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# Copyright (c) Facebook, Inc. and its affiliates. | |
from typing import List | |
import torch | |
from torch import nn | |
from torch.nn import functional as F | |
from detectron2.config import configurable | |
from detectron2.layers import Conv2d, ConvTranspose2d, cat, interpolate | |
from detectron2.structures import Instances, heatmaps_to_keypoints | |
from detectron2.utils.events import get_event_storage | |
from detectron2.utils.registry import Registry | |
_TOTAL_SKIPPED = 0 | |
__all__ = [ | |
"ROI_KEYPOINT_HEAD_REGISTRY", | |
"build_keypoint_head", | |
"BaseKeypointRCNNHead", | |
"KRCNNConvDeconvUpsampleHead", | |
] | |
ROI_KEYPOINT_HEAD_REGISTRY = Registry("ROI_KEYPOINT_HEAD") | |
ROI_KEYPOINT_HEAD_REGISTRY.__doc__ = """ | |
Registry for keypoint heads, which make keypoint predictions from per-region features. | |
The registered object will be called with `obj(cfg, input_shape)`. | |
""" | |
def build_keypoint_head(cfg, input_shape): | |
""" | |
Build a keypoint head from `cfg.MODEL.ROI_KEYPOINT_HEAD.NAME`. | |
""" | |
name = cfg.MODEL.ROI_KEYPOINT_HEAD.NAME | |
return ROI_KEYPOINT_HEAD_REGISTRY.get(name)(cfg, input_shape) | |
def keypoint_rcnn_loss(pred_keypoint_logits, instances, normalizer): | |
""" | |
Arguments: | |
pred_keypoint_logits (Tensor): A tensor of shape (N, K, S, S) where N is the total number | |
of instances in the batch, K is the number of keypoints, and S is the side length | |
of the keypoint heatmap. The values are spatial logits. | |
instances (list[Instances]): A list of M Instances, where M is the batch size. | |
These instances are predictions from the model | |
that are in 1:1 correspondence with pred_keypoint_logits. | |
Each Instances should contain a `gt_keypoints` field containing a `structures.Keypoint` | |
instance. | |
normalizer (float): Normalize the loss by this amount. | |
If not specified, we normalize by the number of visible keypoints in the minibatch. | |
Returns a scalar tensor containing the loss. | |
""" | |
heatmaps = [] | |
valid = [] | |
keypoint_side_len = pred_keypoint_logits.shape[2] | |
for instances_per_image in instances: | |
if len(instances_per_image) == 0: | |
continue | |
keypoints = instances_per_image.gt_keypoints | |
heatmaps_per_image, valid_per_image = keypoints.to_heatmap( | |
instances_per_image.proposal_boxes.tensor, keypoint_side_len | |
) | |
heatmaps.append(heatmaps_per_image.view(-1)) | |
valid.append(valid_per_image.view(-1)) | |
if len(heatmaps): | |
keypoint_targets = cat(heatmaps, dim=0) | |
valid = cat(valid, dim=0).to(dtype=torch.uint8) | |
valid = torch.nonzero(valid).squeeze(1) | |
# torch.mean (in binary_cross_entropy_with_logits) doesn't | |
# accept empty tensors, so handle it separately | |
if len(heatmaps) == 0 or valid.numel() == 0: | |
global _TOTAL_SKIPPED | |
_TOTAL_SKIPPED += 1 | |
storage = get_event_storage() | |
storage.put_scalar("kpts_num_skipped_batches", _TOTAL_SKIPPED, smoothing_hint=False) | |
return pred_keypoint_logits.sum() * 0 | |
N, K, H, W = pred_keypoint_logits.shape | |
pred_keypoint_logits = pred_keypoint_logits.view(N * K, H * W) | |
keypoint_loss = F.cross_entropy( | |
pred_keypoint_logits[valid], keypoint_targets[valid], reduction="sum" | |
) | |
# If a normalizer isn't specified, normalize by the number of visible keypoints in the minibatch | |
if normalizer is None: | |
normalizer = valid.numel() | |
