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IDM-VTON / detectron2 /tracking /bbox_iou_tracker.py

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	#!/usr/bin/env python3
	# Copyright 2004-present Facebook. All Rights Reserved.
	import copy
	import numpy as np
	from typing import List
	import torch

	from detectron2.config import configurable
	from detectron2.structures import Boxes, Instances
	from detectron2.structures.boxes import pairwise_iou

	from ..config.config import CfgNode as CfgNode_
	from .base_tracker import TRACKER_HEADS_REGISTRY, BaseTracker


	@TRACKER_HEADS_REGISTRY.register()
	class BBoxIOUTracker(BaseTracker):
	"""
	A bounding box tracker to assign ID based on IoU between current and previous instances
	"""

	@configurable
	def __init__(
	self,
	*,
	video_height: int,
	video_width: int,
	max_num_instances: int = 200,
	max_lost_frame_count: int = 0,
	min_box_rel_dim: float = 0.02,
	min_instance_period: int = 1,
	track_iou_threshold: float = 0.5,
	**kwargs,
	):
	"""
	Args:
	video_height: height the video frame
	video_width: width of the video frame
	max_num_instances: maximum number of id allowed to be tracked
	max_lost_frame_count: maximum number of frame an id can lost tracking
	exceed this number, an id is considered as lost
	forever
	min_box_rel_dim: a percentage, smaller than this dimension, a bbox is
	removed from tracking
	min_instance_period: an instance will be shown after this number of period
	since its first showing up in the video
	track_iou_threshold: iou threshold, below this number a bbox pair is removed
	from tracking
	"""
	super().__init__(**kwargs)
	self._video_height = video_height
	self._video_width = video_width
	self._max_num_instances = max_num_instances
	self._max_lost_frame_count = max_lost_frame_count
	self._min_box_rel_dim = min_box_rel_dim
	self._min_instance_period = min_instance_period
	self._track_iou_threshold = track_iou_threshold

	@classmethod
	def from_config(cls, cfg: CfgNode_):
	"""
	Old style initialization using CfgNode

	Args:
	cfg: D2 CfgNode, config file
	Return:
	dictionary storing arguments for __init__ method
	"""
	assert "VIDEO_HEIGHT" in cfg.TRACKER_HEADS
	assert "VIDEO_WIDTH" in cfg.TRACKER_HEADS
	video_height = cfg.TRACKER_HEADS.get("VIDEO_HEIGHT")
	video_width = cfg.TRACKER_HEADS.get("VIDEO_WIDTH")
	max_num_instances = cfg.TRACKER_HEADS.get("MAX_NUM_INSTANCES", 200)
	max_lost_frame_count = cfg.TRACKER_HEADS.get("MAX_LOST_FRAME_COUNT", 0)
	min_box_rel_dim = cfg.TRACKER_HEADS.get("MIN_BOX_REL_DIM", 0.02)
	min_instance_period = cfg.TRACKER_HEADS.get("MIN_INSTANCE_PERIOD", 1)
	track_iou_threshold = cfg.TRACKER_HEADS.get("TRACK_IOU_THRESHOLD", 0.5)
	return {
	"_target_": "detectron2.tracking.bbox_iou_tracker.BBoxIOUTracker",
	"video_height": video_height,
	"video_width": video_width,
	"max_num_instances": max_num_instances,
	"max_lost_frame_count": max_lost_frame_count,
	"min_box_rel_dim": min_box_rel_dim,
	"min_instance_period": min_instance_period,
	"track_iou_threshold": track_iou_threshold,
	}

	def update(self, instances: Instances) -> Instances:
	"""
	See BaseTracker description
	"""
	instances = self._initialize_extra_fields(instances)
	if self._prev_instances is not None:
	# calculate IoU of all bbox pairs
	iou_all = pairwise_iou(
	boxes1=instances.pred_boxes,
	boxes2=self._prev_instances.pred_boxes,
	)
	# sort IoU in descending order
	bbox_pairs = self._create_prediction_pairs(instances, iou_all)
	# assign previous ID to current bbox if IoU > track_iou_threshold
	self._reset_fields()
	for bbox_pair in bbox_pairs:
	idx = bbox_pair["idx"]
	prev_id = bbox_pair["prev_id"]
	if (
	idx in self._matched_idx
	or prev_id in self._matched_ID
	or bbox_pair["IoU"] < self._track_iou_threshold
	):
	continue
	instances.ID[idx] = prev_id
	instances.ID_period[idx] = bbox_pair["prev_period"] + 1
	instances.lost_frame_count[idx] = 0
	self._matched_idx.add(idx)
	self._matched_ID.add(prev_id)
	self._untracked_prev_idx.remove(bbox_pair["prev_idx"])
	instances = self._assign_new_id(instances)
	instances = self._merge_untracked_instances(instances)
	self._prev_instances = copy.deepcopy(instances)
	return instances

	def _create_prediction_pairs(self, instances: Instances, iou_all: np.ndarray) -> List:
	"""
	For all instances in previous and current frames, create pairs. For each
	pair, store index of the instance in current frame predcitions, index in
	previous predictions, ID in previous predictions, IoU of the bboxes in this
	pair, period in previous predictions.

