est = estimated_segm | |
data.masks_gt = torch.cat(masks_gt, dim=0) | |
return data | |
class MaskLoss: | |
""" | |
Mask loss as cross-entropy for raw unnormalized scores given ground truth labels. | |
Mask ground truth labels are defined for the whole image and not only the | |
bounding box of interest. They are stored as objects that are assumed to implement | |
the `crop_and_resize` interface (e.g. BitMasks, PolygonMasks). | |
""" | |
def __call__( | |
self, proposals_with_gt: List[Instances], densepose_predictor_outputs: Any | |
) -> torch.Tensor: | |
""" | |
Computes segmentation loss as cross-entropy for raw unnormalized | |
scores given ground truth labels. | |
Args: | |
proposals_with_gt (list of Instances): detections with associated ground truth data | |
densepose_predictor_outputs: an object of a dataclass that contains predictor outputs | |
with estimated values; assumed to have the following attribute: | |
* coarse_segm (tensor of shape [N, D, S, S]): coarse segmentation estimates | |
as raw unnormalized scores | |
where N is the number of detections, S is the estimate size ( = width = height) | |
and D is the number of coarse segmentation channels. | |
Return: | |
Cross entropy for raw unnormalized scores for coarse segmentation given | |
ground truth labels from masks | |
""" | |
if not len(proposals_with_gt): | |
return self.fake_value(densepose_predictor_outputs) | |
# densepose outputs are computed for all images and all bounding boxes; | |
# i.e. if a batch has 4 images with (3, 1, 2, 1) proposals respectively, | |
# the outputs will have size(0) == 3+1+2+1 == 7 | |
with torch.no_grad(): | |
mask_loss_data = extract_data_for_mask_loss_from_matches( | |
proposals_with_gt, densepose_predictor_outputs.coarse_segm | |
) | |
if (mask_loss_data.masks_gt is None) or (mask_loss_data.masks_est is None): | |
return self.fake_value(densepose_predictor_outputs) | |
return F.cross_entropy(mask_loss_data.masks_est, mask_loss_data.masks_gt.long()) | |
def fake_value(self, densepose_predictor_outputs: Any) -> torch.Tensor: | |
""" | |
Fake segmentation loss used when no suitable ground truth data | |
was found in a batch. The loss has a value 0 and is primarily used to | |
construct the computation graph, so that `DistributedDataParallel` | |
has similar graphs on all GPUs and can perform reduction properly. | |
Args: | |
densepose_predictor_outputs: DensePose predictor outputs, an object | |
of a dataclass that is assumed to have `coarse_segm` | |
attribute | |
Return: | |
Zero value loss with proper computation graph | |
""" | |
return densepose_predictor_outputs.coarse_segm.sum() * 0 | |