keypoint_loss /= normalizer | |
return keypoint_loss | |
def keypoint_rcnn_inference(pred_keypoint_logits: torch.Tensor, pred_instances: List[Instances]): | |
""" | |
Post process each predicted keypoint heatmap in `pred_keypoint_logits` into (x, y, score) | |
and add it to the `pred_instances` as a `pred_keypoints` field. | |
Args: | |
pred_keypoint_logits (Tensor): A tensor of shape (R, K, S, S) where R is the total number | |
of instances in the batch, K is the number of keypoints, and S is the side length of | |
the keypoint heatmap. The values are spatial logits. | |
pred_instances (list[Instances]): A list of N Instances, where N is the number of images. | |
Returns: | |
None. Each element in pred_instances will contain extra "pred_keypoints" and | |
"pred_keypoint_heatmaps" fields. "pred_keypoints" is a tensor of shape | |
(#instance, K, 3) where the last dimension corresponds to (x, y, score). | |
The scores are larger than 0. "pred_keypoint_heatmaps" contains the raw | |
keypoint logits as passed to this function. | |
""" | |
# flatten all bboxes from all images together (list[Boxes] -> Rx4 tensor) | |
bboxes_flat = cat([b.pred_boxes.tensor for b in pred_instances], dim=0) | |
pred_keypoint_logits = pred_keypoint_logits.detach() | |
keypoint_results = heatmaps_to_keypoints(pred_keypoint_logits, bboxes_flat.detach()) | |
num_instances_per_image = [len(i) for i in pred_instances] | |
keypoint_results = keypoint_results[:, :, [0, 1, 3]].split(num_instances_per_image, dim=0) | |
heatmap_results = pred_keypoint_logits.split(num_instances_per_image, dim=0) | |
for keypoint_results_per_image, heatmap_results_per_image, instances_per_image in zip( | |
keypoint_results, heatmap_results, pred_instances | |
): | |
# keypoint_results_per_image is (num instances)x(num keypoints)x(x, y, score) | |
# heatmap_results_per_image is (num instances)x(num keypoints)x(side)x(side) | |
instances_per_image.pred_keypoints = keypoint_results_per_image | |
instances_per_image.pred_keypoint_heatmaps = heatmap_results_per_image | |
class BaseKeypointRCNNHead(nn.Module): | |
""" | |
Implement the basic Keypoint R-CNN losses and inference logic described in | |
Sec. 5 of :paper:`Mask R-CNN`. | |
""" | |
def __init__(self, *, num_keypoints, loss_weight=1.0, loss_normalizer=1.0): | |
""" | |
NOTE: this interface is experimental. | |
Args: | |
num_keypoints (int): number of keypoints to predict | |
loss_weight (float): weight to multiple on the keypoint loss | |
loss_normalizer (float or str): | |
If float, divide the loss by `loss_normalizer * #images`. | |
If 'visible', the loss is normalized by the total number of | |
visible keypoints across images. | |
""" | |
super().__init__() | |
self.num_keypoints = num_keypoints | |
self.loss_weight = loss_weight | |
assert loss_normalizer == "visible" or isinstance(loss_normalizer, float), loss_normalizer | |
self.loss_normalizer = loss_normalizer | |
def from_config(cls, cfg, input_shape): | |
ret = { | |
"loss_weight": cfg.MODEL.ROI_KEYPOINT_HEAD.LOSS_WEIGHT, | |
"num_keypoints": cfg.MODEL.ROI_KEYPOINT_HEAD.NUM_KEYPOINTS, | |
} | |
normalize_by_visible = ( | |
cfg.MODEL.ROI_KEYPOINT_HEAD.NORMALIZE_LOSS_BY_VISIBLE_KEYPOINTS | |
) # noqa | |
if not normalize_by_visible: | |
batch_size_per_image = cfg.MODEL.ROI_HEADS.BATCH_SIZE_PER_IMAGE | |
positive_sample_fraction = cfg.MODEL.ROI_HEADS.POSITIVE_FRACTION | |
ret["loss_normalizer"] = ( | |