	Args:
	instances: D2 Instances, for predictions of the current frame
	iou_all: IoU for all bboxes pairs
	Return:
	A list of IoU for all pairs
	"""
	bbox_pairs = []
	for i in range(len(instances)):
	for j in range(len(self._prev_instances)):
	bbox_pairs.append(
	{
	"idx": i,
	"prev_idx": j,
	"prev_id": self._prev_instances.ID[j],
	"IoU": iou_all[i, j],
	"prev_period": self._prev_instances.ID_period[j],
	}
	)
	return bbox_pairs

	def _initialize_extra_fields(self, instances: Instances) -> Instances:
	"""
	If input instances don't have ID, ID_period, lost_frame_count fields,
	this method is used to initialize these fields.

	Args:
	instances: D2 Instances, for predictions of the current frame
	Return:
	D2 Instances with extra fields added
	"""
	if not instances.has("ID"):
	instances.set("ID", [None] * len(instances))
	if not instances.has("ID_period"):
	instances.set("ID_period", [None] * len(instances))
	if not instances.has("lost_frame_count"):
	instances.set("lost_frame_count", [None] * len(instances))
	if self._prev_instances is None:
	instances.ID = list(range(len(instances)))
	self._id_count += len(instances)
	instances.ID_period = [1] * len(instances)
	instances.lost_frame_count = [0] * len(instances)
	return instances

	def _reset_fields(self):
	"""
	Before each uodate call, reset fields first
	"""
	self._matched_idx = set()
	self._matched_ID = set()
	self._untracked_prev_idx = set(range(len(self._prev_instances)))

	def _assign_new_id(self, instances: Instances) -> Instances:
	"""
	For each untracked instance, assign a new id

	Args:
	instances: D2 Instances, for predictions of the current frame
	Return:
	D2 Instances with new ID assigned
	"""
	untracked_idx = set(range(len(instances))).difference(self._matched_idx)
	for idx in untracked_idx:
	instances.ID[idx] = self._id_count
	self._id_count += 1
	instances.ID_period[idx] = 1
	instances.lost_frame_count[idx] = 0
	return instances

	def _merge_untracked_instances(self, instances: Instances) -> Instances:
	"""
	For untracked previous instances, under certain condition, still keep them
	in tracking and merge with the current instances.

	Args:
	instances: D2 Instances, for predictions of the current frame
	Return:
	D2 Instances merging current instances and instances from previous
	frame decided to keep tracking
	"""
	untracked_instances = Instances(
	image_size=instances.image_size,
	pred_boxes=[],
	pred_classes=[],
	scores=[],
	ID=[],
	ID_period=[],
	lost_frame_count=[],
	)
	prev_bboxes = list(self._prev_instances.pred_boxes)
	prev_classes = list(self._prev_instances.pred_classes)
	prev_scores = list(self._prev_instances.scores)
	prev_ID_period = self._prev_instances.ID_period
	if instances.has("pred_masks"):
	untracked_instances.set("pred_masks", [])
	prev_masks = list(self._prev_instances.pred_masks)
	if instances.has("pred_keypoints"):
	untracked_instances.set("pred_keypoints", [])
	prev_keypoints = list(self._prev_instances.pred_keypoints)
	if instances.has("pred_keypoint_heatmaps"):
	untracked_instances.set("pred_keypoint_heatmaps", [])
	prev_keypoint_heatmaps = list(self._prev_instances.pred_keypoint_heatmaps)
	for idx in self._untracked_prev_idx:
	x_left, y_top, x_right, y_bot = prev_bboxes[idx]
	if (
	(1.0 * (x_right - x_left) / self._video_width < self._min_box_rel_dim)
	or (1.0 * (y_bot - y_top) / self._video_height < self._min_box_rel_dim)
	or self._prev_instances.lost_frame_count[idx] >= self._max_lost_frame_count
	or prev_ID_period[idx] <= self._min_instance_period
	):
	continue
	untracked_instances.pred_boxes.append(list(prev_bboxes[idx].numpy()))
	untracked_instances.pred_classes.append(int(prev_classes[idx]))
	untracked_instances.scores.append(float(prev_scores[idx]))
	untracked_instances.ID.append(self._prev_instances.ID[idx])
	untracked_instances.ID_period.append(self._prev_instances.ID_period[idx])
	untracked_instances.lost_frame_count.append(
	self._prev_instances.lost_frame_count[idx] + 1
	)
	if instances.has("pred_masks"):
	untracked_instances.pred_masks.append(prev_masks[idx].numpy().astype(np.uint8))
	if instances.has("pred_keypoints"):
	untracked_instances.pred_keypoints.append(
	prev_keypoints[idx].numpy().astype(np.uint8)
	)
	if instances.has("pred_keypoint_heatmaps"):
	untracked_instances.pred_keypoint_heatmaps.append(
	prev_keypoint_heatmaps[idx].numpy().astype(np.float32)
	)
	untracked_instances.pred_boxes = Boxes(torch.FloatTensor(untracked_instances.pred_boxes))
	untracked_instances.pred_classes = torch.IntTensor(untracked_instances.pred_classes)
	untracked_instances.scores = torch.FloatTensor(untracked_instances.scores)
	if instances.has("pred_masks"):
	untracked_instances.pred_masks = torch.IntTensor(untracked_instances.pred_masks)
	if instances.has("pred_keypoints"):
	untracked_instances.pred_keypoints = torch.IntTensor(untracked_instances.pred_keypoints)
	if instances.has("pred_keypoint_heatmaps"):
	untracked_instances.pred_keypoint_heatmaps = torch.FloatTensor(
	untracked_instances.pred_keypoint_heatmaps
	)

	return Instances.cat(
	[
	instances,
	untracked_instances,
	]
	)