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OpenOCR-Demo / opendet /preprocess /db_resize_for_test.py

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	import math
	import sys
	import cv2
	import numpy as np


	class DetResizeForTest(object):

	def __init__(self, **kwargs):
	super(DetResizeForTest, self).__init__()
	self.resize_type = 0
	self.keep_ratio = False
	if 'image_shape' in kwargs:
	self.image_shape = kwargs['image_shape']
	self.resize_type = 1
	if 'keep_ratio' in kwargs:
	self.keep_ratio = kwargs['keep_ratio']
	elif 'limit_side_len' in kwargs:
	self.limit_side_len = kwargs['limit_side_len']
	self.limit_type = kwargs.get('limit_type', 'min')
	elif 'resize_long' in kwargs:
	self.resize_type = 2
	self.resize_long = kwargs.get('resize_long', 960)
	else:
	self.limit_side_len = 736
	self.limit_type = 'min'

	def __call__(self, data):
	img = data['image']
	src_h, src_w, _ = img.shape
	if sum([src_h, src_w]) < 64:
	img = self.image_padding(img)

	if self.resize_type == 0:
	# img, shape = self.resize_image_type0(img)
	img, [ratio_h, ratio_w] = self.resize_image_type0(img)
	elif self.resize_type == 2:
	img, [ratio_h, ratio_w] = self.resize_image_type2(img)
	else:
	# img, shape = self.resize_image_type1(img)
	img, [ratio_h, ratio_w] = self.resize_image_type1(img)
	data['image'] = img
	data['shape'] = np.array([src_h, src_w, ratio_h, ratio_w])
	return data

	def image_padding(self, im, value=0):
	h, w, c = im.shape
	im_pad = np.zeros((max(32, h), max(32, w), c), np.uint8) + value
	im_pad[:h, :w, :] = im
	return im_pad

	def resize_image_type1(self, img):
	resize_h, resize_w = self.image_shape
	ori_h, ori_w = img.shape[:2] # (h, w, c)
	if self.keep_ratio is True:
	resize_w = ori_w * resize_h / ori_h
	N = math.ceil(resize_w / 32)
	resize_w = N * 32
	ratio_h = float(resize_h) / ori_h
	ratio_w = float(resize_w) / ori_w
	img = cv2.resize(img, (int(resize_w), int(resize_h)))
	# return img, np.array([ori_h, ori_w])
	return img, [ratio_h, ratio_w]

	def resize_image_type0(self, img):
	"""
	resize image to a size multiple of 32 which is required by the network
	args:
	img(array): array with shape [h, w, c]
	return(tuple):
	img, (ratio_h, ratio_w)
	"""
	limit_side_len = self.limit_side_len
	h, w, c = img.shape

	# limit the max side
	if self.limit_type == 'max':
	if max(h, w) > limit_side_len:
	if h > w:
	ratio = float(limit_side_len) / h
	else:
	ratio = float(limit_side_len) / w
	else:
	ratio = 1.0
	elif self.limit_type == 'min':
	if min(h, w) < limit_side_len:
	if h < w:
	ratio = float(limit_side_len) / h
	else:
	ratio = float(limit_side_len) / w
	else:
	ratio = 1.0
	elif self.limit_type == 'resize_long':
	ratio = float(limit_side_len) / max(h, w)
	else:
	raise Exception('not support limit type, image ')
	resize_h = int(h * ratio)
	resize_w = int(w * ratio)

	resize_h = max(int(round(resize_h / 32) * 32), 32)
	resize_w = max(int(round(resize_w / 32) * 32), 32)

	try:
	if int(resize_w) <= 0 or int(resize_h) <= 0:
	return None, (None, None)
	img = cv2.resize(img, (int(resize_w), int(resize_h)))
	except:
	print(img.shape, resize_w, resize_h)
	sys.exit(0)
	ratio_h = resize_h / float(h)
	ratio_w = resize_w / float(w)
	return img, [ratio_h, ratio_w]

	def resize_image_type2(self, img):
	h, w, _ = img.shape

	resize_w = w
	resize_h = h

	if resize_h > resize_w:
	ratio = float(self.resize_long) / resize_h
	else:
	ratio = float(self.resize_long) / resize_w

	resize_h = int(resize_h * ratio)
	resize_w = int(resize_w * ratio)

	max_stride = 128
	resize_h = (resize_h + max_stride - 1) // max_stride * max_stride
	resize_w = (resize_w + max_stride - 1) // max_stride * max_stride
	img = cv2.resize(img, (int(resize_w), int(resize_h)))
	ratio_h = resize_h / float(h)
	ratio_w = resize_w / float(w)

	return img, [ratio_h, ratio_w]