ret["num_keypoints"] * batch_size_per_image * positive_sample_fraction | |
) | |
else: | |
ret["loss_normalizer"] = "visible" | |
return ret | |
def forward(self, x, instances: List[Instances]): | |
""" | |
Args: | |
x: input 4D region feature(s) provided by :class:`ROIHeads`. | |
instances (list[Instances]): contains the boxes & labels corresponding | |
to the input features. | |
Exact format is up to its caller to decide. | |
Typically, this is the foreground instances in training, with | |
"proposal_boxes" field and other gt annotations. | |
In inference, it contains boxes that are already predicted. | |
Returns: | |
A dict of losses if in training. The predicted "instances" if in inference. | |
""" | |
x = self.layers(x) | |
if self.training: | |
num_images = len(instances) | |
normalizer = ( | |
None if self.loss_normalizer == "visible" else num_images * self.loss_normalizer | |
) | |
return { | |
"loss_keypoint": keypoint_rcnn_loss(x, instances, normalizer=normalizer) | |
* self.loss_weight | |
} | |
else: | |
keypoint_rcnn_inference(x, instances) | |
return instances | |
def layers(self, x): | |
""" | |
Neural network layers that makes predictions from regional input features. | |
""" | |
raise NotImplementedError | |
# To get torchscript support, we make the head a subclass of `nn.Sequential`. | |
# Therefore, to add new layers in this head class, please make sure they are | |
# added in the order they will be used in forward(). | |
class KRCNNConvDeconvUpsampleHead(BaseKeypointRCNNHead, nn.Sequential): | |
""" | |
A standard keypoint head containing a series of 3x3 convs, followed by | |
a transpose convolution and bilinear interpolation for upsampling. | |
It is described in Sec. 5 of :paper:`Mask R-CNN`. | |
""" | |
def __init__(self, input_shape, *, num_keypoints, conv_dims, **kwargs): | |
""" | |
NOTE: this interface is experimental. | |
Args: | |
input_shape (ShapeSpec): shape of the input feature | |
conv_dims: an iterable of output channel counts for each conv in the head | |
e.g. (512, 512, 512) for three convs outputting 512 channels. | |
""" | |
super().__init__(num_keypoints=num_keypoints, **kwargs) | |
# default up_scale to 2.0 (this can be made an option) | |
up_scale = 2.0 | |
in_channels = input_shape.channels | |
for idx, layer_channels in enumerate(conv_dims, 1): | |
module = Conv2d(in_channels, layer_channels, 3, stride=1, padding=1) | |
self.add_module("conv_fcn{}".format(idx), module) | |
self.add_module("conv_fcn_relu{}".format(idx), nn.ReLU()) | |
in_channels = layer_channels | |
deconv_kernel = 4 | |
self.score_lowres = ConvTranspose2d( | |
in_channels, num_keypoints, deconv_kernel, stride=2, padding=deconv_kernel // 2 - 1 | |
) | |
self.up_scale = up_scale | |
for name, param in self.named_parameters(): | |
if "bias" in name: | |
nn.init.constant_(param, 0) | |
elif "weight" in name: | |
# Caffe2 implementation uses MSRAFill, which in fact | |
# corresponds to kaiming_normal_ in PyTorch | |
nn.init.kaiming_normal_(param, mode="fan_out", nonlinearity="relu") | |
def from_config(cls, cfg, input_shape): | |
ret = super().from_config(cfg, input_shape) | |
ret["input_shape"] = input_shape | |
ret["conv_dims"] = cfg.MODEL.ROI_KEYPOINT_HEAD.CONV_DIMS | |
return ret | |
def layers(self, x): | |
for layer in self: | |
x = layer(x) | |
x = interpolate(x, scale_factor=self.up_scale, mode="bilinear", align_corners=False) | |
return x | |