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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved | |
from typing import Any, Dict, List | |
import torch | |
from torch import nn | |
from torch.nn import functional as F | |
from detectron2.config import CfgNode | |
from detectron2.structures import Instances | |
from densepose.data.meshes.catalog import MeshCatalog | |
from densepose.modeling.cse.utils import normalize_embeddings, squared_euclidean_distance_matrix | |
from .embed_utils import PackedCseAnnotations | |
from .utils import BilinearInterpolationHelper | |
class EmbeddingLoss: | |
""" | |
Computes losses for estimated embeddings given annotated vertices. | |
Instances in a minibatch that correspond to the same mesh are grouped | |
together. For each group, loss is computed as cross-entropy for | |
unnormalized scores given ground truth mesh vertex ids. | |
Scores are based on squared distances between estimated vertex embeddings | |
and mesh vertex embeddings. | |
""" | |
def __init__(self, cfg: CfgNode): | |
""" | |
Initialize embedding loss from config | |
""" | |
self.embdist_gauss_sigma = cfg.MODEL.ROI_DENSEPOSE_HEAD.CSE.EMBEDDING_DIST_GAUSS_SIGMA | |
def __call__( | |
self, | |
proposals_with_gt: List[Instances], | |
densepose_predictor_outputs: Any, | |
packed_annotations: PackedCseAnnotations, | |
interpolator: BilinearInterpolationHelper, | |
embedder: nn.Module, | |
) -> Dict[int, torch.Tensor]: | |
""" | |
Produces losses for estimated embeddings given annotated vertices. | |
Embeddings for all the vertices of a mesh are computed by the embedder. | |
Embeddings for observed pixels are estimated by a predictor. | |
Losses are computed as cross-entropy for squared distances between | |
observed vertex embeddings and all mesh vertex embeddings given | |
ground truth vertex IDs. | |
Args: | |
proposals_with_gt (list of Instances): detections with associated | |
ground truth data; each item corresponds to instances detected | |
on 1 image; the number of items corresponds to the number of | |
images in a batch | |
densepose_predictor_outputs: an object of a dataclass that contains predictor | |
outputs with estimated values; assumed to have the following attributes: | |
* embedding - embedding estimates, tensor of shape [N, D, S, S], where | |
N = number of instances (= sum N_i, where N_i is the number of | |
instances on image i) | |
D = embedding space dimensionality (MODEL.ROI_DENSEPOSE_HEAD.CSE.EMBED_SIZE) | |
S = output size (width and height) | |
packed_annotations (PackedCseAnnotations): contains various data useful | |
for loss computation, each data is packed into a single tensor | |
interpolator (BilinearInterpolationHelper): bilinear interpolation helper | |
embedder (nn.Module): module that computes vertex embeddings for different meshes | |
Return: | |
dict(int -> tensor): losses for different mesh IDs | |
""" | |
losses = {} | |
for mesh_id_tensor in packed_annotations.vertex_mesh_ids_gt.unique(): | |
mesh_id = mesh_id_tensor.item() | |
mesh_name = MeshCatalog.get_mesh_name(mesh_id) | |
# valid points are those that fall into estimated bbox | |
# and correspond to the current mesh | |
j_valid = interpolator.j_valid * ( # pyre-ignore[16] | |
packed_annotations.vertex_mesh_ids_gt == mesh_id | |
) | |
if not torch.any(j_valid): | |
continue | |
# extract estimated embeddings for valid points | |
# -> tensor [J, D] | |
vertex_embeddings_i = normalize_embeddings( | |
interpolator.extract_at_points( | |
densepose_predictor_outputs.embedding, | |
slice_fine_segm=slice(None), | |
w_ylo_xlo=interpolator.w_ylo_xlo[:, None], # pyre-ignore[16] | |
w_ylo_xhi=interpolator.w_ylo_xhi[:, None], # pyre-ignore[16] | |
w_yhi_xlo=interpolator.w_yhi_xlo[:, None], # pyre-ignore[16] | |
w_yhi_xhi=interpolator.w_yhi_xhi[:, None], # pyre-ignore[16] | |
)[j_valid, :] | |
) | |
# extract vertex ids for valid points | |
# -> tensor [J] | |
vertex_indices_i = packed_annotations.vertex_ids_gt[j_valid] | |
# embeddings for all mesh vertices | |
# -> tensor [K, D] | |
mesh_vertex_embeddings = embedder(mesh_name) | |
# unnormalized scores for valid points | |
# -> tensor [J, K] | |
scores = squared_euclidean_distance_matrix( | |
vertex_embeddings_i, mesh_vertex_embeddings | |
) / (-self.embdist_gauss_sigma) | |
losses[mesh_name] = F.cross_entropy(scores, vertex_indices_i, ignore_index=-1) | |
for mesh_name in embedder.mesh_names: | |
if mesh_name not in losses: | |
losses[mesh_name] = self.fake_value( | |
densepose_predictor_outputs, embedder, mesh_name | |
) | |
return losses | |
def fake_values(self, densepose_predictor_outputs: Any, embedder: nn.Module): | |
losses = {} | |
for mesh_name in embedder.mesh_names: | |
losses[mesh_name] = self.fake_value(densepose_predictor_outputs, embedder, mesh_name) | |
return losses | |
def fake_value(self, densepose_predictor_outputs: Any, embedder: nn.Module, mesh_name: str): | |
return densepose_predictor_outputs.embedding.sum() * 0 + embedder(mesh_name).sum() * 0 | |