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EasyAnimate / easyanimate /video_caption /easyocr_detection_patched.py

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	"""Modified from https://github.com/JaidedAI/EasyOCR/blob/803b907/easyocr/detection.py.
	1. Disable DataParallel.
	"""
	import torch
	import torch.backends.cudnn as cudnn
	from torch.autograd import Variable
	from PIL import Image
	from collections import OrderedDict

	import cv2
	import numpy as np
	from .craft_utils import getDetBoxes, adjustResultCoordinates
	from .imgproc import resize_aspect_ratio, normalizeMeanVariance
	from .craft import CRAFT

	def copyStateDict(state_dict):
	if list(state_dict.keys())[0].startswith("module"):
	start_idx = 1
	else:
	start_idx = 0
	new_state_dict = OrderedDict()
	for k, v in state_dict.items():
	name = ".".join(k.split(".")[start_idx:])
	new_state_dict[name] = v
	return new_state_dict

	def test_net(canvas_size, mag_ratio, net, image, text_threshold, link_threshold, low_text, poly, device, estimate_num_chars=False):
	if isinstance(image, np.ndarray) and len(image.shape) == 4: # image is batch of np arrays
	image_arrs = image
	else: # image is single numpy array
	image_arrs = [image]

	img_resized_list = []
	# resize
	for img in image_arrs:
	img_resized, target_ratio, size_heatmap = resize_aspect_ratio(img, canvas_size,
	interpolation=cv2.INTER_LINEAR,
	mag_ratio=mag_ratio)
	img_resized_list.append(img_resized)
	ratio_h = ratio_w = 1 / target_ratio
	# preprocessing
	x = [np.transpose(normalizeMeanVariance(n_img), (2, 0, 1))
	for n_img in img_resized_list]
	x = torch.from_numpy(np.array(x))
	x = x.to(device)

	# forward pass
	with torch.no_grad():
	y, feature = net(x)

	boxes_list, polys_list = [], []
	for out in y:
	# make score and link map
	score_text = out[:, :, 0].cpu().data.numpy()
	score_link = out[:, :, 1].cpu().data.numpy()

	# Post-processing
	boxes, polys, mapper = getDetBoxes(
	score_text, score_link, text_threshold, link_threshold, low_text, poly, estimate_num_chars)

	# coordinate adjustment
	boxes = adjustResultCoordinates(boxes, ratio_w, ratio_h)
	polys = adjustResultCoordinates(polys, ratio_w, ratio_h)
	if estimate_num_chars:
	boxes = list(boxes)
	polys = list(polys)
	for k in range(len(polys)):
	if estimate_num_chars:
	boxes[k] = (boxes[k], mapper[k])
	if polys[k] is None:
	polys[k] = boxes[k]
	boxes_list.append(boxes)
	polys_list.append(polys)

	return boxes_list, polys_list

	def get_detector(trained_model, device='cpu', quantize=True, cudnn_benchmark=False):
	net = CRAFT()

	if device == 'cpu':
	net.load_state_dict(copyStateDict(torch.load(trained_model, map_location=device)))
	if quantize:
	try:
	torch.quantization.quantize_dynamic(net, dtype=torch.qint8, inplace=True)
	except:
	pass
	else:
	net.load_state_dict(copyStateDict(torch.load(trained_model, map_location=device)))
	# net = torch.nn.DataParallel(net).to(device)
	net = net.to(device)
	cudnn.benchmark = cudnn_benchmark

	net.eval()
	return net

	def get_textbox(detector, image, canvas_size, mag_ratio, text_threshold, link_threshold, low_text, poly, device, optimal_num_chars=None, **kwargs):
	result = []
	estimate_num_chars = optimal_num_chars is not None
	bboxes_list, polys_list = test_net(canvas_size, mag_ratio, detector,
	image, text_threshold,
	link_threshold, low_text, poly,
	device, estimate_num_chars)
	if estimate_num_chars:
	polys_list = [[p for p, _ in sorted(polys, key=lambda x: abs(optimal_num_chars - x[1]))]
	for polys in polys_list]

	for polys in polys_list:
	single_img_result = []
	for i, box in enumerate(polys):
	poly = np.array(box).astype(np.int32).reshape((-1))
	single_img_result.append(poly)
	result.append(single_img_result)

	return result