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# Modified from https://github.com/facebookresearch/detectron2/tree/master/projects/PointRend # noqa
import torch
import torch.nn.functional as F
from mmcv.ops import point_sample, rel_roi_point_to_rel_img_point
from mmdet.core import bbox2roi, bbox_mapping, merge_aug_masks
from .. import builder
from ..builder import HEADS
from .standard_roi_head import StandardRoIHead
@HEADS.register_module()
class PointRendRoIHead(StandardRoIHead):
"""`PointRend <https://arxiv.org/abs/1912.08193>`_."""
def __init__(self, point_head, *args, **kwargs):
super().__init__(*args, **kwargs)
assert self.with_bbox and self.with_mask
self.init_point_head(point_head)
def init_point_head(self, point_head):
"""Initialize ``point_head``"""
self.point_head = builder.build_head(point_head)
def init_weights(self, pretrained):
"""Initialize the weights in head.
Args:
pretrained (str, optional): Path to pre-trained weights.
"""
super().init_weights(pretrained)
self.point_head.init_weights()
def _mask_forward_train(self, x, sampling_results, bbox_feats, gt_masks,
img_metas):
"""Run forward function and calculate loss for mask head and point head
in training."""
mask_results = super()._mask_forward_train(x, sampling_results,
bbox_feats, gt_masks,
img_metas)
if mask_results['loss_mask'] is not None:
loss_point = self._mask_point_forward_train(
x, sampling_results, mask_results['mask_pred'], gt_masks,
img_metas)
mask_results['loss_mask'].update(loss_point)
return mask_results
def _mask_point_forward_train(self, x, sampling_results, mask_pred,
gt_masks, img_metas):
"""Run forward function and calculate loss for point head in
training."""
pos_labels = torch.cat([res.pos_gt_labels for res in sampling_results])
rel_roi_points = self.point_head.get_roi_rel_points_train(
mask_pred, pos_labels, cfg=self.train_cfg)
rois = bbox2roi([res.pos_bboxes for res in sampling_results])
fine_grained_point_feats = self._get_fine_grained_point_feats(
x, rois, rel_roi_points, img_metas)
coarse_point_feats = point_sample(mask_pred, rel_roi_points)
mask_point_pred = self.point_head(fine_grained_point_feats,
coarse_point_feats)
mask_point_target = self.point_head.get_targets(
rois, rel_roi_points, sampling_results, gt_masks, self.train_cfg)
loss_mask_point = self.point_head.loss(mask_point_pred,
mask_point_target, pos_labels)
return loss_mask_point
def _get_fine_grained_point_feats(self, x, rois, rel_roi_points,
img_metas):
"""Sample fine grained feats from each level feature map and
concatenate them together."""
num_imgs = len(img_metas)
fine_grained_feats = []
for idx in range(self.mask_roi_extractor.num_inputs):
feats = x[idx]
spatial_scale = 1. / float(
self.mask_roi_extractor.featmap_strides[idx])
point_feats = []
for batch_ind in range(num_imgs):
# unravel batch dim
feat = feats[batch_ind].unsqueeze(0)
inds = (rois[:, 0].long() == batch_ind)
if inds.any():
rel_img_points = rel_roi_point_to_rel_img_point(
rois[inds], rel_roi_points[inds], feat.shape[2:],
spatial_scale).unsqueeze(0)
point_feat = point_sample(feat, rel_img_points)
point_feat = point_feat.squeeze(0).transpose(0, 1)
point_feats.append(point_feat)
fine_grained_feats.append(torch.cat(point_feats, dim=0))
return torch.cat(fine_grained_feats, dim=1)
def _mask_point_forward_test(self, x, rois, label_pred, mask_pred,
img_metas):
"""Mask refining process with point head in testing."""
