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OneFormer / demo /predictor.py

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	# Copyright (c) Facebook, Inc. and its affiliates.
	# Copied from: https://github.com/facebookresearch/detectron2/blob/master/demo/predictor.py
	import atexit
	import bisect
	import multiprocessing as mp
	from collections import deque

	import cv2
	import torch

	from detectron2.data import MetadataCatalog
	from defaults import DefaultPredictor
	from detectron2.utils.video_visualizer import VideoVisualizer
	from visualizer import ColorMode, Visualizer


	class VisualizationDemo(object):
	def __init__(self, cfg, instance_mode=ColorMode.IMAGE, parallel=False):
	"""
	Args:
	cfg (CfgNode):
	instance_mode (ColorMode):
	parallel (bool): whether to run the model in different processes from visualization.
	Useful since the visualization logic can be slow.
	"""
	self.metadata = MetadataCatalog.get(
	cfg.DATASETS.TEST[0] if len(cfg.DATASETS.TEST) else "__unused"
	)
	if 'cityscapes_fine_sem_seg_val' in cfg.DATASETS.TEST[0]:
	from cityscapesscripts.helpers.labels import labels
	stuff_colors = [k.color for k in labels if k.trainId != 255]
	self.metadata = self.metadata.set(stuff_colors=stuff_colors)
	self.cpu_device = torch.device("cpu")
	self.instance_mode = instance_mode

	self.parallel = parallel
	if parallel:
	num_gpu = torch.cuda.device_count()
	self.predictor = AsyncPredictor(cfg, num_gpus=num_gpu)
	else:
	self.predictor = DefaultPredictor(cfg)

	def run_on_image(self, image, task, sem_gt, pan_gt, ins_gt, box_gt):
	"""
	Args:
	image (np.ndarray): an image of shape (H, W, C) (in BGR order).
	This is the format used by OpenCV.
	Returns:
	predictions (dict): the output of the model.
	vis_output (VisImage): the visualized image output.
	"""
	vis_output = None
	# Convert image from OpenCV BGR format to Matplotlib RGB format.
	image = image[:, :, ::-1]
	vis_output = {}

	if task == 'panoptic':
	visualizer = Visualizer(image, metadata=self.metadata, instance_mode=0)
	predictions = self.predictor(image, "panoptic")
	panoptic_seg, segments_info = predictions["panoptic_seg"]
	vis_output['panoptic'] = visualizer.draw_panoptic_seg_predictions(
	panoptic_seg.to(self.cpu_device), segments_info, alpha=1
	)

	# visualizer = Visualizer(image, metadata=self.metadata, instance_mode=0)
	# vis_output['pan_gt'] = visualizer.draw_panoptic_seg(
	# pan_gt[0].to(self.cpu_device), pan_gt[1], alpha=1
	# )

	if task == 'panoptic' or task == 'semantic':
	visualizer = Visualizer(image, metadata=self.metadata, instance_mode=1)
	predictions = self.predictor(image, "semantic")
	vis_output['semantic'] = visualizer.draw_sem_seg(
	predictions["sem_seg"].argmax(dim=0).to(self.cpu_device), alpha=1
	)

	# visualizer = Visualizer(image, metadata=self.metadata, instance_mode=1)
	# vis_output['gt_sem'] = visualizer.draw_sem_seg(
	# sem_gt.to(self.cpu_device), alpha=1
	# )

	if task == 'panoptic' or task == 'instance':
	visualizer = Visualizer(image, metadata=self.metadata, instance_mode=2)
	predictions = self.predictor(image, "instance")
	instances = predictions["instances"].to(self.cpu_device)
	vis_output['instance'] = visualizer.draw_instance_predictions(predictions=instances, alpha=1)

	if 'boxes' in predictions:
	boxes, labels, scores = predictions["boxes"]
	visualizer = Visualizer(image, False, metadata=self.metadata, instance_mode=0)
	vis_output['boxes'] = visualizer.draw_box_predictions(
	boxes.to(self.cpu_device), labels.to(self.cpu_device), scores.to(self.cpu_device))


	# visualizer = Visualizer(image, metadata=self.metadata, instance_mode=2)
	# vis_output['ins_gt'] = visualizer.draw_instance_predictions(predictions=ins_gt.to(self.cpu_device), alpha=1)
	# vis_output['input'] = visualizer.get_image(image)

	return predictions, vis_output


	class AsyncPredictor:
	"""
	A predictor that runs the model asynchronously, possibly on >1 GPUs.
	Because rendering the visualization takes considerably amount of time,
	this helps improve throughput a little bit when rendering videos.
	"""

	class _StopToken:
	pass

	class _PredictWorker(mp.Process):
	def __init__(self, cfg, task_queue, result_queue):
	self.cfg = cfg
	self.task_queue = task_queue
	self.result_queue = result_queue
	super().__init__()

	def run(self):
	predictor = DefaultPredictor(self.cfg)

	while True:
	task = self.task_queue.get()
	if isinstance(task, AsyncPredictor._StopToken):
	break
	idx, data = task
	result = predictor(data)
	self.result_queue.put((idx, result))

	def __init__(self, cfg, num_gpus: int = 1):
	"""
	Args:
	cfg (CfgNode):
	num_gpus (int): if 0, will run on CPU
	"""
	num_workers = max(num_gpus, 1)
	self.task_queue = mp.Queue(maxsize=num_workers * 3)
	self.result_queue = mp.Queue(maxsize=num_workers * 3)
	self.procs = []
	for gpuid in range(max(num_gpus, 1)):
	cfg = cfg.clone()
	cfg.defrost()
	cfg.MODEL.DEVICE = "cuda:{}".format(gpuid) if num_gpus > 0 else "cpu"
	self.procs.append(
	AsyncPredictor._PredictWorker(cfg, self.task_queue, self.result_queue)
	)

	self.put_idx = 0
	self.get_idx = 0
	self.result_rank = []
	self.result_data = []

	for p in self.procs:
	p.start()
	atexit.register(self.shutdown)

	def put(self, image):
	self.put_idx += 1
	self.task_queue.put((self.put_idx, image))

	def get(self):
	self.get_idx += 1 # the index needed for this request
	if len(self.result_rank) and self.result_rank[0] == self.get_idx:
	res = self.result_data[0]
	del self.result_data[0], self.result_rank[0]
	return res

	while True:
	# make sure the results are returned in the correct order
	idx, res = self.result_queue.get()
	if idx == self.get_idx:
	return res
	insert = bisect.bisect(self.result_rank, idx)
	self.result_rank.insert(insert, idx)
	self.result_data.insert(insert, res)

	def __len__(self):
	return self.put_idx - self.get_idx

	def __call__(self, image):
	self.put(image)
	return self.get()

	def shutdown(self):
	for _ in self.procs:
	self.task_queue.put(AsyncPredictor._StopToken())

	@property
	def default_buffer_size(self):
	return len(self.procs) * 5