refined_mask_pred = mask_pred.clone()
for subdivision_step in range(self.test_cfg.subdivision_steps):
refined_mask_pred = F.interpolate(
refined_mask_pred,
scale_factor=self.test_cfg.scale_factor,
mode='bilinear',
align_corners=False)
# If `subdivision_num_points` is larger or equal to the
# resolution of the next step, then we can skip this step
num_rois, channels, mask_height, mask_width = \
refined_mask_pred.shape
if (self.test_cfg.subdivision_num_points >=
self.test_cfg.scale_factor**2 * mask_height * mask_width
and
subdivision_step < self.test_cfg.subdivision_steps - 1):
continue
point_indices, rel_roi_points = \
self.point_head.get_roi_rel_points_test(
refined_mask_pred, label_pred, cfg=self.test_cfg)
fine_grained_point_feats = self._get_fine_grained_point_feats(
x, rois, rel_roi_points, img_metas)
coarse_point_feats = point_sample(mask_pred, rel_roi_points)
mask_point_pred = self.point_head(fine_grained_point_feats,
coarse_point_feats)
point_indices = point_indices.unsqueeze(1).expand(-1, channels, -1)
refined_mask_pred = refined_mask_pred.reshape(
num_rois, channels, mask_height * mask_width)
refined_mask_pred = refined_mask_pred.scatter_(
2, point_indices, mask_point_pred)
refined_mask_pred = refined_mask_pred.view(num_rois, channels,
mask_height, mask_width)
return refined_mask_pred
def simple_test_mask(self,
x,
img_metas,
det_bboxes,
det_labels,
rescale=False):
"""Obtain mask prediction without augmentation."""
ori_shapes = tuple(meta['ori_shape'] for meta in img_metas)
scale_factors = tuple(meta['scale_factor'] for meta in img_metas)
num_imgs = len(det_bboxes)
if all(det_bbox.shape[0] == 0 for det_bbox in det_bboxes):
segm_results = [[[] for _ in range(self.mask_head.num_classes)]
for _ in range(num_imgs)]
else:
# if det_bboxes is rescaled to the original image size, we need to
# rescale it back to the testing scale to obtain RoIs.
if rescale and not isinstance(scale_factors[0], float):
scale_factors = [
torch.from_numpy(scale_factor).to(det_bboxes[0].device)
for scale_factor in scale_factors
]
_bboxes = [
det_bboxes[i][:, :4] *
scale_factors[i] if rescale else det_bboxes[i][:, :4]
for i in range(len(det_bboxes))
]
mask_rois = bbox2roi(_bboxes)
mask_results = self._mask_forward(x, mask_rois)
# split batch mask prediction back to each image
mask_pred = mask_results['mask_pred']
num_mask_roi_per_img = [len(det_bbox) for det_bbox in det_bboxes]
mask_preds = mask_pred.split(num_mask_roi_per_img, 0)
mask_rois = mask_rois.split(num_mask_roi_per_img, 0)
# apply mask post-processing to each image individually
segm_results = []
for i in range(num_imgs):
if det_bboxes[i].shape[0] == 0:
segm_results.append(
[[] for _ in range(self.mask_head.num_classes)])
else:
x_i = [xx[[i]] for xx in x]
mask_rois_i = mask_rois[i]
mask_rois_i[:, 0] = 0 # TODO: remove this hack
mask_pred_i = self._mask_point_forward_test(
x_i, mask_rois_i, det_labels[i], mask_preds[i],
[img_metas])
segm_result = self.mask_head.get_seg_masks(
mask_pred_i, _bboxes[i], det_labels[i], self.test_cfg,
ori_shapes[i], scale_factors[i], rescale)
segm_results.append(segm_result)
return segm_results
def aug_test_mask(self, feats, img_metas, det_bboxes, det_labels):
"""Test for mask head with test time augmentation."""
if det_bboxes.shape[0] == 0:
segm_result = [[] for _ in range(self.mask_head.num_classes)]
else:
aug_masks = []
for x, img_meta in zip(feats, img_metas):
img_shape = img_meta[0]['img_shape']
scale_factor = img_meta[0]['scale_factor']
flip = img_meta[0]['flip']
_bboxes = bbox_mapping(det_bboxes[:, :4], img_shape,
scale_factor, flip)
mask_rois = bbox2roi([_bboxes])
mask_results = self._mask_forward(x, mask_rois)
mask_results['mask_pred'] = self._mask_point_forward_test(
x, mask_rois, det_labels, mask_results['mask_pred'],
img_metas)
# convert to numpy array to save memory
aug_masks.append(
mask_results['mask_pred'].sigmoid().cpu().numpy())
merged_masks = merge_aug_masks(aug_masks, img_metas, self.test_cfg)
ori_shape = img_metas[0][0]['ori_shape']
segm_result = self.mask_head.get_seg_masks(
merged_masks,
det_bboxes,
det_labels,
self.test_cfg,
ori_shape,
scale_factor=1.0,
rescale=False)
return segm_result
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